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zshall(1)





NAME

       zshall - the Z shell meta-man page


OVERVIEW

       Because  zsh contains many features, the zsh manual has been split into
       a number of sections.  This manual page includes all the separate  man-
       ual pages in the following order:

       zshroadmap   Informal introduction to the manual
       zshmisc      Anything not fitting into the other sections
       zshexpn      Zsh command and parameter expansion
       zshparam     Zsh parameters
       zshoptions   Zsh options
       zshbuiltins  Zsh built-in functions
       zshzle       Zsh command line editing
       zshcompwid   Zsh completion widgets
       zshcompsys   Zsh completion system
       zshcompctl   Zsh completion control
       zshmodules   Zsh loadable modules
       zshcalsys    Zsh built-in calendar functions
       zshtcpsys    Zsh built-in TCP functions
       zshzftpsys   Zsh built-in FTP client
       zshcontrib   Additional zsh functions and utilities


DESCRIPTION

       Zsh  is  a  UNIX  command  interpreter (shell) usable as an interactive
       login shell and as a shell script command processor.  Of  the  standard
       shells,  zsh most closely resembles ksh but includes many enhancements.
       Zsh has command line editing, builtin spelling correction, programmable
       command completion, shell functions (with autoloading), a history mech-
       anism, and a host of other features.


AUTHOR

       Zsh was originally written by Paul Falstad <pf@zsh.org>.   Zsh  is  now
       maintained  by  the  members of the zsh-workers mailing list <zsh-work-
       ers@sunsite.dk>.  The development is  currently  coordinated  by  Peter
       Stephenson <pws@zsh.org>.  The coordinator can be contacted at <coordi-
       nator@zsh.org>, but matters relating to the code should generally go to
       the mailing list.


AVAILABILITY

       Zsh  is available from the following anonymous FTP sites.  These mirror
       sites are kept frequently up to date.  The sites marked with (H) may be
       mirroring ftp.cs.elte.hu instead of the primary site.

       Primary site
              ftp://ftp.zsh.org/pub/zsh/
              http://www.zsh.org/pub/zsh/

       Australia
              ftp://ftp.zsh.org/pub/zsh/
              http://www.zsh.org/pub/zsh/

       Denmark
              ftp://sunsite.dk/pub/unix/shells/zsh/

       Finland
              ftp://ftp.funet.fi/pub/unix/shells/zsh/

       Germany
              ftp://ftp.fu-berlin.de/pub/unix/shells/zsh/  (H)
              ftp://ftp.gmd.de/packages/zsh/
              ftp://ftp.uni-trier.de/pub/unix/shell/zsh/

       Hungary
              ftp://ftp.cs.elte.hu/pub/zsh/
              http://www.cs.elte.hu/pub/zsh/
              ftp://ftp.kfki.hu/pub/packages/zsh/

       Israel
              ftp://ftp.math.technion.ac.il/pub/zsh/
              http://www.math.technion.ac.il/pub/zsh/

       Japan
              ftp://ftp.win.ne.jp/pub/shell/zsh/

       Korea
              ftp://linux.sarang.net/mirror/system/shell/zsh/

       Netherlands
              ftp://ftp.demon.nl/pub/mirrors/zsh/

       Norway
              ftp://ftp.uit.no/pub/unix/shells/zsh/

       Poland
              ftp://sunsite.icm.edu.pl/pub/unix/shells/zsh/

       Romania
              ftp://ftp.roedu.net/pub/mirrors/ftp.zsh.org/pub/zsh/
              ftp://ftp.kappa.ro/pub/mirrors/ftp.zsh.org/pub/zsh/

       Slovenia
              ftp://ftp.siol.net/mirrors/zsh/

       Sweden
              ftp://ftp.lysator.liu.se/pub/unix/zsh/

       UK
              ftp://ftp.net.lut.ac.uk/zsh/
              ftp://sunsite.org.uk/packages/zsh/

       USA
              http://zsh.open-mirror.com/

       The  up-to-date source code is available via anonymous CVS from Source-
       forge.  See http://sourceforge.net/projects/zsh/ for details.


MAILING LISTS

       Zsh has 3 mailing lists:

       <zsh-announce@sunsite.dk>
              Announcements about releases, major changes in the shell and the
              monthly posting of the Zsh FAQ.  (moderated)

       <zsh-users@sunsite.dk>
              User discussions.

       <zsh-workers@sunsite.dk>
              Hacking, development, bug reports and patches.

       To subscribe or unsubscribe, send mail to the associated administrative
       address for the mailing list.

       <zsh-announce-subscribe@sunsite.dk>
       <zsh-users-subscribe@sunsite.dk>
       <zsh-workers-subscribe@sunsite.dk>
       <zsh-announce-unsubscribe@sunsite.dk>
       <zsh-users-unsubscribe@sunsite.dk>
       <zsh-workers-unsubscribe@sunsite.dk>

       YOU ONLY NEED TO JOIN ONE OF THE MAILING LISTS AS THEY ARE NESTED.  All
       submissions  to  zsh-announce are automatically forwarded to zsh-users.
       All submissions to zsh-users are automatically forwarded  to  zsh-work-
       ers.

       If  you  have  problems subscribing/unsubscribing to any of the mailing
       lists, send mail to <listmaster@zsh.org>.  The mailing lists are  main-
       tained by Karsten Thygesen <karthy@kom.auc.dk>.

       The  mailing  lists  are archived; the archives can be accessed via the
       administrative addresses listed above.  There is also a  hypertext  ar-
       chive,   maintained   by   Geoff   Wing   <gcw@zsh.org>,  available  at
       http://www.zsh.org/mla/.


THE ZSH FAQ

       Zsh has a list of Frequently Asked Questions (FAQ), maintained by Peter
       Stephenson  <pws@zsh.org>.   It  is  regularly  posted to the newsgroup
       comp.unix.shell and the zsh-announce mailing list.  The latest  version
       can    be    found   at   any   of   the   Zsh   FTP   sites,   or   at
       http://www.zsh.org/FAQ/.  The contact address for  FAQ-related  matters
       is <faqmaster@zsh.org>.


THE ZSH WEB PAGE

       Zsh  has  a  web page which is located at http://www.zsh.org/.  This is
       maintained by Karsten Thygesen <karthy@zsh.org>,  of  SunSITE  Denmark.
       The contact address for web-related matters is <webmaster@zsh.org>.


THE ZSH USERGUIDE

       A  userguide is currently in preparation.  It is intended to complement
       the manual, with explanations and hints on issues where the manual  can
       be cabbalistic, hierographic, or downright mystifying (for example, the
       word `hierographic' does not exist).  It can be viewed in  its  current
       state  at  http://zsh.sunsite.dk/Guide/.  At the time of writing, chap-
       ters dealing with startup files and their contents and the new  comple-
       tion system were essentially complete.


THE ZSH WIKI

       A  `wiki'  website for zsh has been created at http://www.zshwiki.org/.
       This is a site which can be added to and  modified  directly  by  users
       without any special permission.  You can add your own zsh tips and con-
       figurations.


INVOCATION OPTIONS

       The following flags are interpreted by the shell when invoked to deter-
       mine where the shell will read commands from:

       -c     Take  the  first  argument  as a command to execute, rather than
              reading commands from a script or standard input.  If  any  fur-
              ther  arguments  are  given,  the  first  one is assigned to $0,
              rather than being used as a positional parameter.

       -i     Force shell to be interactive.

       -s     Force shell to read commands from the standard input.  If the -s
              flag is not present and an argument is given, the first argument
              is taken to be the pathname of a script to execute.

       After the  first  one  or  two  arguments  have  been  appropriated  as
       described above, the remaining arguments are assigned to the positional
       parameters.

       For further options,  which  are  common  to  invocation  and  the  set
       builtin, see zshoptions(1).

       Options  may  be specified by name using the -o option.  -o acts like a
       single-letter option, but takes a following string as the option  name.
       For example,

              zsh -x -o shwordsplit scr

       runs  the  script  scr,  setting the XTRACE option by the corresponding
       letter `-x' and the SH_WORD_SPLIT  option  by  name.   Options  may  be
       turned  off  by  name  by using +o instead of -o.  -o can be stacked up
       with preceding single-letter options, so for example `-xo  shwordsplit'
       or `-xoshwordsplit' is equivalent to `-x -o shwordsplit'.

       Options  may  also  be  specified  by  name  in  GNU long option style,
       `--option-name'.  When this is done, `-' characters in the option  name
       are permitted: they are translated into `_', and thus ignored.  So, for
       example, `zsh  --sh-word-split'  invokes  zsh  with  the  SH_WORD_SPLIT
       option  turned  on.   Like other option syntaxes, options can be turned
       off by replacing the initial `-' with a `+'; thus `+-sh-word-split'  is
       equivalent  to  `--no-sh-word-split'.   Unlike  other  option syntaxes,
       GNU-style long options cannot be stacked with any other options, so for
       example  `-x-shwordsplit'  is  an error, rather than being treated like
       `-x --shwordsplit'.

       The special GNU-style option `--version' is handled; it sends to  stan-
       dard  output  the shell's version information, then exits successfully.
       `--help' is also handled; it sends to standard output a list of options
       that can be used when invoking the shell, then exits successfully.

       Option  processing  may  be finished, allowing following arguments that
       start with `-' or `+' to be treated as normal arguments, in  two  ways.
       Firstly,  a lone `-' (or `+') as an argument by itself ends option pro-
       cessing.  Secondly, a special option `--' (or `+-'), which may be spec-
       ified  on its own (which is the standard POSIX usage) or may be stacked
       with preceding options (so `-x-' is equivalent to  `-x  --').   Options
       are not permitted to be stacked after `--' (so `-x-f' is an error), but
       note the GNU-style option form discussed above,  where  `--shwordsplit'
       is permitted and does not end option processing.

       Except  when  the sh/ksh emulation single-letter options are in effect,
       the option `-b' (or `+b') ends option processing.  `-b' is  like  `--',
       except that further single-letter options can be stacked after the `-b'
       and will take effect as normal.


COMPATIBILITY

       Zsh tries to emulate sh or ksh when it is invoked as sh or ksh  respec-
       tively;  more  precisely,  it  looks at the first letter of the name by
       which it was invoked, excluding any initial `r' (assumed to  stand  for
       `restricted'),  and  if  that  is `s' or `k' it will emulate sh or ksh.
       Furthermore, if invoked as su (which happens on  certain  systems  when
       the shell is executed by the su command), the shell will try to find an
       alternative name from the SHELL environment variable and perform emula-
       tion based on that.

       In sh and ksh compatibility modes the following parameters are not spe-
       cial and not initialized by the shell:  ARGC,  argv,  cdpath,  fignore,
       fpath,  HISTCHARS,  mailpath,  MANPATH,  manpath, path, prompt, PROMPT,
       PROMPT2, PROMPT3, PROMPT4, psvar, status, watch.

       The usual zsh startup/shutdown scripts are not executed.  Login  shells
       source /etc/profile followed by $HOME/.profile.  If the ENV environment
       variable is set on  invocation,  $ENV  is  sourced  after  the  profile
       scripts.  The value of ENV is subjected to parameter expansion, command
       substitution, and arithmetic expansion before being  interpreted  as  a
       pathname.   Note  that the PRIVILEGED option also affects the execution
       of startup files.

       The following options are set if the shell is invoked  as  sh  or  ksh:
       NO_BAD_PATTERN,    NO_BANG_HIST,    NO_BG_NICE,   NO_EQUALS,   NO_FUNC-
       TION_ARGZERO, GLOB_SUBST,  NO_GLOBAL_EXPORT,  NO_HUP,  INTERACTIVE_COM-
       MENTS,  KSH_ARRAYS,  NO_MULTIOS, NO_NOMATCH, NO_NOTIFY, POSIX_BUILTINS,
       NO_PROMPT_PERCENT,    RM_STAR_SILENT,    SH_FILE_EXPANSION,    SH_GLOB,
       SH_OPTION_LETTERS,   SH_WORD_SPLIT.    Additionally  the  BSD_ECHO  and
       IGNORE_BRACES options are set if zsh  is  invoked  as  sh.   Also,  the
       KSH_OPTION_PRINT,  LOCAL_OPTIONS,  PROMPT_BANG,  PROMPT_SUBST  and SIN-
       GLE_LINE_ZLE options are set if zsh is invoked as ksh.


RESTRICTED SHELL

       When the basename of the command used to invoke  zsh  starts  with  the
       letter  `r'  or the `-r' command line option is supplied at invocation,
       the shell becomes  restricted.   Emulation  mode  is  determined  after
       stripping  the  letter `r' from the invocation name.  The following are
       disabled in restricted mode:

       o      changing directories with the cd builtin

       o      changing or unsetting the PATH, path, MODULE_PATH,  module_path,
              SHELL,  HISTFILE,  HISTSIZE,  GID,  EGID,  UID,  EUID, USERNAME,
              LD_LIBRARY_PATH,    LD_AOUT_LIBRARY_PATH,     LD_PRELOAD     and
              LD_AOUT_PRELOAD parameters

       o      specifying command names containing /

       o      specifying command pathnames using hash

       o      redirecting output to files

       o      using the exec builtin command to replace the shell with another
              command

       o      using jobs -Z to overwrite the shell process' argument and envi-
              ronment space

       o      using  the ARGV0 parameter to override argv[0] for external com-
              mands

       o      turning off restricted mode with set +r or unsetopt RESTRICTED

       These restrictions are enforced after  processing  the  startup  files.
       The  startup  files  should set up PATH to point to a directory of com-
       mands which can be safely invoked in the restricted environment.   They
       may also add further restrictions by disabling selected builtins.

       Restricted  mode  can  also  be  activated  any  time  by  setting  the
       RESTRICTED option.   This  immediately  enables  all  the  restrictions
       described  above  even if the shell still has not processed all startup
       files.


STARTUP/SHUTDOWN FILES

       Commands are first read from /etc/zshenv; this  cannot  be  overridden.
       Subsequent behaviour is modified by the RCS and GLOBAL_RCS options; the
       former affects all startup files, while the second only  affects  those
       in  the  /etc  directory.  If one of the options is unset at any point,
       any subsequent startup file(s) of the corresponding type  will  not  be
       read.   It  is  also  possible  for  a  file  in  $ZDOTDIR to re-enable
       GLOBAL_RCS. Both RCS and GLOBAL_RCS are set by default.

       Commands are then read from $ZDOTDIR/.zshenv.  If the shell is a  login
       shell,  commands  are  read from /etc/zprofile and then $ZDOTDIR/.zpro-
       file.  Then, if the  shell  is  interactive,  commands  are  read  from
       /etc/zshrc  and then $ZDOTDIR/.zshrc.  Finally, if the shell is a login
       shell, /etc/zlogin and $ZDOTDIR/.zlogin are read.

       When  a  login  shell  exits,  the  files  $ZDOTDIR/.zlogout  and  then
       /etc/zlogout  are  read.  This happens with either an explicit exit via
       the exit or logout commands, or an implicit exit by reading end-of-file
       from  the  terminal.   However, if the shell terminates due to exec'ing
       another process, the  logout  files  are  not  read.   These  are  also
       affected  by  the  RCS  and GLOBAL_RCS options.  Note also that the RCS
       option affects the saving of history files, i.e. if RCS is  unset  when
       the shell exits, no history file will be saved.

       If ZDOTDIR is unset, HOME is used instead.  Those files listed above as
       being in /etc may be in another directory, depending on  the  installa-
       tion.

       As /etc/zshenv is run for all instances of zsh, it is important that it
       be kept as small as possible.  In particular, it is a good idea to  put
       code  that does not need to be run for every single shell behind a test
       of the form `if [[ -o rcs ]]; then ...' so that it will not be executed
       when zsh is invoked with the `-f' option.

       Any  of  these files may be pre-compiled with the zcompile builtin com-
       mand (see zshbuiltins(1)).  If a compiled file exists  (named  for  the
       original  file plus the .zwc extension) and it is newer than the origi-
       nal file, the compiled file will be used instead.

ZSHROADMAP(1)                                                    ZSHROADMAP(1)


NAME

       zshroadmap - informal introduction to the zsh manual

       The Zsh Manual, like the shell itself, is large and often  complicated.
       This section of the manual provides some pointers to areas of the shell
       that are likely to be of particular interest to new  users,  and  indi-
       cates where in the rest of the manual the documentation is to be found.


WHEN THE SHELL STARTS

       When it starts, the shell reads commands from various files.  These can
       be  created  or  edited  to  customize  the  shell.   See  the  section
       Startup/Shutdown Files in zsh(1).

       If no personal intialization files exist for the current user, a  func-
       tion  is  run  to help you change some of the most common settings.  It
       won't appear if your administrator has disabled the zsh/newuser module.
       The  function  is  designed  to be self-explanatory.  You can run it by
       hand with `autoload -Uz zsh-newuser-install; zsh-newuser-install -f'.


INTERACTIVE USE

       Interaction with the shell uses the builtin Zsh Line Editor, ZLE.  This
       is described in detail in zshzle(1).

       The  first  decision a user must make is whether to use the Emacs or Vi
       editing mode as the  keys  for  editing  are  substantially  different.
       Emacs  editing  mode  is probably more natural for beginners and can be
       selected explicitly with the command bindkey -e.

       A history mechanism for retrieving previously typed lines (most  simply
       with  the  Up or Down arrow keys) is available; note that, unlike other
       shells, zsh will not save these lines when the shell exits  unless  you
       set  appropriate variables, and the number of history lines retained by
       default is quite small (30 lines).  See the description  of  the  shell
       variables  (referred  to  in the documentation as parameters) HISTFILE,
       HISTSIZE and SAVEHIST in zshparam(1).

   Completion
       Completion is a feature present in many shells. It allows the  user  to
       type only a part (usually the prefix) of a word and have the shell fill
       in the rest.  The completion system in zsh is programmable.  For  exam-
       ple,  the  shell can be set to complete email addresses in arguments to
       the mail command from your ~/.abook/addressbook; usernames,  hostnames,
       and  even  remote  paths in arguments to scp, and so on.  Anything that
       can be written in or glued together with zsh can be the source of  what
       the line editor offers as possible completions.

       Zsh  has  two  completion systems, an old, so called compctl completion
       (named after the builtin command that serves as its complete  and  only
       user  interface),  and  a new one, referred to as compsys, organized as
       library of builtin and user-defined functions.  The two systems  differ
       in  their  interface  for  specifying the completion behavior.  The new
       system is more customizable and is supplied with completions  for  many
       commonly used commands; it is therefore to be preferred.

       The completion system must be enabled explicitly when the shell starts.
       For more information see zshcompsys(1).

   Extending the line editor
       Apart from completion, the line editor is highly extensible by means of
       shell  functions.   Some  useful functions are provided with the shell;
       they provide facilities such as:

       insert-composed-char
              composing characters not found on the keyboard

       match-words-by-style
              configuring what the line editor considers a word when moving or
              deleting by word

       history-beginning-search-backward-end, etc.
              alternative ways of searching the shell history

       replace-string, replace-pattern
              functions for replacing strings or patterns globally in the com-
              mand line

       edit-command-line
              edit the command line with an external editor.

       See the section `ZLE Functions' in zshcontrib(1)  for  descriptions  of
       these.


OPTIONS

       The  shell  has  a  large number of options for changing its behaviour.
       These cover all aspects of the shell; browsing the  full  documentation
       is  the only good way to become acquainted with the many possibilities.
       See zshoptions(1).


PATTERN MATCHING

       The shell has a rich set of  patterns  which  are  available  for  file
       matching  (described  in the documentation as `filename generation' and
       also known for historical reasons as `globbing') and for use when  pro-
       gramming.   These are described in the section `Filename Generation' in
       zshexpn(1).

       Of particular interest are the following patterns that are not commonly
       supported by other systems of pattern matching:

       **     for matching over multiple directories

       ~, ^   the   ability   to  exclude  patterns  from  matching  when  the
              EXTENDED_GLOB option is set

       (...)  glob qualifiers, included in parentheses at the end of the  pat-
              tern,  which  select  files  by  type  (such  as directories) or
              attribute (such as size).


GENERAL COMMENTS ON SYNTAX

       Although the syntax of zsh is in ways similar to the  Korn  shell,  and
       therefore  more  remotely to the original UNIX shell, the Bourne shell,
       its default behaviour does not entirely  correspond  to  those  shells.
       General  shell  syntax  is introduced in the section `Shell Grammar' in
       zshmisc(1).

       One commonly encountered difference is that variables substituted  onto
       the  command line are not split into words.  See the description of the
       shell option SH_WORD_SPLIT in the section `Parameter Expansion' in zsh-
       expn(1).  In zsh, you can either explicitly request the splitting (e.g.
       ${=foo}) or use an array when you want a variable  to  expand  to  more
       than one word.  See the section `Array Parameters' in zshparam(1).


PROGRAMMING

       The  most  convenient  way of adding enhancements to the shell is typi-
       cally  by  writing  a  shell  function  and  arranging  for  it  to  be
       autoloaded.  Functions are described in the section `Functions' in zsh-
       misc(1).  Users changing from the C  shell  and  its  relatives  should
       notice that aliases are less used in zsh as they don't perform argument
       substitution, only simple text replacement.

       A few general functions, other than those for the line editor described
       above,  are provided with the shell and are described in zshcontrib(1).
       Features include:

       promptinit
              a prompt theme system for changing prompts easily, see the  sec-
              tion `Prompt Themes'

       zsh-mime-setup
              a  MIME-handling  system  which dispatches commands according to
              the suffix of a file as done by graphical file managers

       zcalc  a calculator

       zargs  a version of xargs that makes the find command redundant

       zmv    a command for renaming files by means of shell patterns.

ZSHMISC(1)                                                          ZSHMISC(1)


NAME

       zshmisc - everything and then some


SIMPLE COMMANDS & PIPELINES

       A simple command is a sequence of optional parameter  assignments  fol-
       lowed  by  blank-separated  words,  with  optional  redirections inter-
       spersed.  The first word is the command to be executed, and the remain-
       ing  words, if any, are arguments to the command.  If a command name is
       given, the parameter assignments modify the environment of the  command
       when it is executed.  The value of a simple command is its exit status,
       or 128 plus the signal number if terminated by a signal.  For example,

              echo foo

       is a simple command with arguments.

       A pipeline is either a simple command, or a sequence  of  two  or  more
       simple commands where each command is separated from the next by `|' or
       `|&'.  Where commands are separated by `|', the standard output of  the
       first  command is connected to the standard input of the next.  `|&' is
       shorthand for `2>&1 |', which connects both the standard output and the
       standard  error  of the command to the standard input of the next.  The
       value of a pipeline is the value of the last command, unless the  pipe-
       line  is preceded by `!' in which case the value is the logical inverse
       of the value of the last command.  For example,

              echo foo | sed 's/foo/bar/'

       is a pipeline, where the output (`foo' plus a  newline)  of  the  first
       command will be passed to the input of the second.

       If a pipeline is preceded by `coproc', it is executed as a coprocess; a
       two-way pipe is established between it and the parent shell.  The shell
       can read from or write to the coprocess by means of the `>&p' and `<&p'
       redirection operators or with `print -p' and  `read  -p'.   A  pipeline
       cannot be preceded by both `coproc' and `!'.  If job control is active,
       the coprocess can be treated in other than input and output as an ordi-
       nary background job.

       A  sublist  is  either  a single pipeline, or a sequence of two or more
       pipelines separated by `&&' or `||'.  If two pipelines are separated by
       `&&',  the  second  pipeline  is  executed  only  if the first succeeds
       (returns a zero status).  If two pipelines are separated by  `||',  the
       second  is executed only if the first fails (returns a nonzero status).
       Both operators have equal precedence and  are  left  associative.   The
       value  of  the sublist is the value of the last pipeline executed.  For
       example,

              dmesg | grep panic && print yes

       is a sublist consisting of two pipelines, the second just a simple com-
       mand  which  will be executed if and only if the grep command returns a
       zero status.  If it does not, the value of the sublist is  that  return
       status,  else  it is the status returned by the print (almost certainly
       zero).

       A list is a sequence of zero or more sublists, in which each sublist is
       terminated  by `;', `&', `&|', `&!', or a newline.  This terminator may
       optionally be omitted from the last sublist in the list when  the  list
       appears as a complex command inside `(...)' or `{...}'.  When a sublist
       is terminated by `;' or newline, the  shell  waits  for  it  to  finish
       before  executing  the  next  sublist.  If a sublist is terminated by a
       `&', `&|', or `&!', the shell executes the last pipeline in it  in  the
       background,  and  does  not  wait for it to finish (note the difference
       from other shells which execute the whole sublist in  the  background).
       A backgrounded pipeline returns a status of zero.

       More generally, a list can be seen as a set of any shell commands what-
       soever, including the complex commands below; this is implied  wherever
       the  word  `list' appears in later descriptions.  For example, the com-
       mands in a shell function form a special sort of list.


PRECOMMAND MODIFIERS

       A simple command may be preceded by a precommand modifier,  which  will
       alter  how  the  command  is  interpreted.   These  modifiers are shell
       builtin commands with the exception of nocorrect which  is  a  reserved
       word.

       -      The  command  is  executed  with  a `-' prepended to its argv[0]
              string.

       noglob Filename generation (globbing) is not performed on  any  of  the
              words.

       nocorrect
              Spelling  correction is not done on any of the words.  This must
              appear before any other precommand modifier,  as  it  is  inter-
              preted  immediately,  before  any  parsing  is  done.  It has no
              effect in non-interactive shells.

       exec   The command is executed in the parent shell without forking.

       command
              The command word is taken to be the name of an external command,
              rather than a shell function or builtin.

       builtin
              The  command  word is taken to be the name of a builtin command,
              rather than a shell function or external command.


COMPLEX COMMANDS

       A complex command in zsh is one of the following:

       if list then list [ elif list then list ] ... [ else list ] fi
              The if list is executed, and if it returns a zero  exit  status,
              the then list is executed.  Otherwise, the elif list is executed
              and if its status is zero, the then list is executed.   If  each
              elif list returns nonzero status, the else list is executed.

       for name ... [ in word ... ] term do list done
              where  term  is  at  least one newline or ;.  Expand the list of
              words, and set the parameter name to each of them in turn,  exe-
              cuting list each time.  If the in word is omitted, use the posi-
              tional parameters instead of the words.

              More than one parameter name  can  appear  before  the  list  of
              words.  If N names are given, then on each execution of the loop
              the next N words are assigned to the  corresponding  parameters.
              If  there  are  more  names  than remaining words, the remaining
              parameters are each set to the empty string.  Execution  of  the
              loop ends when there is no remaining word to assign to the first
              name.  It is only possible for in to appear as the first name in
              the  list,  else  it  will  be treated as marking the end of the
              list.

       for (( [expr1] ; [expr2] ; [expr3] )) do list done
              The arithmetic expression expr1 is evaluated first (see the sec-
              tion  `Arithmetic Evaluation').  The arithmetic expression expr2
              is repeatedly evaluated until it  evaluates  to  zero  and  when
              non-zero,  list  is executed and the arithmetic expression expr3
              evaluated.  If any expression is omitted, then it behaves as  if
              it evaluated to 1.

       while list do list done
              Execute  the  do  list  as long as the while list returns a zero
              exit status.

       until list do list done
              Execute the do list as long as until list returns a nonzero exit
              status.

       repeat word do list done
              word  is expanded and treated as an arithmetic expression, which
              must evaluate to a number n.  list is then executed n times.

       case word in [ [(] pattern [ | pattern ] ... ) list  (;;|;&|;|)  ]  ...
       esac
              Execute the list associated with the first pattern that  matches
              word, if any.  The form of the patterns is the same as that used
              for filename generation.  See the section `Filename Generation'.

              If  the  list that is executed is terminated with ;& rather than
              ;;, the following list is also executed.  The rule for the  ter-
              minator of the following list ;;, ;& or ;| is applied unless the
              esac is reached.

              If the list that is executed is terminated  with  ;|  the  shell
              continues  to scan the patterns looking for the next match, exe-
              cuting the corresponding list, and applying  the  rule  for  the
              corresponding  terminator  ;;,  ;& or ;|.  Note that word is not
              re-expanded; all applicable patterns are tested  with  the  same
              word.

       select name [ in word ... term ] do list done
              where  term  is one or more newline or ; to terminate the words.
              Print the set of words, each preceded by a number.   If  the  in
              word  is  omitted,  use  the positional parameters.  The PROMPT3
              prompt is printed and a line is read from the line editor if the
              shell is interactive and that is active, or else standard input.
              If this line consists of the number of one of the listed  words,
              then the parameter name is set to the word corresponding to this
              number.  If this line is empty, the selection  list  is  printed
              again.   Otherwise,  the  value  of the parameter name is set to
              null.  The contents of the line  read  from  standard  input  is
              saved  in the parameter REPLY.  list is executed for each selec-
              tion until a break or end-of-file is encountered.

       ( list )
              Execute list in a subshell.  Traps set by the trap  builtin  are
              reset to their default values while executing list.

       { list }
              Execute list.

       { try-list } always { always-list }
              First  execute  try-list.   Regardless of errors, or break, con-
              tinue, or return commands encountered within  try-list,  execute
              always-list.   Execution  then  continues from the result of the
              execution of try-list; in other words, any error, or break, con-
              tinue,  or  return  command  is treated in the normal way, as if
              always-list were not  present.   The  two  chunks  of  code  are
              referred to as the `try block' and the `always block'.

              Optional  newlines  or  semicolons  may appear after the always;
              note, however, that they may not appear between  the  preceeding
              closing brace and the always.

              An `error' in this context is a condition such as a syntax error
              which causes the shell to abort execution of the  current  func-
              tion,  script,  or  list.   Syntax  errors encountered while the
              shell is parsing the code do not cause  the  always-list  to  be
              executed.   For  example, an erroneously constructed if block in
              try-list would cause the shell to abort during parsing, so  that
              always-list  would not be executed, while an erroneous substitu-
              tion such as ${*foo*} would cause a run-time error, after  which
              always-list would be executed.

              An  error  condition  can  be  tested and reset with the special
              integer variable TRY_BLOCK_ERROR.  Outside  an  always-list  the
              value  is  irrelevant,  but  it  is  initialised  to -1.  Inside
              always-list, the  value  is  1  if  an  error  occurred  in  the
              try-list,  else  0.   If  TRY_BLOCK_ERROR is set to 0 during the
              always-list, the error  condition  caused  by  the  try-list  is
              reset,  and  shell execution continues normally after the end of
              always-list.  Altering the value during the try-list is not use-
              ful (unless this forms part of an enclosing always block).

              Regardless  of TRY_BLOCK_ERROR, after the end of always-list the
              normal shell status $? is the value returned  from  always-list.
              This   will   be  non-zero  if  there  was  an  error,  even  if
              TRY_BLOCK_ERROR was set to zero.

              The following executes the given code, ignoring  any  errors  it
              causes.   This is an alternative to the usual convention of pro-
              tecting code by executing it in a subshell.

                     {
                         # code which may cause an error
                       } always {
                         # This code is executed regardless of the error.
                         (( TRY_BLOCK_ERROR = 0 ))
                     }
                     # The error condition has been reset.

              An exit command (or a return command executed at  the  outermost
              function  level  of  a  script) encountered in try-list does not
              cause the execution of always-list.  Instead,  the  shell  exits
              immediately after any EXIT trap has been executed.

       function word ... [ () ] [ term ] { list }
       word ... () [ term ] { list }
       word ... () [ term ] command
              where term is one or more newline or ;.  Define a function which
              is referenced by any one of word.  Normally, only  one  word  is
              provided;  multiple  words  are  usually only useful for setting
              traps.  The body of the function is the list between the  {  and
              }.  See the section `Functions'.

              If  the  option  SH_GLOB  is  set  for  compatibility with other
              shells, then whitespace may appear between between the left  and
              right  parentheses  when there is a single word;  otherwise, the
              parentheses will be treated as forming  a  globbing  pattern  in
              that case.

       time [ pipeline ]
              The  pipeline is executed, and timing statistics are reported on
              the standard error in the form specified by the TIMEFMT  parame-
              ter.   If  pipeline is omitted, print statistics about the shell
              process and its children.

       [[ exp ]]
              Evaluates the conditional expression exp and return a zero  exit
              status if it is true.  See the section `Conditional Expressions'
              for a description of exp.


ALTERNATE FORMS FOR COMPLEX COMMANDS

       Many of zsh's complex commands have alternate forms.  These  particular
       versions of complex commands should be considered deprecated and may be
       removed in the future.  The versions in the previous section should  be
       preferred instead.

       The short versions below only work if sublist is of the form `{ list }'
       or if the SHORT_LOOPS option is set.  For the if, while and until  com-
       mands, in both these cases the test part of the loop must also be suit-
       ably delimited, such as by `[[ ... ]]' or `(( ... ))', else the end  of
       the  test will not be recognized.  For the for, repeat, case and select
       commands no such special form for the arguments is necessary,  but  the
       other  condition (the special form of sublist or use of the SHORT_LOOPS
       option) still applies.

       if list { list } [ elif list { list } ] ... [ else { list } ]
              An alternate form of if.  The rules mean that

                     if [[ -o ignorebraces ]] {
                       print yes
                     }

              works, but

                     if true {  # Does not work!
                       print yes
                     }

              does not, since the test is not suitably delimited.

       if list sublist
              A short form of the alternate `if'.  The same limitations on the
              form of list apply as for the previous form.

       for name ... ( word ... ) sublist
              A short form of for.

       for name ... [ in word ... ] term sublist
              where  term is at least one newline or ;.  Another short form of
              for.

       for (( [expr1] ; [expr2] ; [expr3] )) sublist
              A short form of the arithmetic for command.

       foreach name ... ( word ... ) list end
              Another form of for.

       while list { list }
              An alternative form of while.  Note the limitations on the  form
              of list mentioned above.

       until list { list }
              An  alternative form of until.  Note the limitations on the form
              of list mentioned above.

       repeat word sublist
              This is a short form of repeat.

       case word { [ [(] pattern [ | pattern ] ... ) list (;;|;&|;|) ] ... }
              An alternative form of case.

       select name [ in word term ] sublist
              where term is at least one  newline  or  ;.   A  short  form  of
              select.


RESERVED WORDS

       The  following  words are recognized as reserved words when used as the
       first word of a command unless quoted or disabled using disable -r:

       do done esac then elif else fi for case if while function  repeat  time
       until select coproc nocorrect foreach end ! [[ { }

       Additionally,  `}'  is  recognized in any position if the IGNORE_BRACES
       option is not set.


COMMENTS

       In noninteractive shells, or in interactive shells  with  the  INTERAC-
       TIVE_COMMENTS  option set, a word beginning with the third character of
       the histchars parameter (`#' by default) causes that word and  all  the
       following characters up to a newline to be ignored.


ALIASING

       Every  token  in the shell input is checked to see if there is an alias
       defined for it.  If so, it is replaced by the text of the alias  if  it
       is  in command position (if it could be the first word of a simple com-
       mand), or if the alias is global.  If the text ends with a  space,  the
       next  word  in  the shell input is treated as though it were in command
       position for purposes of alias expansion.  An alias  is  defined  using
       the alias builtin; global aliases may be defined using the -g option to
       that builtin.

       Alias expansion is done on the shell input before any  other  expansion
       except  history  expansion.   Therefore, if an alias is defined for the
       word foo, alias expansion may be avoided by quoting part of  the  word,
       e.g.  \foo.  But there is nothing to prevent an alias being defined for
       \foo as well.


QUOTING

       A character may be quoted (that is, made to stand for itself)  by  pre-
       ceding it with a `\'.  `\' followed by a newline is ignored.

       A string enclosed between `$'' and `'' is processed the same way as the
       string arguments of the print builtin, and the resulting string is con-
       sidered to be entirely quoted.  A literal `'' character can be included
       in the string by using the `\'' escape.

       All characters enclosed between a pair of single quotes  ('')  that  is
       not  preceded by a `$' are quoted.  A single quote cannot appear within
       single quotes unless the option RC_QUOTES is set, in which case a  pair
       of single quotes are turned into a single quote.  For example,

              print ''''

       outputs  nothing  apart from a newline if RC_QUOTES is not set, but one
       single quote if it is set.

       Inside double quotes (""), parameter and  command  substitution  occur,
       and `\' quotes the characters `\', ``', `"', and `$'.


REDIRECTION

       If  a  command is followed by & and job control is not active, then the
       default standard input for the command is  the  empty  file  /dev/null.
       Otherwise,  the environment for the execution of a command contains the
       file descriptors of the invoking  shell  as  modified  by  input/output
       specifications.

       The following may appear anywhere in a simple command or may precede or
       follow a complex command.  Expansion occurs before  word  or  digit  is
       used except as noted below.  If the result of substitution on word pro-
       duces more than one filename,  redirection  occurs  for  each  separate
       filename in turn.

       < word Open file word for reading as standard input.

       <> word
              Open  file  word  for reading and writing as standard input.  If
              the file does not exist then it is created.

       > word Open file word for writing as standard output.  If the file does
              not exist then it is created.  If the file exists, and the CLOB-
              BER option is unset, this causes  an  error;  otherwise,  it  is
              truncated to zero length.

       >| word
       >! word
              Same  as  >, except that the file is truncated to zero length if
              it exists, even if CLOBBER is unset.

       >> word
              Open file word for writing in append mode  as  standard  output.
              If  the  file  does  not exist, and the CLOBBER option is unset,
              this causes an error; otherwise, the file is created.

       >>| word
       >>! word
              Same as >>, except that the file  is  created  if  it  does  not
              exist, even if CLOBBER is unset.

       <<[-] word
              The  shell  input is read up to a line that is the same as word,
              or to an end-of-file.  No parameter expansion, command substitu-
              tion or filename generation is performed on word.  The resulting
              document, called a here-document, becomes the standard input.

              If any character of word is quoted with single or double  quotes
              or a `\', no interpretation is placed upon the characters of the
              document.  Otherwise, parameter and command substitution occurs,
              `\'  followed  by  a newline is removed, and `\' must be used to
              quote the characters `\', `$', ``' and the  first  character  of
              word.

              Note  that  word itself does not undergo shell expansion.  Back-
              quotes in word do not have  their  usual  effect;  instead  they
              behave  similarly  to  double quotes, except that the backquotes
              themselves are passed through unchanged.  (This  information  is
              given for completeness and it is not recommended that backquotes
              be used.)  Quotes in the form $'...' have their standard  effect
              of expanding backslashed references to special characters.

              If <<- is used, then all leading tabs are stripped from word and
              from the document.

       <<< word
              Perform shell expansion on word and pass the result to  standard
              input.  This is known as a here-string.  Compare the use of word
              in here-documents above,  where  word  does  not  undergo  shell
              expansion.

       <& number
       >& number
              The  standard  input/output  is  duplicated from file descriptor
              number (see dup2(2)).

       <& -
       >& -   Close the standard input/output.

       <& p
       >& p   The input/output from/to the coprocess is moved to the  standard
              input/output.

       >& word
       &> word
              (Except  where `>& word' matches one of the above syntaxes; `&>'
              can always be used to avoid  this  ambiguity.)   Redirects  both
              standard  output  and  standard error (file descriptor 2) in the
              manner of `> word'.  Note that  this  does  not  have  the  same
              effect as `> word 2>&1' in the presence of multios (see the sec-
              tion below).

       >&| word
       >&! word
       &>| word
       &>! word
              Redirects both standard output and standard error (file descrip-
              tor 2) in the manner of `>| word'.

       >>& word
       &>> word
              Redirects both standard output and standard error (file descrip-
              tor 2) in the manner of `>> word'.

       >>&| word
       >>&! word
       &>>| word
       &>>! word
              Redirects both standard output and standard error (file descrip-
              tor 2) in the manner of `>>| word'.

       If  one  of  the above is preceded by a digit, then the file descriptor
       referred to is that specified by the digit instead of the default 0  or
       1.   The order in which redirections are specified is significant.  The
       shell evaluates each redirection in  terms  of  the  (file  descriptor,
       file) association at the time of evaluation.  For example:

              ... 1>fname 2>&1

       first associates file descriptor 1 with file fname.  It then associates
       file descriptor 2 with the file associated with file descriptor 1 (that
       is,  fname).  If the order of redirections were reversed, file descrip-
       tor 2 would be associated with the terminal (assuming file descriptor 1
       had  been)  and  then  file  descriptor 1 would be associated with file
       fname.

       If instead of a digit one of the operators above is preceded by a valid
       identifier  enclosed in braces, the shell will open a new file descrip-
       tor that is guaranteed to be at least 10 and set the parameter named by
       the identifier to the file descriptor opened.  No whitespace is allowed
       between the closing brace and the redirection  character.   The  option
       IGNORE_BRACES must not be set.  For example:

              ... {myfd}>&1

       This opens a new file descriptor that is a duplicate of file descriptor
       1 and sets the parameter myfd to the number  of  the  file  descriptor,
       which  will  be at least 10.  The new file descriptor can be written to
       using the syntax >&$myfd.

       The syntax {varid}>&-, for example {myfd}>&-, may be used  to  close  a
       file  descriptor opened in this fashion.  Note that the parameter given
       by varid must previously be set to a file descriptor in this case.

       It is an error to open or close a file descriptor in this fashion  when
       the  parameter  is  readonly.   However,  it is not an error to read or
       write a file descriptor using <&$param or >&$param if  param  is  read-
       only.

       If  the option CLOBBER is unset, it is an error to open a file descrip-
       tor using a parameter that is already set to an  open  file  descriptor
       previously allocated by this mechanism.  Unsetting the parameter before
       using it for allocating a file descriptor avoids the error.

       Note that this mechanism merely allocates or closes a file  descriptor;
       it does not perform any redirections from or to it.  It is usually con-
       venient to allocate a file descriptor prior to use as  an  argument  to
       exec.   The  following shows a typical sequence of allocation, use, and
       closing of a file descriptor:

              integer myfd
              exec {myfd}>~/logs/mylogfile.txt
              print This is a log message. >&$myfd
              exec {myfd}>&-

       Note that the expansion of  the  variable  in  the  expression  >&$myfd
       occurs  at  the  point  the  redirection  is opened.  This is after the
       expansion of command arguments and after any redirections to  the  left
       on the command line have been processed.

       The  `|&' command separator described in Simple Commands & Pipelines in
       zshmisc(1) is a shorthand for `2>&1 |'.

       The various forms of process substitution, `<(list)',  and  `=(list())'
       for  input and `>(list)' for output, are often used together with redi-
       rection.  For example, if word in an output redirection is of the  form
       `>(list)'  then the output is piped to the command represented by list.
       See Process Substitution in zshexpn(1).


MULTIOS

       If the user tries to open a file descriptor for writing more than once,
       the  shell opens the file descriptor as a pipe to a process that copies
       its input to all the specified outputs, similar to  tee,  provided  the
       MULTIOS option is set, as it is by default.  Thus:

              date >foo >bar

       writes  the date to two files, named `foo' and `bar'.  Note that a pipe
       is an implicit redirection; thus

              date >foo | cat

       writes the date to the file `foo', and also pipes it to cat.

       If the MULTIOS option is set, the word after a redirection operator  is
       also subjected to filename generation (globbing).  Thus

              : > *

       will  truncate  all files in the current directory, assuming there's at
       least one.  (Without the MULTIOS option, it would create an empty  file
       called `*'.)  Similarly, you can do

              echo exit 0 >> *.sh

       If the user tries to open a file descriptor for reading more than once,
       the shell opens the file descriptor as a pipe to a process that  copies
       all  the specified inputs to its output in the order specified, similar
       to cat, provided the MULTIOS option is set.  Thus

              sort <foo <fubar

       or even

              sort <f{oo,ubar}

       is equivalent to `cat foo fubar | sort'.

       Expansion of the redirection argument occurs at the point the redirect-
       ion  is  opened,  at the point described above for the expansion of the
       variable in >&$myfd.

       Note that a pipe is an implicit redirection; thus

              cat bar | sort <foo

       is equivalent to `cat bar foo | sort' (note the order of the inputs).

       If the MULTIOS option is unset, each redirection replaces the  previous
       redirection for that file descriptor.  However, all files redirected to
       are actually opened, so

              echo foo > bar > baz

       when MULTIOS is unset will truncate bar, and write `foo' into baz.

       There is a problem when an output multio is  attached  to  an  external
       program.  A simple example shows this:

              cat file >file1 >file2
              cat file1 file2

       Here,  it  is  possible that the second `cat' will not display the full
       contents of file1  and  file2  (i.e.  the  original  contents  of  file
       repeated twice).

       The  reason  for  this  is  that  the multios are spawned after the cat
       process is forked from the parent shell, so the parent shell  does  not
       wait for the multios to finish writing data.  This means the command as
       shown can exit before file1 and file2 are  completely  written.   As  a
       workaround,  it  is possible to run the cat process as part of a job in
       the current shell:

              { cat file } >file >file2

       Here, the {...} job will pause to wait for both files to be written.


REDIRECTIONS WITH NO COMMAND

       When a simple command consists of one or more redirection operators and
       zero or more parameter assignments, but no command name, zsh can behave
       in several ways.

       If the parameter NULLCMD is not set or the option CSH_NULLCMD  is  set,
       an error is caused.  This is the csh behavior and CSH_NULLCMD is set by
       default when emulating csh.

       If the option SH_NULLCMD is set, the builtin `:' is inserted as a  com-
       mand  with  the given redirections.  This is the default when emulating
       sh or ksh.

       Otherwise, if the parameter NULLCMD is set, its value will be used as a
       command  with  the given redirections.  If both NULLCMD and READNULLCMD
       are set, then the value of the latter will be used instead of  that  of
       the  former  when the redirection is an input.  The default for NULLCMD
       is `cat' and for READNULLCMD is `more'. Thus

              < file

       shows the contents of file on standard output, with paging if that is a
       terminal.  NULLCMD and READNULLCMD may refer to shell functions.


COMMAND EXECUTION

       If a command name contains no slashes, the shell attempts to locate it.
       If there exists a shell function by that name, the function is  invoked
       as  described  in  the  section  `Functions'.   If there exists a shell
       builtin by that name, the builtin is invoked.

       Otherwise, the shell searches each element of  $path  for  a  directory
       containing  an  executable  file by that name.  If the search is unsuc-
       cessful, the shell prints an error message and returns a  nonzero  exit
       status.

       If  execution  fails  because the file is not in executable format, and
       the file is not a directory, it  is  assumed  to  be  a  shell  script.
       /bin/sh  is  spawned to execute it.  If the program is a file beginning
       with `#!', the remainder of the first line specifies an interpreter for
       the program.  The shell will execute the specified interpreter on oper-
       ating systems that do not handle this executable format in the  kernel.


FUNCTIONS

       Shell functions are defined with the function reserved word or the spe-
       cial syntax `funcname ()'.  Shell functions  are  read  in  and  stored
       internally.  Alias names are resolved when the function is read.  Func-
       tions are executed like commands with the  arguments  passed  as  posi-
       tional parameters.  (See the section `Command Execution'.)

       Functions execute in the same process as the caller and share all files
       and present working directory with the caller.   A  trap  on  EXIT  set
       inside a function is executed after the function completes in the envi-
       ronment of the caller.

       The return builtin is used to return from function calls.

       Function identifiers can be listed with the functions  builtin.   Func-
       tions can be undefined with the unfunction builtin.


AUTOLOADING FUNCTIONS

       A  function  can  be marked as undefined using the autoload builtin (or
       `functions -u' or `typeset -fu').  Such a function has no  body.   When
       the  function  is first executed, the shell searches for its definition
       using the elements of the fpath variable.  Thus to define functions for
       autoloading, a typical sequence is:

              fpath=(~/myfuncs $fpath)
              autoload myfunc1 myfunc2 ...

       The  usual  alias  expansion  during  reading will be suppressed if the
       autoload builtin or its equivalent is given the option -U. This is rec-
       ommended  for  the use of functions supplied with the zsh distribution.
       Note that for functions precompiled with the zcompile  builtin  command
       the flag -U must be provided when the .zwc file is created, as the cor-
       responding information is compiled into the latter.

       For each element in fpath, the shell looks for  three  possible  files,
       the newest of which is used to load the definition for the function:

       element.zwc
              A  file  created  with  the  zcompile  builtin command, which is
              expected to contain the definitions for  all  functions  in  the
              directory named element.  The file is treated in the same manner
              as a directory containing files for functions  and  is  searched
              for  the  definition of the function.   If the definition is not
              found, the search for a definition proceeds with the  other  two
              possibilities described below.

              If element already includes a .zwc extension (i.e. the extension
              was explicitly given by the user), element is searched  for  the
              definition  of the function without comparing its age to that of
              other files; in fact, there does not need to  be  any  directory
              named  element  without  the  suffix.  Thus including an element
              such as `/usr/local/funcs.zwc' in fpath will speed up the search
              for  functions,  with  the  disadvantage that functions included
              must be explicitly recompiled by hand before the  shell  notices
              any changes.

       element/function.zwc
              A  file  created with zcompile, which is expected to contain the
              definition for function.  It may include other function  defini-
              tions as well, but those are neither loaded nor executed; a file
              found in this way is searched only for the definition  of  func-
              tion.

       element/function
              A file of zsh command text, taken to be the definition for func-
              tion.

       In summary, the order of searching is, first, in the parents of  direc-
       tories  in  fpath  for  the  newer  of either a compiled directory or a
       directory in fpath; second, if more than one of these contains a  defi-
       nition  for  the  function that is sought, the leftmost in the fpath is
       chosen; and third, within a directory, the newer of either  a  compiled
       function or an ordinary function definition is used.

       If  the  KSH_AUTOLOAD option is set, or the file contains only a simple
       definition of the function, the file's contents will be executed.  This
       will  normally  define  the  function in question, but may also perform
       initialization, which is executed in the context of the function execu-
       tion, and may therefore define local parameters.  It is an error if the
       function is not defined by loading the file.

       Otherwise, the function body (with no surrounding  `funcname()  {...}')
       is taken to be the complete contents of the file.  This form allows the
       file to be used directly as an executable shell script.  If  processing
       of  the  file  results  in  the function being re-defined, the function
       itself is not re-executed.  To force the shell to  perform  initializa-
       tion  and  then call the function defined, the file should contain ini-
       tialization code (which will be executed then discarded) in addition to
       a  complete  function definition (which will be retained for subsequent
       calls to the function), and a call to the shell function, including any
       arguments, at the end.

       For example, suppose the autoload file func contains

              func() { print This is func; }
              print func is initialized

       then  `func;  func' with KSH_AUTOLOAD set will produce both messages on
       the first call, but only the message `This is func' on the  second  and
       subsequent  calls.   Without KSH_AUTOLOAD set, it will produce the ini-
       tialization message on the first call, and the  other  message  on  the
       second and subsequent calls.

       It  is  also  possible  to  create  a  function  that  is not marked as
       autoloaded, but which loads its own definition by searching  fpath,  by
       using  `autoload -X' within a shell function.  For example, the follow-
       ing are equivalent:

              myfunc() {
                autoload -X
              }
              myfunc args...

       and

              unfunction myfunc   # if myfunc was defined
              autoload myfunc
              myfunc args...

       In fact, the functions command outputs `builtin  autoload  -X'  as  the
       body of an autoloaded function.  This is done so that

              eval "$(functions)"

       produces  a reasonable result.  A true autoloaded function can be iden-
       tified by the presence of  the  comment  `#  undefined'  in  the  body,
       because all comments are discarded from defined functions.

       To load the definition of an autoloaded function myfunc without execut-
       ing myfunc, use:

              autoload +X myfunc


SPECIAL FUNCTIONS

       Certain functions, if defined, have special meaning to the shell.

       In the case of chpwd, periodic, precmd and preexec it  is  possible  to
       define an array that has the same name with `_functions' appended.  Any
       element in such an array is taken as the name of a function to execute;
       it  is  executed in the same context and with the same arguments as the
       basic function.  For example, if $chpwd_functions is an array  contain-
       ing   the  values  `mychpwd',  `chpwd_save_dirstack',  then  the  shell
       attempts   to   execute   the   functions   `chpwd',   `mychpwd'    and
       `chpwd_save_dirstack', in that order.  Any function that does not exist
       is silently ignored.  A function found by this mechanism is referred to
       elsewhere as a `hook function'.  An error in any function causes subse-
       quent functions not to be run.  Note further that an error in a  precmd
       hook  causes  an  immediately  following  periodic  function not to run
       (thought it may run at the next opportunity).

       chpwd  Executed whenever the current working directory is changed.

       periodic
              If the parameter PERIOD is set, this function is executed  every
              $PERIOD  seconds,  just  before a prompt.  Note that if multiple
              functions are defined using the  array  periodic_functions  only
              one  period is applied to the complete set of functions, and the
              scheduled time is not reset if the list of functions is altered.
              Hence the set of functions is always called together.

       precmd Executed before each prompt.

       preexec
              Executed  just  after a command has been read and is about to be
              executed.  If the history mechanism is active (and the line  was
              not discarded from the history buffer), the string that the user
              typed is passed as the first argument, otherwise it is an  empty
              string.   The  actual  command  that will be executed (including
              expanded aliases) is passed in two different forms:  the  second
              argument  is  a single-line, size-limited version of the command
              (with things like function bodies elided);  the  third  argument
              contains the full text that is being executed.

       zshexit
              Executed at the point where the main shell is about to exit nor-
              mally.  This is not called by exiting subshells,  nor  when  the
              exec  precommand  modifier  is  used before an external command.
              Also, unlike TRAPEXIT, it is not called when functions exit.

       TRAPNAL
              If defined and non-null, this function will be executed whenever
              the shell catches a signal SIGNAL, where NAL is a signal name as
              specified for the kill  builtin.   The  signal  number  will  be
              passed as the first parameter to the function.

              If  a  function  of this form is defined and null, the shell and
              processes spawned by it will ignore SIGNAL.

              The return status from the function is handled specially.  If it
              is  zero, the signal is assumed to have been handled, and execu-
              tion continues normally.  Otherwise, the shell  will  behave  as
              interrupted  except  that  the  return  status  of  the  trap is
              retained.

              Programs terminated by uncaught  signals  typically  return  the
              status  128  plus the signal number.  Hence the following causes
              the handler for SIGINT to print a message, then mimic the  usual
              effect of the signal.

                     TRAPINT() {
                       print "Caught SIGINT, aborting."
                       return $(( 128 + $1 ))
                     }

              The  functions  TRAPZERR,  TRAPDEBUG and TRAPEXIT are never exe-
              cuted inside other traps.

       TRAPDEBUG
              Executed after each command.

       TRAPEXIT
              Executed when the shell exits,  or  when  the  current  function
              exits  if  defined  inside  a  function.  The value of $? at the
              start of execution is the exit status of the shell or the return
              status of the function exiting.

       TRAPZERR
              Executed  whenever  a  command has a non-zero exit status.  How-
              ever, the function is not executed if the command occurred in  a
              sublist  followed  by  `&&' or `||'; only the final command in a
              sublist of this type causes the trap to be executed.  The  func-
              tion TRAPERR acts the same as TRAPZERR on systems where there is
              no SIGERR (this is the usual case).

       The functions beginning `TRAP' may alternatively be  defined  with  the
       trap  builtin:   this may be preferable for some uses, as they are then
       run in the environment of the calling process, rather than in their own
       function  environment.   Apart from the difference in calling procedure
       and the fact that the function form appears in lists of functions,  the
       forms

              TRAPNAL() {
               # code
              }

       and

              trap '
               # code
              ' NAL

       are equivalent.


JOBS

       If  the  MONITOR  option  is set, an interactive shell associates a job
       with each pipeline.  It keeps a table of current jobs, printed  by  the
       jobs  command,  and  assigns them small integer numbers.  When a job is
       started asynchronously with `&', the shell prints a  line  to  standard
       error which looks like:

              [1] 1234

       indicating that the job which was started asynchronously was job number
       1 and had one (top-level) process, whose process ID was 1234.

       If a job is started with `&|' or `&!', then  that  job  is  immediately
       disowned.   After  startup,  it does not have a place in the job table,
       and is not subject to the job control features described here.

       If you are running a job and wish to do something else you may hit  the
       key  ^Z (control-Z) which sends a TSTP signal to the current job:  this
       key may be redefined by the susp option of the external  stty  command.
       The  shell  will  then  normally  indicate  that the job has been `sus-
       pended', and print another prompt.  You can then manipulate  the  state
       of  this  job, putting it in the background with the bg command, or run
       some other commands and then eventually bring the  job  back  into  the
       foreground  with  the foreground command fg.  A ^Z takes effect immedi-
       ately and is like an interrupt in that pending output and unread  input
       are discarded when it is typed.

       A job being run in the background will suspend if it tries to read from
       the terminal.  Background jobs are normally allowed to produce  output,
       but  this  can be disabled by giving the command `stty tostop'.  If you
       set this tty option, then background jobs will suspend when they try to
       produce output like they do when they try to read input.

       When  a  command  is  suspended and continued later with the fg or wait
       builtins, zsh restores tty modes that were in effect when it  was  sus-
       pended.   This (intentionally) does not apply if the command is contin-
       ued via `kill -CONT', nor when it is continued with bg.

       There are several ways to refer to jobs in the shell.   A  job  can  be
       referred  to  by  the process ID of any process of the job or by one of
       the following:

       %number
              The job with the given number.
       %string
              Any job whose command line begins with string.
       %?string
              Any job whose command line contains string.
       %%     Current job.
       %+     Equivalent to `%%'.
       %-     Previous job.

       The shell learns immediately whenever a process changes state.  It nor-
       mally  informs  you  whenever  a job becomes blocked so that no further
       progress is possible.  If the NOTIFY option is not set, it waits  until
       just before it prints a prompt before it informs you.  All such notifi-
       cations are sent directly to the terminal, not to the  standard  output
       or standard error.

       When  the  monitor mode is on, each background job that completes trig-
       gers any trap set for CHLD.

       When you try to leave the shell while jobs are  running  or  suspended,
       you  will  be warned that `You have suspended (running) jobs'.  You may
       use the jobs command to see what they are.  If you do this  or  immedi-
       ately try to exit again, the shell will not warn you a second time; the
       suspended jobs will be terminated, and the running jobs will be sent  a
       SIGHUP signal, if the HUP option is set.

       To  avoid  having  the shell terminate the running jobs, either use the
       nohup command (see nohup(1)) or the disown builtin.


SIGNALS

       The INT and QUIT signals for an invoked command are ignored if the com-
       mand  is  followed  by  `&'  and the MONITOR option is not active.  The
       shell itself always ignores the QUIT signal.  Otherwise,  signals  have
       the  values inherited by the shell from its parent (but see the TRAPNAL
       special functions in the section `Functions').


ARITHMETIC EVALUATION

       The shell can perform integer and  floating  point  arithmetic,  either
       using the builtin let, or via a substitution of the form $((...)).  For
       integers, the shell is usually compiled to use 8-byte  precision  where
       this is available, otherwise precision is 4 bytes.  This can be tested,
       for example, by giving the command `print - $(( 12345678901 ))'; if the
       number  appears unchanged, the precision is at least 8 bytes.  Floating
       point arithmetic is always double precision.

       The let builtin command takes arithmetic expressions as arguments; each
       is  evaluated  separately.   Since many of the arithmetic operators, as
       well as spaces, require quoting, an alternative form is  provided:  for
       any command which begins with a `((', all the characters until a match-
       ing `))' are treated as a quoted expression  and  arithmetic  expansion
       performed  as  for  an  argument  of let.  More precisely, `((...))' is
       equivalent to `let "..."'.  The return status is 0  if  the  arithmetic
       value of the expression is non-zero, and 1 otherwise.

       For example, the following statement

              (( val = 2 + 1 ))

       is equivalent to

              let "val = 2 + 1"

       both  assigning  the  value 3 to the shell variable val and returning a
       zero status.

       Integers can be in bases other than 10.  A leading `0x' or `0X' denotes
       hexadecimal.   Integers may also be of the form `base#n', where base is
       a decimal number between two and thirty-six representing the arithmetic
       base  and  n  is  a number in that base (for example, `16#ff' is 255 in
       hexadecimal).  The base# may also be omitted, in which case base 10  is
       used.  For backwards compatibility the form `[base]n' is also accepted.

       It is also possible to specify a base to be used for output in the form
       `[#base]',  for  example  `[#16]'.  This is used when outputting arith-
       metical substitutions or when assigning to scalar  parameters,  but  an
       explicitly  defined  integer  or  floating  point parameter will not be
       affected.  If an integer variable is implicitly defined  by  an  arith-
       metic  expression,  any  base  specified in this way will be set as the
       variable's output arithmetic base as if the option  `-i  base'  to  the
       typeset builtin had been used.  The expression has no precedence and if
       it occurs more than once in a mathematical expression, the last encoun-
       tered  is  used.   For  clarity it is recommended that it appear at the
       beginning of an expression.  As an example:

              typeset -i 16 y
              print $(( [#8] x = 32, y = 32 ))
              print $x $y

       outputs first `8#40', the rightmost value in the given output base, and
       then  `8#40 16#20', because y has been explicitly declared to have out-
       put base 16, while x (assuming it does not already exist) is implicitly
       typed  by  the arithmetic evaluation, where it acquires the output base
       8.

       If the C_BASES option is set, hexadecimal numbers  in  the  standard  C
       format,  for  example 0xFF instead of the usual `16#FF'.  If the option
       OCTAL_ZEROES is also set (it is not by default), octal numbers will  be
       treated  similarly  and  hence appear as `077' instead of `8#77'.  This
       option has no effect on the output of bases other than hexadecimal  and
       octal, and these formats are always understood on input.

       When  an output base is specified using the `[#base]' syntax, an appro-
       priate base prefix will be output if necessary, so that the value  out-
       put  is  valid  syntax  for  input.   If  the # is doubled, for example
       `[##16]', then no base prefix is output.

       Floating point constants are recognized by the presence  of  a  decimal
       point  or an exponent.  The decimal point may be the first character of
       the constant, but the exponent character e or E may not, as it will  be
       taken for a parameter name.

       An  arithmetic  expression uses nearly the same syntax, precedence, and
       associativity of expressions in C.  The following  operators  are  sup-
       ported (listed in decreasing order of precedence):

       + - ! ~ ++ --
              unary plus/minus, logical NOT, complement, {pre,post}{in,de}cre-
              ment
       << >>  bitwise shift left, right
       &      bitwise AND
       ^      bitwise XOR
       |      bitwise OR
       **     exponentiation
       * / %  multiplication, division, modulus (remainder)
       + -    addition, subtraction
       < > <= >=
              comparison
       == !=  equality and inequality
       &&     logical AND
       || ^^  logical OR, XOR
       ? :    ternary operator
       = += -= *= /= %= &= ^= |= <<= >>= &&= ||= ^^= **=
              assignment
       ,      comma operator

       The operators `&&', `||', `&&=', and `||='  are  short-circuiting,  and
       only  one of the latter two expressions in a ternary operator is evalu-
       ated.  Note the precedence of the bitwise AND, OR, and XOR operators.

       Mathematical functions can be  called  with  the  syntax  `func(args)',
       where  the  function  decides  if  the  args  is  used as a string or a
       comma-separated list of arithmetic  expressions.  The  shell  currently
       defines  no mathematical functions by default, but the module zsh/math-
       func may be loaded with the zmodload builtin to provide standard float-
       ing point mathematical functions.

       An  expression of the form `##x' where x is any character sequence such
       as `a', `^A', or `\M-\C-x' gives the value of  this  character  and  an
       expression of the form `#foo' gives the value of the first character of
       the contents of the parameter foo.  Character values are  according  to
       the  character  set used in the current locale; for multibyte character
       handling the option MULTIBYTE must be set.  Note that this form is dif-
       ferent  from `$#foo', a standard parameter substitution which gives the
       length of the parameter foo.  `#\' is accepted instead of `##', but its
       use is deprecated.

       Named  parameters  and  subscripted  arrays  can  be referenced by name
       within an arithmetic expression without using the  parameter  expansion
       syntax.  For example,

              ((val2 = val1 * 2))

       assigns twice the value of $val1 to the parameter named val2.

       An  internal  integer representation of a named parameter can be speci-
       fied with the integer builtin.  Arithmetic evaluation is  performed  on
       the  value  of each assignment to a named parameter declared integer in
       this manner.  Assigning a floating point number to an  integer  results
       in rounding down to the next integer.

       Likewise,  floating  point  numbers  can  be  declared  with  the float
       builtin; there are two types, differing only in their output format, as
       described  for  the typeset builtin.  The output format can be bypassed
       by using arithmetic substitution instead of the parameter substitution,
       i.e.  `${float}'  uses  the  defined  format,  but  `$((float))' uses a
       generic floating point format.

       Promotion of integer to floating point values is performed where neces-
       sary.   In  addition,  if  any operator which requires an integer (`~',
       `&', `|', `^', `%', `<<', `>>' and their equivalents  with  assignment)
       is given a floating point argument, it will be silently rounded down to
       the next integer.

       Scalar variables can hold integer or floating point values at different
       times; there is no memory of the numeric type in this case.

       If a variable is first assigned in a numeric context without previously
       being declared, it will be implicitly typed as  integer  or  float  and
       retain  that  type either until the type is explicitly changed or until
       the end of the scope.  This  can  have  unforeseen  consequences.   For
       example, in the loop

              for (( f = 0; f < 1; f += 0.1 )); do
              # use $f
              done

       if  f has not already been declared, the first assignment will cause it
       to be created as an integer, and consequently the operation `f +=  0.1'
       will  always cause the result to be truncated to zero, so that the loop
       will fail.  A simple fix would be to turn the initialization into `f  =
       0.0'.   It is therefore best to declare numeric variables with explicit
       types.


CONDITIONAL EXPRESSIONS

       A conditional expression is used with the [[ compound command  to  test
       attributes  of  files  and  to compare strings.  Each expression can be
       constructed from one or more of the following unary or  binary  expres-
       sions:

       -a file
              true if file exists.

       -b file
              true if file exists and is a block special file.

       -c file
              true if file exists and is a character special file.

       -d file
              true if file exists and is a directory.

       -e file
              true if file exists.

       -f file
              true if file exists and is a regular file.

       -g file
              true if file exists and has its setgid bit set.

       -h file
              true if file exists and is a symbolic link.

       -k file
              true if file exists and has its sticky bit set.

       -n string
              true if length of string is non-zero.

       -o option
              true if option named option is on.  option may be a single char-
              acter, in which case it is a single letter  option  name.   (See
              the section `Specifying Options'.)

       -p file
              true if file exists and is a FIFO special file (named pipe).

       -r file
              true if file exists and is readable by current process.

       -s file
              true if file exists and has size greater than zero.

       -t fd  true  if file descriptor number fd is open and associated with a
              terminal device.  (note: fd is not optional)

       -u file
              true if file exists and has its setuid bit set.

       -w file
              true if file exists and is writable by current process.

       -x file
              true if file exists and is executable by  current  process.   If
              file  exists  and  is  a directory, then the current process has
              permission to search in the directory.

       -z string
              true if length of string is zero.

       -L file
              true if file exists and is a symbolic link.

       -O file
              true if file exists and is owned by the  effective  user  ID  of
              this process.

       -G file
              true if file exists and its group matches the effective group ID
              of this process.

       -S file
              true if file exists and is a socket.

       -N file
              true if file exists and its access time is not  newer  than  its
              modification time.

       file1 -nt file2
              true if file1 exists and is newer than file2.

       file1 -ot file2
              true if file1 exists and is older than file2.

       file1 -ef file2
              true if file1 and file2 exist and refer to the same file.

       string = pattern
       string == pattern
              true  if string matches pattern.  The `==' form is the preferred
              one.  The `=' form is for backward compatibility and  should  be
              considered obsolete.

       string != pattern
              true if string does not match pattern.

       string1 < string2
              true  if  string1  comes  before string2 based on ASCII value of
              their characters.

       string1 > string2
              true if string1 comes after string2  based  on  ASCII  value  of
              their characters.

       exp1 -eq exp2
              true if exp1 is numerically equal to exp2.

       exp1 -ne exp2
              true if exp1 is numerically not equal to exp2.

       exp1 -lt exp2
              true if exp1 is numerically less than exp2.

       exp1 -gt exp2
              true if exp1 is numerically greater than exp2.

       exp1 -le exp2
              true if exp1 is numerically less than or equal to exp2.

       exp1 -ge exp2
              true if exp1 is numerically greater than or equal to exp2.

       ( exp )
              true if exp is true.

       ! exp  true if exp is false.

       exp1 && exp2
              true if exp1 and exp2 are both true.

       exp1 || exp2
              true if either exp1 or exp2 is true.

       Normal  shell  expansion  is  performed on the file, string and pattern
       arguments, but the result of each expansion is constrained to be a sin-
       gle  word,  similar  to  the effect of double quotes.  However, pattern
       metacharacters are active for the pattern arguments; the  patterns  are
       the  same  as  those  used for filename generation, see zshexpn(1), but
       there is no special behaviour of `/' nor  initial  dots,  and  no  glob
       qualifiers are allowed.

       In  each  of the above expressions, if file is of the form `/dev/fd/n',
       where n is an integer, then the test applied to  the  open  file  whose
       descriptor  number is n, even if the underlying system does not support
       the /dev/fd directory.

       In the forms which do numeric comparison, the expressions  exp  undergo
       arithmetic expansion as if they were enclosed in $((...)).

       For example, the following:

              [[ ( -f foo || -f bar ) && $report = y* ]] && print File exists.

       tests if either file foo or file bar exists, and if so, if the value of
       the parameter report begins with `y';  if  the  complete  condition  is
       true, the message `File exists.' is printed.


PROMPT EXPANSION

       Prompt  sequences  undergo  a  special form of expansion.  This type of
       expansion is also available using the -P option to the print builtin.

       If the PROMPT_SUBST option is set, the prompt string is first subjected
       to  parameter expansion, command substitution and arithmetic expansion.
       See zshexpn(1).

       Certain escape sequences may be recognised in the prompt string.

       If the PROMPT_BANG option is set, a `!' in the prompt  is  replaced  by
       the  current  history  event  number.  A literal `!' may then be repre-
       sented as `!!'.

       If the PROMPT_PERCENT option is  set,  certain  escape  sequences  that
       start  with  `%'  are  expanded.  Some escapes take an optional integer
       argument, which should appear between the `%' and the next character of
       the sequence.  The following escape sequences are recognized:

   Special characters
       %%     A `%'.

       %)     A `)'.

   Login information
       %l     The line (tty) the user is logged in on, without `/dev/' prefix.
              If the name starts with `/dev/tty', that prefix is stripped.

       %M     The full machine hostname.

       %m     The hostname up to the first `.'.  An integer may follow the `%'
              to  specify  how  many  components  of the hostname are desired.
              With a negative integer, trailing components of the hostname are
              shown.

       %n     $USERNAME.

       %y     The line (tty) the user is logged in on, without `/dev/' prefix.
              This does not treat `/dev/tty' names specially.

   Shell state
       %#     A `#' if the shell is running with privileges,  a  `%'  if  not.
              Equivalent  to `%(!.#.%%)'.  The definition of `privileged', for
              these purposes, is that either the effective user  ID  is  zero,
              or,  if  POSIX.1e  capabilities are supported, that at least one
              capability is raised in  either  the  Effective  or  Inheritable
              capability vectors.

       %?     The  return  status of the last command executed just before the
              prompt.

       %_     The status of the parser, i.e. the shell constructs  (like  `if'
              and  `for') that have been started on the command line. If given
              an integer number that many strings will  be  printed;  zero  or
              negative  or  no integer means print as many as there are.  This
              is most useful in prompts PS2 for continuation lines and PS4 for
              debugging  with  the  XTRACE  option; in the latter case it will
              also work non-interactively.

       %d
       %/     Present working directory ($PWD).  If  an  integer  follows  the
              `%',  it  specifies  a  number of trailing components of $PWD to
              show; zero means the whole path.  A negative  integer  specifies
              leading components, i.e. %-1d specifies the first component.

       %~     As  %d  and %/, but if $PWD has a named directory as its prefix,
              that part is replaced by a `~'  followed  by  the  name  of  the
              directory.   If it starts with $HOME, that part is replaced by a
              `~'.

       %h
       %!     Current history event number.

       %i     The line number currently being executed in the script,  sourced
              file,  or  shell  function given by %N.  This is most useful for
              debugging as part of $PS4.

       %j     The number of jobs.

       %L     The current value of $SHLVL.

       %N     The name of the script, sourced file, or shell function that zsh
              is currently executing, whichever was started most recently.  If
              there is none, this is equivalent to the parameter $0.  An inte-
              ger may follow the `%' to specify a number of trailing path com-
              ponents to show; zero means the full path.  A  negative  integer
              specifies leading components.

       %c
       %.
       %C     Trailing  component  of  $PWD.  An integer may follow the `%' to
              get more than one component.  Unless `%C' is  used,  tilde  con-
              traction  is performed first.  These are deprecated as %c and %C
              are equivalent to %1~ and %1/, respectively, while explicit pos-
              itive  integers  have  the  same  effect  as  for the latter two
              sequences.

   Date and time
       %D     The date in yy-mm-dd format.

       %T     Current time of day, in 24-hour format.

       %t
       %@     Current time of day, in 12-hour, am/pm format.

       %*     Current time of day in 24-hour format, with seconds.

       %w     The date in day-dd format.

       %W     The date in mm/dd/yy format.

       %D{string}
              string is formatted using  the  strftime  function.   See  strf-
              time(3) for more details.  Three additional codes are available:
              %f prints the day of the month, like %e but without any  preced-
              ing  space if the day is a single digit, and %K/%L correspond to
              %k/%l for the hour of the day (24/12 hour  clock)  in  the  same
              way.

   Visual effects
       %B (%b)
              Start (stop) boldface mode.

       %E     Clear to end of line.

       %U (%u)
              Start (stop) underline mode.

       %S (%s)
              Start (stop) standout mode.

       %{...%}
              Include  a  string  as  a  literal  escape sequence.  The string
              within the braces should not change the cursor position.   Brace
              pairs can nest.

   Conditional substrings
       %v     The  value  of  the  first element of the psvar array parameter.
              Following the `%' with an integer  gives  that  element  of  the
              array.  Negative integers count from the end of the array.

       %(x.true-text.false-text)
              Specifies  a  ternary expression.  The character following the x
              is arbitrary; the same character is used to  separate  the  text
              for  the  `true'  result from that for the `false' result.  This
              separator may not appear in the true-text, except as part  of  a
              %-escape  sequence.  A `)' may appear in the false-text as `%)'.
              true-text and false-text  may  both  contain  arbitrarily-nested
              escape sequences, including further ternary expressions.

              The  left  parenthesis may be preceded or followed by a positive
              integer n, which defaults to zero.  A negative integer  will  be
              multiplied  by  -1.  The test character x may be any of the fol-
              lowing:

              !      True if the shell is running with privileges.
              #      True if the effective uid of the current process is n.
              ?      True if the exit status of the last command was n.
              _      True if at least n shell constructs were started.
              C
              /      True if the current absolute path has at least n elements
                     relative  to  the root directory, hence / is counted as 0
                     elements.
              c
              .
              ~      True if the current path, with prefix replacement, has at
                     least  n elements relative to the root directory, hence /
                     is counted as 0 elements.
              D      True if the month is equal to n (January = 0).
              d      True if the day of the month is equal to n.
              g      True if the effective gid of the current process is n.
              j      True if the number of jobs is at least n.
              L      True if the SHLVL parameter is at least n.
              l      True if at least n characters have already  been  printed
                     on the current line.
              S      True if the SECONDS parameter is at least n.
              T      True if the time in hours is equal to n.
              t      True if the time in minutes is equal to n.
              v      True if the array psvar has at least n elements.
              w      True if the day of the week is equal to n (Sunday = 0).

       %<string<
       %>string>
       %[xstring]
              Specifies  truncation  behaviour for the remainder of the prompt
              string.   The  third,  deprecated,   form   is   equivalent   to
              `%xstringx',  i.e.  x  may be `<' or `>'.  The numeric argument,
              which in the third form may appear immediately  after  the  `[',
              specifies  the  maximum  permitted length of the various strings
              that can be displayed in the prompt.  The string  will  be  dis-
              played  in  place  of  the truncated portion of any string; note
              this does not undergo prompt expansion.

              The forms with `<' truncate at the left of the string,  and  the
              forms  with  `>' truncate at the right of the string.  For exam-
              ple, if  the  current  directory  is  `/home/pike',  the  prompt
              `%8<..<%/'  will expand to `..e/pike'.  In this string, the ter-
              minating character (`<', `>' or `]'), or in fact any  character,
              may be quoted by a preceding `\'; note when using print -P, how-
              ever, that this must be doubled as the string is also subject to
              standard  print  processing,  in  addition  to  any  backslashes
              removed by a double quoted string:  the worst case is  therefore
              `print -P "%<\\\\<<..."'.

              If the string is longer than the specified truncation length, it
              will appear in full, completely replacing the truncated  string.

              The part of the prompt string to be truncated runs to the end of
              the string, or to the end of the next  enclosing  group  of  the
              `%('  construct,  or  to  the next truncation encountered at the
              same grouping level (i.e. truncations inside a  `%('  are  sepa-
              rate), which ever comes first.  In particular, a truncation with
              argument zero (e.g. `%<<') marks the end of  the  range  of  the
              string  to  be truncated while turning off truncation from there
              on. For example, the prompt  '%10<...<%~%<<%#  '  will  print  a
              truncated representation of the current directory, followed by a
              `%' or `#', followed by a space.  Without the `%<<',  those  two
              characters would be included in the string to be truncated.

ZSHEXPN(1)                                                          ZSHEXPN(1)


NAME

       zshexpn - zsh expansion and substitution


DESCRIPTION

       The  following types of expansions are performed in the indicated order
       in five steps:

       History Expansion
              This is performed only in interactive shells.

       Alias Expansion
              Aliases are expanded immediately  before  the  command  line  is
              parsed as explained under Aliasing in zshmisc(1).

       Process Substitution
       Parameter Expansion
       Command Substitution
       Arithmetic Expansion
       Brace Expansion
              These  five  are performed in one step in left-to-right fashion.
              After these expansions, all unquoted occurrences of the  charac-
              ters `\', `'' and `"' are removed.

       Filename Expansion
              If  the  SH_FILE_EXPANSION option is set, the order of expansion
              is modified for compatibility with sh and  ksh.   In  that  case
              filename  expansion  is performed immediately after alias expan-
              sion, preceding the set of five expansions mentioned above.

       Filename Generation
              This expansion, commonly referred to as globbing, is always done
              last.

       The following sections explain the types of expansion in detail.


HISTORY EXPANSION

       History  expansion  allows you to use words from previous command lines
       in the command line you are typing.  This simplifies  spelling  correc-
       tions and the repetition of complicated commands or arguments.  Immedi-
       ately before execution, each command is saved in the history list,  the
       size  of  which  is controlled by the HISTSIZE parameter.  The one most
       recent command is always retained in any case.  Each saved  command  in
       the  history  list  is called a history event and is assigned a number,
       beginning with 1 (one) when the shell starts up.   The  history  number
       that you may see in your prompt (see Prompt Expansion in zshmisc(1)) is
       the number that is to be assigned to the next command.

   Overview
       A history expansion begins with the first character  of  the  histchars
       parameter,  which is `!' by default, and may occur anywhere on the com-
       mand line; history expansions do not nest.  The `!' can be escaped with
       `\' or can be enclosed between a pair of single quotes ('') to suppress
       its special meaning.  Double quotes will not work for this.   Following
       this history character is an optional event designator (see the section
       `Event Designators') and then an optional word designator (the  section
       `Word  Designators');  if  neither  of these designators is present, no
       history expansion occurs.

       Input lines  containing  history  expansions  are  echoed  after  being
       expanded,  but  before  any  other expansions take place and before the
       command is executed.  It is this expanded form that is recorded as  the
       history event for later references.

       By  default, a history reference with no event designator refers to the
       same event as any preceding history reference on that command line;  if
       it  is the only history reference in a command, it refers to the previ-
       ous command.  However, if the option CSH_JUNKIE_HISTORY  is  set,  then
       every  history  reference  with no event specification always refers to
       the previous command.

       For example, `!' is the event designator for the previous  command,  so
       `!!:1'  always  refers  to  the first word of the previous command, and
       `!!$' always refers to the last word of  the  previous  command.   With
       CSH_JUNKIE_HISTORY set, then `!:1' and `!$' function in the same manner
       as `!!:1' and `!!$', respectively.  Conversely,  if  CSH_JUNKIE_HISTORY
       is  unset,  then  `!:1'  and  `!$'  refer  to the first and last words,
       respectively, of the same event referenced by the nearest other history
       reference  preceding them on the current command line, or to the previ-
       ous command if there is no preceding reference.

       The character sequence `^foo^bar' (where `^'  is  actually  the  second
       character of the histchars parameter) repeats the last command, replac-
       ing the string foo with bar.  More precisely, the sequence  `^foo^bar^'
       is synonymous with `!!:s^foo^bar^', hence other modifiers (see the sec-
       tion  `Modifiers')  may  follow  the   final   `^'.    In   particular,
       `^foo^bar:G' performs a global substitution.

       If  the  shell encounters the character sequence `!"' in the input, the
       history mechanism is temporarily disabled until the current  list  (see
       zshmisc(1))  is  fully parsed.  The `!"' is removed from the input, and
       any subsequent `!' characters have no special significance.

       A less convenient but more comprehensible form of command history  sup-
       port is provided by the fc builtin.

   Event Designators
       An  event designator is a reference to a command-line entry in the his-
       tory list.  In the list below, remember that the initial  `!'  in  each
       item  may  be  changed  to  another  character by setting the histchars
       parameter.

       !      Start a history expansion, except when followed by a blank, new-
              line,  `=' or `('.  If followed immediately by a word designator
              (see the section `Word Designators'), this forms a history  ref-
              erence with no event designator (see the section `Overview').

       !!     Refer  to  the  previous  command.   By  itself,  this expansion
              repeats the previous command.

       !n     Refer to command-line n.

       !-n    Refer to the current command-line minus n.

       !str   Refer to the most recent command starting with str.

       !?str[?]
              Refer to the most recent command containing str.   The  trailing
              `?'  is necessary if this reference is to be followed by a modi-
              fier or followed by any text that is not to be  considered  part
              of str.

       !#     Refer  to the current command line typed in so far.  The line is
              treated as if it were complete up  to  and  including  the  word
              before the one with the `!#' reference.

       !{...} Insulate a history reference from adjacent characters (if neces-
              sary).

   Word Designators
       A word designator indicates which word or words of a given command line
       are to be included in a history reference.  A `:' usually separates the
       event specification from the word designator.  It may be  omitted  only
       if  the  word designator begins with a `^', `$', `*', `-' or `%'.  Word
       designators include:

       0      The first input word (command).
       n      The nth argument.
       ^      The first argument.  That is, 1.
       $      The last argument.
       %      The word matched by (the most recent) ?str search.
       x-y    A range of words; x defaults to 0.
       *      All the arguments, or a null value if there are none.
       x*     Abbreviates `x-$'.
       x-     Like `x*' but omitting word $.

       Note that a `%' word designator works only when used in  one  of  `!%',
       `!:%'  or `!?str?:%', and only when used after a !? expansion (possibly
       in an earlier command).  Anything else results in  an  error,  although
       the error may not be the most obvious one.

   Modifiers
       After  the  optional  word designator, you can add a sequence of one or
       more of the following modifiers, each preceded by a `:'.   These  modi-
       fiers  also  work  on  the  result of filename generation and parameter
       expansion, except where noted.

       h      Remove a trailing pathname component, leaving  the  head.   This
              works like `dirname'.

       r      Remove a filename extension of the form `.xxx', leaving the root
              name.

       e      Remove all but the extension.

       t      Remove all leading pathname components, leaving the tail.   This
              works like `basename'.

       p      Print  the  new  command but do not execute it.  Only works with
              history expansion.

       q      Quote the substituted  words,  escaping  further  substitutions.
              Works with history expansion and parameter expansion, though for
              parameters it is only useful if the  resulting  text  is  to  be
              re-evaluated such as by eval.

       Q      Remove one level of quotes from the substituted words.

       x      Like  q, but break into words at whitespace.  Does not work with
              parameter expansion.

       l      Convert the words to all lowercase.

       u      Convert the words to all uppercase.

       s/l/r[/]
              Substitute r for l as described below.  The substitution is done
              only  for  the  first string that matches l.  For arrays and for
              filename generation, this applies to each word of  the  expanded
              text.  See below for further notes on substitutions.

              The  forms  `gs/l/r' and `s/l/r/:G' perform global substitution,
              i.e. substitute every occurrence of r for l.  Note that the g or
              :G must appear in exactly the position shown.

       &      Repeat  the  previous  s  substitution.  Like s, may be preceded
              immediately by a g.  In parameter expansion the  &  must  appear
              inside braces, and in filename generation it must be quoted with
              a backslash.

       The s/l/r/ substitution works as follows.   By  default  the  left-hand
       side  of  substitutions  are  not patterns, but character strings.  Any
       character can be used as the delimiter in place of  `/'.   A  backslash
       quotes   the   delimiter   character.    The   character  `&',  in  the
       right-hand-side r, is replaced by the text from the  left-hand-side  l.
       The  `&'  can  be  quoted with a backslash.  A null l uses the previous
       string either from the previous l or from the contextual scan string  s
       from  `!?s'.  You can omit the rightmost delimiter if a newline immedi-
       ately follows r; the rightmost `?' in a context scan can  similarly  be
       omitted.  Note the same record of the last l and r is maintained across
       all forms of expansion.

       If the option HIST_SUBST_PATTERN is set, l is treated as a  pattern  of
       the usual form desribed in the section FILENAME GENERATION below.  This
       can be used in all the places where modifiers are available; note, how-
       ever,  that  in  globbing qualifiers parameter substitution has already
       taken place, so parameters in the replacement string should  be  quoted
       to  ensure  they are replaced at the correct time.  Note also that com-
       plicated patterns used in globbing qualifiers  may  need  the  extended
       glob  qualifier notation (#q:s/.../.../) in order for the shell to rec-
       ognize the expression as a glob qualifer.  Further, note that bad  pat-
       terns  in the substitution are not subject to the NO_BAD_PATTERN option
       so will cause an error.

       When HIST_SUBST_PATTERN is set, l may start with a # to  indicate  that
       the  pattern  must  match at the start of the string to be substituted,
       and a % may appear at the start or after an # to indicate that the pat-
       tern must match at the end of the string to be substituted.  The % or #
       may be quoted with two backslashes.

       For example, the following piece of filename generation code  with  the
       EXTENDED_GLOB option:

              print *.c(#q:s/#%(#b)s(*).c/'S${match[1]}.C'/)

       takes  the  expansion  of  *.c  and  applies the glob qualifiers in the
       (#q...) expression, which consists of a substitution modifier  anchored
       to  the  start and end of each word (#%).  This turns on backreferences
       ((#b)), so that the parenthesised subexpression  is  available  in  the
       replacement string as ${match[1]}.  The replacement string is quoted so
       that the parameter is not substituted before the start of filename gen-
       eration.

       The  following  f, F, w and W modifiers work only with parameter expan-
       sion and filename generation.  They are listed here to provide a single
       point of reference for all modifiers.

       f      Repeats  the  immediately  (without  a colon) following modifier
              until the resulting word doesn't change any more.

       F:expr:
              Like f, but repeats only n times if the expression  expr  evalu-
              ates  to  n.   Any  character can be used instead of the `:'; if
              `(', `[', or `{' is used as the opening delimiter,  the  closing
              delimiter should be ')', `]', or `}', respectively.

       w      Makes  the  immediately  following modifier work on each word in
              the string.

       W:sep: Like w but words are considered to be the parts  of  the  string
              that  are separated by sep. Any character can be used instead of
              the `:'; opening parentheses are handled specially, see above.


PROCESS SUBSTITUTION

       Each command argument of the form `<(list)', `>(list)' or `=(list)'  is
       subject  to process substitution.  In the case of the < or > forms, the
       shell runs process list asynchronously.  If  the  system  supports  the
       /dev/fd  mechanism, the command argument is the name of the device file
       corresponding to a file descriptor; otherwise, if the  system  supports
       named pipes (FIFOs), the command argument will be a named pipe.  If the
       form with > is selected then writing on this special file will  provide
       input for list.  If < is used, then the file passed as an argument will
       be connected to the output of the list process.  For example,

              paste <(cut -f1 file1) <(cut -f3 file2) |
              tee >(process1) >(process2) >/dev/null

       cuts fields 1 and 3 from the files file1 and file2 respectively, pastes
       the  results  together,  and  sends  it  to  the processes process1 and
       process2.

       If =(...) is used instead of <(...), then the file passed as  an  argu-
       ment  will be the name of a temporary file containing the output of the
       list process.  This may be used instead of the <  form  for  a  program
       that expects to lseek (see lseek(2)) on the input file.

       There is an optimisation for substitutions of the form =(<<<arg), where
       arg is a single-word argument to the here-string redirection <<<.  This
       form produces a file name containing the value of arg after any substi-
       tutions have been performed.  This is handled entirely within the  cur-
       rent  shell.   This  is  effectively  the  reverse  of the special form
       $(<arg) which treats arg as a file name and replaces it with the file's
       contents.

       The = form is useful as both the /dev/fd and the named pipe implementa-
       tion of <(...) have drawbacks.  In the former case, some programmes may
       automatically  close  the  file descriptor in question before examining
       the file on the command line, particularly if  this  is  necessary  for
       security  reasons such as when the programme is running setuid.  In the
       second case, if the programme does not actually open the file, the sub-
       shell  attempting  to read from or write to the pipe will (in a typical
       implementation, different operating systems may have  different  behav-
       iour)  block for ever and have to be killed explicitly.  In both cases,
       the shell actually supplies the information using a pipe, so that  pro-
       grammes  that expect to lseek (see lseek(2)) on the file will not work.

       Also note that the previous example can be  more  compactly  and  effi-
       ciently written (provided the MULTIOS option is set) as:

              paste <(cut -f1 file1) <(cut -f3 file2) \
              > >(process1) > >(process2)

       The  shell  uses  pipes  instead  of  FIFOs to implement the latter two
       process substitutions in the above example.

       There is an additional problem with >(process); when this  is  attached
       to  an  external command, the parent shell does not wait for process to
       finish and hence an immediately following command cannot  rely  on  the
       results  being  complete.   The  problem  and  solution are the same as
       described in the section MULTIOS in zshmisc(1).  Hence in a  simplified
       version of the example above:

              paste <(cut -f1 file1) <(cut -f3 file2) > >(process)

       (note  that  no  MULTIOS  are  involved),  process  will  be  run asyn-
       chronously.  The workaround is:

              { paste <(cut -f1 file1) <(cut -f3 file2) } > >(process)

       The extra processes here are spawned from the parent shell  which  will
       wait for their completion.


PARAMETER EXPANSION

       The  character `$' is used to introduce parameter expansions.  See zsh-
       param(1) for a description of parameters, including arrays, associative
       arrays, and subscript notation to access individual array elements.

       Note  in  particular the fact that words of unquoted parameters are not
       automatically split on whitespace unless the  option  SH_WORD_SPLIT  is
       set;  see references to this option below for more details.  This is an
       important difference from other shells.

       In the expansions discussed below that require a pattern, the  form  of
       the  pattern  is the same as that used for filename generation; see the
       section `Filename Generation'.  Note that these  patterns,  along  with
       the  replacement  text  of any substitutions, are themselves subject to
       parameter expansion, command substitution,  and  arithmetic  expansion.
       In  addition to the following operations, the colon modifiers described
       in the section `Modifiers' in the section `History  Expansion'  can  be
       applied:   for example, ${i:s/foo/bar/} performs string substitution on
       the expansion of parameter $i.

       ${name}
              The value, if any, of the parameter name  is  substituted.   The
              braces are required if the expansion is to be followed by a let-
              ter, digit, or underscore that is not to be interpreted as  part
              of  name.   In  addition, more complicated forms of substitution
              usually require the braces to be present; exceptions, which only
              apply  if  the  option  KSH_ARRAYS is not set, are a single sub-
              script or any colon modifiers appearing after the name,  or  any
              of the characters `^', `=', `~', `#' or `+' appearing before the
              name, all of which work with or without braces.

              If name is an array parameter, and the KSH_ARRAYS option is  not
              set,  then the value of each element of name is substituted, one
              element per word.  Otherwise, the expansion results in one  word
              only;  with  KSH_ARRAYS,  this is the first element of an array.
              No  field  splitting  is  done  on   the   result   unless   the
              SH_WORD_SPLIT   option  is  set.   See  also  the  flags  =  and
              s:string:.

       ${+name}
              If name is the name of a set parameter `1' is substituted,  oth-
              erwise `0' is substituted.

       ${name:-word}
              If name is set and is non-null then substitute its value; other-
              wise substitute word. If name is missing, substitute word.  Note
              that  you  can  use  standard shell quoting in the word value to
              selectively override the splitting  done  by  the  SH_WORD_SPLIT
              option and the = flag, but not the s:string: flag.

       ${name:=word}
       ${name::=word}
              In  the  first  form, if name is unset or is null then set it to
              word; in the second form, unconditionally set name to word.   In
              both forms, the value of the parameter is then substituted.

       ${name:?word}
              If name is set and is non-null then substitute its value; other-
              wise, print word and exit from the  shell.   Interactive  shells
              instead  return to the prompt.  If word is omitted, then a stan-
              dard message is printed.

       ${name:+word}
              If name is set and is non-null then substitute  word;  otherwise
              substitute  nothing.  Note that you can use standard shell quot-
              ing in the word value to selectively override the splitting done
              by  the  SH_WORD_SPLIT  option  and  the  =  flag,  but  not the
              s:string: flag.

       If the colon is omitted from one of the above expressions containing  a
       colon,  then the shell only checks whether name is set, not whether its
       value is null.

       In the following expressions, when name is an array and  the  substitu-
       tion is not quoted, or if the `(@)' flag or the name[@] syntax is used,
       matching and replacement is performed on each array element separately.

       ${name#pattern}
       ${name##pattern}
              If  the pattern matches the beginning of the value of name, then
              substitute the value of name with the matched  portion  deleted;
              otherwise,  just  substitute  the  value  of name.  In the first
              form, the smallest matching pattern is preferred; in the  second
              form, the largest matching pattern is preferred.

       ${name%pattern}
       ${name%%pattern}
              If  the  pattern matches the end of the value of name, then sub-
              stitute the value of name with the matched portion deleted; oth-
              erwise,  just  substitute the value of name.  In the first form,
              the smallest matching pattern is preferred; in the second  form,
              the largest matching pattern is preferred.

       ${name:#pattern}
              If  the  pattern  matches the value of name, then substitute the
              empty string; otherwise, just substitute the value of name.   If
              name  is  an  array the matching array elements are removed (use
              the `(M)' flag to remove the non-matched elements).

       ${name/pattern/repl}
       ${name//pattern/repl}
              Replace the longest possible match of pattern in  the  expansion
              of  parameter name by string repl.  The first form replaces just
              the first occurrence, the second  form  all  occurrences.   Both
              pattern  and  repl are subject to double-quoted substitution, so
              that expressions like ${name/$opat/$npat} will  work,  but  note
              the  usual rule that pattern characters in $opat are not treated
              specially unless either the option GLOB_SUBST is set,  or  $opat
              is instead substituted as ${~opat}.

              The pattern may begin with a `#', in which case the pattern must
              match at the start of the string, or `%', in which case it  must
              match  at  the end of the string, or `#%' in which case the pat-
              tern must match the entire string.  The repl  may  be  an  empty
              string,  in  which  case  the final `/' may also be omitted.  To
              quote the final `/' in other cases it should be  preceded  by  a
              single backslash; this is not necessary if the `/' occurs inside
              a substituted parameter.  Note also that the `#',  `%'  and  `#%
              are  not  active  if  they occur inside a substituted parameter,
              even at the start.

              The first `/' may be preceded by a `:', in which case the  match
              will  only succeed if it matches the entire word.  Note also the
              effect of the I and S parameter expansion flags below;  however,
              the flags M, R, B, E and N are not useful.

              For example,

                     foo="twinkle twinkle little star" sub="t*e" rep="spy"
                     print ${foo//${~sub}/$rep}
                     print ${(S)foo//${~sub}/$rep}

              Here, the `~' ensures that the text of $sub is treated as a pat-
              tern rather than a plain string.  In the first case, the longest
              match for t*e is substituted and the result is `spy star', while
              in the second case, the  shortest  matches  are  taken  and  the
              result is `spy spy lispy star'.

       ${#spec}
              If spec is one of the above substitutions, substitute the length
              in characters of the result instead of the  result  itself.   If
              spec  is  an array expression, substitute the number of elements
              of the result.  Note that `^', `=', and `~', below, must  appear
              to the left of `#' when these forms are combined.

       ${^spec}
              Turn  on  the RC_EXPAND_PARAM option for the evaluation of spec;
              if the `^' is doubled, turn it off.  When this  option  is  set,
              array expansions of the form foo${xx}bar, where the parameter xx
              is set to  (a  b  c),  are  substituted  with  `fooabar  foobbar
              foocbar' instead of the default `fooa b cbar'.

              Internally, each such expansion is converted into the equivalent
              list   for   brace    expansion.     E.g.,    ${^var}    becomes
              {$var[1],$var[2],...}, and is processed as described in the sec-
              tion `Brace Expansion' below.  If  word  splitting  is  also  in
              effect  the  $var[N] may themselves be split into different list
              elements.

       ${=spec}
              Perform word splitting using the rules for SH_WORD_SPLIT  during
              the  evaluation of spec, but regardless of whether the parameter
              appears in double quotes; if the `=' is doubled,  turn  it  off.
              This forces parameter expansions to be split into separate words
              before substitution, using IFS as a delimiter.  This is done  by
              default in most other shells.

              Note  that  splitting is applied to word in the assignment forms
              of spec before  the  assignment  to  name  is  performed.   This
              affects the result of array assignments with the A flag.

       ${~spec}
              Turn on the GLOB_SUBST option for the evaluation of spec; if the
              `~' is doubled, turn it off.   When  this  option  is  set,  the
              string  resulting  from  the  expansion will be interpreted as a
              pattern anywhere that is possible, such as in filename expansion
              and  filename  generation and pattern-matching contexts like the
              right hand side of the `=' and `!=' operators in conditions.

              In nested substitutions, note that the effect of the  ~  applies
              to the result of the current level of substitution.  A surround-
              ing pattern operation on the result may cancel it.   Hence,  for
              example,  if  the  parameter foo is set to *, ${~foo//\*/*.c} is
              substituted by the pattern *.c, which may be expanded  by  file-
              name  generation,  but  ${${~foo}//\*/*.c}  substitutes  to  the
              string *.c, which will not be further expanded.

       If a ${...} type parameter expression or a $(...) type command  substi-
       tution  is  used  in  place of name above, it is expanded first and the
       result is used as if it were the value of name.  Thus it is possible to
       perform  nested  operations:  ${${foo#head}%tail} substitutes the value
       of $foo with both `head' and `tail' deleted.  The form with  $(...)  is
       often  useful  in  combination  with  the flags described next; see the
       examples below.  Each name or nested ${...} in  a  parameter  expansion
       may  also  be  followed by a subscript expression as described in Array
       Parameters in zshparam(1).

       Note that double quotes may appear around nested expressions, in  which
       case   only  the  part  inside  is  treated  as  quoted;  for  example,
       ${(f)"$(foo)"} quotes the result of $(foo), but  the  flag  `(f)'  (see
       below)  is  applied using the rules for unquoted expansions.  Note fur-
       ther that quotes are themselves nested in this context; for example, in
       "${(@f)"$(foo)"}",  there  are  two sets of quotes, one surrounding the
       whole expression, the  other  (redundant)  surrounding  the  $(foo)  as
       before.

   Parameter Expansion Flags
       If  the  opening  brace is directly followed by an opening parenthesis,
       the string up to the matching closing parenthesis will be  taken  as  a
       list of flags.  In cases where repeating a flag is meaningful, the rep-
       etitions need not be consecutive; for example, `(q%q%q)' means the same
       thing  as  the  more  readable `(%%qqq)'.  The following flags are sup-
       ported:

       #      Evaluate the resulting words as numeric expressions  and  output
              the  characters  corresponding  to  the resulting integer.  Note
              that this form is entirely distinct from use of  the  #  without
              parentheses.

              If  the  MULTIBYTE  option is set and the number is greater than
              127 (i.e. not an ASCII character) it is  treated  as  a  Unicode
              character.

       %      Expand  all  % escapes in the resulting words in the same way as
              in prompts (see the section `Prompt Expansion'). If this flag is
              given  twice,  full  prompt  expansion  is done on the resulting
              words,  depending  on  the  setting   of   the   PROMPT_PERCENT,
              PROMPT_SUBST and PROMPT_BANG options.

       @      In  double  quotes,  array elements are put into separate words.
              E.g.,  `"${(@)foo}"'  is   equivalent   to   `"${foo[@]}"'   and
              `"${(@)foo[1,2]}"'  is  the same as `"$foo[1]" "$foo[2]"'.  This
              is distinct from field splitting by the the f,  s  or  z  flags,
              which still applies within each array element.

       A      Create  an  array  parameter with `${...=...}', `${...:=...}' or
              `${...::=...}'.  If this flag is repeated (as in  `AA'),  create
              an associative array parameter.  Assignment is made before sort-
              ing or padding.  The name part may be a  subscripted  range  for
              ordinary  arrays;  the  word part must be converted to an array,
              for example by using `${(AA)=name=...}' to activate field split-
              ting, when creating an associative array.

       a      Sort  in  array  index  order;  when  combined  with `O' sort in
              reverse array index order.  Note that `a' is  therefore  equiva-
              lent  to the default but `Oa' is useful for obtaining an array's
              elements in reverse order.

       c      With ${#name}, count the total number of characters in an array,
              as if the elements were concatenated with spaces between them.

       C      Capitalize  the resulting words.  `Words' in this case refers to
              sequences of alphanumeric characters separated  by  non-alphanu-
              merics, not to words that result from field splitting.

       e      Perform parameter expansion, command substitution and arithmetic
              expansion on the result. Such expansions can be nested  but  too
              deep recursion may have unpredictable effects.

       f      Split  the result of the expansion to lines. This is a shorthand
              for `ps:\n:'.

       F      Join the words of arrays together using newline as a  separator.
              This is a shorthand for `pj:\n:'.

       i      Sort case-insensitively.  May be combined with `n' or `O'.

       k      If  name  refers  to  an  associative array, substitute the keys
              (element names) rather than the values of  the  elements.   Used
              with  subscripts  (including  ordinary arrays), force indices or
              keys to be substituted even if the subscript form refers to val-
              ues.   However,  this  flag  may  not be combined with subscript
              ranges.

       L      Convert all letters in the result to lower case.

       n      Sort decimal numbers numerically; if the first differing charac-
              ters  of  two  test  strings are not digits, sorting is lexical.
              Numbers with initial zeroes are  sorted  before  those  without.
              Hence  the  array  `foo1  foo02 foo2 foo3 foo20 foo23' is sorted
              into the order shown.  Trailing non-digits are not  sorted;  the
              order of `2foo' and `2bar' is not defined.  May be combined with
              `i' or `O'.

       o      Sort the resulting words in ascending order; if this appears  on
              its  own  the  sorting is lexical and case-sensitive (unless the
              locale renders it case-insensitive).  Sorting in ascending order
              is the default for other forms of sorting, so this is ignored if
              combined with `a', `i' or `n'.

       O      Sort the resulting words in descending order; `O'  without  `a',
              `i' or `n' sorts in reverse lexical order.  May be combined with
              `a', `i' or `n' to reverse the order of sorting.

       P      This forces the value of the parameter name to be interpreted as
              a  further parameter name, whose value will be used where appro-
              priate. If used with a nested parameter or command substitution,
              the result of that will be taken as a parameter name in the same
              way.  For example, if you  have  `foo=bar'  and  `bar=baz',  the
              strings  ${(P)foo},  ${(P)${foo}}, and ${(P)$(echo bar)} will be
              expanded to `baz'.

       q      Quote the resulting words with  backslashes.  If  this  flag  is
              given twice, the resulting words are quoted in single quotes and
              if it is given three times,  the  words  are  quoted  in  double
              quotes.  If it is given four times, the words are quoted in sin-
              gle quotes preceded by a $.

       Q      Remove one level of quotes from the resulting words.

       t      Use a string describing the type  of  the  parameter  where  the
              value  of  the  parameter would usually appear. This string con-
              sists of keywords separated by hyphens (`-'). The first  keyword
              in  the  string  describes  the  main  type,  it  can  be one of
              `scalar', `array',  `integer',  `float'  or  `association'.  The
              other keywords describe the type in more detail:

              local  for local parameters

              left   for left justified parameters

              right_blanks
                     for right justified parameters with leading blanks

              right_zeros
                     for right justified parameters with leading zeros

              lower  for parameters whose value is converted to all lower case
                     when it is expanded

              upper  for parameters whose value is converted to all upper case
                     when it is expanded

              readonly
                     for readonly parameters

              tag    for tagged parameters

              export for exported parameters

              unique for arrays which keep only the first occurrence of dupli-
                     cated values

              hide   for parameters with the `hide' flag

              special
                     for special parameters defined by the shell

       u      Expand only the first occurrence of each unique word.

       U      Convert all letters in the result to upper case.

       v      Used with k, substitute (as two consecutive words) both the  key
              and the value of each associative array element.  Used with sub-
              scripts, force values to be substituted even  if  the  subscript
              form refers to indices or keys.

       V      Make any special characters in the resulting words visible.

       w      With  ${#name}, count words in arrays or strings; the s flag may
              be used to set a word delimiter.

       W      Similar to w  with  the  difference  that  empty  words  between
              repeated delimiters are also counted.

       X      With  this  flag,  parsing  errors occurring with the Q, e and #
              flags or the pattern matching forms  such  as  `${name#pattern}'
              are reported.  Without the flag, errors are silently ignored.

       z      Split the result of the expansion into words using shell parsing
              to find the words, i.e. taking into account any quoting  in  the
              value.

              Note  that  this is done very late, as for the `(s)' flag. So to
              access single words in the result, one has to use nested  expan-
              sions as in `${${(z)foo}[2]}'. Likewise, to remove the quotes in
              the resulting words one would do: `${(Q)${(z)foo}}'.

       0      Split the result of the expansion on  null  bytes.   This  is  a
              shorthand for `ps:\0:'.

       The following flags (except p) are followed by one or more arguments as
       shown.  Any character, or the matching pairs `(...)', `{...}', `[...]',
       or  `<...>',  may  be  used in place of a colon as delimiters, but note
       that when a flag takes more than one argument, a matched pair of delim-
       iters must surround each argument.

       p      Recognize  the  same  escape  sequences  as the print builtin in
              string arguments to any of the flags described below.

       j:string:
              Join the words of arrays together using string as  a  separator.
              Note  that  this  occurs before field splitting by the s:string:
              flag or the SH_WORD_SPLIT option.

       l:expr::string1::string2:
              Pad the resulting words on the left.  Each word  will  be  trun-
              cated if required and placed in a field expr characters wide.

              The arguments :string1: and :string2: are optional; neither, the
              first, or both may be given.  Note that the same pairs of delim-
              iters  must  be used for each of the three arguments.  The space
              to the left will be filled with string1 (concatenated  as  often
              as  needed)  or spaces if string1 is not given.  If both string1
              and string2 are given, string2 is inserted once directly to  the
              left  of  each  word,  truncated if necessary, before string1 is
              used to produce any remaining padding.

              If the MULTIBYTE option is in effect, the flag  m  may  also  be
              given,  in which case widths will be used for the calculation of
              padding; otherwise individual multibyte characters  are  treated
              as occupying one unit of width.

              IF  the  MULTIBYTE  option  is  not  in effect, each byte in the
              string is treated as occupying one unit of width.

              Control characters are always assumed to be one unit wide;  this
              allows  the  mechanism  to be used for generating repetitions of
              control characters.

       m      Only useful together with l and r when the MULTIBYTE  option  is
              in  effect.   Use  the character width reported by the system in
              calculating the how much of the string it occupies.  Most print-
              able  characters have a width of one unit, however certain Asian
              character sets and certain special effects use wider characters.

       r:expr::string1::string2:
              As  l, but pad the words on the right and insert string2 immedi-
              ately to the right of the string to be padded.

              Left and right padding may be used together.  In this  case  the
              strategy  is  to  apply  left padding to the first half width of
              each of the resulting words, and right  padding  to  the  second
              half.   If  the string to be padded has odd width the extra pad-
              ding is applied on the left.

       s:string:
              Force field splitting at the  separator  string.   Note  that  a
              string  of  two  or  more characters means that all of them must
              match in sequence; this differs from the  treatment  of  two  or
              more  characters  in the IFS parameter.  See also the = flag and
              the SH_WORD_SPLIT option.

       The following flags are meaningful with the  ${...#...}  or  ${...%...}
       forms.  The S and I flags may also be used with the ${.../...} forms.

       S      Search  substrings  as  well as beginnings or ends; with # start
              from the beginning and with % start from the end of the  string.
              With  substitution  via  ${.../...}  or  ${...//...},  specifies
              non-greedy matching, i.e. that the shortest instead of the long-
              est match should be replaced.

       I:expr:
              Search  the  exprth  match  (where  expr evaluates to a number).
              This only applies when searching for substrings, either with the
              S  flag,  or  with  ${.../...} (only the exprth match is substi-
              tuted) or ${...//...} (all matches from the exprth on  are  sub-
              stituted).  The default is to take the first match.

              The  exprth  match  is  counted such that there is either one or
              zero matches from each starting position in the string, although
              for  global  substitution  matches overlapping previous replace-
              ments are ignored.  With the ${...%...} and  ${...%%...}  forms,
              the starting position for the match moves backwards from the end
              as the index increases, while with the other forms it moves for-
              ward from the start.

              Hence with the string
                     which switch is the right switch for Ipswich?
              substitutions  of  the form ${(SI:N:)string#w*ch} as N increases
              from 1 will match  and  remove  `which',  `witch',  `witch'  and
              `wich';  the form using `##' will match and remove `which switch
              is the right switch for Ipswich', `witch is the right switch for
              Ipswich',  `witch  for  Ipswich'  and `wich'. The form using `%'
              will remove the same matches as for `#', but in  reverse  order,
              and the form using `%%' will remove the same matches as for `##'
              in reverse order.

       B      Include the index of the beginning of the match in the result.

       E      Include the index of the end of the match in the result.

       M      Include the matched portion in the result.

       N      Include the length of the match in the result.

       R      Include the unmatched portion in the result (the Rest).

   Rules
       Here is a summary of the rules  for  substitution;  this  assumes  that
       braces are present around the substitution, i.e. ${...}.  Some particu-
       lar examples are given below.  Note  that  the  Zsh  Development  Group
       accepts  no  responsibility for any brain damage which may occur during
       the reading of the following rules.

       1. Nested Substitution
              If multiple nested ${...} forms  are  present,  substitution  is
              performed  from the inside outwards.  At each level, the substi-
              tution takes account of whether the current value is a scalar or
              an  array,  whether  the whole substitution is in double quotes,
              and what flags are supplied to the current  level  of  substitu-
              tion,  just  as  if  the nested substitution were the outermost.
              The flags are not propagated up to enclosing substitutions;  the
              nested  substitution  will return either a scalar or an array as
              determined by the flags, possibly adjusted for quoting.  All the
              following  steps  take  place  where applicable at all levels of
              substitution.  Note that, unless the `(P)' flag is present,  the
              flags  and  any  subscripts  apply  directly to the value of the
              nested  substitution;  for  example,  the  expansion   ${${foo}}
              behaves exactly the same as ${foo}.

              At  each  nested  level  of  substitution, the substituted words
              undergo all forms of single-word substitution (i.e. not filename
              generation),  including  command substitution, arithmetic expan-
              sion and filename expansion (i.e. leading ~ and =).   Thus,  for
              example,  ${${:-=cat}:h}  expands to the directory where the cat
              program resides.  (Explanation: the internal substitution has no
              parameter  but  a default value =cat, which is expanded by file-
              name expansion to a  full  path;  the  outer  substitution  then
              applies  the  modifier  :h  and  takes the directory part of the
              path.)

       2. Parameter Subscripting
              If the value is a raw parameter reference with a subscript, such
              as  ${var[3]}, the effect of subscripting is applied directly to
              the parameter.  Subscripts are evaluated left to  right;  subse-
              quent  subscripts  apply to the scalar or array value yielded by
              the previous subscript.  Thus if var is an  array,  ${var[1][2]}
              is the second character of the first word, but ${var[2,4][2]} is
              the entire third word (the second word of the range of words two
              through  four  of the original array).  Any number of subscripts
              may appear.

       3. Parameter Name Replacement
              The effect of any (P) flag, which treats the value so far  as  a
              parameter  name and replaces it with the corresponding value, is
              applied.

       4. Double-Quoted Joining
              If the value after this process is an array, and  the  substitu-
              tion appears in double quotes, and no (@) flag is present at the
              current level, the words of the value are joined with the  first
              character  of  the  parameter  $IFS, by default a space, between
              each word (single word arrays are not  modified).   If  the  (j)
              flag is present, that is used for joining instead of $IFS.

       5. Nested Subscripting
              Any  remaining  subscripts  (i.e.  of a nested substitution) are
              evaluated at this point, based on whether the value is an  array
              or  a scalar.  As with 2., multiple subscripts can appear.  Note
              that ${foo[2,4][2]} is thus equivalent to ${${foo[2,4]}[2]}  and
              also  to "${${(@)foo[2,4]}[2]}" (the nested substitution returns
              an array in both cases), but  not  to  "${${foo[2,4]}[2]}"  (the
              nested substitution returns a scalar because of the quotes).

       6. Modifiers
              Any  modifiers, as specified by a trailing `#', `%', `/' (possi-
              bly doubled) or by a set of modifiers of the form :... (see  the
              section  `Modifiers'  in  the  section `History Expansion'), are
              applied to the words of the value at this level.

       7. Forced Joining
              If the `(j)' flag is present, or no `(j)' flag  is  present  but
              the  string is to be split as given by rules 8. or 9., and join-
              ing did not take place at step 4., any words in  the  value  are
              joined together using the given string or the first character of
              $IFS if none.  Note that the `(F)' flag  implicitly  supplies  a
              string for joining in this manner.

       8. Forced Splitting
              If  one  of  the `(s)', `(f)' or `(z)' flags are present, or the
              `=' specifier was present (e.g. ${=var}), the word is  split  on
              occurrences  of  the specified string, or (for = with neither of
              the two flags present) any of the characters in $IFS.

       9. Shell Word Splitting
              If no `(s)', `(f)' or `=' was given, but the word is not  quoted
              and the option SH_WORD_SPLIT is set, the word is split on occur-
              rences of any of the characters in $IFS.  Note this  step,  too,
              takes place at all levels of a nested substitution.

       10. Uniqueness
              If the result is an array and the `(u)' flag was present, dupli-
              cate elements are removed from the array.

       11. Ordering
              If the result is still an array and one of the  `(o)'  or  `(O)'
              flags was present, the array is reordered.

       12. Re-Evaluation
              Any  `(e)'  flag  is  applied  to  the  value,  forcing it to be
              re-examined for new parameter substitutions, but also  for  com-
              mand and arithmetic substitutions.

       13. Padding
              Any padding of the value by the `(l.fill.)' or `(r.fill.)' flags
              is applied.

       14. Semantic Joining
              In contexts where expansion semantics requires a single word  to
              result,  all  words are rejoined with the first character of IFS
              between.  So in `${(P)${(f)lines}}' the  value  of  ${lines}  is
              split  at  newlines,  but then must be joined again before the P
              flag can be applied.

              If a single word is not required, this rule is skipped.

   Examples
       The flag f is useful to split  a  double-quoted  substitution  line  by
       line.   For  example, ${(f)"$(<file)"} substitutes the contents of file
       divided so that each line is an element of the resulting  array.   Com-
       pare  this with the effect of $(<file) alone, which divides the file up
       by words, or the same inside double quotes, which makes the entire con-
       tent of the file a single string.

       The  following  illustrates  the rules for nested parameter expansions.
       Suppose that $foo contains the array (bar baz):

       "${(@)${foo}[1]}"
              This produces the  result  b.   First,  the  inner  substitution
              "${foo}",  which  has  no array (@) flag, produces a single word
              result "bar baz".  The outer substitution "${(@)...[1]}" detects
              that this is a scalar, so that (despite the `(@)' flag) the sub-
              script picks the first character.

       "${${(@)foo}[1]}"
              This produces the result `bar'.  In this case, the inner substi-
              tution  "${(@)foo}"  produces  the array `(bar baz)'.  The outer
              substitution "${...[1]}" detects that this is an array and picks
              the first word.  This is similar to the simple case "${foo[1]}".

       As an example of the rules for word splitting and joining, suppose $foo
       contains the array `(ax1 bx1)'.  Then

       ${(s/x/)foo}
              produces the words `a', `1 b' and `1'.

       ${(j/x/s/x/)foo}
              produces `a', `1', `b' and `1'.

       ${(s/x/)foo%%1*}
              produces  `a'  and ` b' (note the extra space).  As substitution
              occurs before either joining or splitting, the operation   first
              generates  the  modified  array (ax bx), which is joined to give
              "ax bx", and then split to give `a', ` b'  and  `'.   The  final
              empty string will then be elided, as it is not in double quotes.


COMMAND SUBSTITUTION

       A command enclosed in parentheses  preceded  by  a  dollar  sign,  like
       `$(...)',  or quoted with grave accents, like ``...`', is replaced with
       its standard output, with any trailing newlines deleted.  If  the  sub-
       stitution  is  not enclosed in double quotes, the output is broken into
       words using the IFS parameter.  The substitution `$(cat  foo)'  may  be
       replaced  by  the  equivalent but faster `$(<foo)'.  In either case, if
       the option GLOB_SUBST is set, the output is eligible for filename  gen-
       eration.


ARITHMETIC EXPANSION

       A  string  of  the  form `$[exp]' or `$((exp))' is substituted with the
       value of the arithmetic expression exp.  exp is subjected to  parameter
       expansion,  command  substitution and arithmetic expansion before it is
       evaluated.  See the section `Arithmetic Evaluation'.


BRACE EXPANSION

       A string of the form `foo{xx,yy,zz}bar' is expanded to  the  individual
       words  `fooxxbar',  `fooyybar'  and `foozzbar'.  Left-to-right order is
       preserved.  This construct may be nested.   Commas  may  be  quoted  in
       order to include them literally in a word.

       An  expression of the form `{n1..n2}', where n1 and n2 are integers, is
       expanded to every number between n1 and n2 inclusive.  If either number
       begins with a zero, all the resulting numbers will be padded with lead-
       ing zeroes to that minimum width.  If the  numbers  are  in  decreasing
       order the resulting sequence will also be in decreasing order.

       If  a  brace  expression  matches  none  of the above forms, it is left
       unchanged, unless the BRACE_CCL option is set.  In  that  case,  it  is
       expanded  to  a  sorted  list  of the individual characters between the
       braces, in the manner of a search set.  `-' is treated specially as  in
       a  search  set,  but  `^' or `!' as the first character is treated nor-
       mally.

       Note that brace expansion is not part  of  filename  generation  (glob-
       bing);  an  expression  such  as */{foo,bar} is split into two separate
       words */foo and */bar before filename generation takes place.  In  par-
       ticular,  note  that  this  is  liable to produce a `no match' error if
       either of the two expressions does not match; this is to be  contrasted
       with  */(foo|bar),  which  is treated as a single pattern but otherwise
       has similar effects.

       To combine brace expansion with array expansion, see the ${^spec}  form
       described in the section Parameter Expansion above.


FILENAME EXPANSION

       Each  word  is checked to see if it begins with an unquoted `~'.  If it
       does, then the word up to a `/', or the end of the word if there is  no
       `/',  is  checked  to  see  if it can be substituted in one of the ways
       described here.  If so, then  the  `~'  and  the  checked  portion  are
       replaced with the appropriate substitute value.

       A `~' by itself is replaced by the value of $HOME.  A `~' followed by a
       `+' or a `-' is replaced by the value of $PWD or $OLDPWD, respectively.

       A  `~'  followed by a number is replaced by the directory at that posi-
       tion in the directory stack.  `~0' is equivalent to `~+', and  `~1'  is
       the  top  of  the  stack.  `~+' followed by a number is replaced by the
       directory at that position in the directory stack.  `~+0' is equivalent
       to  `~+', and `~+1' is the top of the stack.  `~-' followed by a number
       is replaced by the directory that many positions from the bottom of the
       stack.   `~-0'  is  the  bottom  of  the stack.  The PUSHD_MINUS option
       exchanges the effects of `~+' and `~-' where they  are  followed  by  a
       number.

       A  `~' followed by anything not already covered is looked up as a named
       directory, and replaced by the value of that named directory if  found.
       Named  directories are typically home directories for users on the sys-
       tem.  They may also be defined if the text after the `~' is the name of
       a  string  shell  parameter  whose  value begins with a `/'.  Note that
       trailing slashes will be removed from the path to the directory (though
       the original parameter is not modified).  It is also possible to define
       directory names using the -d option to the hash builtin.

       In certain circumstances (in prompts, for  instance),  when  the  shell
       prints  a  path, the path is checked to see if it has a named directory
       as its prefix.  If so, then the prefix portion is replaced with  a  `~'
       followed  by  the name of the directory.  The shortest way of referring
       to the directory is used, with ties broken in favour of using  a  named
       directory,  except when the directory is / itself.  The parameters $PWD
       and $OLDPWD are never abbreviated in this fashion.

       If a word begins with an unquoted `=' and the EQUALS option is set, the
       remainder  of the word is taken as the name of a command.  If a command
       exists by that name, the word is replaced by the full pathname  of  the
       command.

       Filename  expansion  is performed on the right hand side of a parameter
       assignment, including those appearing after  commands  of  the  typeset
       family.   In  this  case,  the  right  hand  side  will be treated as a
       colon-separated list in the manner of the PATH parameter, so that a `~'
       or  an  `=' following a `:' is eligible for expansion.  All such behav-
       iour can be disabled by quoting the `~', the `=', or the whole  expres-
       sion (but not simply the colon); the EQUALS option is also respected.

       If  the option MAGIC_EQUAL_SUBST is set, any unquoted shell argument in
       the form `identifier=expression' becomes eligible for file expansion as
       described  in  the  previous  paragraph.   Quoting  the  first `=' also
       inhibits this.


FILENAME GENERATION

       If a word contains an unquoted instance of one of the  characters  `*',
       `(',  `|',  `<',  `[', or `?', it is regarded as a pattern for filename
       generation, unless the GLOB option  is  unset.   If  the  EXTENDED_GLOB
       option is set, the `^' and `#' characters also denote a pattern; other-
       wise they are not treated specially by the shell.

       The word is replaced with a list of sorted  filenames  that  match  the
       pattern.   If  no  matching  pattern is found, the shell gives an error
       message, unless the NULL_GLOB option is set, in which case the word  is
       deleted;  or unless the NOMATCH option is unset, in which case the word
       is left unchanged.

       In filename generation, the character `/' must be  matched  explicitly;
       also, a `.' must be matched explicitly at the beginning of a pattern or
       after a `/', unless the GLOB_DOTS option is set.  No  filename  genera-
       tion pattern matches the files `.' or `..'.  In other instances of pat-
       tern matching, the `/' and `.' are not treated specially.

   Glob Operators
       *      Matches any string, including the null string.

       ?      Matches any character.

       [...]  Matches any of the enclosed characters.   Ranges  of  characters
              can  be  specified by separating two characters by a `-'.  A `-'
              or `]' may be matched by including it as the first character  in
              the  list.   There are also several named classes of characters,
              in the form `[:name:]' with the following meanings.   The  first
              set  use the macros provided by the operating system to test for
              the given character combinations,  including  any  modifications
              due to local language settings, see ctype(3):

              [:alnum:]
                     The character is alphanumeric

              [:alpha:]
                     The character is alphabetic

              [:ascii:]
                     The  character  is 7-bit, i.e. is a single-byte character
                     without the top bit set.

              [:blank:]
                     The character is either space or tab

              [:cntrl:]
                     The character is a control character

              [:digit:]
                     The character is a decimal digit

              [:graph:]
                     The character is a printable character other than  white-
                     space

              [:lower:]l
                     The character is a lowercase letter

              [:print:]
                     The character is printable

              [:punct:]
                     The  character  is printable but neither alphanumeric nor
                     whitespace

              [:space:]
                     The character is whitespace

              [:upper:]
                     The character is an uppercase letter

              [:xdigit:]
                     The character is a hexadecimal digit

              Another set of named classes is handled internally by the  shell
              and is not sensitive to the locale:

              [:IDENT:]
                     The  character is allowed to form part of a shell identi-
                     fier, such as a parameter name

              [:IFS:]
                     The character is used as an input field  separator,  i.e.
                     is contained in the IFS parameter

              [:IFSSPACE:]
                     The  character  is  an IFS white space character; see the
                     documentation for IFS in the zshparam(1) manual page.

              [:WORD:]
                     The character is treated as part of a word; this test  is
                     sensitive to the value of the WORDCHARS parameter

              Note  that the square brackets are additional to those enclosing
              the whole set of characters, so to test for  a  single  alphanu-
              meric  character  you  need `[[:alnum:]]'.  Named character sets
              can be used alongside other types, e.g. `[[:alpha:]0-9]'.

       [^...]
       [!...] Like [...], except that it matches any character which is not in
              the given set.

       <[x]-[y]>
              Matches  any  number  in the range x to y, inclusive.  Either of
              the numbers may be omitted to make the range  open-ended;  hence
              `<->' matches any number.  To match individual digits, the [...]
              form is more efficient.

              Be careful when using other wildcards adjacent  to  patterns  of
              this  form;  for  example, <0-9>* will actually match any number
              whatsoever at the start of the string, since  the  `<0-9>'  will
              match  the first digit, and the `*' will match any others.  This
              is a trap for the unwary, but is in fact  an  inevitable  conse-
              quence  of  the rule that the longest possible match always suc-
              ceeds.  Expressions such as  `<0-9>[^[:digit:]]*'  can  be  used
              instead.

       (...)  Matches  the  enclosed  pattern.  This is used for grouping.  If
              the KSH_GLOB option is set, then a `@', `*',  `+',  `?'  or  `!'
              immediately  preceding the `(' is treated specially, as detailed
              below. The option SH_GLOB prevents bare parentheses  from  being
              used in this way, though the KSH_GLOB option is still available.

              Note that grouping cannot extend over multiple  directories:  it
              is  an error to have a `/' within a group (this only applies for
              patterns used in filename generation).  There is one  exception:
              a group of the form (pat/)# appearing as a complete path segment
              can match a sequence of directories.  For example, foo/(a*/)#bar
              matches foo/bar, foo/any/bar, foo/any/anyother/bar, and so on.

       x|y    Matches  either x or y.  This operator has lower precedence than
              any other.  The `|' character must  be  within  parentheses,  to
              avoid interpretation as a pipeline.

       ^x     (Requires EXTENDED_GLOB to be set.)  Matches anything except the
              pattern x.  This has a higher precedence than `/', so `^foo/bar'
              will  search  directories in `.' except `./foo' for a file named
              `bar'.

       x~y    (Requires EXTENDED_GLOB to be set.)  Match anything that matches
              the  pattern  x but does not match y.  This has lower precedence
              than any operator except `|', so `*/*~foo/bar' will  search  for
              all  files in all directories in `.'  and then exclude `foo/bar'
              if there was such a match.  Multiple patterns can be excluded by
              `foo~bar~baz'.   In  the  exclusion pattern (y), `/' and `.' are
              not treated specially the way they usually are in globbing.

       x#     (Requires EXTENDED_GLOB to be set.)  Matches zero or more occur-
              rences  of  the  pattern  x.  This operator has high precedence;
              `12#' is equivalent to `1(2#)', rather than `(12)#'.  It  is  an
              error  for  an  unquoted `#' to follow something which cannot be
              repeated; this includes an empty string, a pattern already  fol-
              lowed  by  `##',  or parentheses when part of a KSH_GLOB pattern
              (for example, `!(foo)#' is  invalid  and  must  be  replaced  by
              `*(!(foo))').

       x##    (Requires  EXTENDED_GLOB to be set.)  Matches one or more occur-
              rences of the pattern x.  This  operator  has  high  precedence;
              `12##' is equivalent to `1(2##)', rather than `(12)##'.  No more
              than two active `#' characters may appear together.   (Note  the
              potential  clash with glob qualifiers in the form `1(2##)' which
              should therefore be avoided.)

   ksh-like Glob Operators
       If the KSH_GLOB option is set, the effects of parentheses can be  modi-
       fied by a preceding `@', `*', `+', `?' or `!'.  This character need not
       be unquoted to have special effects, but the `(' must be.

       @(...) Match the pattern in the parentheses.  (Like `(...)'.)

       *(...) Match any number of occurrences.  (Like `(...)#'.)

       +(...) Match at least one occurrence.  (Like `(...)##'.)

       ?(...) Match zero or one occurrence.  (Like `(|...)'.)

       !(...) Match  anything  but  the  expression  in  parentheses.    (Like
              `(^(...))'.)

   Precedence
       The precedence of the operators given above is (highest) `^', `/', `~',
       `|' (lowest); the remaining operators are simply treated from  left  to
       right  as  part of a string, with `#' and `##' applying to the shortest
       possible preceding unit (i.e. a character, `?', `[...]', `<...>', or  a
       parenthesised  expression).  As mentioned above, a `/' used as a direc-
       tory separator may not appear inside parentheses, while a `|'  must  do
       so;  in  patterns  used in other contexts than filename generation (for
       example, in case statements and tests within `[[...]]'), a `/'  is  not
       special;  and  `/'  is  also  not special after a `~' appearing outside
       parentheses in a filename pattern.

   Globbing Flags
       There are various flags which affect any text to their right up to  the
       end  of  the enclosing group or to the end of the pattern; they require
       the EXTENDED_GLOB option. All take the form (#X) where X may  have  one
       of the following forms:

       i      Case insensitive:  upper or lower case characters in the pattern
              match upper or lower case characters.

       l      Lower case characters in the pattern match upper or  lower  case
              characters;  upper  case  characters  in  the pattern still only
              match upper case characters.

       I      Case sensitive:  locally negates the effect of i or l from  that
              point on.

       b      Activate backreferences for parenthesised groups in the pattern;
              this does not work in filename generation.  When a pattern  with
              a  set  of active parentheses is matched, the strings matched by
              the groups are stored in the array $match, the  indices  of  the
              beginning  of  the matched parentheses in the array $mbegin, and
              the indices of the end in the array $mend, with the  first  ele-
              ment  of  each  array  corresponding  to the first parenthesised
              group, and so on.  These arrays are not otherwise special to the
              shell.   The  indices  use the same convention as does parameter
              substitution, so that elements of $mend and $mbegin may be  used
              in  subscripts;  the  KSH_ARRAYS  option  is respected.  Sets of
              globbing flags are not considered parenthesised groups; only the
              first nine active parentheses can be referenced.

              For example,

                     foo="a string with a message"
                     if [[ $foo = (a|an)' '(#b)(*)' '* ]]; then
                       print ${foo[$mbegin[1],$mend[1]]}
                     fi

              prints  `string  with  a'.   Note  that the first parenthesis is
              before the (#b) and does not create a backreference.

              Backreferences work with all forms  of  pattern  matching  other
              than  filename generation, but note that when performing matches
              on an entire array, such as ${array#pattern}, or a  global  sub-
              stitution,  such  as  ${param//pat/repl},  only the data for the
              last match remains available.  In the case  of  global  replace-
              ments  this may still be useful.  See the example for the m flag
              below.

              The numbering of backreferences strictly follows  the  order  of
              the  opening  parentheses  from  left  to  right  in the pattern
              string, although sets of parentheses may be nested.   There  are
              special rules for parentheses followed by `#' or `##'.  Only the
              last match of the parenthesis is remembered: for example, in `[[
              abab  =  (#b)([ab])#  ]]',  only  the  final  `b'  is  stored in
              match[1].  Thus extra parentheses may be necessary to match  the
              complete  segment:  for  example,  use `X((ab|cd)#)Y' to match a
              whole string of either `ab' or `cd' between `X' and  `Y',  using
              the value of $match[1] rather than $match[2].

              If the match fails none of the parameters is altered, so in some
              cases it may be necessary to  initialise  them  beforehand.   If
              some  of  the  backreferences  fail to match -- which happens if
              they are in an alternate branch which fails to match, or if they
              are  followed  by  #  and matched zero times -- then the matched
              string is set to the empty string, and the start and end indices
              are set to -1.

              Pattern  matching  with  backreferences  is slightly slower than
              without.

       B      Deactivate backreferences, negating the effect  of  the  b  flag
              from that point on.

       m      Set  references to the match data for the entire string matched;
              this is similar to backreferencing and does not work in filename
              generation.   The  flag must be in effect at the end of the pat-
              tern, i.e. not local to a group. The parameters $MATCH,  $MBEGIN
              and  $MEND  will be set to the string matched and to the indices
              of the beginning and end of the string, respectively.   This  is
              most  useful in parameter substitutions, as otherwise the string
              matched is obvious.

              For example,

                     arr=(veldt jynx grimps waqf zho buck)
                     print ${arr//(#m)[aeiou]/${(U)MATCH}}

              forces all the matches (i.e. all vowels) into uppercase,  print-
              ing `vEldt jynx grImps wAqf zhO bUck'.

              Unlike backreferences, there is no speed penalty for using match
              references, other than the extra substitutions required for  the
              replacement strings in cases such as the example shown.

       M      Deactivate the m flag, hence no references to match data will be
              created.

       anum   Approximate matching: num  errors  are  allowed  in  the  string
              matched by the pattern.  The rules for this are described in the
              next subsection.

       s, e   Unlike the other flags, these have only a local effect, and each
              must  appear  on  its own:  `(#s)' and `(#e)' are the only valid
              forms.  The `(#s)' flag succeeds only at the start of  the  test
              string, and the `(#e)' flag succeeds only at the end of the test
              string; they correspond to  `^'  and  `$'  in  standard  regular
              expressions.  They are useful for matching path segments in pat-
              terns other than those in filename generation (where  path  seg-
              ments  are  in  any  case  treated  separately).   For  example,
              `*((#s)|/)test((#e)|/)*' matches a path segment `test' in any of
              the   following   strings:   test,  test/at/start,  at/end/test,
              in/test/middle.

              Another  use  is  in   parameter   substitution;   for   example
              `${array/(#s)A*Z(#e)}'  will  remove  only  elements of an array
              which match the complete pattern `A*Z'.  There are other ways of
              performing many operations of this type, however the combination
              of the substitution operations `/' and `//' with the `(#s)'  and
              `(#e)' flags provides a single simple and memorable method.

              Note that assertions of the form `(^(#s))' also work, i.e. match
              anywhere except at the start of the string, although this  actu-
              ally  means  `anything except a zero-length portion at the start
              of  the  string';  you  need  to  use  `(""~(#s))'  to  match  a
              zero-length portion of the string not at the start.

       q      A  `q' and everything up to the closing parenthesis of the glob-
              bing flags are ignored by the pattern matching  code.   This  is
              intended  to support the use of glob qualifiers, see below.  The
              result is that the pattern `(#b)(*).c(#q.)' can be used both for
              globbing and for matching against a string.  In the former case,
              the `(#q.)' will be treated as a glob qualifier and  the  `(#b)'
              will  not be useful, while in the latter case the `(#b)' is use-
              ful for backreferences and the `(#q.)' will  be  ignored.   Note
              that colon modifiers in the glob qualifiers are also not applied
              in ordinary pattern matching.

       u      Respect the current locale in determining the presence of multi-
              byte  characters  in  a pattern, provided the shell was compiled
              with MULTIBYTE_SUPPORT.  This overrides  the  MULTIBYTE  option;
              the  default  behaviour  is  taken  from the option.  Compare U.
              (Mnemonic: typically multibyte characters are  from  Unicode  in
              the UTF-8 encoding, although any extension of ASCII supported by
              the system library may be used.)

       U      All characters are considered to be a  single  byte  long.   The
              opposite of u.  This overrides the MULTIBYTE option.

       For  example,  the  test  string  fooxx  can  be matched by the pattern
       (#i)FOOXX, but not by (#l)FOOXX,  (#i)FOO(#I)XX  or  ((#i)FOOX)X.   The
       string  (#ia2)readme specifies case-insensitive matching of readme with
       up to two errors.

       When using the ksh syntax for grouping both KSH_GLOB and  EXTENDED_GLOB
       must  be  set  and  the left parenthesis should be preceded by @.  Note
       also that the flags do not affect letters inside [...] groups, in other
       words  (#i)[a-z]  still  matches only lowercase letters.  Finally, note
       that when examining whole paths case-insensitively every directory must
       be  searched  for  all files which match, so that a pattern of the form
       (#i)/foo/bar/... is potentially slow.

   Approximate Matching
       When matching approximately, the shell keeps  a  count  of  the  errors
       found,  which  cannot exceed the number specified in the (#anum) flags.
       Four types of error are recognised:

       1.     Different characters, as in fooxbar and fooybar.

       2.     Transposition of characters, as in banana and abnana.

       3.     A character missing in the target string, as  with  the  pattern
              road and target string rod.

       4.     An extra character appearing in the target string, as with stove
              and strove.

       Thus, the pattern (#a3)abcd matches dcba, with the errors occurring  by
       using  the first rule twice and the second once, grouping the string as
       [d][cb][a] and [a][bc][d].

       Non-literal parts of the pattern must match exactly, including  charac-
       ters  in  character  ranges:  hence (#a1)???  matches strings of length
       four, by applying rule 4 to an empty  part  of  the  pattern,  but  not
       strings  of  length  two, since all the ? must match.  Other characters
       which must match exactly are initial  dots  in  filenames  (unless  the
       GLOB_DOTS option is set), and all slashes in filenames, so that a/bc is
       two errors from ab/c (the slash cannot be transposed with another char-
       acter).   Similarly,  errors  are counted separately for non-contiguous
       strings in the pattern, so that (ab|cd)ef is two errors from aebf.

       When using exclusion  via  the  ~  operator,  approximate  matching  is
       treated entirely separately for the excluded part and must be activated
       separately.  Thus, (#a1)README~READ_ME matches READ.ME but not READ_ME,
       as  the  trailing  READ_ME  is matched without approximation.  However,
       (#a1)README~(#a1)READ_ME does not match any pattern of the form READ?ME
       as all such forms are now excluded.

       Apart  from exclusions, there is only one overall error count; however,
       the maximum errors allowed may be altered  locally,  and  this  can  be
       delimited  by  grouping.  For example, (#a1)cat((#a0)dog)fox allows one
       error in total, which may not occur in the dog section, and the pattern
       (#a1)cat(#a0)dog(#a1)fox  is  equivalent.  Note that the point at which
       an error is first found is the crucial one for establishing whether  to
       use   approximation;  for  example,  (#a1)abc(#a0)xyz  will  not  match
       abcdxyz, because the error occurs at the `x',  where  approximation  is
       turned off.

       Entire   path   segments   may   be   matched  approximately,  so  that
       `(#a1)/foo/d/is/available/at/the/bar' allows one error in any path seg-
       ment.   This  is  much  less efficient than without the (#a1), however,
       since every directory in the  path  must  be  scanned  for  a  possible
       approximate  match.   It is best to place the (#a1) after any path seg-
       ments which are known to be correct.

   Recursive Globbing
       A pathname component of the form `(foo/)#' matches a path consisting of
       zero or more directories matching the pattern foo.

       As  a  shorthand, `**/' is equivalent to `(*/)#'; note that this there-
       fore matches files in the current directory as well as  subdirectories.
       Thus:

              ls (*/)#bar

       or

              ls **/bar

       does  a  recursive  directory search for files named `bar' (potentially
       including the file `bar' in the current directory).  This form does not
       follow  symbolic links; the alternative form `***/' does, but is other-
       wise identical.  Neither of these can be combined with other  forms  of
       globbing  within the same path segment; in that case, the `*' operators
       revert to their usual effect.

   Glob Qualifiers
       Patterns used for filename generation may end in a list  of  qualifiers
       enclosed  in  parentheses.  The qualifiers specify which filenames that
       otherwise match the given pattern will  be  inserted  in  the  argument
       list.

       If the option BARE_GLOB_QUAL is set, then a trailing set of parentheses
       containing no `|' or `(' characters (or `~' if it is special) is  taken
       as  a set of glob qualifiers.  A glob subexpression that would normally
       be taken as glob qualifiers, for example `(^x)', can be  forced  to  be
       treated  as  part  of  the glob pattern by doubling the parentheses, in
       this case producing `((^x))'.

       If the option EXTENDED_GLOB is set, a different syntax for glob  quali-
       fiers  is  available,  namely  `(#qx)'  where x is any of the same glob
       qualifiers used in the other format.  The qualifiers must still  appear
       at  the  end  of  the pattern.  However, with this syntax multiple glob
       qualifiers may be chained together.  They are treated as a logical  AND
       of  the  individual sets of flags.  Also, as the syntax is unambiguous,
       the expression will be treated as glob  qualifiers  just  as  long  any
       parentheses contained within it are balanced; appearance of `|', `(' or
       `~' does not negate the effect.  Note that qualifiers  will  be  recog-
       nised  in  this form even if a bare glob qualifier exists at the end of
       the pattern, for example `*(#q*)(.)' will recognise executable  regular
       files if both options are set; however, mixed syntax should probably be
       avoided for the sake of clarity.

       A qualifier may be any one of the following:

       /      directories

       F      `full' (i.e. non-empty) directories.   Note  that  the  opposite
              sense (^F) expands to empty directories and all non-directories.
              Use (/^F) for empty directories

       .      plain files

       @      symbolic links

       =      sockets

       p      named pipes (FIFOs)

       *      executable plain files (0100)

       %      device files (character or block special)

       %b     block special files

       %c     character special files

       r      owner-readable files (0400)

       w      owner-writable files (0200)

       x      owner-executable files (0100)

       A      group-readable files (0040)

       I      group-writable files (0020)

       E      group-executable files (0010)

       R      world-readable files (0004)

       W      world-writable files (0002)

       X      world-executable files (0001)

       s      setuid files (04000)

       S      setgid files (02000)

       t      files with the sticky bit (01000)

       fspec  files with access rights matching spec. This spec may be a octal
              number optionally preceded by a `=', a `+', or a `-'. If none of
              these characters is given, the behavior is the same as for  `='.
              The octal number describes the mode bits to be expected, if com-
              bined with a `=', the value  given  must  match  the  file-modes
              exactly,  with a `+', at least the bits in the given number must
              be set in the file-modes, and with a `-', the bits in the number
              must  not be set. Giving a `?' instead of a octal digit anywhere
              in the  number  ensures  that  the  corresponding  bits  in  the
              file-modes  are  not checked, this is only useful in combination
              with `='.

              If the qualifier `f' is followed by any other character anything
              up  to the next matching character (`[', `{', and `<' match `]',
              `}', and `>' respectively, any other character  matches  itself)
              is  taken  as a list of comma-separated sub-specs. Each sub-spec
              may be either an octal number as described above or  a  list  of
              any of the characters `u', `g', `o', and `a', followed by a `=',
              a `+', or a `-', followed by a list of  any  of  the  characters
              `r',  `w',  `x', `s', and `t', or an octal digit. The first list
              of characters specify which access rights are to be checked.  If
              a  `u'  is given, those for the owner of the file are used, if a
              `g' is given, those of the group are checked,  a  `o'  means  to
              test  those  of  other users, and the `a' says to test all three
              groups. The `=', `+', and `-' again says how the modes are to be
              checked  and  have  the  same meaning as described for the first
              form above. The second list of  characters  finally  says  which
              access  rights  are to be expected: `r' for read access, `w' for
              write access, `x' for the right  to  execute  the  file  (or  to
              search a directory), `s' for the setuid and setgid bits, and `t'
              for the sticky bit.

              Thus, `*(f70?)' gives the files for which the  owner  has  read,
              write, and execute permission, and for which other group members
              have no rights, independent of the permissions for other  users.
              The  pattern `*(f-100)' gives all files for which the owner does
              not have execute permission,  and  `*(f:gu+w,o-rx:)'  gives  the
              files  for  which  the  owner and the other members of the group
              have at least write permission, and for which other users  don't
              have read or execute permission.

       estring
       +cmd   The string will be executed as shell code.  The filename will be
              included in the list if and only if the code returns a zero sta-
              tus (usually the status of the last command).  The first charac-
              ter after the `e' will be used as a separator and anything up to
              the  next  matching separator will be taken  as the string; `[',
              `{', and `<' match `]', `}', and `>',  respectively,  while  any
              other  character  matches  itself.  Note that expansions must be
              quoted in the string to prevent them from being expanded  before
              globbing is done.

              During  the  execution  of  string  the filename currently being
              tested is available in the parameter REPLY; the parameter may be
              altered  to a string to be inserted into the list instead of the
              original filename.  In addition, the parameter reply may be  set
              to an array or a string, which overrides the value of REPLY.  If
              set to an array, the latter is inserted into  the  command  line
              word by word.

              For   example,  suppose  a  directory  contains  a  single  file
              `lonely'.  Then the  expression  `*(e:'reply=(${REPLY}{1,2})':)'
              will  cause  the words `lonely1 lonely2' to be inserted into the
              command line.  Note the quotation marks.

              The form +cmd has the same  effect,  but  no  delimiters  appear
              around  cmd.   Instead,  cmd is taken as the longest sequence of
              characters following the + that are alphanumeric or  underscore.
              Typically cmd will be the name of a shell function that contains
              the appropriate test.  For example,

                     nt() { [[ $REPLY -nt $NTREF ]] }
                     NTREF=reffile
                     ls -l *(+nt)

              lists all files in the directory that have  been  modified  more
              recently than reffile.

       ddev   files on the device dev

       l[-|+]ct
              files having a link count less than ct (-), greater than ct (+),
              or equal to ct

       U      files owned by the effective user ID

       G      files owned by the effective group ID

       uid    files owned by user ID id if that is a  number.   Otherwise,  id
              specifies a user name: the character after the `u' will be taken
              as a separator and the string between it and the  next  matching
              separator will be taken as a user name.  The starting separators
              `[', `{', and `<' match the final separators `]', `}', and  `>',
              respectively;  any other character matches itself.  The selected
              files are those owned by this user.  For  example,  `u:foo:'  or
              `u[foo]' selects files owned by user `foo'.

       gid    like uid but with group IDs or names

       a[Mwhms][-|+]n
              files  accessed  exactly  n days ago.  Files accessed within the
              last n days are selected using a  negative  value  for  n  (-n).
              Files accessed more than n days ago are selected by a positive n
              value (+n).  Optional unit specifiers `M', `w', `h', `m' or  `s'
              (e.g.  `ah5') cause the check to be performed with months (of 30
              days), weeks, hours, minutes or seconds instead of days, respec-
              tively.   For instance, `echo *(ah-5)' would echo files accessed
              within the last five hours.

       m[Mwhms][-|+]n
              like the file access qualifier, except that  it  uses  the  file
              modification time.

       c[Mwhms][-|+]n
              like  the  file  access  qualifier, except that it uses the file
              inode change time.

       L[+|-]n
              files less than n bytes (-), more than n bytes (+), or exactly n
              bytes  in  length.  If  this  flag is directly followed by a `k'
              (`K'), `m' (`M'), or `p' (`P') (e.g. `Lk-50') the check is  per-
              formed  with  kilobytes,  megabytes,  or  blocks  (of 512 bytes)
              instead.

       ^      negates all qualifiers following it

       -      toggles between making the qualifiers  work  on  symbolic  links
              (the default) and the files they point to

       M      sets the MARK_DIRS option for the current pattern

       T      appends a trailing qualifier mark to the filenames, analogous to
              the LIST_TYPES option, for the current pattern (overrides M)

       N      sets the NULL_GLOB option for the current pattern

       D      sets the GLOB_DOTS option for the current pattern

       n      sets the NUMERIC_GLOB_SORT option for the current pattern

       oc     specifies how the names of the files should be sorted. If c is n
              they  are  sorted  by  name  (the  default); if it is L they are
              sorted depending on the size (length) of the files;  if  l  they
              are sorted by the number of links; if a, m, or c they are sorted
              by the time of the last access, modification,  or  inode  change
              respectively;  if d, files in subdirectories appear before those
              in the current directory at each level of the search -- this  is
              best combined with other criteria, for example `odon' to sort on
              names for files within the same directory; if N, no  sorting  is
              performed.   Note  that  a, m, and c compare the age against the
              current time, hence the first name in the list is  the  youngest
              file.  Also  note  that  the  modifiers  ^  and  -  are used, so
              `*(^-oL)' gives a list of all  files  sorted  by  file  size  in
              descending  order,  following  any symbolic links.  Unless oN is
              used, multiple order specifiers may occur to resolve ties.

       Oc     like `o', but sorts in descending order; i.e.  `*(^oc)'  is  the
              same  as  `*(Oc)' and `*(^Oc)' is the same as `*(oc)'; `Od' puts
              files in the current directory before those in subdirectories at
              each level of the search.

       [beg[,end]]
              specifies  which  of the matched filenames should be included in
              the returned list. The syntax is the  same  as  for  array  sub-
              scripts.  beg  and  the optional end may be mathematical expres-
              sions. As in parameter subscripting they may be negative to make
              them  count  from  the  last match backward. E.g.: `*(-OL[1,3])'
              gives a list of the names of the three largest files.

       More than one of these lists can be combined, separated by commas.  The
       whole  list  matches  if at least one of the sublists matches (they are
       `or'ed, the qualifiers in the sublists are `and'ed).  Some  qualifiers,
       however,  affect  all  matches generated, independent of the sublist in
       which they are given.  These are the qualifiers  `M',  `T',  `N',  `D',
       `n', `o', `O' and the subscripts given in brackets (`[...]').

       If  a  `:' appears in a qualifier list, the remainder of the expression
       in parenthesis is interpreted as a modifier  (see  the  section  `Modi-
       fiers'  in  the  section `History Expansion').  Note that each modifier
       must be introduced by a separate `:'.  Note also that the result  after
       modification  does  not  have  to be an existing file.  The name of any
       existing file can be followed by a modifier of the form `(:..)' even if
       no actual filename generation is performed.  Thus:

              ls *(-/)

       lists all directories and symbolic links that point to directories, and

              ls *(%W)

       lists all world-writable device files in the current directory, and

              ls *(W,X)

       lists all files in the current directory  that  are  world-writable  or
       world-executable, and

              echo /tmp/foo*(u0^@:t)

       outputs  the basename of all root-owned files beginning with the string
       `foo' in /tmp, ignoring symlinks, and

              ls *.*~(lex|parse).[ch](^D^l1)

       lists all files having a link count of one whose names  contain  a  dot
       (but  not  those  starting  with  a  dot, since GLOB_DOTS is explicitly
       switched off) except for lex.c, lex.h, parse.c and parse.h.

              print b*.pro(#q:s/pro/shmo/)(#q.:s/builtin/shmiltin/)

       demonstrates how colon modifiers and other qualifiers  may  be  chained
       together.   The ordinary qualifier `.' is applied first, then the colon
       modifiers in order from left to right.  So if EXTENDED_GLOB is set  and
       the  base  pattern matches the regular file builtin.pro, the shell will
       print `shmiltin.shmo'.

ZSHPARAM(1)                                                        ZSHPARAM(1)


NAME

       zshparam - zsh parameters


DESCRIPTION

       A parameter has a name, a value, and a number of  attributes.   A  name
       may  be any sequence of alphanumeric characters and underscores, or the
       single characters `*', `@', `#', `?', `-', `$', or `!'.  The value  may
       be  a scalar (a string), an integer, an array (indexed numerically), or
       an associative array (an unordered set of name-value pairs, indexed  by
       name).   To  declare  the type of a parameter, or to assign a scalar or
       integer value to a parameter, use the typeset builtin.

       The value of a scalar or integer parameter  may  also  be  assigned  by
       writing:

              name=value

       If  the integer attribute, -i, is set for name, the value is subject to
       arithmetic evaluation.  Furthermore, by  replacing  `='  with  `+=',  a
       parameter  can be added or appended to.  See the section `Array Parame-
       ters' for additional forms of assignment.

       To refer to the value of a parameter, write `$name' or `${name}'.   See
       Parameter Expansion in zshexpn(1) for complete details.

       In  the  parameter lists that follow, the mark `<S>' indicates that the
       parameter is  special.   Special  parameters  cannot  have  their  type
       changed or their readonly attribute turned off, and if a special param-
       eter is unset, then later recreated, the  special  properties  will  be
       retained.   `<Z>'  indicates that the parameter does not exist when the
       shell initializes in sh or ksh emulation mode.


ARRAY PARAMETERS

       To assign an array value, write one of:

              set -A name value ...
              name=(value ...)

       If no parameter name exists, an ordinary array  parameter  is  created.
       If  the  parameter name exists and is a scalar, it is replaced by a new
       array.  Ordinary array parameters may also be explicitly declared with:

              typeset -a name

       Associative arrays must be declared before assignment, by using:

              typeset -A name

       When  name refers to an associative array, the list in an assignment is
       interpreted as alternating keys and values:

              set -A name key value ...
              name=(key value ...)

       Every key must have a value in this case.  Note that  this  assigns  to
       the entire array, deleting any elements that do not appear in the list.

       To create an empty array (including associative arrays), use one of:

              set -A name
              name=()

   Array Subscripts
       Individual elements of an array may be selected using a  subscript.   A
       subscript of the form `[exp]' selects the single element exp, where exp
       is an arithmetic expression which will be subject to arithmetic  expan-
       sion as if it were surrounded by `$((...))'.  The elements are numbered
       beginning with 1, unless the KSH_ARRAYS option is  set  in  which  case
       they are numbered from zero.

       Subscripts  may be used inside braces used to delimit a parameter name,
       thus `${foo[2]}' is equivalent to `$foo[2]'.  If the KSH_ARRAYS  option
       is  set,  the  braced  form  is  the  only one that works, as bracketed
       expressions otherwise are not treated as subscripts.

       The same subscripting syntax is used  for  associative  arrays,  except
       that  no  arithmetic expansion is applied to exp.  However, the parsing
       rules for arithmetic expressions still apply,  which  affects  the  way
       that  certain special characters must be protected from interpretation.
       See Subscript Parsing below for details.

       A subscript of the form `[*]' or `[@]' evaluates to all elements of  an
       array;  there  is no difference between the two except when they appear
       within double  quotes.   `"$foo[*]"'  evaluates  to  `"$foo[1]  $foo[2]
       ..."', whereas `"$foo[@]"' evaluates to `"$foo[1]" "$foo[2]" ...'.  For
       associative arrays, `[*]' or `[@]' evaluate to all the  values,  in  no
       particular order.  Note that this does not substitute the keys; see the
       documentation for the `k' flag under Parameter Expansion Flags in  zsh-
       expn(1) for complete details.  When an array parameter is referenced as
       `$name' (with no subscript) it  evaluates  to  `$name[*]',  unless  the
       KSH_ARRAYS  option  is  set  in which case it evaluates to `${name[0]}'
       (for an associative array, this means the value of the key  `0',  which
       may not exist even if there are values for other keys).

       A subscript of the form `[exp1,exp2]' selects all elements in the range
       exp1 to exp2, inclusive. (Associative arrays are unordered, and  so  do
       not  support  ranges.) If one of the subscripts evaluates to a negative
       number, say -n, then the nth element from the end of the array is used.
       Thus `$foo[-3]' is the third element from the end of the array foo, and
       `$foo[1,-1]' is the same as `$foo[*]'.

       Subscripting may also be performed on non-array values, in  which  case
       the  subscripts  specify  a substring to be extracted.  For example, if
       FOO is set to `foobar', then `echo $FOO[2,5]' prints `ooba'.

   Array Element Assignment
       A subscript may be used on the left side of an assignment like so:

              name[exp]=value

       In this form of assignment the element or range  specified  by  exp  is
       replaced  by  the  expression  on the right side.  An array (but not an
       associative array) may be created by assignment to a range or  element.
       Arrays  do  not nest, so assigning a parenthesized list of values to an
       element or range changes the number of elements in the array,  shifting
       the  other  elements  to accommodate the new values.  (This is not sup-
       ported for associative arrays.)

       This syntax also works as an argument to the typeset command:

              typeset "name[exp]"=value

       The value may not be a parenthesized  list  in  this  case;  only  sin-
       gle-element assignments may be made with typeset.  Note that quotes are
       necessary in this case to prevent the brackets from  being  interpreted
       as filename generation operators.  The noglob precommand modifier could
       be used instead.

       To delete an element of an ordinary array, assign `()' to that element.
       To delete an element of an associative array, use the unset command:

              unset "name[exp]"

   Subscript Flags
       If  the  opening  bracket,  or  the  comma in a range, in any subscript
       expression is directly followed by an opening parenthesis,  the  string
       up  to the matching closing one is considered to be a list of flags, as
       in `name[(flags)exp]'.

       The flags s, n and b take an argument; the delimiter is shown below  as
       `:',  but  any  character,  or  the  matching  pairs  `(...)', `{...}',
       `[...]', or `<...>', may be used.

       The flags currently understood are:

       w      If the parameter subscripted is a scalar then  this  flag  makes
              subscripting  work  on words instead of characters.  The default
              word separator is whitespace.

       s:string:
              This gives the string that separates words (for use with  the  w
              flag).  The delimiter character : is arbitrary; see above.

       p      Recognize  the same escape sequences as the print builtin in the
              string argument of a subsequent `s' flag.

       f      If the parameter subscripted is a scalar then  this  flag  makes
              subscripting work on lines instead of characters, i.e. with ele-
              ments separated by newlines.  This is a shorthand for `pws:\n:'.

       r      Reverse subscripting: if this flag is given, the exp is taken as
              a pattern and the result is the first  matching  array  element,
              substring  or  word  (if  the  parameter is an array, if it is a
              scalar, or if it is a scalar and the `w' flag is given,  respec-
              tively).   The subscript used is the number of the matching ele-
              ment, so that pairs of subscripts such  as  `$foo[(r)??,3]'  and
              `$foo[(r)??,(r)f*]'  are  possible  if  the  parameter is not an
              associative array.  If the parameter is  an  associative  array,
              only the value part of each pair is compared to the pattern, and
              the result is that value.

              If a search through an ordinary array failed,  the  search  sets
              the  subscript  to  one  past  the  end  of the array, and hence
              ${array[(r)pattern]} will substitute the empty string.  Thus the
              success  of  a  search  can be tested by using the (i) flag, for
              example (assuming the option KSH_ARRAYS is not in effect):

                     [[ ${array[(i)pattern]} -le ${#array} ]]

              If KSH_ARRAYS is in effect, the -le should be replaced by -lt.

              Note that in subscripts with both `r' and `R' pattern characters
              are  active  even  if  they  were  substituted  for  a parameter
              (regardless of the setting of  GLOB_SUBST  which  controls  this
              feature  in normal pattern matching).  It is therefore necessary
              to quote pattern characters for an exact string match.  Given  a
              string  in  $key,  and assuming the EXTENDED_GLOB option is set,
              the following is sufficient to match  an  element  of  an  array
              $array containing exactly the value of $key:

                     key2=${key//(#m)[\][()\\*?#<>~^]/\\$MATCH}
                     print ${array[(R)$key2]}

       R      Like  `r',  but  gives  the last match.  For associative arrays,
              gives all possible matches. May be used for assigning  to  ordi-
              nary  array  elements,  but  not  for  assigning  to associative
              arrays.

              Note that this flag can give odd results  on  failure.   For  an
              ordinary  array  the  item  substituted is that corresponding to
              subscript 0.  If the option KSH_ARRAYS is not in effect, this is
              the  same  as the element corresponding to subscript 1, although
              the form ${array[(I)pattern]} will evaluate to 0  for  a  failed
              match.   If the option KSH_ARRAYS is in effect, the subscript is
              still 0 for a failed match; this cannot be distinguished from  a
              successful  match  without  testing ${array[0]} against the pat-
              tern.

       i      Like `r', but gives the index of the match instead; this may not
              be  combined  with  a  second  argument.  On the left side of an
              assignment, behaves like `r'.  For associative arrays,  the  key
              part  of  each  pair  is  compared to the pattern, and the first
              matching key found is the result.

              See `r' for discussion of subscripts of failed matches.

       I      Like `i', but gives the index of the last match, or all possible
              matching keys in an associative array.

              See `R' for discussion of subscripts of failed matches.

       k      If used in a subscript on an associative array, this flag causes
              the keys to be interpreted as patterns, and  returns  the  value
              for  the  first key found where exp is matched by the key.  This
              flag does not work on the left side of an assignment to an asso-
              ciative  array  element.   If used on another type of parameter,
              this behaves like `r'.

       K      On an associative array this is like `k' but returns all  values
              where  exp is matched by the keys.  On other types of parameters
              this has the same effect as `R'.

       n:expr:
              If combined with `r', `R', `i' or `I', makes them give  the  nth
              or  nth  last  match  (if  expr  evaluates  to n).  This flag is
              ignored when the array is associative.  The delimiter  character
              : is arbitrary; see above.

       b:expr:
              If  combined  with `r', `R', `i' or `I', makes them begin at the
              nth or nth last element, word, or character (if  expr  evaluates
              to n).  This flag is ignored when the array is associative.  The
              delimiter character : is arbitrary; see above.

       e      This flag has no effect and for ordinary arrays is retained  for
              backward  compatibility only.  For associative arrays, this flag
              can be used to force * or @ to be interpreted as  a  single  key
              rather than as a reference to all values.  This flag may be used
              on the left side of an assignment.

       See Parameter Expansion  Flags  (zshexpn(1))  for  additional  ways  to
       manipulate the results of array subscripting.

   Subscript Parsing
       This  discussion applies mainly to associative array key strings and to
       patterns used for reverse subscripting (the `r', `R', `i', etc. flags),
       but  it  may also affect parameter substitutions that appear as part of
       an arithmetic expression in an ordinary subscript.

       It is possible to avoid the use of subscripts in assignments  to  asso-
       ciative array elements by using the syntax:

                 aa+=('key with "*strange*" characters' 'value string')

       This  adds  a new key/value pair if the key is not already present, and
       replaces the value for the existing key if it is.

       The basic rule to remember when writing a subscript expression is  that
       all  text between the opening `[' and the closing `]' is interpreted as
       if it were in double quotes (see zshmisc(1)).  However,  unlike  double
       quotes  which  normally  cannot  nest, subscript expressions may appear
       inside double-quoted strings or inside other subscript expressions  (or
       both!), so the rules have two important differences.

       The first difference is that brackets (`[' and `]') must appear as bal-
       anced pairs in a subscript expression unless they  are  preceded  by  a
       backslash  (`\').  Therefore, within a subscript expression (and unlike
       true double-quoting) the sequence `\[' becomes `[', and similarly  `\]'
       becomes  `]'.  This applies even in cases where a backslash is not nor-
       mally required; for example, the pattern `[^[]' (to match any character
       other than an open bracket) should be written `[^\[]' in a reverse-sub-
       script pattern.  However, note that `\[^\[\]' and even `\[^[]' mean the
       same  thing,  because  backslashes are always stripped when they appear
       before brackets!

       The same rule applies to parentheses (`(' and `)') and braces (`{'  and
       `}'):  they must appear either in balanced pairs or preceded by a back-
       slash, and backslashes that protect parentheses or braces  are  removed
       during parsing.  This is because parameter expansions may be surrounded
       balanced braces, and subscript flags are introduced by balanced  paren-
       thesis.

       The  second  difference is that a double-quote (`"') may appear as part
       of a subscript expression without being preceded by  a  backslash,  and
       therefore  that the two characters `\"' remain as two characters in the
       subscript (in true double-quoting, `\"' becomes `"').  However, because
       of the standard shell quoting rules, any double-quotes that appear must
       occur in balanced pairs unless preceded by a backslash.  This makes  it
       more  difficult  to  write  a subscript expression that contains an odd
       number of double-quote characters, but the reason for  this  difference
       is  so  that  when  a  subscript  expression  appears  inside true dou-
       ble-quotes, one can still write `\"' (rather than `\\\"') for `"'.

       To use an odd number of double quotes as a key in  an  assignment,  use
       the typeset builtin and an enclosing pair of double quotes; to refer to
       the value of that key, again use double quotes:

              typeset -A aa
              typeset "aa[one\"two\"three\"quotes]"=QQQ
              print "$aa[one\"two\"three\"quotes]"

       It is important to note that the quoting rules do  not  change  when  a
       parameter expansion with a subscript is nested inside another subscript
       expression.  That is, it is not necessary to use additional backslashes
       within the inner subscript expression; they are removed only once, from
       the innermost subscript outwards.  Parameters are  also  expanded  from
       the innermost subscript first, as each expansion is encountered left to
       right in the outer expression.

       A further complication arises from a way in which subscript parsing  is
       not  different  from  double quote parsing.  As in true double-quoting,
       the sequences `\*', and `\@' remain as two characters when they  appear
       in  a subscript expression.  To use a literal `*' or `@' as an associa-
       tive array key, the `e' flag must be used:

              typeset -A aa
              aa[(e)*]=star
              print $aa[(e)*]

       A last detail must be considered  when  reverse  subscripting  is  per-
       formed.   Parameters  appearing  in  the subscript expression are first
       expanded and then the complete expression is interpreted as a  pattern.
       This has two effects: first, parameters behave as if GLOB_SUBST were on
       (and it cannot be turned  off);  second,  backslashes  are  interpreted
       twice, once when parsing the array subscript and again when parsing the
       pattern.  In a reverse subscript, it's  necessary  to  use  four  back-
       slashes  to cause a single backslash to match literally in the pattern.
       For complex patterns, it is often easiest to assign the desired pattern
       to  a  parameter  and  then  refer  to that parameter in the subscript,
       because then the backslashes, brackets,  parentheses,  etc.,  are  seen
       only  when the complete expression is converted to a pattern.  To match
       the value of a parameter literally in a reverse subscript, rather  than
       as  a  pattern, use `${(q)name}' (see zshexpn(1)) to quote the expanded
       value.

       Note that the `k' and `K' flags are reverse subscripting for  an  ordi-
       nary  array, but are not reverse subscripting for an associative array!
       (For an associative array, the keys in the array itself are interpreted
       as  patterns  by  those  flags; the subscript is a plain string in that
       case.)

       One final note, not directly related to subscripting: the numeric names
       of positional parameters (described below) are parsed specially, so for
       example `$2foo' is equivalent to `${2}foo'.   Therefore,  to  use  sub-
       script  syntax  to extract a substring from a positional parameter, the
       expansion must be surrounded by braces; for example, `${2[3,5]}' evalu-
       ates  to  the  third  through fifth characters of the second positional
       parameter, but `$2[3,5]' is the entire  second  parameter  concatenated
       with the filename generation pattern `[3,5]'.


POSITIONAL PARAMETERS

       The  positional parameters provide access to the command-line arguments
       of a shell function, shell script, or the shell itself; see the section
       `Invocation', and also the section `Functions'.  The parameter n, where
       n is a number, is the nth positional parameter.  The  parameters  *,  @
       and  argv  are  arrays  containing  all the positional parameters; thus
       `$argv[n]', etc., is equivalent to simply `$n'.

       Positional parameters may be changed after the shell or function starts
       by  using the set builtin, by assigning to the argv array, or by direct
       assignment of the form `n=value' where n is the  number  of  the  posi-
       tional  parameter to be changed.  This also creates (with empty values)
       any of the positions from 1 to n that do not already have values.  Note
       that, because the positional parameters form an array, an array assign-
       ment of the form `n=(value ...)' is allowed,  and  has  the  effect  of
       shifting  all  the  values at positions greater than n by as many posi-
       tions as necessary to accommodate the new values.


LOCAL PARAMETERS

       Shell function executions delimit scopes for shell parameters.  (Param-
       eters  are  dynamically scoped.)  The typeset builtin, and its alterna-
       tive forms declare, integer, local and readonly (but not  export),  can
       be used to declare a parameter as being local to the innermost scope.

       When a parameter is read or assigned to, the innermost existing parame-
       ter of that name is used.  (That is,  the  local  parameter  hides  any
       less-local parameter.)  However, assigning to a non-existent parameter,
       or declaring a new parameter with export, causes it to  be  created  in
       the outermost scope.

       Local parameters disappear when their scope ends.  unset can be used to
       delete a parameter while it is still in scope; any outer  parameter  of
       the same name remains hidden.

       Special  parameters  may  also be made local; they retain their special
       attributes unless either the existing or  the  newly-created  parameter
       has  the  -h (hide) attribute.  This may have unexpected effects: there
       is no default value, so if there is no  assignment  at  the  point  the
       variable  is  made  local, it will be set to an empty value (or zero in
       the case of integers).  The following:

              typeset PATH=/new/directory:$PATH

       is valid for temporarily allowing the shell or programmes  called  from
       it to find the programs in /new/directory inside a function.

       Note  that  the restriction in older versions of zsh that local parame-
       ters were never exported has been removed.


PARAMETERS SET BY THE SHELL

       The following parameters are automatically set by the shell:

       ! <S>  The process ID of the last command  started  in  the  background
              with &, or put into the background with the bg builtin.

       # <S>  The  number of positional parameters in decimal.  Note that some
              confusion may occur with the syntax  $#param  which  substitutes
              the  length of param.  Use ${#} to resolve ambiguities.  In par-
              ticular, the sequence `$#-...' in an  arithmetic  expression  is
              interpreted as the length of the parameter -, q.v.

       ARGC <S> <Z>
              Same as #.

       $ <S>  The  process  ID  of  this  shell.  Note that this indicates the
              original shell started by invoking  zsh;  all  processes  forked
              from  the  shells  without executing a new program, such as sub-
              shells started by (...), substitute the same value.

       - <S>  Flags supplied to the shell on  invocation  or  by  the  set  or
              setopt commands.

       * <S>  An array containing the positional parameters.

       argv <S> <Z>
              Same  as  *.   Assigning  to  argv  changes the local positional
              parameters, but argv is not itself a local parameter.   Deleting
              argv  with unset in any function deletes it everywhere, although
              only the innermost positional parameter array is deleted  (so  *
              and @ in other scopes are not affected).

       @ <S>  Same as argv[@], even when argv is not set.

       ? <S>  The exit status returned by the last command.

       0 <S>  The  name  used  to  invoke  the  current  shell.   If the FUNC-
              TION_ARGZERO option is set, this is  set  temporarily  within  a
              shell function to the name of the function, and within a sourced
              script to the name of the script.

       status <S> <Z>
              Same as ?.

       pipestatus <S> <Z>
              An array containing the exit statuses returned by  all  commands
              in the last pipeline.

       _ <S>  The last argument of the previous command.  Also, this parameter
              is set in the environment of every command executed to the  full
              pathname of the command.

       CPUTYPE
              The  machine  type  (microprocessor  class or machine model), as
              determined at run time.

       EGID <S>
              The effective group ID of the shell process.  If you have suffi-
              cient  privileges,  you may change the effective group ID of the
              shell process by assigning to this  parameter.   Also  (assuming
              sufficient  privileges),  you  may start a single command with a
              different effective group ID by `(EGID=gid; command)'

       EUID <S>
              The effective user ID of the shell process.  If you have  suffi-
              cient  privileges,  you  may change the effective user ID of the
              shell process by assigning to this  parameter.   Also  (assuming
              sufficient  privileges),  you  may start a single command with a
              different effective user ID by `(EUID=uid; command)'

       ERRNO <S>
              The value of errno (see errno(3)) as set by  the  most  recently
              failed  system  call.   This  value  is  system dependent and is
              intended for debugging purposes.  It is  also  useful  with  the
              zsh/system  module  which  allows the number to be turned into a
              name or message.

       GID <S>
              The real group ID of the shell process.  If you have  sufficient
              privileges,  you may change the group ID of the shell process by
              assigning to this parameter.  Also (assuming  sufficient  privi-
              leges),  you  may start a single command under a different group
              ID by `(GID=gid; command)'

       HISTCMD
              The current history line number  in  an  interactive  shell,  in
              other words the line number for the command that caused $HISTCMD
              to be read.

       HOST   The current hostname.

       LINENO <S>
              The line number of the current line within the  current  script,
              sourced  file,  or  shell function being executed, whichever was
              started most recently.  Note that in the case of shell functions
              the  line  number  refers  to the function as it appeared in the
              original definition, not necessarily as displayed by  the  func-
              tions builtin.

       LOGNAME
              If  the  corresponding variable is not set in the environment of
              the shell, it is initialized to the login name corresponding  to
              the current login session. This parameter is exported by default
              but this can be disabled using the typeset builtin.

       MACHTYPE
              The machine type (microprocessor class  or  machine  model),  as
              determined at compile time.

       OLDPWD The previous working directory.  This is set when the shell ini-
              tializes and whenever the directory changes.

       OPTARG <S>
              The value of the last option argument processed by  the  getopts
              command.

       OPTIND <S>
              The  index  of the last option argument processed by the getopts
              command.

       OSTYPE The operating system, as determined at compile time.

       PPID <S>
              The process ID of the parent of the shell.  As for $$, the value
              indicates  the  parent of the original shell and does not change
              in subshells.

       PWD    The present working directory.  This is set when the shell  ini-
              tializes and whenever the directory changes.

       RANDOM <S>
              A  pseudo-random  integer  from 0 to 32767, newly generated each
              time this parameter is referenced.  The random number  generator
              can be seeded by assigning a numeric value to RANDOM.

              The   values   of   RANDOM   form   an  intentionally-repeatable
              pseudo-random sequence; subshells  that  reference  RANDOM  will
              result  in  identical  pseudo-random  values unless the value of
              RANDOM is referenced or seeded in the parent  shell  in  between
              subshell invocations.

       SECONDS <S>
              The number of seconds since shell invocation.  If this parameter
              is assigned a value, then the value returned upon reference will
              be  the value that was assigned plus the number of seconds since
              the assignment.

              Unlike other special parameters, the type of the SECONDS parame-
              ter  can be changed using the typeset command.  Only integer and
              one of the floating  point  types  are  allowed.   For  example,
              `typeset -F SECONDS' causes the value to be reported as a float-
              ing point number.  The precision is six decimal places, although
              not all places may be useful.

       SHLVL <S>
              Incremented by one each time a new shell is started.

       signals
              An array containing the names of the signals.

       TRY_BLOCK_ERROR <S>
              In an always block, indicates whether the preceding list of code
              caused an error.  The value is 1 to indicate an error, 0  other-
              wise.   It may be reset, clearing the error condition.  See Com-
              plex Commands in zshmisc(1)

       TTY    The name of the tty associated with the shell, if any.

       TTYIDLE <S>
              The idle time of the tty associated with the shell in seconds or
              -1 if there is no such tty.

       UID <S>
              The  real  user ID of the shell process.  If you have sufficient
              privileges, you may change the user ID of the shell by assigning
              to  this  parameter.  Also (assuming sufficient privileges), you
              may start  a  single  command  under  a  different  user  ID  by
              `(UID=uid; command)'

       USERNAME <S>
              The  username  corresponding  to  the  real user ID of the shell
              process.  If you have sufficient privileges, you may change  the
              username  (and  also  the  user ID and group ID) of the shell by
              assigning to this parameter.  Also (assuming  sufficient  privi-
              leges),  you  may start a single command under a different user-
              name (and user ID and group  ID)  by  `(USERNAME=username;  com-
              mand)'

       VENDOR The vendor, as determined at compile time.

       ZSH_NAME
              Expands  to  the  basename  of  the  command used to invoke this
              instance of zsh.

       ZSH_VERSION
              The version number of this zsh.


PARAMETERS USED BY THE SHELL

       The following parameters are used by the shell.

       In cases where there are two parameters with an  upper-  and  lowercase
       form  of the same name, such as path and PATH, the lowercase form is an
       array and the uppercase form is a scalar with the elements of the array
       joined  together  by colons.  These are similar to tied parameters cre-
       ated via `typeset -T'.  The normal use for the colon-separated form  is
       for  exporting  to  the  environment, while the array form is easier to
       manipulate within the shell.  Note that unsetting either  of  the  pair
       will  unset the other; they retain their special properties when recre-
       ated, and recreating one of the pair will recreate the other.

       ARGV0  If exported, its value is used as the argv[0] of  external  com-
              mands.  Usually used in constructs like `ARGV0=emacs nethack'.

       BAUD   The  rate in bits per second at which data reaches the terminal.
              The line editor will use this value in order to compensate for a
              slow  terminal  by  delaying updates to the display until neces-
              sary.  If the parameter is unset or the value is zero  the  com-
              pensation  mechanism is turned off.  The parameter is not set by
              default.

              This parameter may be profitably set in some circumstances, e.g.
              for  slow  modems  dialing into a communications server, or on a
              slow wide area network.  It should be set to the  baud  rate  of
              the slowest part of the link for best performance.

       cdpath <S> <Z> (CDPATH <S>)
              An  array  (colon-separated  list) of directories specifying the
              search path for the cd command.

       COLUMNS <S>
              The number of columns  for  this  terminal  session.   Used  for
              printing select lists and for the line editor.

       DIRSTACKSIZE
              The  maximum  size  of  the  directory stack.  If the stack gets
              larger than this, it will be truncated automatically.   This  is
              useful with the AUTO_PUSHD option.

       ENV    If the ENV environment variable is set when zsh is invoked as sh
              or ksh, $ENV is sourced after the profile scripts.  The value of
              ENV  is  subjected to parameter expansion, command substitution,
              and arithmetic expansion before being interpreted as a pathname.
              Note that ENV is not used unless zsh is emulating sh or ksh.

       FCEDIT The  default  editor  for the fc builtin.  If FCEDIT is not set,
              the parameter EDITOR is used; if  that  is  not  set  either,  a
              builtin default, usually vi, is used.

       fignore <S> <Z> (FIGNORE <S>)
              An array (colon separated list) containing the suffixes of files
              to be ignored during filename completion.  However,  if  comple-
              tion only generates files with suffixes in this list, then these
              files are completed anyway.

       fpath <S> <Z> (FPATH <S>)
              An array (colon separated list) of  directories  specifying  the
              search  path  for  function  definitions.  This path is searched
              when a function with the -u attribute is referenced.  If an exe-
              cutable  file is found, then it is read and executed in the cur-
              rent environment.

       histchars <S>
              Three characters used by the shell's history and lexical  analy-
              sis  mechanism.  The first character signals the start of a his-
              tory expansion (default `!').  The second character signals  the
              start  of a quick history substitution (default `^').  The third
              character is the comment character (default `#').

              The characters must be in the ASCII character set;  any  attempt
              to  set  histchars to characters with a locale-dependent meaning
              will be rejected with an error message.

       HISTCHARS <S> <Z>
              Same as histchars.  (Deprecated.)

       HISTFILE
              The file to save the history in when an interactive shell exits.
              If unset, the history is not saved.

       HISTSIZE <S>
              The  maximum  number  of  events  stored in the internal history
              list.  If you use  the  HIST_EXPIRE_DUPS_FIRST  option,  setting
              this  value larger than the SAVEHIST size will give you the dif-
              ference as a cushion for saving duplicated history events.

       HOME <S>
              The default argument for the cd command.  This is not set  auto-
              matically  by  the  shell in sh, ksh or csh emulation, but it is
              typically present in the environment anyway, and if  it  becomes
              set it has its usual special behaviour.

       IFS <S>
              Internal  field  separators  (by default space, tab, newline and
              NUL), that are used to separate words which result from  command
              or  parameter expansion and words read by the read builtin.  Any
              characters from the set space, tab and newline  that  appear  in
              the IFS are called IFS white space.  One or more IFS white space
              characters or one non-IFS white space  character  together  with
              any  adjacent  IFS white space character delimit a field.  If an
              IFS white space character appears  twice  consecutively  in  the
              IFS,  this  character  is treated as if it were not an IFS white
              space character.

       KEYTIMEOUT
              The time the shell waits, in hundredths of seconds, for  another
              key  to be pressed when reading bound multi-character sequences.

       LANG <S>
              This variable determines the locale category  for  any  category
              not specifically selected via a variable starting with `LC_'.

       LC_ALL <S>
              This variable overrides the value of the `LANG' variable and the
              value of any of the other variables starting with `LC_'.

       LC_COLLATE <S>
              This variable determines the locale category for character  col-
              lation  information within ranges in glob brackets and for sort-
              ing.

       LC_CTYPE <S>
              This variable determines the locale category for character  han-
              dling functions.

       LC_MESSAGES <S>
              This  variable  determines the language in which messages should
              be written.  Note that zsh does not use message catalogs.

       LC_NUMERIC <S>
              This variable affects the decimal point character and  thousands
              separator character for the formatted input/output functions and
              string conversion functions.  Note that zsh ignores this setting
              when parsing floating point mathematical expressions.

       LC_TIME <S>
              This  variable  determines the locale category for date and time
              formatting in prompt escape sequences.

       LINES <S>
              The number of lines for this terminal session.  Used for  print-
              ing select lists and for the line editor.

       LISTMAX
              In the line editor, the number of matches to list without asking
              first. If the value is negative, the list will be  shown  if  it
              spans  at most as many lines as given by the absolute value.  If
              set to zero, the shell asks only if the top of the listing would
              scroll off the screen.

       LOGCHECK
              The interval in seconds between checks for login/logout activity
              using the watch parameter.

       MAIL   If this parameter is set and mailpath  is  not  set,  the  shell
              looks for mail in the specified file.

       MAILCHECK
              The interval in seconds between checks for new mail.

       mailpath <S> <Z> (MAILPATH <S>)
              An  array  (colon-separated  list) of filenames to check for new
              mail.  Each filename can be followed by a `?' and a message that
              will  be printed.  The message will undergo parameter expansion,
              command substitution and arithmetic expansion with the  variable
              $_  defined  as  the  name  of  the  file that has changed.  The
              default message is `You have new mail'.   If  an  element  is  a
              directory  instead  of  a  file the shell will recursively check
              every file in every subdirectory of the element.

       manpath <S> <Z> (MANPATH <S> <Z>)
              An array (colon-separated list) whose value is not used  by  the
              shell.   The manpath array can be useful, however, since setting
              it also sets MANPATH, and vice versa.

       module_path <S> <Z> (MODULE_PATH <S>)
              An array (colon-separated list)  of  directories  that  zmodload
              searches  for dynamically loadable modules.  This is initialized
              to a standard  pathname,  usually  `/usr/local/lib/zsh/$ZSH_VER-
              SION'.   (The  `/usr/local/lib' part varies from installation to
              installation.)  For security reasons, any value set in the envi-
              ronment when the shell is started will be ignored.

              These parameters only exist if the installation supports dynamic
              module loading.

       NULLCMD <S>
              The command name to assume if a redirection is specified with no
              command.   Defaults to cat.  For sh/ksh behavior, change this to
              :.  For csh-like behavior, unset this parameter; the shell  will
              print an error message if null commands are entered.

       path <S> <Z> (PATH <S>)
              An  array  (colon-separated  list)  of directories to search for
              commands.  When this parameter is set, each directory is scanned
              and all files found are put in a hash table.

       POSTEDIT <S>
              This  string  is output whenever the line editor exits.  It usu-
              ally contains termcap strings to reset the terminal.

       PROMPT <S> <Z>
       PROMPT2 <S> <Z>
       PROMPT3 <S> <Z>
       PROMPT4 <S> <Z>
              Same as PS1, PS2, PS3 and PS4, respectively.

       prompt <S> <Z>
              Same as PS1.

       PS1 <S>
              The primary prompt string, printed before  a  command  is  read.
              the  default  is `%m%# '.  It undergoes a special form of expan-
              sion before being displayed; see the section `Prompt Expansion'.

       PS2 <S>
              The secondary prompt, printed when the shell needs more informa-
              tion to complete a command.  It is expanded in the same  way  as
              PS1.  The default is `%_> ', which displays any shell constructs
              or quotation marks which are currently being processed.

       PS3 <S>
              Selection prompt used within a select loop.  It is  expanded  in
              the same way as PS1.  The default is `?# '.

       PS4 <S>
              The  execution  trace prompt.  Default is `+%N:%i> ', which dis-
              plays the name of the current shell structure and the line  num-
              ber within it.  In sh or ksh emulation, the default is `+ '.

       psvar <S> <Z> (PSVAR <S>)
              An  array  (colon-separated list) whose first nine values can be
              used in PROMPT strings.  Setting psvar also sets PSVAR, and vice
              versa.

       READNULLCMD <S>
              The  command  name  to  assume  if a single input redirection is
              specified with no command.  Defaults to more.

       REPORTTIME
              If nonnegative, commands whose combined user and  system  execu-
              tion  times  (measured  in  seconds) are greater than this value
              have timing statistics printed for them.

       REPLY  This parameter is reserved by convention to pass  string  values
              between  shell  scripts and shell builtins in situations where a
              function call or redirection are impossible or undesirable.  The
              read  builtin  and the select complex command may set REPLY, and
              filename generation both sets and examines its value when evalu-
              ating  certain  expressions.  Some modules also employ REPLY for
              similar purposes.

       reply  As REPLY, but for array values rather than strings.

       RPROMPT <S>
       RPS1 <S>
              This prompt is displayed on the right-hand side  of  the  screen
              when  the  primary  prompt is being displayed on the left.  This
              does not work  if  the  SINGLELINEZLE  option  is  set.   It  is
              expanded in the same way as PS1.

       RPROMPT2 <S>
       RPS2 <S>
              This  prompt  is  displayed on the right-hand side of the screen
              when the secondary prompt is being displayed on the left.   This
              does  not  work  if  the  SINGLELINEZLE  option  is  set.  It is
              expanded in the same way as PS2.

       SAVEHIST
              The maximum number of history events  to  save  in  the  history
              file.

       SPROMPT <S>
              The  prompt  used  for  spelling  correction.  The sequence `%R'
              expands to the string which presumably  needs  spelling  correc-
              tion,  and  `%r'  expands to the proposed correction.  All other
              prompt escapes are also allowed.

       STTY   If this parameter is set in a command's environment,  the  shell
              runs  the stty command with the value of this parameter as argu-
              ments in order to set up the terminal before executing the  com-
              mand. The modes apply only to the command, and are reset when it
              finishes or is suspended. If the command is suspended  and  con-
              tinued  later with the fg or wait builtins it will see the modes
              specified by STTY, as if it were not  suspended.   This  (inten-
              tionally)  does  not apply if the command is continued via `kill
              -CONT'.  STTY is ignored if the command  is  run  in  the  back-
              ground,  or  if  it  is  in the environment of the shell but not
              explicitly assigned to in the input line.  This  avoids  running
              stty  at  every  external  command by accidentally exporting it.
              Also note that STTY should not be used for window size  specifi-
              cations; these will not be local to the command.

       TERM <S>
              The type of terminal in use.  This is used when looking up term-
              cap sequences.  An assignment to TERM causes zsh to  re-initial-
              ize  the  terminal,  even  if  the  value does not change (e.g.,
              `TERM=$TERM').  It is necessary to make such an assignment  upon
              any  change to the terminal definition database or terminal type
              in order for the new settings to take effect.

       TIMEFMT
              The format of process time reports with the time  keyword.   The
              default is `%E real  %U user  %S system  %P %J'.  Recognizes the
              following escape sequences, although not all may be available on
              all systems, and some that are available may not be useful:

              %%     A `%'.
              %U     CPU seconds spent in user mode.
              %S     CPU seconds spent in kernel mode.
              %E     Elapsed time in seconds.
              %P     The CPU percentage, computed as (100*%U+%S)/%E.
              %W     Number of times the process was swapped.
              %X     The average amount in (shared) text space used in Kbytes.
              %D     The average amount in (unshared) data/stack space used in
                     Kbytes.
              %K     The total space used (%X+%D) in Kbytes.
              %M     The  maximum memory the process had in use at any time in
                     Kbytes.
              %F     The number of  major  page  faults  (page  needed  to  be
                     brought from disk).
              %R     The number of minor page faults.
              %I     The number of input operations.
              %O     The number of output operations.
              %r     The number of socket messages received.
              %s     The number of socket messages sent.
              %k     The number of signals received.
              %w     Number of voluntary context switches (waits).
              %c     Number of involuntary context switches.
              %J     The name of this job.

              A star may be inserted between the percent sign and flags print-
              ing time.  This cause the time to be printed  in  `hh:mm:ss.ttt'
              format  (hours  and  minutes  are  only  printed if they are not
              zero).

       TMOUT  If this parameter is nonzero, the shell  will  receive  an  ALRM
              signal  if  a command is not entered within the specified number
              of seconds after issuing  a  prompt.  If  there  is  a  trap  on
              SIGALRM,  it will be executed and a new alarm is scheduled using
              the value of the TMOUT parameter after executing the  trap.   If
              no  trap  is  set, and the idle time of the terminal is not less
              than the value of the TMOUT parameter, zsh  terminates.   Other-
              wise  a  new  alarm is scheduled to TMOUT seconds after the last
              keypress.

       TMPPREFIX
              A pathname prefix which the shell will  use  for  all  temporary
              files.   Note  that  this should include an initial part for the
              file name as well  as  any  directory  names.   The  default  is
              `/tmp/zsh'.

       watch <S> <Z> (WATCH <S>)
              An  array  (colon-separated  list)  of  login/logout  events  to
              report.   If  it  contains  the  single  word  `all',  then  all
              login/logout  events  are  reported.   If it contains the single
              word `notme', then all events are reported as with `all'  except
              $USERNAME.   An entry in this list may consist of a username, an
              `@' followed by a remote hostname, and a `%' followed by a  line
              (tty).   Any  or  all  of  these components may be present in an
              entry; if a login/logout  event  matches  all  of  them,  it  is
              reported.

       WATCHFMT
              The  format  of  login/logout  reports if the watch parameter is
              set.  Default is `%n has %a %l from %m'.  Recognizes the follow-
              ing escape sequences:

              %n     The name of the user that logged in/out.

              %a     The observed action, i.e. "logged on" or "logged off".

              %l     The line (tty) the user is logged in on.

              %M     The full hostname of the remote host.

              %m     The hostname up to the first `.'.  If only the IP address
                     is available or the utmp field contains the  name  of  an
                     X-windows display, the whole name is printed.

                     NOTE:  The  `%m' and `%M' escapes will work only if there
                     is a host name field in the utmp on your machine.  Other-
                     wise they are treated as ordinary strings.

              %S (%s)
                     Start (stop) standout mode.

              %U (%u)
                     Start (stop) underline mode.

              %B (%b)
                     Start (stop) boldface mode.

              %t
              %@     The time, in 12-hour, am/pm format.

              %T     The time, in 24-hour format.

              %w     The date in `day-dd' format.

              %W     The date in `mm/dd/yy' format.

              %D     The date in `yy-mm-dd' format.

              %(x:true-text:false-text)
                     Specifies  a ternary expression.  The character following
                     the x is arbitrary; the same character is used  to  sepa-
                     rate  the  text  for  the "true" result from that for the
                     "false" result.  Both the separator and the right  paren-
                     thesis  may be escaped with a backslash.  Ternary expres-
                     sions may be nested.

                     The test character x may be any one of `l', `n',  `m'  or
                     `M',  which indicate a `true' result if the corresponding
                     escape sequence would return a non-empty value; or it may
                     be  `a',  which  indicates a `true' result if the watched
                     user has logged in, or `false'  if  he  has  logged  out.
                     Other  characters evaluate to neither true nor false; the
                     entire expression is omitted in this case.

                     If the result is `true', then the true-text is  formatted
                     according  to  the  rules  above  and  printed,  and  the
                     false-text is skipped.   If  `false',  the  true-text  is
                     skipped  and  the  false-text  is  formatted and printed.
                     Either or both of the branches may  be  empty,  but  both
                     separators must be present in any case.

       WORDCHARS <S>
              A  list of non-alphanumeric characters considered part of a word
              by the line editor.

       ZBEEP  If set, this gives a string of characters, which can use all the
              same  codes  as  the bindkey command as described in the zsh/zle
              module entry in zshmodules(1), that will be output to the termi-
              nal  instead  of beeping.  This may have a visible instead of an
              audible effect; for example,  the  string  `\e[?5h\e[?5l'  on  a
              vt100 or xterm will have the effect of flashing reverse video on
              and off (if you usually use reverse video, you  should  use  the
              string  `\e[?5l\e[?5h' instead).  This takes precedence over the
              NOBEEP option.

       ZDOTDIR
              The directory to search for shell startup files  (.zshrc,  etc),
              if not $HOME.

ZSHOPTIONS(1)                                                    ZSHOPTIONS(1)


NAME

       zshoptions - zsh options


SPECIFYING OPTIONS

       Options are primarily referred to by name.  These names are case insen-
       sitive and underscores are ignored.  For example, `allexport' is equiv-
       alent to `A__lleXP_ort'.

       The  sense of an option name may be inverted by preceding it with `no',
       so `setopt No_Beep' is equivalent to `unsetopt beep'.   This  inversion
       can only be done once, so `nonobeep' is not a synonym for `beep'.  Sim-
       ilarly, `tify' is not  a  synonym  for  `nonotify'  (the  inversion  of
       `notify').

       Some  options also have one or more single letter names.  There are two
       sets of single letter options: one used by default, and another used to
       emulate  sh/ksh  (used  when the SH_OPTION_LETTERS option is set).  The
       single letter options can be used on the shell command  line,  or  with
       the  set, setopt and unsetopt builtins, as normal Unix options preceded
       by `-'.

       The sense of the single letter options may be  inverted  by  using  `+'
       instead  of  `-'.   Some  of the single letter option names refer to an
       option being off, in which case the inversion of that  name  refers  to
       the  option  being  on.  For example, `+n' is the short name of `exec',
       and `-n' is the short name of its inversion, `noexec'.

       In strings of single letter options supplied to the shell  at  startup,
       trailing  whitespace  will  be ignored; for example the string `-f    '
       will be treated just as `-f', but the string `-f i' is an error.   This
       is  because many systems which implement the `#!' mechanism for calling
       scripts do not strip trailing whitespace.


DESCRIPTION OF OPTIONS

       In the following list, options set by default  in  all  emulations  are
       marked  <D>;  those  set by default only in csh, ksh, sh, or zsh emula-
       tions are marked <C>, <K>,  <S>,  <Z>  as  appropriate.   When  listing
       options  (by  `setopt', `unsetopt', `set -o' or `set +o'), those turned
       on by default appear in the list prefixed  with  `no'.   Hence  (unless
       KSH_OPTION_PRINT is set), `setopt' shows all options whose settings are
       changed from the default.

   Changing Directories
       AUTO_CD (-J)
              If a command is issued that can't be executed as a  normal  com-
              mand, and the command is the name of a directory, perform the cd
              command to that directory.

       AUTO_PUSHD (-N)
              Make cd push the old directory onto the directory stack.

       CDABLE_VARS (-T)
              If the argument to a cd command  (or  an  implied  cd  with  the
              AUTO_CD  option set) is not a directory, and does not begin with
              a slash, try to expand the expression as if it were preceded  by
              a `~' (see the section `Filename Expansion').

       CHASE_DOTS
              When  changing  to  a  directory  containing a path segment `..'
              which would otherwise be treated as canceling the previous  seg-
              ment in the path (in other words, `foo/..' would be removed from
              the path, or if `..' is the first part of  the  path,  the  last
              part  of $PWD would be deleted), instead resolve the path to the
              physical directory.  This option is overridden by CHASE_LINKS.

              For example,  suppose  /foo/bar  is  a  link  to  the  directory
              /alt/rod.   Without this option set, `cd /foo/bar/..' changes to
              /foo; with it set, it changes to /alt.  The same applies if  the
              current  directory  is  /foo/bar and `cd ..' is used.  Note that
              all other symbolic links in the path will also be resolved.

       CHASE_LINKS (-w)
              Resolve symbolic links to their true values when changing direc-
              tory.   This also has the effect of CHASE_DOTS, i.e. a `..' path
              segment will be treated as referring  to  the  physical  parent,
              even if the preceding path segment is a symbolic link.

       PUSHD_IGNORE_DUPS
              Don't push multiple copies of the same directory onto the direc-
              tory stack.

       PUSHD_MINUS
              Exchanges the meanings of `+' and `-' when used with a number to
              specify a directory in the stack.

       PUSHD_SILENT (-E)
              Do not print the directory stack after pushd or popd.

       PUSHD_TO_HOME (-D)
              Have pushd with no arguments act like `pushd $HOME'.

   Completion
       ALWAYS_LAST_PROMPT <D>
              If  unset,  key functions that list completions try to return to
              the last prompt if given a numeric argument. If set these  func-
              tions try to return to the last prompt if given no numeric argu-
              ment.

       ALWAYS_TO_END
              If a completion is performed with the cursor within a word,  and
              a full completion is inserted, the cursor is moved to the end of
              the word.  That is, the cursor is moved to the end of  the  word
              if  either a single match is inserted or menu completion is per-
              formed.

       AUTO_LIST (-9) <D>
              Automatically list choices on an ambiguous completion.

       AUTO_MENU <D>
              Automatically use menu completion after the  second  consecutive
              request  for  completion,  for  example  by pressing the tab key
              repeatedly. This option is overridden by MENU_COMPLETE.

       AUTO_NAME_DIRS
              Any parameter that is set to the absolute name  of  a  directory
              immediately becomes a name for that directory, that will be used
              by the `%~' and related prompt sequences, and will be  available
              when completion is performed on a word starting with `~'.  (Oth-
              erwise, the parameter must be used in the form `~param'  first.)

       AUTO_PARAM_KEYS <D>
              If  a  parameter  name  was  completed and a following character
              (normally a space) automatically inserted, and the next  charac-
              ter  typed  is one of those that have to come directly after the
              name (like `}', `:', etc.), the automatically added character is
              deleted, so that the character typed comes immediately after the
              parameter name.  Completion in a  brace  expansion  is  affected
              similarly:  the  added character is a `,', which will be removed
              if `}' is typed next.

       AUTO_PARAM_SLASH <D>
              If a parameter is completed whose  content  is  the  name  of  a
              directory, then add a trailing slash instead of a space.

       AUTO_REMOVE_SLASH <D>
              When  the  last character resulting from a completion is a slash
              and the next character typed is a word delimiter, a slash, or  a
              character  that ends a command (such as a semicolon or an amper-
              sand), remove the slash.

       BASH_AUTO_LIST
              On an ambiguous completion, automatically list choices when  the
              completion  function  is called twice in succession.  This takes
              precedence over AUTO_LIST.  The  setting  of  LIST_AMBIGUOUS  is
              respected.   If  AUTO_MENU  is set, the menu behaviour will then
              start with the third press.  Note that this will not  work  with
              MENU_COMPLETE, since repeated completion calls immediately cycle
              through the list in that case.

       COMPLETE_ALIASES
              Prevents aliases on the command line from being internally  sub-
              stituted  before completion is attempted.  The effect is to make
              the alias a distinct command for completion purposes.

       COMPLETE_IN_WORD
              If unset, the cursor is set to the end of the word if completion
              is started. Otherwise it stays there and completion is done from
              both ends.

       GLOB_COMPLETE
              When the current word has a glob pattern, do not insert all  the
              words  resulting  from the expansion but generate matches as for
              completion  and  cycle  through  them  like  MENU_COMPLETE.  The
              matches  are  generated  as if a `*' was added to the end of the
              word, or inserted at the cursor when  COMPLETE_IN_WORD  is  set.
              This  actually  uses pattern matching, not globbing, so it works
              not only for files but for any completion, such as options, user
              names, etc.

              Note  that  when  the  pattern matcher is used, matching control
              (for example, case-insensitive or anchored matching)  cannot  be
              used.   This  limitation only applies when the current word con-
              tains a pattern; simply turning on the GLOB_COMPLETE option does
              not have this effect.

       HASH_LIST_ALL <D>
              Whenever a command completion is attempted, make sure the entire
              command path is hashed first.  This makes the  first  completion
              slower.

       LIST_AMBIGUOUS <D>
              This  option works when AUTO_LIST or BASH_AUTO_LIST is also set.
              If there is an unambiguous prefix to insert on the command line,
              that is done without a completion list being displayed; in other
              words, auto-listing behaviour  only  takes  place  when  nothing
              would  be  inserted.   In the case of BASH_AUTO_LIST, this means
              that the list will be delayed to the third call of the function.

       LIST_BEEP <D>
              Beep  on  an ambiguous completion.  More accurately, this forces
              the completion widgets to return status 1 on an  ambiguous  com-
              pletion,  which  causes  the shell to beep if the option BEEP is
              also set; this may be modified if completion is  called  from  a
              user-defined widget.

       LIST_PACKED
              Try  to  make the completion list smaller (occupying less lines)
              by printing the matches in columns with different widths.

       LIST_ROWS_FIRST
              Lay out the matches in  completion  lists  sorted  horizontally,
              that  is, the second match is to the right of the first one, not
              under it as usual.

       LIST_TYPES (-X) <D>
              When listing files that are possible completions, show the  type
              of each file with a trailing identifying mark.

       MENU_COMPLETE (-Y)
              On  an ambiguous completion, instead of listing possibilities or
              beeping, insert the first match immediately.  Then when  comple-
              tion  is  requested again, remove the first match and insert the
              second match, etc.  When there are no more matches, go  back  to
              the  first one again.  reverse-menu-complete may be used to loop
              through the list in the other direction. This  option  overrides
              AUTO_MENU.

       REC_EXACT (-S)
              In  completion, recognize exact matches even if they are ambigu-
              ous.

   Expansion and Globbing
       BAD_PATTERN (+2) <C> <Z>
              If a pattern for filename generation is badly formed,  print  an
              error  message.   (If  this option is unset, the pattern will be
              left unchanged.)

       BARE_GLOB_QUAL <Z>
              In a glob pattern, treat a trailing  set  of  parentheses  as  a
              qualifier  list,  if it contains no `|', `(' or (if special) `~'
              characters.  See the section `Filename Generation'.

       BRACE_CCL
              Expand expressions in braces which would not  otherwise  undergo
              brace  expansion  to a lexically ordered list of all the charac-
              ters.  See the section `Brace Expansion'.

       CASE_GLOB <D>
              Make globbing (filename generation)  sensitive  to  case.   Note
              that  other  uses  of patterns are always sensitive to case.  If
              the option is unset, the presence of any character which is spe-
              cial  to  filename generation will cause case-insensitive match-
              ing.  For example, cvs(/) can match the directory CVS  owing  to
              the   presence   of   the   globbing  flag  (unless  the  option
              BARE_GLOB_QUAL is unset).

       CSH_NULL_GLOB <C>
              If a pattern for filename generation has no matches, delete  the
              pattern  from  the  argument list; do not report an error unless
              all the patterns  in  a  command  have  no  matches.   Overrides
              NOMATCH.

       EQUALS <Z>
              Perform = filename expansion.  (See the section `Filename Expan-
              sion'.)

       EXTENDED_GLOB
              Treat the `#', `~' and `^' characters as part  of  patterns  for
              filename  generation, etc.  (An initial unquoted `~' always pro-
              duces named directory expansion.)

       GLOB (+F, ksh: +f) <D>
              Perform filename generation (globbing).  (See the section `File-
              name Generation'.)

       GLOB_ASSIGN <C>
              If  this  option  is set, filename generation (globbing) is per-
              formed on the right hand side of scalar parameter assignments of
              the  form  `name=pattern (e.g. `foo=*').  If the result has more
              than one word the parameter will  become  an  array  with  those
              words  as  arguments. This option is provided for backwards com-
              patibility only: globbing is always performed on the right  hand
              side  of  array  assignments  of  the  form `name=(value)' (e.g.
              `foo=(*)') and this form is recommended for clarity;  with  this
              option  set,  it  is  not possible to predict whether the result
              will be an array or a scalar.

       GLOB_DOTS (-4)
              Do not require a leading `.' in a filename to be matched explic-
              itly.

       GLOB_SUBST <C> <K> <S>
              Treat any characters resulting from parameter expansion as being
              eligible for file expansion and  filename  generation,  and  any
              characters resulting from command substitution as being eligible
              for filename generation.  Braces (and commas in between) do  not
              become eligible for expansion.

       HIST_SUBST_PATTERN
              Substitutions  using  the  :s  and :& history modifiers are per-
              formed with pattern matching instead of string  matching.   This
              occurs  wherever  history  modifiers  are  valid, including glob
              qualifiers and parameters.  See the section  Modifiers  in  zsh-
              exp(1).

       IGNORE_BRACES (-I) <S>
              Do not perform brace expansion.

       KSH_GLOB <K>
              In  pattern  matching,  the  interpretation  of  parentheses  is
              affected by a preceding `@', `*', `+', `?' or `!'.  See the sec-
              tion `Filename Generation'.

       MAGIC_EQUAL_SUBST
              All unquoted arguments of the form `anything=expression' appear-
              ing after the command name have  filename  expansion  (that  is,
              where  expression has a leading `~' or `=') performed on expres-
              sion as if it were a parameter assignment.  The argument is  not
              otherwise  treated  specially;  it is passed to the command as a
              single argument, and not used as an actual parameter assignment.
              For  example,  in  echo  foo=~/bar:~/rod,  both occurrences of ~
              would be replaced.  Note that this happens anyway  with  typeset
              and similar statements.

              This  option respects the setting of the KSH_TYPESET option.  In
              other words, if both options are in  effect,  arguments  looking
              like assignments will not undergo wordsplitting.

       MARK_DIRS (-8, ksh: -X)
              Append  a  trailing  `/'  to  all directory names resulting from
              filename generation (globbing).

       MULTIBYTE
              Respect multibyte characters when found in strings.   When  this
              option  is set, strings are examined using the system library to
              determine how many bytes form a character, depending on the cur-
              rent  locale.   This  affects  the way characters are counted in
              pattern matching, parameter values and various delimiters.

              The option is on by default  if  the  shell  was  compiled  with
              MULTIBYTE_SUPPORT;  otherwise  it  is  off by default and has no
              effect if turned on.

              If the option is off a single byte is always treated as a single
              character.   This  setting  is  designed  purely  for  examining
              strings known to contain raw bytes or other values that may  not
              be  characters  in  the  current locale.  It is not necessary to
              unset the option merely because the character set for  the  cur-
              rent locale does not contain multibyte characters.

              The  option  does  not  affect the shell's editor,  which always
              uses the locale to  determine  multibyte  characters.   This  is
              because  the character set displayed by the terminal emulator is
              independent of shell settings.

       NOMATCH (+3) <C> <Z>
              If a pattern for filename generation has no  matches,  print  an
              error,  instead  of  leaving  it unchanged in the argument list.
              This also applies to file expansion of an initial `~' or `='.

       NULL_GLOB (-G)
              If a pattern for filename generation has no matches, delete  the
              pattern  from  the  argument list instead of reporting an error.
              Overrides NOMATCH.

       NUMERIC_GLOB_SORT
              If numeric filenames are matched by a filename  generation  pat-
              tern,  sort  the filenames numerically rather than lexicographi-
              cally.

       RC_EXPAND_PARAM (-P)
              Array expansions of the form `foo${xx}bar', where the  parameter
              xx  is  set  to  (a  b c), are substituted with `fooabar foobbar
              foocbar' instead of the default `fooa b cbar'.

       SH_GLOB <K> <S>
              Disables the special meaning of `(', `|', `)' and '<' for  glob-
              bing  the  result of parameter and command substitutions, and in
              some other places where the shell accepts patterns.  This option
              is set by default if zsh is invoked as sh or ksh.

       UNSET (+u, ksh: +u) <K> <S> <Z>
              Treat  unset parameters as if they were empty when substituting.
              Otherwise they are treated as an error.

       WARN_CREATE_GLOBAL
              Print a warning message when a global parameter is created in  a
              function  by an assignment.  This often indicates that a parame-
              ter has not been  declared  local  when  it  should  have  been.
              Parameters  explicitly  declared  global  from within a function
              using typeset -g do not cause a warning.  Note that there is  no
              warning  when a local parameter is assigned to in a nested func-
              tion, which may also indicate an error.

   History
       APPEND_HISTORY <D>
              If this is set, zsh sessions will append their history  list  to
              the  history file, rather than replace it. Thus, multiple paral-
              lel zsh sessions will all have the new entries from  their  his-
              tory  lists  added  to  the history file, in the order that they
              exit.  The file will still be periodically re-written to trim it
              when the number of lines grows 20% beyond the value specified by
              $SAVEHIST (see also the HIST_SAVE_BY_COPY option).

       BANG_HIST (+K) <C> <Z>
              Perform textual history expansion, csh-style, treating the char-
              acter `!' specially.

       EXTENDED_HISTORY <C>
              Save  each  command's  beginning timestamp (in seconds since the
              epoch) and the duration (in seconds) to the history  file.   The
              format of this prefixed data is:

              `:<beginning time>:<elapsed seconds>:<command>'.

       HIST_ALLOW_CLOBBER
              Add `|' to output redirections in the history.  This allows his-
              tory references to clobber files even when CLOBBER is unset.

       HIST_BEEP <D>
              Beep when an attempt is made to access  a  history  entry  which
              isn't there.

       HIST_EXPIRE_DUPS_FIRST
              If  the  internal history needs to be trimmed to add the current
              command line, setting this option will cause the oldest  history
              event  that  has  a  duplicate to be lost before losing a unique
              event from the list.  You should be sure to  set  the  value  of
              HISTSIZE  to  a larger number than SAVEHIST in order to give you
              some room for the duplicated events, otherwise this option  will
              behave  just like HIST_IGNORE_ALL_DUPS once the history fills up
              with unique events.

       HIST_FIND_NO_DUPS
              When searching for history entries in the line  editor,  do  not
              display  duplicates  of  a  line  previously  found, even if the
              duplicates are not contiguous.

       HIST_IGNORE_ALL_DUPS
              If a new command line being added to the history list duplicates
              an  older  one, the older command is removed from the list (even
              if it is not the previous event).

       HIST_IGNORE_DUPS (-h)
              Do not enter command lines into the history  list  if  they  are
              duplicates of the previous event.

       HIST_IGNORE_SPACE (-g)
              Remove  command lines from the history list when the first char-
              acter on the line is a  space,  or  when  one  of  the  expanded
              aliases contains a leading space.  Note that the command lingers
              in the internal history until the next command is entered before
              it vanishes, allowing you to briefly reuse or edit the line.  If
              you want to make it vanish right away without  entering  another
              command, type a space and press return.

       HIST_NO_FUNCTIONS
              Remove  function  definitions  from the history list.  Note that
              the function lingers in the internal history until the next com-
              mand  is entered before it vanishes, allowing you to briefly re-
              use or edit the definition.

       HIST_NO_STORE
              Remove the history (fc -l) command from the  history  list  when
              invoked.   Note that the command lingers in the internal history
              until the next command is entered before it  vanishes,  allowing
              you to briefly reuse or edit the line.

       HIST_REDUCE_BLANKS
              Remove  superfluous blanks from each command line being added to
              the history list.

       HIST_SAVE_BY_COPY <D>
              When the history file is re-written, we  normally  write  out  a
              copy of the file named $HISTFILE.new and then rename it over the
              old one.  However, if this option is unset, we instead  truncate
              the old history file and write out the new version in-place.  If
              one of the history-appending options  is  enabled,  this  option
              only  has  an  effect when the enlarged history file needs to be
              re-written to trim it down to size.  Disable this  only  if  you
              have  special  needs, as doing so makes it possible to lose his-
              tory entries if zsh gets interrupted during the save.

              When writing out a copy of the history file, zsh  preserves  the
              old file's permissions and group information, but will refuse to
              write out a new file if  it  would  change  the  history  file's
              owner.

       HIST_SAVE_NO_DUPS
              When writing out the history file, older commands that duplicate
              newer ones are omitted.

       HIST_VERIFY
              Whenever the user enters a line with  history  expansion,  don't
              execute  the  line  directly; instead, perform history expansion
              and reload the line into the editing buffer.

       INC_APPEND_HISTORY
              This options works like APPEND_HISTORY except that  new  history
              lines  are added to the $HISTFILE incrementally (as soon as they
              are entered), rather than waiting until the  shell  exits.   The
              file  will  still be periodically re-written to trim it when the
              number of lines grows 20% beyond the value specified  by  $SAVE-
              HIST (see also the HIST_SAVE_BY_COPY option).

       SHARE_HISTORY <K>

              This option both imports new commands from the history file, and
              also causes your typed commands to be appended  to  the  history
              file  (the  latter  is like specifying INC_APPEND_HISTORY).  The
              history lines are also output with timestamps ala  EXTENDED_HIS-
              TORY  (which  makes it easier to find the spot where we left off
              reading the file after it gets re-written).

              By default, history movement commands visit the  imported  lines
              as  well  as the local lines, but you can toggle this on and off
              with the set-local-history zle binding.  It is also possible  to
              create a zle widget that will make some commands ignore imported
              commands, and some include them.

              If you find that you want more control over  when  commands  get
              imported,    you   may   wish   to   turn   SHARE_HISTORY   off,
              INC_APPEND_HISTORY on, and then manually import  commands  when-
              ever you need them using `fc -RI'.

   Initialisation
       ALL_EXPORT (-a, ksh: -a)
              All  parameters subsequently defined are automatically exported.

       GLOBAL_EXPORT (<Z>)
              If this option is set, passing  the  -x  flag  to  the  builtins
              declare,  float,  integer,  readonly and typeset (but not local)
              will also set the -g flag;  hence  parameters  exported  to  the
              environment  will  not  be made local to the enclosing function,
              unless they were already or the flag +g is given explicitly.  If
              the  option  is unset, exported parameters will be made local in
              just the same way as any other parameter.

              This option is set by default for backward compatibility; it  is
              not  recommended  that  its behaviour be relied upon.  Note that
              the builtin export always sets both the -x  and  -g  flags,  and
              hence its effect extends beyond the scope of the enclosing func-
              tion; this is the most portable way to achieve this behaviour.

       GLOBAL_RCS (-d) <D>
              If this  option  is  unset,  the  startup  files  /etc/zprofile,
              /etc/zshrc,  /etc/zlogin  and  /etc/zlogout will not be run.  It
              can be disabled and re-enabled at  any  time,  including  inside
              local startup files (.zshrc, etc.).

       RCS (+f) <D>
              After  /etc/zshenv  is  sourced  on startup, source the .zshenv,
              /etc/zprofile, .zprofile, /etc/zshrc, .zshrc, /etc/zlogin, .zlo-
              gin,  and  .zlogout  files, as described in the section `Files'.
              If this option is unset, the /etc/zshenv file is still  sourced,
              but  any of the others will not be; it can be set at any time to
              prevent the remaining startup files after the currently  execut-
              ing one from being sourced.

   Input/Output
       ALIASES <D>
              Expand aliases.

       CLOBBER (+C, ksh: +C) <D>
              Allows  `>'  redirection to truncate existing files, and `>>' to
              create files.  Otherwise `>!' or `>|' must be used to truncate a
              file, and `>>!' or `>>|' to create a file.

       CORRECT (-0)
              Try  to  correct  the spelling of commands.  Note that, when the
              HASH_LIST_ALL option is not set or when some directories in  the
              path  are  not readable, this may falsely report spelling errors
              the first time some commands are used.

       CORRECT_ALL (-O)
              Try to correct the spelling of all arguments in a line.

       DVORAK Use the Dvorak keyboard instead of the standard qwerty  keyboard
              as  a  basis for examining spelling mistakes for the CORRECT and
              CORRECT_ALL options and the spell-word editor command.

       FLOW_CONTROL <D>
              If this option is unset,  output  flow  control  via  start/stop
              characters  (usually  assigned  to  ^S/^Q)  is  disabled  in the
              shell's editor.

       IGNORE_EOF (-7)
              Do not exit on end-of-file.  Require the use of exit  or  logout
              instead.   However, ten consecutive EOFs will cause the shell to
              exit anyway, to avoid the shell hanging if its tty goes away.

              Also, if this option is set and the Zsh  Line  Editor  is  used,
              widgets implemented by shell functions can be bound to EOF (nor-
              mally Control-D) without printing the  normal  warning  message.
              This  works only for normal widgets, not for completion widgets.

       INTERACTIVE_COMMENTS (-k) <K> <S>
              Allow comments even in interactive shells.

       HASH_CMDS <D>
              Note the location of each command the first time it is executed.
              Subsequent  invocations  of  the same command will use the saved
              location, avoiding a path search.  If this option is  unset,  no
              path hashing is done at all.  However, when CORRECT is set, com-
              mands whose names do not appear in the functions or aliases hash
              tables  are  hashed in order to avoid reporting them as spelling
              errors.

       HASH_DIRS <D>
              Whenever a command name is hashed, hash the directory containing
              it,  as  well as all directories that occur earlier in the path.
              Has no effect if neither HASH_CMDS nor CORRECT is set.

       MAIL_WARNING (-U)
              Print a warning message if a mail file has been  accessed  since
              the shell last checked.

       PATH_DIRS (-Q)
              Perform  a  path  search  even  on command names with slashes in
              them.  Thus if `/usr/local/bin' is in the user's path, and he or
              she  types  `X11/xinit',  the command `/usr/local/bin/X11/xinit'
              will be executed  (assuming  it  exists).   Commands  explicitly
              beginning  with  `/',  `./' or `../' are not subject to the path
              search.  This also applies to the . builtin.

              Note that subdirectories of the  current  directory  are  always
              searched  for  executables  specified  in this form.  This takes
              place before any search indicated by this option, and regardless
              of  whether  `.'  or the current directory appear in the command
              search path.

       PRINT_EIGHT_BIT
              Print eight bit characters literally in completion  lists,  etc.
              This  option  is  not necessary if your system correctly returns
              the printability of eight bit characters (see ctype(3)).

       PRINT_EXIT_VALUE (-1)
              Print the exit value of programs with non-zero exit status.

       RC_QUOTES
              Allow the character sequence `'''  to  signify  a  single  quote
              within  singly  quoted  strings.   Note  this  does not apply in
              quoted strings using the format $'...', where a backslashed sin-
              gle quote can be used.

       RM_STAR_SILENT (-H) <K> <S>
              Do not query the user before executing `rm *' or `rm path/*'.

       RM_STAR_WAIT
              If  querying  the  user  before executing `rm *' or `rm path/*',
              first wait ten seconds and ignore anything typed in  that  time.
              This  avoids  the  problem of reflexively answering `yes' to the
              query when one didn't really mean it.  The wait  and  query  can
              always be avoided by expanding the `*' in ZLE (with tab).

       SHORT_LOOPS <C> <Z>
              Allow  the  short forms of for, repeat, select, if, and function
              constructs.

       SUN_KEYBOARD_HACK (-L)
              If a line ends with a backquote, and there are an odd number  of
              backquotes  on the line, ignore the trailing backquote.  This is
              useful on some keyboards where the return key is too small,  and
              the backquote key lies annoyingly close to it.

   Job Control
       AUTO_CONTINUE
              With this option set, stopped jobs that are removed from the job
              table with the disown builtin command are automatically  sent  a
              CONT signal to make them running.

       AUTO_RESUME (-W)
              Treat  single word simple commands without redirection as candi-
              dates for resumption of an existing job.

       BG_NICE (-6) <C> <Z>
              Run all background jobs at a lower priority.  This option is set
              by default.

       CHECK_JOBS <Z>
              Report  the status of background and suspended jobs before exit-
              ing a shell with job control; a second attempt to exit the shell
              will  succeed.   NO_CHECK_JOBS  is best used only in combination
              with NO_HUP, else such jobs will be killed automatically.

              The check is omitted if the commands run from the previous  com-
              mand  line  included  a  `jobs' command, since it is assumed the
              user is aware that there are background or  suspended  jobs.   A
              `jobs' command run from one of the hook functions defined in the
              section SPECIAL FUNCTIONS in zshmisc(1) is not counted for  this
              purpose.

       HUP <Z>
              Send the HUP signal to running jobs when the shell exits.

       LONG_LIST_JOBS (-R)
              List jobs in the long format by default.

       MONITOR (-m, ksh: -m)
              Allow job control.  Set by default in interactive shells.

       NOTIFY (-5, ksh: -b) <Z>
              Report  the  status  of background jobs immediately, rather than
              waiting until just before printing a prompt.

   Prompting
       PROMPT_BANG <K>
              If set, `!' is treated specially in prompt expansion.   See  the
              section `Prompt Expansion'.

       PROMPT_CR (+V) <D>
              Print  a  carriage  return  just before printing a prompt in the
              line editor.  This is on by default  as  multi-line  editing  is
              only  possible  if  the editor knows where the start of the line
              appears.

       PROMPT_SP <D>
              Attempt to preserve a partial line (i.e. a line that did not end
              with  a  newline) that would otherwise be covered up by the com-
              mand prompt due to the PROMPT_CR option.   This  works  by  out-
              putting  some  cursor-control  characters, including a series of
              spaces, that should make the terminal wrap to the next line when
              a  partial line is present (note that this is only successful if
              your terminal has automatic margins, which is typical).

              When a partial line is preserved, you will see  an  inverse+bold
              character  at  the  end of the partial line:  a "%" for a normal
              user or a "#" for root.

              NOTE: if the PROMPT_CR option is not set, enabling  this  option
              will have no effect.  This option is on by default.

       PROMPT_PERCENT <C> <Z>
              If  set,  `%' is treated specially in prompt expansion.  See the
              section `Prompt Expansion'.

       PROMPT_SUBST <K>
              If set, parameter expansion, command substitution and arithmetic
              expansion   are  performed  in  prompts.   Substitutions  within
              prompts do not affect the command status.

       TRANSIENT_RPROMPT
              Remove any right prompt from display when  accepting  a  command
              line.   This  may  be useful with terminals with other cut/paste
              methods.

   Scripts and Functions
       C_BASES
              Output hexadecimal numbers in the standard C format, for example
              `0xFF' instead of the usual `16#FF'.  If the option OCTAL_ZEROES
              is also set (it is  not  by  default),  octal  numbers  will  be
              treated  similarly  and hence appear as `077' instead of `8#77'.
              This option has no effect on the choice of the output base,  nor
              on  the  output of bases other than hexadecimal and octal.  Note
              that these formats will be understood on input  irrespective  of
              the setting of C_BASES.

       DEBUG_BEFORE_CMD
              Run  the  DEBUG  trap  before  each command; otherwise it is run
              after each command.  Setting this option mimics the behaviour of
              ksh 93; with the option unset the behaviour is that of ksh 88.

       ERR_EXIT (-e, ksh: -e)
              If  a command has a non-zero exit status, execute the ZERR trap,
              if set, and exit.  This is disabled while running initialization
              scripts.

       ERR_RETURN
              If a command has a non-zero exit status, return immediately from
              the enclosing function.  The logic  is  identical  to  that  for
              ERR_EXIT,  except  that an implicit return statement is executed
              instead of an exit.  This will trigger an exit at the  outermost
              level of a non-interactive script.

       EVAL_LINENO <Z>
              If  set, line numbers of expressions evaluated using the builtin
              eval are tracked separately of the enclosing environment.   This
              applies  both to the parameter LINENO and the line number output
              by the prompt escape %i.  If  the  option  is  set,  the  prompt
              escape  %N will output the string `(eval)' instead of the script
              or function name as an indication.   (The two prompt escapes are
              typically used in the parameter PS4 to be output when the option
              XTRACE is set.)  If EVAL_LINENO is unset, the line number of the
              surrounding  script  or  function is retained during the evalua-
              tion.

       EXEC (+n, ksh: +n) <D>
              Do execute commands.  Without this option, commands are read and
              checked for syntax errors, but not executed.  This option cannot
              be turned off in an interactive shell, except when `-n' is  sup-
              plied to the shell at startup.

       FUNCTION_ARGZERO <C> <Z>
              When  executing  a  shell  function or sourcing a script, set $0
              temporarily to the name of the function/script.

       LOCAL_OPTIONS <K>
              If this option is set at the point of return from a shell  func-
              tion,  all  the options (including this one) which were in force
              upon entry to the function are restored.  Otherwise,  only  this
              option and the XTRACE and PRINT_EXIT_VALUE options are restored.
              Hence if this is explicitly unset by a shell function the  other
              options in force at the point of return will remain so.  A shell
              function can also guarantee itself a known  shell  configuration
              with  a  formulation  like  `emulate  -L  zsh'; the -L activates
              LOCAL_OPTIONS.

       LOCAL_TRAPS <K>
              If this option is set when a signal trap is set inside  a  func-
              tion,  then the previous status of the trap for that signal will
              be restored when the function exits.  Note that this option must
              be  set  prior  to  altering  the  trap behaviour in a function;
              unlike LOCAL_OPTIONS, the value on exit  from  the  function  is
              irrelevant.   However,  it  does  not  need to be set before any
              global trap for that to be correctly  restored  by  a  function.
              For example,

                     unsetopt localtraps
                     trap - INT
                     fn() { setopt localtraps; trap '' INT; sleep 3; }

              will  restore  normally  handling  of  SIGINT after the function
              exits.

       MULTIOS <Z>
              Perform implicit tees or cats  when  multiple  redirections  are
              attempted (see the section `Redirection').

       OCTAL_ZEROES <S>
              Interpret  any integer constant beginning with a 0 as octal, per
              IEEE Std 1003.2-1992 (ISO 9945-2:1993).  This is not enabled  by
              default as it causes problems with parsing of, for example, date
              and time strings with leading zeroes.

              Sequences of digits indicating a numeric base such as  the  `08'
              component  in `08#77' are always interpreted as decimal, regard-
              less of leading zeroes.

       TYPESET_SILENT
              If this is unset, executing any of the `typeset' family of  com-
              mands with no options and a list of parameters that have no val-
              ues to be assigned but already exist will display the  value  of
              the  parameter.   If  the option is set, they will only be shown
              when parameters are selected with the `-m' option.   The  option
              `-p' is available whether or not the option is set.

       VERBOSE (-v, ksh: -v)
              Print shell input lines as they are read.

       XTRACE (-x, ksh: -x)
              Print commands and their arguments as they are executed.

   Shell Emulation
       BSD_ECHO <S>
              Make  the  echo builtin compatible with the BSD echo(1) command.
              This disables  backslashed  escape  sequences  in  echo  strings
              unless the -e option is specified.

       CSH_JUNKIE_HISTORY <C>
              A history reference without an event specifier will always refer
              to the previous command.  Without this option,  such  a  history
              reference  refers to the same event as the previous history ref-
              erence, defaulting to the previous command.

       CSH_JUNKIE_LOOPS <C>
              Allow loop bodies to take the form `list; end'  instead  of  `do
              list; done'.

       CSH_JUNKIE_QUOTES <C>
              Changes  the  rules  for single- and double-quoted text to match
              that of csh.  These require that embedded newlines  be  preceded
              by  a backslash; unescaped newlines will cause an error message.
              In double-quoted strings, it is made impossible to  escape  `$',
              ``'  or  `"' (and `\' itself no longer needs escaping).  Command
              substitutions are only expanded once, and cannot be nested.

       CSH_NULLCMD <C>
              Do not use the values of NULLCMD and  READNULLCMD  when  running
              redirections  with no command.  This make such redirections fail
              (see the section `Redirection').

       KSH_ARRAYS <K> <S>
              Emulate ksh array handling as  closely  as  possible.   If  this
              option  is  set, array elements are numbered from zero, an array
              parameter without subscript refers to the first element  instead
              of  the  whole  array, and braces are required to delimit a sub-
              script (`${path[2]}' rather than just `$path[2]').

       KSH_AUTOLOAD <K> <S>
              Emulate ksh function autoloading.  This means that when a  func-
              tion  is  autoloaded, the corresponding file is merely executed,
              and must define the function itself.  (By default, the  function
              is  defined to the contents of the file.  However, the most com-
              mon ksh-style case - of the file containing only a simple  defi-
              nition of the function - is always handled in the ksh-compatible
              manner.)

       KSH_OPTION_PRINT <K>
              Alters the way options settings are printed: instead of separate
              lists  of  set  and unset options, all options are shown, marked
              `on' if they are in the non-default state, `off' otherwise.

       KSH_TYPESET <K>
              Alters the way arguments to  the  typeset  family  of  commands,
              including  declare,  export, float, integer, local and readonly,
              are processed.  Without this option,  zsh  will  perform  normal
              word  splitting  after  command and parameter expansion in argu-
              ments of an assignment; with it, word splitting  does  not  take
              place in those cases.

       POSIX_BUILTINS <K> <S>
              When  this option is set the command builtin can be used to exe-
              cute shell builtin commands.   Parameter  assignments  specified
              before  shell  functions and special builtins are kept after the
              command completes unless the special builtin  is  prefixed  with
              the  command  builtin.   Special  builtins are ., :, break, con-
              tinue, declare, eval, exit, export,  integer,  local,  readonly,
              return, set, shift, source, times, trap and unset.

       POSIX_IDENTIFIERS <K> <S>
              When  this option is set, only the ASCII characters a to z, A to
              Z, 0 to 9 and _ may be  used  in  identifiers  (names  of  shell
              parameters and modules).

              When  the  option  is  unset  and multibyte character support is
              enabled (i.e. it is compiled in  and  the  option  MULTIBYTE  is
              set), then additionally any alphanumeric characters in the local
              character set may be used in identifiers.  Note that scripts and
              functions  written  with this feature are not portable, and also
              that both options must be set before the script or  function  is
              parsed;  setting  them during execution is not sufficient as the
              syntax variable=value has  already  been  parsed  as  a  command
              rather than an assignment.

              If  multibyte  character  support is not compiled into the shell
              this option is ignored; all octets with the top bit set  may  be
              used  in  identifiers.   This  is non-standard but is the tradi-
              tional zsh behaviour.

       SH_FILE_EXPANSION <K> <S>
              Perform filename expansion (e.g., ~ expansion) before  parameter
              expansion,  command substitution, arithmetic expansion and brace
              expansion.  If this option is unset, it is performed after brace
              expansion, so things like `~$USERNAME' and `~{pfalstad,rc}' will
              work.

       SH_NULLCMD <K> <S>
              Do not use the values of  NULLCMD  and  READNULLCMD  when  doing
              redirections, use `:' instead (see the section `Redirection').

       SH_OPTION_LETTERS <K> <S>
              If this option is set the shell tries to interpret single letter
              options (which are used with set  and  setopt)  like  ksh  does.
              This also affects the value of the - special parameter.

       SH_WORD_SPLIT (-y) <K> <S>
              Causes  field  splitting  to  be performed on unquoted parameter
              expansions.  Note that this option has nothing to do  with  word
              splitting.  (See the section `Parameter Expansion'.)

       TRAPS_ASYNC
              While  waiting  for  a  program  to exit, handle signals and run
              traps immediately.  Otherwise the trap  is  run  after  a  child
              process  has  exited.   Note  this  does not affect the point at
              which traps are run for any case other than when  the  shell  is
              waiting for a child process.

   Shell State
       INTERACTIVE (-i, ksh: -i)
              This is an interactive shell.  This option is set upon initiali-
              sation if the standard input is a tty  and  commands  are  being
              read  from  standard input.  (See the discussion of SHIN_STDIN.)
              This heuristic may be overridden by specifying a state for  this
              option  on the command line.  The value of this option cannot be
              changed anywhere other than the command line.

       LOGIN (-l, ksh: -l)
              This is a login shell.  If this option is  not  explicitly  set,
              the shell is a login shell if the first character of the argv[0]
              passed to the shell is a `-'.

       PRIVILEGED (-p, ksh: -p)
              Turn on  privileged  mode.  This  is  enabled  automatically  on
              startup  if  the  effective  user (group) ID is not equal to the
              real user (group) ID.  Turning this option off causes the effec-
              tive  user  and  group  IDs to be set to the real user and group
              IDs. This option disables sourcing user startup files.   If  zsh
              is invoked as `sh' or `ksh' with this option set, /etc/suid_pro-
              file is sourced  (after  /etc/profile  on  interactive  shells).
              Sourcing  ~/.profile  is  disabled  and  the contents of the ENV
              variable is ignored. This option cannot be changed using the  -m
              option of setopt and unsetopt, and changing it inside a function
              always changes  it  globally  regardless  of  the  LOCAL_OPTIONS
              option.

       RESTRICTED (-r)
              Enables  restricted  mode.   This option cannot be changed using
              unsetopt, and setting it inside a  function  always  changes  it
              globally  regardless  of the LOCAL_OPTIONS option.  See the sec-
              tion `Restricted Shell'.

       SHIN_STDIN (-s, ksh: -s)
              Commands are being read from the standard input.   Commands  are
              read  from standard input if no command is specified with -c and
              no file of commands is specified.  If SHIN_STDIN is set  explic-
              itly on the command line, any argument that would otherwise have
              been taken as a file to run will instead be treated as a  normal
              positional  parameter.   Note  that  setting  or  unsetting this
              option on the command line does not necessarily affect the state
              the option will have while the shell is running - that is purely
              an indicator of whether on not commands are actually being  read
              from standard input.  The value of this option cannot be changed
              anywhere other than the command line.

       SINGLE_COMMAND (-t, ksh: -t)
              If the shell is reading from standard input, it  exits  after  a
              single  command  has  been  executed.  This also makes the shell
              non-interactive, unless the INTERACTIVE option is explicitly set
              on the command line.  The value of this option cannot be changed
              anywhere other than the command line.

   Zle
       BEEP (+B) <D>
              Beep on error in ZLE.

       EMACS  If ZLE is loaded, turning on  this  option  has  the  equivalent
              effect  of  `bindkey  -e'.  In addition, the VI option is unset.
              Turning it off has no effect.  The option setting is not guaran-
              teed to reflect the current keymap.  This option is provided for
              compatibility; bindkey is the recommended interface.

       OVERSTRIKE
              Start up the line editor in overstrike mode.

       SINGLE_LINE_ZLE (-M) <K>
              Use single-line command line editing instead of multi-line.

       VI     If ZLE is loaded, turning on  this  option  has  the  equivalent
              effect of `bindkey -v'.  In addition, the EMACS option is unset.
              Turning it off has no effect.  The option setting is not guaran-
              teed to reflect the current keymap.  This option is provided for
              compatibility; bindkey is the recommended interface.

       ZLE (-Z)
              Use the zsh line editor.  Set by default in  interactive  shells
              connected to a terminal.


OPTION ALIASES

       Some  options have alternative names.  These aliases are never used for
       output, but can be used just like normal option names  when  specifying
       options to the shell.

       BRACE_EXPAND
              NO_IGNORE_BRACES (ksh and bash compatibility)

       DOT_GLOB
              GLOB_DOTS (bash compatibility)

       HASH_ALL
              HASH_CMDS (bash compatibility)

       HIST_APPEND
              APPEND_HISTORY (bash compatibility)

       HIST_EXPAND
              BANG_HIST (bash compatibility)

       LOG    NO_HIST_NO_FUNCTIONS (ksh compatibility)

       MAIL_WARN
              MAIL_WARNING (bash compatibility)

       ONE_CMD
              SINGLE_COMMAND (bash compatibility)

       PHYSICAL
              CHASE_LINKS (ksh and bash compatibility)

       PROMPT_VARS
              PROMPT_SUBST (bash compatibility)

       STDIN  SHIN_STDIN (ksh compatibility)

       TRACK_ALL
              HASH_CMDS (ksh compatibility)


SINGLE LETTER OPTIONS

   Default set
       -0     CORRECT
       -1     PRINT_EXIT_VALUE
       -2     NO_BAD_PATTERN
       -3     NO_NOMATCH
       -4     GLOB_DOTS
       -5     NOTIFY
       -6     BG_NICE
       -7     IGNORE_EOF
       -8     MARK_DIRS
       -9     AUTO_LIST
       -B     NO_BEEP
       -C     NO_CLOBBER
       -D     PUSHD_TO_HOME
       -E     PUSHD_SILENT
       -F     NO_GLOB
       -G     NULL_GLOB
       -H     RM_STAR_SILENT
       -I     IGNORE_BRACES
       -J     AUTO_CD
       -K     NO_BANG_HIST
       -L     SUN_KEYBOARD_HACK
       -M     SINGLE_LINE_ZLE
       -N     AUTO_PUSHD
       -O     CORRECT_ALL
       -P     RC_EXPAND_PARAM
       -Q     PATH_DIRS
       -R     LONG_LIST_JOBS
       -S     REC_EXACT
       -T     CDABLE_VARS
       -U     MAIL_WARNING
       -V     NO_PROMPT_CR
       -W     AUTO_RESUME
       -X     LIST_TYPES
       -Y     MENU_COMPLETE
       -Z     ZLE
       -a     ALL_EXPORT
       -e     ERR_EXIT
       -f     NO_RCS
       -g     HIST_IGNORE_SPACE
       -h     HIST_IGNORE_DUPS
       -i     INTERACTIVE
       -k     INTERACTIVE_COMMENTS
       -l     LOGIN
       -m     MONITOR
       -n     NO_EXEC
       -p     PRIVILEGED
       -r     RESTRICTED
       -s     SHIN_STDIN
       -t     SINGLE_COMMAND
       -u     NO_UNSET
       -v     VERBOSE
       -w     CHASE_LINKS
       -x     XTRACE
       -y     SH_WORD_SPLIT

   sh/ksh emulation set
       -C     NO_CLOBBER
       -T     TRAPS_ASYNC
       -X     MARK_DIRS
       -a     ALL_EXPORT
       -b     NOTIFY
       -e     ERR_EXIT
       -f     NO_GLOB
       -i     INTERACTIVE
       -l     LOGIN
       -m     MONITOR
       -n     NO_EXEC
       -p     PRIVILEGED
       -r     RESTRICTED
       -s     SHIN_STDIN
       -t     SINGLE_COMMAND
       -u     NO_UNSET
       -v     VERBOSE
       -x     XTRACE

   Also note
       -A     Used by set for setting arrays
       -b     Used on the command line to specify end of option processing
       -c     Used on the command line to specify a single command
       -m     Used by setopt for pattern-matching option setting
       -o     Used in all places to allow use of long option names
       -s     Used by set to sort positional parameters

ZSHBUILTINS(1)                                                  ZSHBUILTINS(1)


NAME

       zshbuiltins - zsh built-in commands


SHELL BUILTIN COMMANDS

       - simple command
              See the section `Precommand Modifiers'.

       . file [ arg ... ]
              Read  commands  from  file and execute them in the current shell
              environment.

              If file does not contain a slash, or if PATH_DIRS  is  set,  the
              shell  looks  in  the  components of $path to find the directory
              containing file.  Files in the current directory  are  not  read
              unless  `.'  appears  somewhere  in  $path.   If  a  file  named
              `file.zwc' is found, is newer than file,  and  is  the  compiled
              form  (created with the zcompile builtin) of file, then commands
              are read from that file instead of file.

              If any arguments arg  are  given,  they  become  the  positional
              parameters;  the old positional parameters are restored when the
              file is done executing.  The exit status is the exit  status  of
              the last command executed.

       : [ arg ... ]
              This  command  does nothing, although normal argument expansions
              is performed which may have effects on shell parameters.  A zero
              exit status is returned.

       alias [ {+|-}gmrsL ] [ name[=value] ... ]
              For  each  name with a corresponding value, define an alias with
              that value.  A trailing space in value causes the next  word  to
              be  checked  for  alias  expansion.   If the -g flag is present,
              define a global alias; global aliases are expanded even if  they
              do not occur in command position.

              If  the  -s flags is present, define a suffix alias: if the com-
              mand word on a command line is in the  form  `text.name',  where
              text  is any non-empty string, it is replaced by the text `value
              text.name'.  Note that name is treated as a literal string,  not
              a  pattern.   A  trailing  space in value is not special in this
              case.  For example,

                     alias -s ps=gv

              will cause the command `*.ps' to be expanded to `gv  *.ps'.   As
              alias expansion is carried out earlier than globbing, the `*.ps'
              will then be expanded.  Suffix aliases  constitute  a  different
              name  space  from  other  aliases (so in the above example it is
              still possible to create an alias for the command  ps)  and  the
              two sets are never listed together.

              For  each  name  with no value, print the value of name, if any.
              With no arguments, print all  currently  defined  aliases  other
              than  suffix aliases.  If the -m flag is given the arguments are
              taken as patterns (they should be quoted to preserve  them  from
              being  interpreted  as  glob patterns), and the aliases matching
              these patterns are printed.  When printing aliases  and  one  of
              the  -g,  -r  or  -s  flags is present, restrict the printing to
              global, regular or suffix aliases, respectively; a regular alias
              is one which is neither a global nor a suffix alias.   Using `+'
              instead of `-', or ending the option list  with  a  single  `+',
              prevents the values of the aliases from being printed.

              If  the  -L  flag  is present, then print each alias in a manner
              suitable for putting in a startup script.  The  exit  status  is
              nonzero  if  a  name (with no value) is given for which no alias
              has been defined.

       autoload [ {+|-}UXktz ] [ -w ] [ name ... ]
              Equivalent to functions -u, with the exception of -X/+X and  -w.

              The  flag  -X  may be used only inside a shell function, and may
              not be followed by a name.  It causes the calling function to be
              marked for autoloading and then immediately loaded and executed,
              with the current array of positional  parameters  as  arguments.
              This  replaces  the  previous definition of the function.  If no
              function definition is found, an error is printed and the  func-
              tion remains undefined and marked for autoloading.

              The  flag  +X  attempts to load each name as an autoloaded func-
              tion, but does not execute it.  The exit status  is  zero  (suc-
              cess)  if  the function was not previously defined and a defini-
              tion for it was found.  This does not replace any existing defi-
              nition of the function.  The exit status is nonzero (failure) if
              the function was already  defined  or  when  no  definition  was
              found.   In  the  latter case the function remains undefined and
              marked for autoloading.  If ksh-style  autoloading  is  enabled,
              the  function created will contain the contents of the file plus
              a call to the function itself appended to it, thus giving normal
              ksh autoloading behaviour on the first call to the function.

              With the -w flag, the names are taken as names of files compiled
              with the zcompile builtin, and all functions defined in them are
              marked for autoloading.

       bg [ job ... ]
       job ... &
              Put  each specified job in the background, or the current job if
              none is specified.

       bindkey
              See the section `Zle Builtins' in zshzle(1).

       break [ n ]
              Exit from an enclosing for, while, until, select or repeat loop.
              If n is specified, then break n levels instead of just one.

       builtin name [ args ... ]
              Executes the builtin name, with the given args.

       bye    Same as exit.

       cap    See the section `The zsh/cap Module' in zshmodules(1).

       cd [ -sLP ] [ arg ]
       cd [ -sLP ] old new
       cd [ -sLP ] {+|-}n
              Change  the  current  directory.   In the first form, change the
              current directory to arg, or to the value of $HOME if arg is not
              specified.   If  arg is `-', change to the value of $OLDPWD, the
              previous directory.

              Otherwise, if arg begins with a slash, attempt to change to  the
              director given by arg.

              If  arg  does  not  begin with a slash, the behaviour depends on
              whether the current directory `.' occurs in the list of directo-
              ries  contained  in the shell parameter cdpath.  If it does not,
              first attempt to change to the directory arg under  the  current
              directory,  and  if that fails but cdpath is set and contains at
              least one element attempt to change to the directory  arg  under
              each  component  of  cdpath  in  turn  until successful.  If `.'
              occurs in cdpath, then cdpath is searched strictly in  order  so
              that `.' is only tried at the appropriate point.

              If  no  directory is found, the option CDABLE_VARS is set, and a
              parameter named arg exists whose  value  begins  with  a  slash,
              treat  its  value as the directory.  In that case, the parameter
              is added to the named directory hash table.

              The second form of cd substitutes the string new for the  string
              old in the name of the current directory, and tries to change to
              this new directory.

              The third form of cd extracts an entry from the directory stack,
              and  changes  to  that  directory.  An argument of the form `+n'
              identifies a stack entry by counting from the left of  the  list
              shown  by  the dirs command, starting with zero.  An argument of
              the form `-n' counts from the right.  If the PUSHD_MINUS  option
              is set, the meanings of `+' and `-' in this context are swapped.

              If the -s option is specified, cd refuses to change the  current
              directory  if  the  given pathname contains symlinks.  If the -P
              option is given or the CHASE_LINKS option is set, symbolic links
              are  resolved  to  their true values.  If the -L option is given
              symbolic links are followed  regardless  of  the  state  of  the
              CHASE_LINKS option.

       chdir  Same as cd.

       clone  See the section `The zsh/clone Module' in zshmodules(1).

       command [ -pvV ] simple command
              The  simple  command  argument  is  taken as an external command
              instead of a  function  or  builtin  and  is  executed.  If  the
              POSIX_BUILTINS option is set, builtins will also be executed but
              certain special properties of them are suppressed. The  -p  flag
              causes  a  default path to be searched instead of that in $path.
              With the -v flag, command is similar to whence and with  -V,  it
              is equivalent to whence -v.

              See also the section `Precommand Modifiers'.

       comparguments
              See the section `The zsh/computil Module' in zshmodules(1).

       compcall
              See the section `The zsh/compctl Module' in zshmodules(1).

       compctl
              See the section `The zsh/compctl Module' in zshmodules(1).

       compdescribe
              See the section `The zsh/computil Module' in zshmodules(1).

       compfiles
              See the section `The zsh/computil Module' in zshmodules(1).

       compgroups
              See the section `The zsh/computil Module' in zshmodules(1).

       compquote
              See the section `The zsh/computil Module' in zshmodules(1).

       comptags
              See the section `The zsh/computil Module' in zshmodules(1).

       comptry
              See the section `The zsh/computil Module' in zshmodules(1).

       compvalues
              See the section `The zsh/computil Module' in zshmodules(1).

       continue [ n ]
              Resume  the  next  iteration of the enclosing for, while, until,
              select or repeat loop.  If n is  specified,  break  out  of  n-1
              loops and resume at the nth enclosing loop.

       declare
              Same as typeset.

       dirs [ -c ] [ arg ... ]
       dirs [ -lpv ]
              With  no  arguments,  print the contents of the directory stack.
              Directories are added to this stack with the pushd command,  and
              removed  with  the cd or popd commands.  If arguments are speci-
              fied, load them onto the  directory  stack,  replacing  anything
              that was there, and push the current directory onto the stack.

              -c     clear the directory stack.

              -l     print directory names in full instead of using of using ~
                     expressions.

              -p     print directory entries one per line.

              -v     number the directories in the stack when printing.

       disable [ -afmrs ] name ...
              Temporarily disable the named hash table elements.  The  default
              is  to  disable  builtin  commands.   This  allows you to use an
              external command with the same name as a builtin  command.   The
              -a  option  causes  disable to act on regular or global aliases.
              The -s option causes disable to act on suffix aliases.   The  -f
              option causes disable to act on shell functions.  The -r options
              causes disable to act on reserved words.  Without arguments  all
              disabled  hash  table elements from the corresponding hash table
              are printed.  With the -m flag the arguments are taken  as  pat-
              terns  (which  should  be quoted to prevent them from undergoing
              filename expansion), and all hash table elements from the corre-
              sponding  hash table matching these patterns are disabled.  Dis-
              abled objects can be enabled with the enable command.

       disown [ job ... ]
       job ... &|
       job ... &!
              Remove the specified jobs from the job table; the shell will  no
              longer  report their status, and will not complain if you try to
              exit an interactive shell with them running or stopped.   If  no
              job is specified, disown the current job.

              If  the  jobs are currently stopped and the AUTO_CONTINUE option
              is not set, a warning is printed  containing  information  about
              how  to make them running after they have been disowned.  If one
              of the latter two forms is used, the jobs will automatically  be
              made  running,  independent  of the setting of the AUTO_CONTINUE
              option.

       echo [ -neE ] [ arg ... ]
              Write each arg on the standard output, with a  space  separating
              each one.  If the -n flag is not present, print a newline at the
              end.  echo recognizes the following escape sequences:

              \a     bell character
              \b     backspace
              \c     suppress final newline
              \e     escape
              \f     form feed
              \n     linefeed (newline)
              \r     carriage return
              \t     horizontal tab
              \v     vertical tab
              \\     backslash
              \0NNN  character code in octal
              \xNN   character code in hexadecimal
              \uNNNN unicode character code in hexadecimal
              \UNNNNNNNN
                     unicode character code in hexadecimal

              The -E flag, or the BSD_ECHO option,  can  be  used  to  disable
              these escape sequences.  In the latter case, -e flag can be used
              to enable them.

       echotc See the section `The zsh/termcap Module' in zshmodules(1).

       echoti See the section `The zsh/terminfo Module' in zshmodules(1).

       emulate [ -LR ] {zsh|sh|ksh|csh}
              Set up zsh options to emulate the specified  shell  as  much  as
              possible.  csh will never be fully emulated.  If the argument is
              not one of the shells listed  above,  zsh  will  be  used  as  a
              default; more precisely, the tests performed on the argument are
              the same as those used to determine  the  emulation  at  startup
              based on the shell name, see the section `Compatibility' in zsh-
              misc(1) .  If the -R option is given, all options are  reset  to
              their  default  value  corresponding  to the specified emulation
              mode, except for  certain  options  describing  the  interactive
              environment;  otherwise,  only  those  options  likely  to cause
              portability problems in scripts and functions are  altered.   If
              the   -L   option   is  given,  the  options  LOCAL_OPTIONS  and
              LOCAL_TRAPS will be set as well, causing the effects of the emu-
              late command and any setopt and trap commands to be local to the
              immediately surrounding shell function, if any;  normally  these
              options are turned off in all emulation modes except ksh.

       enable [ -afmrs ] name ...
              Enable  the  named hash table elements, presumably disabled ear-
              lier with disable.  The default is to enable  builtin  commands.
              The -a option causes enable to act on regular or global aliases.
              The -s option causes enable to act on suffix  aliases.   The  -f
              option  causes  enable to act on shell functions.  The -r option
              causes enable to act on reserved words.  Without  arguments  all
              enabled  hash  table  elements from the corresponding hash table
              are printed.  With the -m flag the arguments are taken  as  pat-
              terns  (should  be  quoted) and all hash table elements from the
              corresponding hash table matching these  patterns  are  enabled.
              Enabled  objects  can  be disabled with the disable builtin com-
              mand.

       eval [ arg ... ]
              Read the arguments as input to the shell and execute the result-
              ing command in the current shell process.

       exec simple command
              See the section `Precommand Modifiers'.

       exit [ n ]
              Exit  the  shell with the exit status specified by n; if none is
              specified, use the exit status from the last  command  executed.
              An  EOF  condition will also cause the shell to exit, unless the
              IGNORE_EOF option is set.

       export [ name[=value] ... ]
              The specified names are marked for automatic export to the envi-
              ronment  of subsequently executed commands.  Equivalent to type-
              set -gx.  If a parameter specified does not already exist, it is
              created in the global scope.

       false [ arg ... ]
              Do nothing and return an exit status of 1.

       fc [ -e ename ] [ -nlrdDfEim ] [ old=new ... ] [ first [ last ] ]
       fc -p [ -a ] [ filename [ histsize [ savehistsize ] ] ]
       fc -P
       fc -ARWI [ filename ]
              Select  a  range of commands from first to last from the history
              list.  The arguments first and last may be specified as a number
              or  as  a string.  A negative number is used as an offset to the
              current history event  number.   A  string  specifies  the  most
              recent event beginning with the given string.  All substitutions
              old=new, if any, are then performed on the commands.

              If the -l flag is given, the resulting commands  are  listed  on
              standard  output.   If the -m flag is also given the first argu-
              ment is taken as a pattern (should be quoted) and only the  his-
              tory  events matching this pattern will be shown.  Otherwise the
              editor program ename is invoked on a file containing these  his-
              tory  events.  If ename is not given, the value of the parameter
              FCEDIT is used; if that is not set the value  of  the  parameter
              EDITOR  is  used;  if that is not set a builtin default, usually
              `vi' is used.  If ename is `-',  no  editor  is  invoked.   When
              editing is complete, the edited command is executed.

              If first is not specified, it will be set to -1 (the most recent
              event), or to -16 if the -l flag is given.  If last is not spec-
              ified,  it  will  be  set  to  first, or to -1 if the -l flag is
              given.

              The flag -r reverses the order of the commands and the  flag  -n
              suppresses  command numbers when listing.  Also when listing, -d
              prints timestamps for each command, and -f prints full time-date
              stamps.   Adding  the  -E flag causes the dates to be printed as
              `dd.mm.yyyy', instead of the default `mm/dd/yyyy'.   Adding  the
              -i  flag  causes the dates to be printed in ISO8601 `yyyy-mm-dd'
              format.  With the -D flag, fc prints elapsed times.

              `fc -p' pushes  the  current  history  list  onto  a  stack  and
              switches to a new history list.  If the -a option is also speci-
              fied, this history list will be automatically  popped  when  the
              current  function  scope is exited, which is a much better solu-
              tion than creating a trap function to call `fc -P' manually.  If
              no  arguments  are  specified,  the  history list is left empty,
              $HISTFILE is unset, and $HISTSIZE & $SAVEHIST are set  to  their
              default  values.   If one argument is given, $HISTFILE is set to
              that filename, $HISTSIZE & $SAVEHIST are left unchanged, and the
              history  file  is  read  in (if it exists) to initialize the new
              list.  If a second argument is specified, $HISTSIZE &  $SAVEHIST
              are instead set to the single specified numeric value.  Finally,
              if a third argument is specified, $SAVEHIST is set to a separate
              value  from $HISTSIZE.  You are free to change these environment
              values for the new history list however you desire in  order  to
              manipulate the new history list.

              `fc -P' pops the history list back to an older list saved by `fc
              -p'.  The current list is saved to its $HISTFILE  before  it  is
              destroyed  (assuming that $HISTFILE and $SAVEHIST are set appro-
              priately, of course).  The values of $HISTFILE,  $HISTSIZE,  and
              $SAVEHIST  are  restored to the values they had when `fc -p' was
              called.  Note that this restoration  can  conflict  with  making
              these variables "local", so your best bet is to avoid local dec-
              larations for these variables in functions  that  use  `fc  -p'.
              The  one  other  guaranteed-safe  combination is declaring these
              variables to be local at the top of your function and using  the
              automatic  option  (-a)  with `fc -p'.  Finally, note that it is
              legal to manually pop a push marked for automatic popping if you
              need to do so before the function exits.

              `fc  -R'  reads  the history from the given file, `fc -W' writes
              the history out to the given file, and `fc -A' appends the  his-
              tory  out  to  the given file.  If no filename is specified, the
              $HISTFILE is assumed.  If the -I option is  added  to  -R,  only
              those  events that are not already contained within the internal
              history list are added.  If the -I option is added to -A or  -W,
              only   those   events   that  are  new  since  last  incremental
              append/write to the history file are appended/written.   In  any
              case, the created file will have no more than $SAVEHIST entries.

       fg [ job ... ]
       job ...
              Bring each specified job in turn to the foreground.  If  no  job
              is specified, resume the current job.

       float [ {+|-}EFHghlprtux ] [ -LRZ [ n ]] [ name[=value] ... ]
              Equivalent  to  typeset  -E,  except  that options irrelevant to
              floating point numbers are not permitted.

       functions [ {+|-}UXkmtuz ] [ name ... ]
       functions -M mathfn [ min [ max [ shellfn ] ] ]
       functions -M [ -m pattern ... ]
       functions +M [ -m ] mathfn
              Equivalent to typeset -f, with the exception of the  -M  option.
              Use of the -M option may not be combined with any of the options
              handled by typeset -f.

              functions -M mathfn defines mathfn as the name of a mathematical
              function  recognised  in  all forms of arithmetical expressions;
              see the  section  `Arithmetic  Evaluation'  in  zshmisc(1).   By
              default mathfn may take any number of comma-separated arguments.
              If min is given, it must have exactly min args; if min  and  max
              are  both  given,  it must have at least min and and at most max
              args.  max may be -1 to indicate that there is no upper limit.

              By default the function is implemented by a  shell  function  of
              the  same name; if shellfn is specified it gives the name of the
              corresponding shell function while mathfn remains the name  used
              in  arithmetical expressions.  The name of the function in $0 is
              mathfn (not shellfn as would usually be the case), provided  the
              option FUNCTION_ARGZERO is in effect.  The positional parameters
              in the shell function correspond to the arguments of the  mathe-
              matical  function  call.   The  result  of the last arithmetical
              expression evaluated inside the shell function (even if it is  a
              form  that  normally  only returns a status) gives the result of
              the mathematical function.

              functions -M with no arguments lists all such user-defined func-
              tions  in  the  same  form as a definition.  With the additional
              option -m and a list of arguments, all  functions  whose  mathfn
              matches one of the pattern arguments are listed.

              function +M removes the list of mathematical functions; with the
              additional option -m the arguments are treated as  patterns  and
              all  functions  whose  mathfn  matches  the pattern are removed.
              Note that the shell function implementing the behaviour  is  not
              removed  (regardless of whether its name coincides with mathfn).

              For example, the following prints the cube of 3:

                     zmath_cube() { (( $1 * $1 * $1 )) }
                     functions -M cube 1 1 zmath_cube
                     print $(( cube(3) ))

       getcap See the section `The zsh/cap Module' in zshmodules(1).

       getln [ -AclneE ] name ...
              Read the top value from the buffer stack and put it in the shell
              parameter name.  Equivalent to read -zr.

       getopts optstring name [ arg ... ]
              Checks the args for legal options.  If the args are omitted, use
              the positional parameters.  A valid option argument begins  with
              a  `+' or a `-'.  An argument not beginning with a `+' or a `-',
              or the argument `--', ends the options.  Note that a single  `-'
              is  not  considered a valid option argument.  optstring contains
              the letters that getopts recognizes.  If a letter is followed by
              a `:', that option is expected to have an argument.  The options
              can be separated from the argument by blanks.

              Each time it is invoked, getopts places  the  option  letter  it
              finds in the shell parameter name, prepended with a `+' when arg
              begins with a `+'.  The index of  the  next  arg  is  stored  in
              OPTIND.  The option argument, if any, is stored in OPTARG.

              The  first  option  to  be examined may be changed by explicitly
              assigning to OPTIND.  OPTIND has an initial value of 1,  and  is
              normally  reset to 1 upon exit from a shell function.  OPTARG is
              not reset and retains its value from the  most  recent  call  to
              getopts.   If either of OPTIND or OPTARG is explicitly unset, it
              remains unset, and the index or option argument is  not  stored.
              The option itself is still stored in name in this case.

              A leading `:' in optstring causes getopts to store the letter of
              any invalid option in OPTARG, and to set  name  to  `?'  for  an
              unknown  option  and  to  `:' when a required option is missing.
              Otherwise, getopts sets name to `?' and prints an error  message
              when  an  option  is  invalid.   The exit status is nonzero when
              there are no more options.

       hash [ -Ldfmrv ] [ name[=value] ] ...
              hash can be used to directly modify the contents of the  command
              hash  table,  and  the named directory hash table.  Normally one
              would modify these tables by modifying one's PATH (for the  com-
              mand  hash  table)  or  by creating appropriate shell parameters
              (for the named directory hash table).  The choice of hash  table
              to  work  on  is determined by the -d option; without the option
              the command hash table is used, and with the  option  the  named
              directory hash table is used.

              Given  no  arguments,  and  neither  the  -r  or -f options, the
              selected hash table will be listed in full.

              The -r option causes the selected hash table to be emptied.   It
              will  be  subsequently  rebuilt  in  the normal fashion.  The -f
              option causes the selected hash table to be fully rebuilt  imme-
              diately.   For  the command hash table this hashes all the abso-
              lute directories in the PATH, and for the named  directory  hash
              table  this adds all users' home directories.  These two options
              cannot be used with any arguments.

              The -m option causes the  arguments  to  be  taken  as  patterns
              (which  should  be  quoted)  and  the elements of the hash table
              matching those patterns are printed.  This is the  only  way  to
              display a limited selection of hash table elements.

              For  each  name  with  a  corresponding value, put `name' in the
              selected hash table, associating it with the  pathname  `value'.
              In  the  command  hash table, this means that whenever `name' is
              used as a command argument, the shell will try  to  execute  the
              file  given by `value'.  In the named directory hash table, this
              means that `value' may be referred to as `~name'.

              For each name with no corresponding value, attempt to  add  name
              to the hash table, checking what the appropriate value is in the
              normal manner for that hash  table.   If  an  appropriate  value
              can't be found, then the hash table will be unchanged.

              The -v option causes hash table entries to be listed as they are
              added by explicit specification.  If has no effect if used  with
              -f.

              If the -L flag is present, then each hash table entry is printed
              in the form of a call to hash.

       history
              Same as fc -l.

       integer [ {+|-}Hghilprtux ] [ -LRZ [ n ]] [ name[=value] ... ]
              Equivalent to typeset -i,  except  that  options  irrelevant  to
              integers are not permitted.

       jobs [ -dlprs ] [ job ... ]
       jobs -Z string
              Lists  information  about  each given job, or all jobs if job is
              omitted.  The -l flag lists process IDs, and the -p  flag  lists
              process  groups.   If the -r flag is specified only running jobs
              will be listed and if the -s flag is given only stopped jobs are
              shown.   If  the  -d flag is given, the directory from which the
              job was started (which may not be the current directory  of  the
              job) will also be shown.

              The  -Z  option  replaces  the  shell's argument and environment
              space with the given string,  truncated  if  necessary  to  fit.
              This will normally be visible in ps (ps(1)) listings.  This fea-
              ture is typically used by daemons, to indicate their state.

       kill [ -s signal_name | -n signal_number | -sig ] job ...
       kill -l [ sig ... ]
              Sends either SIGTERM or the specified signal to the  given  jobs
              or  processes.  Signals are given by number or by names, with or
              without the `SIG' prefix.  If  the  signal  being  sent  is  not
              `KILL'  or  `CONT', then the job will be sent a `CONT' signal if
              it is stopped.  The argument job can be the process ID of a  job
              not in the job list.  In the second form, kill -l, if sig is not
              specified the signal names are listed.  Otherwise, for each  sig
              that  is a name, the corresponding signal number is listed.  For
              each sig that is a signal number or a  number  representing  the
              exit  status  of  a process which was terminated or stopped by a
              signal the name of the signal is printed.

              On some systems, alternative signal names are allowed for a  few
              signals.  Typical examples are SIGCHLD and SIGCLD or SIGPOLL and
              SIGIO, assuming they correspond to the same signal number.  kill
              -l  will  only list the preferred form, however kill -l alt will
              show if the alternative form corresponds  to  a  signal  number.
              For example, under Linux kill -l IO and kill -l POLL both output
              29, hence kill -IO and kill -POLL have the same effect.

              Many systems will allow process IDs to be  negative  to  kill  a
              process group or zero to kill the current process group.

       let arg ...
              Evaluate  each arg as an arithmetic expression.  See the section
              `Arithmetic Evaluation'  in  zshmisc(1)  for  a  description  of
              arithmetic  expressions.   The  exit status is 0 if the value of
              the last expression is nonzero, and 1 otherwise.

       limit [ -hs ] [ resource [ limit ] ] ...
              Set or display resource limits.  Unless the -s  flag  is  given,
              the  limit  applies  only  the  children of the shell.  If -s is
              given without other arguments, the resource limits of  the  cur-
              rent  shell  is set to the previously set resource limits of the
              children.

              If limit is not specified, print the  current  limit  placed  on
              resource,  otherwise  set  the limit to the specified value.  If
              the -h flag is given, use hard limits instead  of  soft  limits.
              If no resource is given, print all limits.

              When looping over multiple resources, the shell will abort imme-
              diately if it detects a badly formed argument.  However,  if  it
              fails to set a limit for some other reason it will continue try-
              ing to set the remaining limits.

              resource can be one of:

              addressspace
                     Maximum amount of address space used.
              aiomemorylocked
                     Maximum amount of memory locked in  RAM  for  AIO  opera-
                     tions.
              aiooperations
                     Maximum number of AIO operations.
              cachedthreads
                     Maximum number of cached threads.
              coredumpsize
                     Maximum size of a core dump.
              cputime
                     Maximum CPU seconds per process.
              datasize
                     Maximum data size (including stack) for each process.
              descriptors
                     Maximum value for a file descriptor.
              filesize
                     Largest single file allowed.
              maxproc
                     Maximum number of processes.
              maxpthreads
                     Maximum number of threads per process.
              memorylocked
                     Maximum amount of memory locked in RAM.
              memoryuse
                     Maximum resident set size.
              msgqueue
                     Maximum number of bytes in POSIX message queues.
              resident
                     Maximum resident set size.
              sigpending
                     Maximum number of pending signals.
              sockbufsize
                     Maximum size of all socket buffers.
              stacksize
                     Maximum stack size for each process.
              vmemorysize
                     Maximum amount of virtual memory.

              Which of these resource limits are available depends on the sys-
              tem.  resource can be abbreviated to any unambiguous prefix.  It
              can also be an integer, which corresponds to the integer defined
              for the resource by the operating system.

              If argument corresponds to a number which is out of the range of
              the  resources  configured into the shell, the shell will try to
              read or write the limit anyway, and will report an error if this
              fails.   As  the shell does not store such resources internally,
              an attempt to set the limit will fail unless the  -s  option  is
              present.

              limit is a number, with an optional scaling factor, as follows:

              nh     hours
              nk     kilobytes (default)
              nm     megabytes or minutes
              [mm:]ss
                     minutes and seconds

       local [ {+|-}AEFHUahlprtux ] [ -LRZi [ n ]] [ name[=value] ] ...
              Same as typeset, except that the options -g, and -f are not per-
              mitted.  In this case the -x option does not force  the  use  of
              -g, i.e. exported variables will be local to functions.

       log    List  all users currently logged in who are affected by the cur-
              rent setting of the watch parameter.

       logout [ n ]
              Same as exit, except that it only works in a login shell.

       noglob simple command
              See the section `Precommand Modifiers'.

       popd [ {+|-}n ]
              Remove an entry from the directory stack, and perform  a  cd  to
              the  new top directory.  With no argument, the current top entry
              is removed.  An argument of the form  `+n'  identifies  a  stack
              entry  by  counting  from the left of the list shown by the dirs
              command, starting with zero.  An argument of the form -n  counts
              from  the right.  If the PUSHD_MINUS option is set, the meanings
              of `+' and `-' in this context are swapped.

       print [ -abcDilmnNoOpPrsz ] [ -u n ] [ -f format ] [ -C cols ]
         [ -R [ -en ]] [ arg ... ]
              With the `-f' option the arguments are printed as  described  by
              printf.   With  no flags or with the flag `-', the arguments are
              printed on the standard output as described by  echo,  with  the
              following  differences:  the escape sequence `\M-x' metafies the
              character x (sets the highest bit), `\C-x'  produces  a  control
              character  (`\C-@'  and  `\C-?'  give  the  characters  NUL  and
              delete), and `\E' is a synonym for `\e'.  Finally, if not in  an
              escape  sequence, `\' escapes the following character and is not
              printed.

              -a     Print arguments with the column incrementing first.  Only
                     useful with the -c and -C options.

              -b     Recognize  all the escape sequences defined for the bind-
                     key command, see zshzle(1).

              -c     Print the arguments in columns.  Unless -a is also given,
                     arguments are printed with the row incrementing first.

              -C cols
                     Print  the  arguments in cols columns.  Unless -a is also
                     given, arguments are printed with  the  row  incrementing
                     first.

              -D     Treat  the  arguments  as directory names, replacing pre-
                     fixes with ~ expressions, as appropriate.

              -i     If given together with -o or  -O,  sorting  is  performed
                     case-independently.

              -l     Print the arguments separated by newlines instead of spa-
                     ces.

              -m     Take the first argument as a pattern (should be  quoted),
                     and remove it from the argument list together with subse-
                     quent arguments that do not match this pattern.

              -n     Do not add a newline to the output.

              -N     Print the arguments separated and terminated by nulls.

              -o     Print the arguments sorted in ascending order.

              -O     Print the arguments sorted in descending order.

              -p     Print the arguments to the input of the coprocess.

              -P     Perform prompt expansion (see zshmisc(1)).

              -r     Ignore the escape conventions of echo.

              -R     Emulate the BSD echo  command,  which  does  not  process
                     escape  sequences  unless  the  -e flag is given.  The -n
                     flag suppresses the trailing newline.  Only the -e and -n
                     flags  are  recognized  after -R; all other arguments and
                     options are printed.

              -s     Place the results in the history list instead of  on  the
                     standard output.

              -u n   Print the arguments to file descriptor n.

              -z     Push  the  arguments onto the editing buffer stack, sepa-
                     rated by spaces.

              If any of `-m', `-o' or `-O' are used in combination  with  `-f'
              and  there  are  no  arguments (after the removal process in the
              case of `-m') then nothing is printed.

       printf format [ arg ... ]
              Print the arguments according to the format specification.  For-
              matting  rules  are  the  same  as  used  in  C. The same escape
              sequences as for echo are recognised in the format. All  C  con-
              version  specifications ending in one of csdiouxXeEfgGn are han-
              dled. In addition to this, `%b' can be used instead of  `%s'  to
              cause escape sequences in the argument to be recognised and `%q'
              can be used to quote the argument in such a way that  allows  it
              to be reused as shell input. With the numeric format specifiers,
              if the corresponding argument starts with a quote character, the
              numeric  value  of the following character is used as the number
              to print otherwise the argument is evaluated  as  an  arithmetic
              expression.  See  the  section  `Arithmetic  Evaluation' in zsh-
              misc(1) for a description of arithmetic expressions. With  `%n',
              the  corresponding  argument  is taken as an identifier which is
              created as an integer parameter.

              Normally, conversion specifications are applied to each argument
              in  order but they can explicitly specify the nth argument is to
              be used by replacing `%' by `%n$' and `*' by `*n$'.  It is  rec-
              ommended  that  you do not mix references of this explicit style
              with the normal style and the handling of such mixed styles  may
              be subject to future change.

              If  arguments  remain unused after formatting, the format string
              is reused until all arguments have been consumed. With the print
              builtin,  this can be suppressed by using the -r option. If more
              arguments are required by the format than have  been  specified,
              the  behaviour  is as if zero or an empty string had been speci-
              fied as the argument.

       pushd [ -sLP ] [ arg ]
       pushd [ -sLP ] old new
       pushd [ -sLP ] {+|-}n
              Change the current directory, and push the old current directory
              onto the directory stack.  In the first form, change the current
              directory to arg.  If arg is not specified, change to the second
              directory  on the stack (that is, exchange the top two entries),
              or change to $HOME if the PUSHD_TO_HOME  option  is  set  or  if
              there  is only one entry on the stack.  Otherwise, arg is inter-
              preted as it would be by cd.  The meaning of old and new in  the
              second form is also the same as for cd.

              The third form of pushd changes directory by rotating the direc-
              tory list.  An argument of the  form  `+n'  identifies  a  stack
              entry  by  counting  from the left of the list shown by the dirs
              command, starting with zero.   An  argument  of  the  form  `-n'
              counts  from  the  right.  If the PUSHD_MINUS option is set, the
              meanings of `+' and `-' in this context are swapped.

              If the option PUSHD_SILENT is not set, the directory stack  will
              be printed after a pushd is performed.

              The  options  -s, -L and -P have the same meanings as for the cd
              builtin.

       pushln [ arg ... ]
              Equivalent to print -nz.

       pwd [ -rLP ]
              Print the absolute pathname of the  current  working  directory.
              If the -r or the -P flag is specified, or the CHASE_LINKS option
              is set and the -L flag is not given, the printed path  will  not
              contain symbolic links.

       r      Same as fc -e -.

       read [ -rszpqAclneE ] [ -t [ num ] ] [ -k [ num ] ] [ -d delim ]
        [ -u n ] [ name[?prompt] ] [ name ...  ]
              Read  one  line and break it into fields using the characters in
              $IFS as separators, except as noted below.  The first  field  is
              assigned to the first name, the second field to the second name,
              etc., with leftover fields assigned to the last name.   If  name
              is  omitted then REPLY is used for scalars and reply for arrays.

              -r     Raw mode: a `\' at the end of a  line  does  not  signify
                     line continuation and backslashes in the line don't quote
                     the following character and are not removed.

              -s     Don't echo back characters if reading from the  terminal.
                     Currently does not work with the -q option.

              -q     Read only one character from the terminal and set name to
                     `y' if this character was `y' or `Y' and  to  `n'  other-
                     wise.   With this flag set the return status is zero only
                     if the character was `y' or `Y'.  Note that  this  always
                     reads  from  the terminal, even if used with the -p or -u
                     or -z flags or with redirected input.   This  option  may
                     also be used within zle widgets.

              -k [ num ]
                     Read  only  one (or num) characters.  All are assigned to
                     the first name, without word  splitting.   This  flag  is
                     ignored  when -q is present.  Input is read from the ter-
                     minal unless one of -u or -p is present.  This option may
                     also be used within zle widgets.

                     Note  that  despite  the  mnemonic `key' this option does
                     read full characters, which may consist of multiple bytes
                     if the option MULTIBYTE is set.

              -z     Read one entry from the editor buffer stack and assign it
                     to the first  name,  without  word  splitting.   Text  is
                     pushed  onto  the stack with `print -z' or with push-line
                     from the line  editor  (see  zshzle(1)).   This  flag  is
                     ignored when the -k or -q flags are present.

              -e
              -E     The  input  read is printed (echoed) to the standard out-
                     put.  If the -e flag is used, no input is assigned to the
                     parameters.

              -A     The  first  name is taken as the name of an array and all
                     words are assigned to it.

              -c
              -l     These flags are allowed only if called inside a  function
                     used  for  completion (specified with the -K flag to com-
                     pctl).  If the -c flag is given, the words of the current
                     command are read. If the -l flag is given, the whole line
                     is assigned as a scalar.  If both flags are  present,  -l
                     is used and -c is ignored.

              -n     Together with -c, the number of the word the cursor is on
                     is read.  With -l, the index of the character the  cursor
                     is on is read.  Note that the command name is word number
                     1, not word 0, and that when the cursor is at the end  of
                     the  line,  its character index is the length of the line
                     plus one.

              -u n   Input is read from file descriptor n.

              -p     Input is read from the coprocess.

              -d delim
                     Input is terminated  by  the  first  character  of  delim
                     instead of by newline.

              -t [ num ]
                     Test if input is available before attempting to read.  If
                     num is present, it must begin with a digit  and  will  be
                     evaluated  to  give  a  number of seconds, which may be a
                     floating point number; in this case the read times out if
                     input  is  not available within this time.  If num is not
                     present, it is taken to be zero,  so  that  read  returns
                     immediately  if  no  input  is available.  If no input is
                     available, return status 1 and do not set any  variables.

                     This option is not available when reading from the editor
                     buffer with -z, when called from within  completion  with
                     -c  or  -l,  with  -q which clears the input queue before
                     reading, or within zle where other mechanisms  should  be
                     used to test for input.

                     Note  that  read does not attempt to alter the input pro-
                     cessing mode.  The default mode is  canonical  input,  in
                     which  an entire line is read at a time, so usually `read
                     -t' will not read anything until an entire line has  been
                     typed.   However,  when reading from the terminal with -k
                     input is processed one key at a time; in this case,  only
                     availability  of  the  first character is tested, so that
                     e.g. `read -t -k 2' can still block on the second charac-
                     ter.   Use  two  instances of `read -t -k' if this is not
                     what is wanted.  If the first argument  contains  a  `?',
                     the  remainder  of this word is used as a prompt on stan-
                     dard error when the shell is interactive.

              The value (exit status) of read is  1  when  an  end-of-file  is
              encountered,  or when -c or -l is present and the command is not
              called from a compctl function, or as described for -q.   Other-
              wise the value is 0.

              The  behavior  of some combinations of the -k, -p, -q, -u and -z
              flags is undefined.  Presently -q cancels  all  the  others,  -p
              cancels  -u, -k cancels -z, and otherwise -z cancels both -p and
              -u.

              The -c or -l flags cancel any and all of -kpquz.

       readonly
              Same as typeset -r.

       rehash Same as hash -r.

       return [ n ]
              Causes a shell function or . script to return  to  the  invoking
              script  with the return status specified by n.  If n is omitted,
              the return status is that of the last command executed.

              If return was executed from a trap in a  TRAPNAL  function,  the
              effect  is  different for zero and non-zero return status.  With
              zero status (or after an implicit  return  at  the  end  of  the
              trap),  the shell will return to whatever it was previously pro-
              cessing; with a non-zero status, the shell will behave as inter-
              rupted  except  that  the return status of the trap is retained.
              Note that the numeric value of the signal which caused the  trap
              is  passed  as  the  first  argument,  so  the statement `return
              $((128+$1))' will return the same status as if  the  signal  had
              not been trapped.

       sched  See the section `The zsh/sched Module' in zshmodules(1).

       set [ {+|-}options | {+|-}o [ option_name ] ] ... [ {+|-}A [ name ] ] [
       arg ... ]
              Set  the options for the shell and/or set the positional parame-
              ters, or declare and set an array.  If the -s option  is  given,
              it  causes the specified arguments to be sorted before assigning
              them to the positional parameters (or to the array name if -A is
              used).   With  +s  sort  arguments in descending order.  For the
              meaning of the other flags, see  zshoptions(1).   Flags  may  be
              specified by name using the -o option. If no option name is sup-
              plied with -o, the current option states are printed.   With  +o
              they  are  printed  in  a  form that can be used as input to the
              shell.

              If the -A flag is specified, name is set to an array  containing
              the  given args; if no name is specified, all arrays are printed
              together with their values.

              If +A is used and name is an array,  the  given  arguments  will
              replace the initial elements of that array; if no name is speci-
              fied, all arrays are printed without their values.

              The behaviour of arguments after -A name or +A name  depends  on
              whether  the  option  KSH_ARRAYS  is set.  If it is not set, all
              arguments following name are treated as values  for  the  array,
              regardless  of  their form.  If the option is set, normal option
              processing continues at that point; only regular  arguments  are
              treated as values for the array.  This means that

                     set -A array -x -- foo

              sets array to `-x -- foo' if KSH_ARRAYS is not set, but sets the
              array to foo and turns on the option `-x' if it is set.

              If the -A flag is not present, but there  are  arguments  beyond
              the  options,  the positional parameters are set.  If the option
              list (if any) is terminated by `--', and there  are  no  further
              arguments, the positional parameters will be unset.

              If no arguments and no `--' are given, then the names and values
              of all parameters are printed on the standard  output.   If  the
              only argument is `+', the names of all parameters are printed.

              For historical reasons, `set -' is treated as `set +xv' and `set
              - args' as `set +xv -- args' when in any  other  emulation  mode
              than zsh's native mode.

       setcap See the section `The zsh/cap Module' in zshmodules(1).

       setopt [ {+|-}options | {+|-}o option_name ] [ name ... ]
              Set  the  options  for  the shell.  All options specified either
              with flags or by name are set.  If no  arguments  are  supplied,
              the  names  of all options currently set are printed.  If the -m
              flag is given the arguments are taken as patterns (which  should
              be  quoted  to  protect  them  from filename expansion), and all
              options with names matching these patterns are set.

       shift [ n ] [ name ... ]
              The positional parameters ${n+1} ...  are  renamed  to  $1  ...,
              where  n is an arithmetic expression that defaults to 1.  If any
              names are given then the arrays with  these  names  are  shifted
              instead of the positional parameters.

       source file [ arg ... ]
              Same  as ., except that the current directory is always searched
              and is always searched first, before directories in $path.

       stat   See the section `The zsh/stat Module' in zshmodules(1).

       suspend [ -f ]
              Suspend the execution of the shell (send it a SIGTSTP) until  it
              receives  a  SIGCONT.   Unless the -f option is given, this will
              refuse to suspend a login shell.

       test [ arg ... ]
       [ [ arg ... ] ]
              Like the system version of test.  Added for  compatibility;  use
              conditional  expressions  instead  (see the section `Conditional
              Expressions').  The main  differences  between  the  conditional
              expression  syntax  and the test and [ builtins are:  these com-
              mands are not handled syntactically, so  for  example  an  empty
              variable  expansion  may cause an argument to be omitted; syntax
              errors cause status 2 to be returned instead of a  shell  error;
              and  arithmetic  operators  expect integer arguments rather than
              arithemetic expressions.

       times  Print the accumulated user and system times for  the  shell  and
              for processes run from the shell.

       trap [ arg ] [ sig ... ]
              arg  is  a series of commands (usually quoted to protect it from
              immediate evaluation by the shell) to be read and executed  when
              the  shell  receives any of the signals specified by one or more
              sig args.  Each sig can be given as a number, or as the name  of
              a signal either with or without the string SIG in front (e.g. 1,
              HUP, and SIGHUP are all the same signal).

              If arg is `-', then the specified signals  are  reset  to  their
              defaults, or, if no sig args are present, all traps are reset.

              If  arg  is  an  empty  string,  then  the specified signals are
              ignored by the shell (and by the commands it invokes).

              If arg is omitted but one or more sig args  are  provided  (i.e.
              the first argument is a valid signal number or name), the effect
              is the same as if arg had been specified as `-'.

              The trap command with no arguments prints  a  list  of  commands
              associated with each signal.

              If sig is ZERR then arg will be executed after each command with
              a nonzero exit status.  ERR is an alias for ZERR on systems that
              have no SIGERR signal (this is the usual case).  If sig is DEBUG
              then arg will be executed after each command.  If sig  is  0  or
              EXIT  and  the  trap  statement is executed inside the body of a
              function, then the command arg is executed  after  the  function
              completes.   The  value  of  $? at the start of execution is the
              exit status of the shell or the return status  of  the  function
              exiting.  If sig is 0 or EXIT and the trap statement is not exe-
              cuted inside the body of a function, then  the  command  arg  is
              executed when the shell terminates.

              ZERR, DEBUG, and EXIT traps are not executed inside other traps.

              Note that traps defined with the trap builtin are slightly  dif-
              ferent from those defined as `TRAPNAL () { ... }', as the latter
              have their own function environment (line numbers,  local  vari-
              ables, etc.) while the former use the environment of the command
              in which they were called.  For example,

                     trap 'print $LINENO' DEBUG

              will print the line number of a command executed  after  it  has
              run, while

                     TRAPDEBUG() { print $LINENO; }

              will always print the number zero.

              Alternative  signal  names  are  allowed as described under kill
              above.  Defining a trap under either name causes any trap  under
              an  alternative  name to be removed.  However, it is recommended
              that for consistency users stick  exclusively  to  one  name  or
              another.

       true [ arg ... ]
              Do nothing and return an exit status of 0.

       ttyctl -fu
              The  -f  option  freezes the tty, and -u unfreezes it.  When the
              tty is frozen, no changes made to the tty settings  by  external
              programs will be honored by the shell, except for changes in the
              size of the screen; the shell will simply reset the settings  to
              their  previous  values as soon as each command exits or is sus-
              pended.  Thus, stty and similar programs have no effect when the
              tty  is frozen.  Without options it reports whether the terminal
              is frozen or not.

       type [ -wfpams ] name ...
              Equivalent to whence -v.

       typeset [ {+|-}AEFHUafghklprtuxmz ] [ -LRZi [ n ]] [ name[=value] ... ]
       typeset -T [ {+|-}Urux ] [ -LRZ [ n ]] SCALAR[=value] array [ sep ]
              Set or display attributes and values for shell parameters.

              A parameter is created for each name that does not already refer
              to  one.  When inside a function, a new parameter is created for
              every name (even those that already exist), and is  unset  again
              when  the  function  completes.   See `Local Parameters' in zsh-
              param(1).  The same rules apply  to  special  shell  parameters,
              which retain their special attributes when made local.

              For  each  name=value  assignment,  the parameter name is set to
              value.  Note that arrays currently cannot be assigned in typeset
              expressions, only scalars and integers.

              If  the shell option TYPESET_SILENT is not set, for each remain-
              ing name that refers to a parameter that is set,  the  name  and
              value of the parameter are printed in the form of an assignment.
              Nothing is printed for newly-created  parameters,  or  when  any
              attribute  flags  listed  below  are  given along with the name.
              Using `+' instead of minus to introduce an  attribute  turns  it
              off.

              If  the -p option is given, parameters and values are printed in
              the form of a typeset comand and an assignment  (which  will  be
              printed  separately  for arrays and associative arrays), regard-
              less of other flags and options.   Note  that  the  -h  flag  on
              parameters is respected; no value will be shown for these param-
              eters.

              If the -T option is  given,  two  or  three  arguments  must  be
              present (an exception is that zero arguments are allowed to show
              the list of parameters created in this fashion).  The first  two
              are  the name of a scalar and an array parameter (in that order)
              that will be tied together in the manner  of  $PATH  and  $path.
              The  optional  third  argument  is  a single-character separator
              which will be used to join the elements of the array to form the
              scalar;  if  absent,  a  colon is used, as with $PATH.  Only the
              first character of the separator is significant;  any  remaining
              characters  are  ignored.   Only  the  scalar  parameter  may be
              assigned an initial value.  Both the scalar and  the  array  may
              otherwise  be manipulated as normal.  If one is unset, the other
              will automatically be unset too.  There is no way of untying the
              variables  without unsetting them, or converting the type of one
              of them with another typeset command; +T does not work,  assign-
              ing  an  array  to SCALAR is an error, and assigning a scalar to
              array sets it to be a  single-element  array.   Note  that  both
              `typeset  -xT ...' and `export -T ...' work, but only the scalar
              will be marked for export.  Setting the value using  the  scalar
              version  causes  a  split  on  all  separators  (which cannot be
              quoted).

              The -g (global) flag is treated specially:  it  means  that  any
              resulting parameter will not be restricted to local scope.  Note
              that this does not necessarily mean that the parameter  will  be
              global,  as  the flag will apply to any existing parameter (even
              if unset) from an enclosing function.  This flag does not affect
              the  parameter after creation, hence it has no effect when list-
              ing existing parameters, nor does the flag +g  have  any  effect
              except in combination with -m (see below).

              If  no  name  is present, the names and values of all parameters
              are printed.  In this case the attribute flags restrict the dis-
              play   to   only   those  parameters  that  have  the  specified
              attributes, and using `+' rather than `-' to introduce the  flag
              suppresses printing of the values of parameters when there is no
              parameter name.  Also, if the last option is the word `+',  then
              names are printed but values are not.

              If the -m flag is given the name arguments are taken as patterns
              (which should be quoted).  With no attribute flags, all  parame-
              ters  (or  functions  with  the -f flag) with matching names are
              printed (the shell option TYPESET_SILENT is  not  used  in  this
              case).   Note  that  -m is ignored if no patterns are given.  If
              the +g flag is combined with -m, a new local parameter  is  cre-
              ated  for  every  matching  parameter that is not already local.
              Otherwise -m applies all  other  flags  or  assignments  to  the
              existing  parameters.   Except  when  assignments  are made with
              name=value, using  +m  forces  the  matching  parameters  to  be
              printed, even inside a function.

              If no attribute flags are given and either no -m flag is present
              or the +m form was used, each parameter name printed is preceded
              by  a  list of the attributes of that parameter (array, associa-
              tion,  exported,  integer,  readonly).   If  +m  is  used   with
              attribute  flags, and all those flags are introduced with +, the
              matching parameter names are printed but their values are not.

              The following attribute flags may be specified:

              -A     The names refer  to  associative  array  parameters;  see
                     `Array Parameters' in zshparam(1).

              -L     Left  justify and remove leading blanks from value.  If n
                     is nonzero, it defines the width of the field.  If  n  is
                     zero,  the  width is determined by the width of the value
                     of the first assignment.  In the case of numeric  parame-
                     ters,  the  length  of the complete value assigned to the
                     parameter is used to determine the width, not  the  value
                     that would be output.

                     The width is the count of characters, which may be multi-
                     byte characters if the MULTIBYTE  option  is  in  effect.
                     Note  that the screen width of the character is not taken
                     into account; if  this  is  required,  use  padding  with
                     parameter  expansion  flags ${(ml...)...} as described in
                     `Parameter Expansion Flags' in zshexpn(1).

                     When the parameter is expanded, it is filled on the right
                     with  blanks  or truncated if necessary to fit the field.
                     Note truncation  can  lead  to  unexpected  results  with
                     numeric  parameters.  Leading zeros are removed if the -Z
                     flag is also set.

              -R     Similar to -L, except that right justification  is  used;
                     when  the parameter is expanded, the field is left filled
                     with blanks or truncated from the end.  May not  be  com-
                     bined with the -Z flag.

              -U     For  arrays  (but  not for associative arrays), keep only
                     the first occurrence of each duplicated value.  This  may
                     also  be  set for colon-separated special parameters like
                     PATH or FIGNORE, etc.  This flag has a different  meaning
                     when used with -f; see below.

              -Z     Specially  handled if set along with the -L flag.  Other-
                     wise, similar to -R, except that leading zeros  are  used
                     for  padding  instead  of  blanks  if the first non-blank
                     character is a digit.  Numeric parameters  are  specially
                     handled:  they  are  always  eligible  for  padding  with
                     zeroes, and the zeroes are  inserted  at  an  appropriate
                     place in the output.

              -a     The  names refer to array parameters.  An array parameter
                     may be created this way, but it may not be assigned to in
                     the  typeset statement.  When displaying, both normal and
                     associative arrays are shown.

              -f     The names refer to functions rather than parameters.   No
                     assignments  can  be made, and the only other valid flags
                     are -t, -k, -u, -U and -z.  The flag -t turns  on  execu-
                     tion  tracing  for  this  function.   The -u and -U flags
                     cause the function to be marked for autoloading; -U  also
                     causes alias expansion to be suppressed when the function
                     is loaded.  The fpath parameter will be searched to  find
                     the function definition when the function is first refer-
                     enced; see the section `Functions'. The -k and  -z  flags
                     make  the function be loaded using ksh-style or zsh-style
                     autoloading respectively. If neither is given,  the  set-
                     ting  of the KSH_AUTOLOAD option determines how the func-
                     tion is loaded.

              -h     Hide: only useful for special  parameters  (those  marked
                     `<S>' in the table in zshparam(1)), and for local parame-
                     ters with the same name as a  special  parameter,  though
                     harmless  for  others.   A  special  parameter  with this
                     attribute will not retain its special  effect  when  made
                     local.  Thus after `typeset -h PATH', a function contain-
                     ing `typeset PATH' will create an ordinary local  parame-
                     ter  without the usual behaviour of PATH.  Alternatively,
                     the local parameter may itself be given  this  attribute;
                     hence  inside  a  function  `typeset  -h PATH' creates an
                     ordinary local parameter and the special  PATH  parameter
                     is not altered in any way.  It is also possible to create
                     a local parameter using `typeset +h special',  where  the
                     local  copy of special will retain its special properties
                     regardless of having the -h  attribute.   Global  special
                     parameters  loaded from shell modules (currently those in
                     zsh/mapfile and zsh/parameter)  are  automatically  given
                     the -h attribute to avoid name clashes.

              -H     Hide  value:  specifies that typeset will not display the
                     value of the parameter when listing parameters; the  dis-
                     play for such parameters is always as if the `+' flag had
                     been given.  Use of the parameter is  in  other  respects
                     normal, and the option does not apply if the parameter is
                     specified by name, or by  pattern  with  the  -m  option.
                     This   is  on  by  default  for  the  parameters  in  the
                     zsh/parameter and zsh/mapfile  modules.   Note,  however,
                     that  unlike the -h flag this is also useful for non-spe-
                     cial parameters.

              -i     Use an internal integer representation.  If n is  nonzero
                     it  defines  the  output arithmetic base, otherwise it is
                     determined by the first assignment.

              -E     Use an internal double-precision floating point represen-
                     tation.  On output the variable will be converted to sci-
                     entific notation.  If n is nonzero it defines the  number
                     of significant figures to display; the default is ten.

              -F     Use an internal double-precision floating point represen-
                     tation.  On output the  variable  will  be  converted  to
                     fixed-point decimal notation.  If n is nonzero it defines
                     the number of digits to display after the decimal  point;
                     the default is ten.

              -l     Convert  the  result to lower case whenever the parameter
                     is expanded.  The value is not converted when assigned.

              -r     The given names are marked readonly.  Note that  if  name
                     is  a  special  parameter,  the readonly attribute can be
                     turned on, but cannot then be turned off.

              -t     Tags the named parameters.  Tags have no special  meaning
                     to  the  shell.   This  flag has a different meaning when
                     used with -f; see above.

              -u     Convert the result to upper case whenever  the  parameter
                     is  expanded.   The value is not converted when assigned.
                     This flag has a different meaning when used with -f;  see
                     above.

              -x     Mark  for  automatic  export to the environment of subse-
                     quently executed commands.  If the  option  GLOBAL_EXPORT
                     is  set,  this  implies  the option -g, unless +g is also
                     explicitly given; in other words  the  parameter  is  not
                     made  local  to the enclosing function.  This is for com-
                     patibility with previous versions of zsh.

       ulimit [ [ -SHacdfilmnpqstvx | -N resource [ limit ] ... ]
              Set or display resource limits of the shell  and  the  processes
              started by the shell.  The value of limit can be a number in the
              unit specified below or the value `unlimited'.  By default, only
              soft  limits  are  manipulated. If the -H flag is given use hard
              limits instead of soft limits.  If the -S flag is given together
              with  the  -H flag set both hard and soft limits.  If no options
              are used, the file size limit (-f)  is  assumed.   If  limit  is
              omitted  the  current  value  of  the  specified  resources  are
              printed.  When more than one resource  values  are  printed  the
              limit name and unit is printed before each value.

              When looping over multiple resources, the shell will abort imme-
              diately if it detects a badly formed argument.  However,  if  it
              fails  to set a limit for some other reson it will continue try-
              ing to set the remaining limits.

              -a     Lists all of the current resource limits.
              -c     512-byte blocks on the size of core dumps.
              -d     K-bytes on the size of the data segment.
              -f     512-byte blocks on the size of files written.
              -i     The number of pending signals.
              -l     K-bytes on the size of locked-in memory.
              -m     K-bytes on the size of physical memory.
              -n     open file descriptors.
              -q     Bytes in POSIX message queues.
              -s     K-bytes on the size of the stack.
              -t     CPU seconds to be used.
              -u     processes available to the user.
              -v     K-bytes on the size of virtual memory.  On  some  systems
                     this refers to the limit called `address space'.
              -x     The number of locks on files.

              A  resource  may  also  be  specified by integer in the form `-N
              resource', where resource corresponds to the integer defined for
              the  resource  by the operating system.  This may be used to set
              the limits for resources known to the shell which do not  corre-
              spond to option letters.  Such limits will be shown by number in
              the output of `ulimit -a'.

              The number may alternatively be out of the range of limits  com-
              piled  into  the shell.  The shell will try to read or write the
              limit anyway, and will report an error if this fails.

       umask [ -S ] [ mask ]
              The umask is set to mask.  mask can be either an octal number or
              a  symbolic value as described in chmod(1).  If mask is omitted,
              the current value is printed.  The -S option causes the mask  to
              be  printed as a symbolic value.  Otherwise, the mask is printed
              as an octal number.  Note that in the symbolic form the  permis-
              sions you specify are those which are to be allowed (not denied)
              to the users specified.

       unalias
              Same as unhash -a.

       unfunction
              Same as unhash -f.

       unhash [ -adfms ] name ...
              Remove the element named name from an internal hash table.   The
              default  is remove elements from the command hash table.  The -a
              option causes unhash to remove regular or global  aliases.   The
              -s option causes unhash to remove suffix aliases.  The -f option
              causes unhash to remove shell functions.  The -d options  causes
              unhash to remove named directories.  If the -m flag is given the
              arguments are taken as patterns (should be quoted) and all  ele-
              ments  of  the corresponding hash table with matching names will
              be removed.

       unlimit [ -hs ] resource ...
              The resource limit for each resource is set to the  hard  limit.
              If  the  -h  flag  is given and the shell has appropriate privi-
              leges, the hard resource limit for  each  resource  is  removed.
              The  resources  of  the shell process are only changed if the -s
              flag is given.

       unset [ -fmv ] name ...
              Each named parameter is unset.  Local  parameters  remain  local
              even  if unset; they appear unset within scope, but the previous
              value will still reappear when the scope ends.

              Individual elements of associative array parameters may be unset
              by  using  subscript  syntax on name, which should be quoted (or
              the entire command prefixed with noglob)  to  protect  the  sub-
              script from filename generation.

              If  the -m flag is specified the arguments are taken as patterns
              (should be quoted) and all parameters with  matching  names  are
              unset.  Note that this cannot be used when unsetting associative
              array elements, as the subscript will be treated as part of  the
              pattern.

              The  -v  flag  specifies that name refers to parameters. This is
              the default behaviour.

              unset -f is equivalent to unfunction.

       unsetopt [ {+|-}options | {+|-}o option_name ] [ name ... ]
              Unset the options for the shell.  All options  specified  either
              with  flags or by name are unset.  If no arguments are supplied,
              the names of all options currently unset are printed.  If the -m
              flag  is given the arguments are taken as patterns (which should
              be quoted to preserve them from being interpreted as  glob  pat-
              terns),  and  all options with names matching these patterns are
              unset.

       vared  See the section `Zle Builtins' in zshzle(1).

       wait [ job ... ]
              Wait for the specified jobs or processes.  If job is  not  given
              then  all currently active child processes are waited for.  Each
              job can be either a job specification or the process ID of a job
              in  the job table.  The exit status from this command is that of
              the job waited for.

       whence [ -vcwfpams ] name ...
              For each name, indicate how it would be interpreted if used as a
              command name.

              -v     Produce a more verbose report.

              -c     Print  the  results  in  a  csh-like  format.  This takes
                     precedence over -v.

              -w     For each name, print `name: word' where word  is  one  of
                     alias,  builtin,  command,  function, hashed, reserved or
                     none, according  as  name  corresponds  to  an  alias,  a
                     built-in  command, an external command, a shell function,
                     a command defined with the hash builtin, a reserved word,
                     or  is not recognised.  This takes precedence over -v and
                     -c.

              -f     Causes the contents of a shell function to be  displayed,
                     which  would otherwise not happen unless the -c flag were
                     used.

              -p     Do a path search  for  name  even  if  it  is  an  alias,
                     reserved word, shell function or builtin.

              -a     Do  a  search  for all occurrences of name throughout the
                     command path.  Normally  only  the  first  occurrence  is
                     printed.

              -m     The  arguments  are taken as patterns (should be quoted),
                     and the information is displayed for each command  match-
                     ing one of these patterns.

              -s     If  a  pathname contains symlinks, print the symlink-free
                     pathname as well.

       where [ -wpms ] name ...
              Equivalent to whence -ca.

       which [ -wpams ] name ...
              Equivalent to whence -c.

       zcompile [ -U ] [ -z | -k ] [ -R | -M ] file [ name ... ]
       zcompile -ca [ -m ] [ -R | -M ] file [ name ... ]
       zcompile -t file [ name ... ]
              This builtin  command  can  be  used  to  compile  functions  or
              scripts,  storing  the  compiled  form in a file, and to examine
              files  containing  the  compiled  form.   This   allows   faster
              autoloading  of  functions  and execution of scripts by avoiding
              parsing of the text when the files are read.

              The first form (without the -c, -a or -t options) creates a com-
              piled file.  If only the file argument is given, the output file
              has the name `file.zwc' and will be placed in the same directory
              as  the  file.  The shell will load the compiled file instead of
              the normal function file when the function  is  autoloaded;  see
              the section `Autoloading Functions' in zshfunc(1) for a descrip-
              tion of how autoloaded functions are  searched.   The  extension
              .zwc stands for `zsh word code'.

              If  there is at least one name argument, all the named files are
              compiled into the output file given as the first  argument.   If
              file  does  not  end  in  .zwc,  this extension is automatically
              appended.  Files  containing  multiple  compiled  functions  are
              called  `digest'  files, and are intended to be used as elements
              of the FPATH/fpath special array.

              The second form, with the -c or -a options, writes the  compiled
              definitions  for all the named functions into file.  For -c, the
              names must be functions currently  defined  in  the  shell,  not
              those  marked  for  autoloading.   Undefined  functions that are
              marked for autoloading may be written by using the -a option, in
              which case the fpath is searched and the contents of the defini-
              tion files for those functions,  if  found,  are  compiled  into
              file.   If both -c and -a are given, names of both defined func-
              tions and functions marked for autoloading  may  be  given.   In
              either  case,  the  functions in files written with the -c or -a
              option will be autoloaded as if  the  KSH_AUTOLOAD  option  were
              unset.

              The reason for handling loaded and not-yet-loaded functions with
              different options is that some definition files for  autoloading
              define  multiple functions, including the function with the same
              name as the file, and, at the end, call that function.  In  such
              cases  the  output  of  `zcompile -c' does not include the addi-
              tional functions defined in the file, and any other  initializa-
              tion code in the file is lost.  Using `zcompile -a' captures all
              this extra information.

              If the -m option is combined with -c or -a, the names  are  used
              as  patterns  and  all  functions whose names match one of these
              patterns will be written. If no name is given,  the  definitions
              of  all functions currently defined or marked as autoloaded will
              be written.

              The third form, with the -t option, examines  an  existing  com-
              piled  file.  Without further arguments, the names of the origi-
              nal files compiled into it are listed.  The first line of output
              shows  the  version of the shell which compiled the file and how
              the file will be used (i.e. by reading it directly or by mapping
              it  into  memory).   With  arguments,  nothing is output and the
              return status is set to zero if definitions for all  names  were
              found  in  the compiled file, and non-zero if the definition for
              at least one name was not found.

              Other options:

              -U     Aliases are not expanded when compiling the named  files.

              -R     When  the  compiled file is read, its contents are copied
                     into the shell's memory, rather than  memory-mapped  (see
                     -M).   This  happens automatically on systems that do not
                     support memory mapping.

                     When compiling scripts instead of autoloadable functions,
                     it  is  often desirable to use this option; otherwise the
                     whole file, including the code to define functions  which
                     have  already  been  defined,  will remain mapped, conse-
                     quently wasting memory.

              -M     The compiled file is mapped into the shell's memory  when
                     read.  This is done in such a way that multiple instances
                     of the shell running on the same  host  will  share  this
                     mapped file.  If neither -R nor -M is given, the zcompile
                     builtin decides what to do based on the size of the  com-
                     piled file.

              -k
              -z     These  options  are  used when the compiled file contains
                     functions which are to be autoloaded. If -z is given, the
                     function will be autoloaded as if the KSH_AUTOLOAD option
                     is not set, even if it is set at the  time  the  compiled
                     file is read, while if the -k is given, the function will
                     be loaded as if KSH_AUTOLOAD is set.  These options  also
                     take  precedence  over  any -k or -z options specified to
                     the autoload builtin. If  neither  of  these  options  is
                     given,  the  function will be loaded as determined by the
                     setting of the KSH_AUTOLOAD option at the time  the  com-
                     piled file is read.

                     These  options may also appear as many times as necessary
                     between the listed names to specify the loading style  of
                     all following functions, up to the next -k or -z.

                     The created file always contains two versions of the com-
                     piled format, one for big-endian  machines  and  one  for
                     small-endian  machines.   The  upshot of this is that the
                     compiled file is machine independent and if it is read or
                     mapped,  only  one half of the file is actually used (and
                     mapped).

       zformat
              See the section `The zsh/zutil Module' in zshmodules(1).

       zftp   See the section `The zsh/zftp Module' in zshmodules(1).

       zle    See the section `Zle Builtins' in zshzle(1).

       zmodload [ -dL ] [ ... ]
       zmodload -e [ -A ] [ ... ]
       zmodload [ -a [ -bcpf [ -I ] ] ] [ -iL ] ...
       zmodload -u [ -abcdpf [ -I ] ] [ -iL ] ...
       zmodload -A [ -L ] [ modalias[=module] ... ]
       zmodload -R modalias ...
              Performs operations relating to zsh's loadable modules.  Loading
              of  modules  while the shell is running (`dynamical loading') is
              not available on all operating systems, or on all  installations
              on  a particular operating system, although the zmodload command
              itself is always available and can be used to manipulate modules
              built  into  versions  of the shell executable without dynamical
              loading.

              Without arguments the names of all currently loaded binary  mod-
              ules  are  printed.  The -L option causes this list to be in the
              form of a series of zmodload  commands.   Forms  with  arguments
              are:

              zmodload [ -i ] name ...
              zmodload -u [ -i ] name ...
                     In  the  simplest  case,  zmodload loads a binary module.
                     The module must be in a file with a  name  consisting  of
                     the specified name followed by a standard suffix, usually
                     `.so' (`.sl' on HPUX).  If the module  to  be  loaded  is
                     already  loaded and the -i option is given, the duplicate
                     module is ignored.  Otherwise zmodload  prints  an  error
                     message  and  returns  a  non-zero  status.   If zmodload
                     detects an inconsistency, such as an invalid module  name
                     or  circular  dependency  list, the current code block is
                     aborted.  Hence `zmodload -i module 2>/dev/null' is  suf-
                     ficient  to test whether a module is available.  If it is
                     available, the module is loaded if necessary, while if it
                     is not available, non-zero status is silently returned.

                     The  named  module is searched for in the same way a com-
                     mand is, using $module_path instead of  $path.   However,
                     the  path  search  is performed even when the module name
                     contains a `/', which it usually does.  There is  no  way
                     to prevent the path search.

                     With -u, zmodload unloads modules.  The same name must be
                     given that was given when the module was loaded,  but  it
                     is  not necessary for the module to exist in the filesys-
                     tem.  The -i option suppresses the error if the module is
                     already unloaded (or was never loaded).

                     Each  module has a boot and a cleanup function.  The mod-
                     ule will not be loaded if its boot function fails.  Simi-
                     larly  a module can only be unloaded if its cleanup func-
                     tion runs successfully.

              zmodload -d [ -L ] [ name ]
              zmodload -d name dep ...
              zmodload -ud name [ dep ... ]
                     The -d option can be used to specify module dependencies.
                     The  modules named in the second and subsequent arguments
                     will be loaded before the module named in the first argu-
                     ment.

                     With  -d and one argument, all dependencies for that mod-
                     ule are listed.  With -d and  no  arguments,  all  module
                     dependencies are listed.  This listing is by default in a
                     Makefile-like format.  The -L option changes this  format
                     to a list of zmodload -d commands.

                     If -d and -u are both used, dependencies are removed.  If
                     only one argument is given,  all  dependencies  for  that
                     module are removed.

              zmodload -ab [ -L ]
              zmodload -ab [ -i ] name [ builtin ... ]
              zmodload -ub [ -i ] builtin ...
                     The  -ab  option defines autoloaded builtins.  It defines
                     the specified builtins.  When any of  those  builtins  is
                     called,  the  module  specified  in the first argument is
                     loaded.  If only  the  name  is  given,  one  builtin  is
                     defined, with the same name as the module.  -i suppresses
                     the  error  if  the  builtin  is   already   defined   or
                     autoloaded, regardless of which module it came from.

                     With  -ab  and  no arguments, all autoloaded builtins are
                     listed, with the module  name  (if  different)  shown  in
                     parentheses  after  the  builtin  name.   The  -L  option
                     changes this format to a list of zmodload -a commands.

                     If -b is used together with the  -u  option,  it  removes
                     builtins  previously defined with -ab.  This is only pos-
                     sible if the builtin is not yet  loaded.   -i  suppresses
                     the  error  if  the  builtin is already removed (or never
                     existed).

              zmodload -ac [ -IL ]
              zmodload -ac [ -iI ] name [ cond ... ]
              zmodload -uc [ -iI ] cond ...
                     The -ac option is used  to  define  autoloaded  condition
                     codes.  The cond strings give the names of the conditions
                     defined by the module. The optional -I option is used  to
                     define  infix condition names. Without this option prefix
                     condition names are defined.

                     If given no condition names, all defined names are listed
                     (as  a  series  of  zmodload commands if the -L option is
                     given).

                     The -uc option removes definitions for autoloaded  condi-
                     tions.

              zmodload -ap [ -L ]
              zmodload -ap [ -i ] name [ parameter ... ]
              zmodload -up [ -i ] parameter ...
                     The  -p  option  is like the -b and -c options, but makes
                     zmodload work on autoloaded parameters instead.

              zmodload -af [ -L ]
              zmodload -af [ -i ] name [ function ... ]
              zmodload -uf [ -i ] function ...
                     The -f option is like the -b, -p,  and  -c  options,  but
                     makes zmodload work on autoloaded math functions instead.

              zmodload -a [ -L ]
              zmodload -a [ -i ] name [ builtin ... ]
              zmodload -ua [ -i ] builtin ...
                     Equivalent to -ab and -ub.

              zmodload -e [ -A ] [ string ... ]
                     The -e option without arguments lists all loaded modules;
                     if  the  -A  option  is also given, module aliases corre-
                     sponding to loaded modules are also  shown.   With  argu-
                     ments  only  the  return  status  is  set  to zero if all
                     strings given as arguments are names  of  loaded  modules
                     and  to  one  if  at least on string is not the name of a
                     loaded module.  This can be used to test for  the  avail-
                     ability  of things implemented by modules.  In this case,
                     any aliases are automatically resolved and the -A flag is
                     not used.

              zmodload -A [ -L ] [ modalias[=module] ... ]
                     For each argument, if both modalias and module are given,
                     define modalias to be an alias for the module module.  If
                     the  module  modalias  is  ever  subsequently  requested,
                     either via a call to zmodload or  implicitly,  the  shell
                     will  attempt  to  load module instead.  If module is not
                     given, show the definition of modalias.  If no  arguments
                     are  given,  list all defined module aliases.  When list-
                     ing, if the -L flag was also given, list  the  definition
                     as a zmodload command to recreate the alias.

                     The  existence of aliases for modules is completely inde-
                     pendent of whether the name resolved is  actually  loaded
                     as  a module: while the alias exists, loading and unload-
                     ing the module under  any  alias  has  exactly  the  same
                     effect  as  using  the resolved name, and does not affect
                     the connection between the alias and  the  resolved  name
                     which can be removed either by zmodload -R or by redefin-
                     ing the alias.  Chains of aliases (i.e. where  the  first
                     resolved  name  is  itself an alias) are valid so long as
                     these are not circular.  As the  aliases  take  the  same
                     format as module names, they may include path separators:
                     in this case, there is no requirement for any part of the
                     path  named to exist as the alias will be resolved first.
                     For example, `any/old/alias' is always a valid alias.

                     Dependencies added to aliased modules are actually  added
                     to  the  resolved  module;  these  remain if the alias is
                     removed.  It is valid to create an alias  whose  name  is
                     one of the standard shell modules and which resolves to a
                     different module.  However, if a module has dependencies,
                     it  will  not  be  possible  to use the module name as an
                     alias as the module will already be marked as a  loadable
                     module in its own right.

                     Apart from the above, aliases can be used in the zmodload
                     command anywhere module  names  are  required.   However,
                     aliases will not be shown in lists of loaded modules with
                     a bare `zmodload'.

              zmodload -R modalias ...
                     For each modalias argument that was previously defined as
                     a module alias via zmodload -A, delete the alias.  If any
                     was not defined, an error is caused and the remainder  of
                     the line is ignored.

              Note  that  zsh  makes  no distinction between modules that were
              linked into the shell and modules that are  loaded  dynamically.
              In both cases this builtin command has to be used to make avail-
              able the builtins and other things defined  by  modules  (unless
              the  module  is  autoloaded  on these definitions). This is true
              even for systems that don't support dynamic loading of  modules.

       zparseopts
              See the section `The zsh/zutil Module' in zshmodules(1).

       zprof  See the section `The zsh/zprof Module' in zshmodules(1).

       zpty   See the section `The zsh/zpty Module' in zshmodules(1).

       zregexparse
              See the section `The zsh/zutil Module' in zshmodules(1).

       zsocket
              See the section `The zsh/net/socket Module' in zshmodules(1).

       zstyle See the section `The zsh/zutil Module' in zshmodules(1).

       ztcp   See the section `The zsh/net/tcp Module' in zshmodules(1).

ZSHZLE(1)                                                            ZSHZLE(1)


NAME

       zshzle - zsh command line editor


DESCRIPTION

       If the ZLE option is set (which it is by default in interactive shells)
       and the shell input is attached to the terminal, the user  is  able  to
       edit command lines.

       There  are  two  display  modes.   The  first,  multiline  mode, is the
       default.  It only works if the TERM parameter is set to a valid  termi-
       nal type that can move the cursor up.  The second, single line mode, is
       used if TERM is invalid or incapable of moving the cursor up, or if the
       SINGLE_LINE_ZLE  option  is set.  This mode is similar to ksh, and uses
       no termcap sequences.  If TERM is "emacs", the ZLE option will be unset
       by default.

       The  parameters BAUD, COLUMNS, and LINES are also used by the line edi-
       tor.  See Parameters Used By The Shell in zshparam(1).


KEYMAPS

       A keymap in ZLE contains a set of bindings between  key  sequences  and
       ZLE commands.  The empty key sequence cannot be bound.

       There can be any number of keymaps at any time, and each keymap has one
       or more names.  If all of a keymap's names are deleted, it  disappears.
       bindkey can be used to manipulate keymap names.

       Initially, there are four keymaps:

       emacs  EMACS emulation
       viins  vi emulation - insert mode
       vicmd  vi emulation - command mode
       .safe  fallback keymap

       The  `.safe'  keymap is special.  It can never be altered, and the name
       can never be removed.  However, it can be linked to other names,  which
       can  be  removed.   In  the  future other special keymaps may be added;
       users should avoid  using  names  beginning  with  `.'  for  their  own
       keymaps.

       In  addition  to  these  four  names, either `emacs' or `viins' is also
       linked to the name `main'.  If one of the VISUAL or EDITOR  environment
       variables contain the string `vi' when the shell starts up then it will
       be `viins', otherwise it will be `emacs'.  bindkey's -e and -v  options
       provide a convenient way to override this default choice.

       When  the  editor starts up, it will select the `main' keymap.  If that
       keymap doesn't exist, it will use `.safe' instead.

       In the `.safe' keymap, each single key is bound to self-insert,  except
       for  ^J  (line  feed)  and  ^M (return) which are bound to accept-line.
       This is deliberately not pleasant to use; if you are using it, it means
       you deleted the main keymap, and you should put it back.

   Reading Commands
       When ZLE is reading a command from the terminal, it may read a sequence
       that is bound to some command and is also a prefix of  a  longer  bound
       string.  In this case ZLE will wait a certain time to see if more char-
       acters are typed, and if not (or they don't match any longer string) it
       will  execute  the  binding.  This timeout is defined by the KEYTIMEOUT
       parameter; its default is 0.4 sec.  There is no timeout if  the  prefix
       string is not itself bound to a command.

       The  key  timeout  is also applied when ZLE is reading the bytes from a
       multibyte character string when it is in the appropriate  mode.   (This
       requires that the shell was compiled with multibyte mode enabled; typi-
       cally also the locale has characters with the UTF-8 encoding,  although
       any multibyte encoding known to the operating system is supported.)  If
       the second or a subsequent byte is not read within the timeout  period,
       the shell acts as if ? were typed and resets the input state.

       As  well  as ZLE commands, key sequences can be bound to other strings,
       by using `bindkey -s'.  When such a sequence is read,  the  replacement
       string  is pushed back as input, and the command reading process starts
       again using these fake keystrokes.  This input can itself  invoke  fur-
       ther replacement strings, but in order to detect loops the process will
       be stopped if there are twenty such replacements without a real command
       being read.

       A  key sequence typed by the user can be turned into a command name for
       use in user-defined widgets with  the  read-command  widget,  described
       below.


ZLE BUILTINS

       The  ZLE  module  contains  three related builtin commands. The bindkey
       command manipulates keymaps and key bindings; the vared command invokes
       ZLE  on the value of a shell parameter; and the zle command manipulates
       editing widgets and allows command line access  to  ZLE  commands  from
       within shell functions.

       bindkey [ options ] -l
       bindkey [ options ] -d
       bindkey [ options ] -D keymap ...
       bindkey [ options ] -A old-keymap new-keymap
       bindkey [ options ] -N new-keymap [ old-keymap ]
       bindkey [ options ] -m
       bindkey [ options ] -r in-string ...
       bindkey [ options ] -s in-string out-string ...
       bindkey [ options ] in-string command ...
       bindkey [ options ] [ in-string ]
              bindkey's  options  can be divided into three categories: keymap
              selection, operation selection, and others.  The  keymap  selec-
              tion options are:

              -e     Selects keymap `emacs', and also links it to `main'.

              -v     Selects keymap `viins', and also links it to `main'.

              -a     Selects keymap `vicmd'.

              -M keymap
                     The keymap specifies a keymap name.

              If  a keymap selection is required and none of the options above
              are used, the `main' keymap is used.   Some  operations  do  not
              permit a keymap to be selected, namely:

              -l     List all existing keymap names.  If the -L option is also
                     used, list in the form of bindkey commands to create  the
                     keymaps.

              -d     Delete  all  existing  keymaps  and  reset to the default
                     state.

              -D keymap ...
                     Delete the named keymaps.

              -A old-keymap new-keymap
                     Make the new-keymap name an alias for old-keymap, so that
                     both  names  refer  to  the  same keymap.  The names have
                     equal standing; if either is deleted, the other  remains.
                     If there is already a keymap with the new-keymap name, it
                     is deleted.

              -N new-keymap [ old-keymap ]
                     Create a new  keymap,  named  new-keymap.   If  a  keymap
                     already  has  that name, it is deleted.  If an old-keymap
                     name is given, the new keymap  is  initialized  to  be  a
                     duplicate  of it, otherwise the new keymap will be empty.

              To use a newly created keymap, it  should  be  linked  to  main.
              Hence  the  sequence  of commands to create and use a new keymap
              `mymap'  initialized  from  the  emacs  keymap  (which   remains
              unchanged) is:

                     bindkey -N mymap emacs
                     bindkey -A mymap main

              Note  that  while `bindkey -A newmap main' will work when newmap
              is emacs or viins, it will not work for vicmd, as switching from
              vi insert to command mode becomes impossible.

              The  following  operations act on the `main' keymap if no keymap
              selection option was given:

              -m     Add the built-in set of meta-key bindings to the selected
                     keymap.    Only   keys  that  are  unbound  or  bound  to
                     self-insert are affected.

              -r in-string ...
                     Unbind the specified in-strings in the  selected  keymap.
                     This  is  exactly  equivalent  to  binding the strings to
                     undefined-key.

                     When -R is also used, interpret the in-strings as ranges.

                     When  -p  is  also used, the in-strings specify prefixes.
                     Any binding that has the given in-string as a prefix, not
                     including  the  binding for the in-string itself, if any,
                     will be removed.  For example,

                            bindkey -rpM viins '^['

                     will remove all bindings in the vi-insert  keymap  begin-
                     ning with an escape character (probably cursor keys), but
                     leave the binding for the escape character itself (proba-
                     bly  vi-cmd-mode).   This is incompatible with the option
                     -R.

              -s in-string out-string ...
                     Bind each in-string to each out-string.   When  in-string
                     is  typed,  out-string will be pushed back and treated as
                     input to the line editor.  When -R is also  used,  inter-
                     pret the in-strings as ranges.

              in-string command ...
                     Bind  each  in-string  to each command.  When -R is used,
                     interpret the in-strings as ranges.

              [ in-string ]
                     List key bindings.  If an  in-string  is  specified,  the
                     binding  of  that  string  in the selected keymap is dis-
                     played.  Otherwise, all  key  bindings  in  the  selected
                     keymap  are  displayed.  (As a special case, if the -e or
                     -v option is used alone, the keymap is  not  displayed  -
                     the  implicit  linking  of keymaps is the only thing that
                     happens.)

                     When the  option  -p  is  used,  the  in-string  must  be
                     present.   The  listing shows all bindings which have the
                     given key sequence as a prefix, not including  any  bind-
                     ings for the key sequence itself.

                     When  the  -L  option is used, the list is in the form of
                     bindkey commands to create the key bindings.

       When the -R option is used as noted above, a valid  range  consists  of
       two  characters,  with  an  optional  `-' between them.  All characters
       between the two specified, inclusive, are bound as specified.

       For either in-string or out-string, the following escape sequences  are
       recognised:

       \a     bell character
       \b     backspace
       \e, \E escape
       \f     form feed
       \n     linefeed (newline)
       \r     carriage return
       \t     horizontal tab
       \v     vertical tab
       \NNN   character code in octal
       \xNN   character code in hexadecimal
       \M[-]X character with meta bit set
       \C[-]X control character
       ^X     control character

       In  all  other  cases,  `\' escapes the following character.  Delete is
       written as `^?'.  Note that `\M^?' and `^\M?' are  not  the  same,  and
       that  (unlike  emacs),  the bindings `\M-X' and `\eX' are entirely dis-
       tinct, although they are initialized to the same bindings  by  `bindkey
       -m'.

       vared [ -Aache ] [ -p prompt ] [ -r rprompt ]
         [ -M main-keymap ] [ -m vicmd-keymap ] name
              The  value of the parameter name is loaded into the edit buffer,
              and the line editor is invoked.  When the editor exits, name  is
              set  to  the  string  value returned by the editor.  When the -c
              flag is given, the parameter is created if  it  doesn't  already
              exist.   The  -a  flag  may  be given with -c to create an array
              parameter, or the -A flag to create an  associative  array.   If
              the  type of an existing parameter does not match the type to be
              created, the parameter is unset and recreated.

              If an array or array slice is being edited, separator characters
              as  defined  in  $IFS  will be shown quoted with a backslash, as
              will backslashes themselves.  Conversely, when the  edited  text
              is  split  into an array, a backslash quotes an immediately fol-
              lowing separator character or backslash; no other  special  han-
              dling of backslashes, or any handling of quotes, is performed.

              Individual  elements  of  existing  array  or  associative array
              parameters may be edited by using subscript syntax on name.  New
              elements are created automatically, even without -c.

              If  the  -p flag is given, the following string will be taken as
              the prompt to display at the left.  If the -r flag is given, the
              following  string  gives the prompt to display at the right.  If
              the -h flag is specified, the history can be accessed from  ZLE.
              If  the -e flag is given, typing ^D (Control-D) on an empty line
              causes vared to exit immediately with a non-zero return value.

              The -M option gives a keymap to link to the main  keymap  during
              editing,  and  the -m option gives a keymap to link to the vicmd
              keymap during editing.  For vi-style editing, this allows a pair
              of  keymaps  to override viins and vicmd.  For emacs-style edit-
              ing, only -M is normally needed but the -m option may  still  be
              used.  On exit, the previous keymaps will be restored.

       zle
       zle -l [ -L | -a ] [ string ... ]
       zle -D widget ...
       zle -A old-widget new-widget
       zle -N widget [ function ]
       zle -C widget completion-widget function
       zle -R [ -c ] [ display-string ] [ string ... ]
       zle -M string
       zle -U string
       zle -K keymap
       zle -F [ -L ] [ fd [ handler ] ]
       zle -I
       zle widget [ -n num ] [ -Nw ] [ -K keymap ] args ...
              The  zle builtin performs a number of different actions concern-
              ing ZLE.

              With no options and no arguments, only the return status will be
              set.  It is zero if ZLE is currently active and widgets could be
              invoked using this builtin command and non-zero otherwise.  Note
              that  even  if  non-zero  status  is  returned, zle may still be
              active as part of the completion system;  this  does  not  allow
              direct calls to ZLE widgets.

              Otherwise, which operation it performs depends on its options:

              -l [ -L | -a ]
                     List all existing user-defined widgets.  If the -L option
                     is used, list in the form of zle commands to  create  the
                     widgets.

                     When  combined  with  the -a option, all widget names are
                     listed, including the builtin ones. In this case  the  -L
                     option is ignored.

                     If  at least one string is given, nothing will be printed
                     but the return status will be zero  if  all  strings  are
                     names  of existing widgets (or of user-defined widgets if
                     the -a flag is not given) and non-zero if  at  least  one
                     string is not a name of an defined widget.

              -D widget ...
                     Delete the named widgets.

              -A old-widget new-widget
                     Make the new-widget name an alias for old-widget, so that
                     both names refer to the  same  widget.   The  names  have
                     equal  standing; if either is deleted, the other remains.
                     If there is already a widget with the new-widget name, it
                     is deleted.

              -N widget [ function ]
                     Create a user-defined widget.  If there is already a wid-
                     get with the specified name, it is overwritten.  When the
                     new  widget is invoked from within the editor, the speci-
                     fied shell function is called.  If no  function  name  is
                     specified,  it  defaults  to the same name as the widget.
                     For further information, see the section Widgets in  zsh-
                     zle(1).

              -C widget completion-widget function
                     Create a user-defined completion widget named widget. The
                     completion widget will behave like the  built-in  comple-
                     tion-widget  whose name is given as completion-widget. To
                     generate the completions,  the  shell  function  function
                     will  be  called.   For further information, see zshcomp-
                     wid(1).

              -R [ -c ] [ display-string ] [ string ... ]
                     Redisplay the command line; this is  to  be  called  from
                     within  a  user-defined widget to allow changes to become
                     visible.  If a display-string is  given  and  not  empty,
                     this  is  shown in the status line (immediately below the
                     line being edited).

                     If the optional strings are given they are  listed  below
                     the  prompt  in  the  same  way  as  completion lists are
                     printed. If no strings are given but  the  -c  option  is
                     used such a list is cleared.

                     Note  that this option is only useful for widgets that do
                     not exit immediately after using it because  the  strings
                     displayed  will  be  erased immediately after return from
                     the widget.

                     This command can safely be called  outside  user  defined
                     widgets; if zle is active, the display will be refreshed,
                     while if zle is not active, the command  has  no  effect.
                     In this case there will usually be no other arguments.

                     The status is zero if zle was active, else one.

              -M string
                     As with the -R option, the string will be displayed below
                     the command line; unlike the -R option, the  string  will
                     not  be  put  into  the  status  line but will instead be
                     printed normally below the prompt.  This means  that  the
                     string  will  still be displayed after the widget returns
                     (until it is overwritten by subsequent commands).

              -U string
                     This pushes the characters in the string onto  the  input
                     stack  of  ZLE.  After the widget currently executed fin-
                     ishes ZLE will behave as if the characters in the  string
                     were typed by the user.

                     As  ZLE  uses  a stack, if this option is used repeatedly
                     the last string pushed onto the stack will  be  processed
                     first.   However,  the  characters in each string will be
                     processed in the  order  in  which  they  appear  in  the
                     string.

              -K keymap
                     Selects  the  keymap named keymap.  An error message will
                     be displayed if there is no such keymap.

                     This keymap selection affects the interpretation of  fol-
                     lowing  keystrokes  within  this  invocation of ZLE.  Any
                     following invocation (e.g., the next command  line)  will
                     start as usual with the `main' keymap selected.

              -F [ -L ] [ fd [ handler ] ]
                     Only  available if your system supports one of the `poll'
                     or `select' system calls; most modern systems do.

                     Installs handler (the name of a shell function) to handle
                     input from file descriptor fd.  When zle is attempting to
                     read data, it will examine both the terminal and the list
                     of  handled fd's.  If data becomes available on a handled
                     fd, zle will call handler with the fd which is ready  for
                     reading  as  the  only argument.  If the handler produces
                     output to the terminal, it should call  `zle  -I'  before
                     doing  so (see below).  The handler should not attempt to
                     read from the terminal.  Note that zle makes  no  attempt
                     to  check  whether  this  fd  is  actually  readable when
                     installing the handler.  The user  must  make  their  own
                     arrangements for handling the file descriptor when zle is
                     not active.

                     Any number of handlers for any number  of  readable  file
                     descriptors  may  be installed.  Installing a handler for
                     an fd which is already handled causes the  existing  han-
                     dler to be replaced.

                     If no handler is given, but an fd is present, any handler
                     for that fd is removed.  If there is none, an error  mes-
                     sage is printed and status 1 is returned.

                     If  no arguments are given, or the -L option is supplied,
                     a list of handlers is printed in  a  form  which  can  be
                     stored for later execution.

                     An  fd  (but  not a handler) may optionally be given with
                     the -L option; in this case, the function will  list  the
                     handler if any, else silently return status 1.

                     Note  that this feature should be used with care.  Activ-
                     ity on one of the fd's which is not properly handled  can
                     cause the terminal to become unusable.

                     Here  is  a simple example of using this feature.  A con-
                     nection to a remote TCP port is created  using  the  ztcp
                     command; see the description of the zsh/net/tcp module in
                     zshmodules(1).  Then a handler is installed which  simply
                     prints  out  any  data  which arrives on this connection.
                     Note that `select' will indicate that the file descriptor
                     needs  handling if the remote side has closed the connec-
                     tion; we handle that by testing for a failed read.
                            if ztcp pwspc 2811; then
                              tcpfd=$REPLY
                              handler() {
                                zle -I
                                local line
                                if ! read -r line <&$1; then
                                  # select marks this fd if we reach EOF,
                                  # so handle this specially.
                                  print "[Read on fd $1 failed, removing.]" >&2
                                  zle -F $1
                                  return 1
                                fi
                                print -r - $line
                              }
                              zle -F $tcpfd handler
                            fi

              -I     Unusually, this option is most  useful  outside  ordinary
                     widget  functions, though it may be used within if normal
                     output to the terminal is required.  It  invalidates  the
                     current  zle display in preparation for output; typically
                     this will be from a trap function.  It has no  effect  if
                     zle  is  not active.  When a trap exits, the shell checks
                     to see if the display needs restoring, hence the  follow-
                     ing will print output in such a way as not to disturb the
                     line being edited:

                            TRAPUSR1() {
                                # Invalidate zle display
                              [[ -o zle ]] && zle -I
                                # Show output
                              print Hello
                            }

                     In general, the trap function may need  to  test  whether
                     zle  is  active before using this method (as shown in the
                     example), since  the  zsh/zle  module  may  not  even  be
                     loaded; if it is not, the command can be skipped.

                     It is possible to call `zle -I' several times before con-
                     trol is returned to the editor; the display will only  be
                     invalidated the first time to minimise disruption.

                     Note  that there are normally better ways of manipulating
                     the display from within zle widgets;  see,  for  example,
                     `zle -R' above.

                     The  returned status is zero if zle was invalidated, even
                     though this may have been by a previous call to `zle  -I'
                     or by a system notification.  To test if a zle widget may
                     be called at this point, execute zle  with  no  arguments
                     and examine the return status.

              widget [ -n num ] [ -Nw ] [ -K keymap ] args ...
                     Invoke  the specified widget.  This can only be done when
                     ZLE  is  active;  normally  this   will   be   within   a
                     user-defined widget.

                     With  the  options -n and -N, the current numerical argu-
                     ment will be saved and then restored after  the  call  to
                     widget;  `-n num' sets the numerical argument temporarily
                     to num, while `-N' sets it to the  default,  i.e.  as  if
                     there were none.

                     With  the  option  -K, keymap will be used as the current
                     keymap during the execution of the widget.  The  previous
                     keymap will be restored when the widget exits.

                     Normally,  calling  a widget in this way does not set the
                     special parameter WIDGET and related parameters, so  that
                     the environment appears as if the top-level widget called
                     by the user were still active.  With the option -w,  WID-
                     GET  and related parameters are set to reflect the widget
                     being executed by the zle call.

                     Any further arguments will be passed to the  widget.   If
                     it  is  a  shell function, these are passed down as posi-
                     tional parameters; for builtin widgets it is  up  to  the
                     widget  in  question  what  it does with them.  Currently
                     arguments are only handled by the incremental-search com-
                     mands,  the  history-search-forward and -backward and the
                     corresponding functions prefixed by vi-, and  by  univer-
                     sal-argument.   No  error  is flagged if the command does
                     not use the arguments, or only uses some of them.

                     The return status reflects the success or failure of  the
                     operation  carried  out  by  the  widget,  or  if it is a
                     user-defined widget the return status of the shell  func-
                     tion.

                     A  non-zero  return  status causes the shell to beep when
                     the widget exits, unless the BEEP options  was  unset  or
                     the  widget  was  called  via the zle command.  Thus if a
                     user defined widget requires an immediate beep, it should
                     call the beep widget directly.


WIDGETS

       All  actions  in the editor are performed by `widgets'.  A widget's job
       is simply to perform some small action.   The  ZLE  commands  that  key
       sequences  in keymaps are bound to are in fact widgets.  Widgets can be
       user-defined or built in.

       The standard widgets built in to ZLE are  listed  in  Standard  Widgets
       below.   Other  built-in  widgets  can be defined by other modules (see
       zshmodules(1)).  Each built-in widget has two names: its normal canoni-
       cal  name,  and  the same name preceded by a `.'.  The `.' name is spe-
       cial: it can't be rebound to a different widget.  This makes the widget
       available even when its usual name has been redefined.

       User-defined  widgets  are  defined  using `zle -N', and implemented as
       shell functions.  When the widget is executed, the corresponding  shell
       function  is  executed, and can perform editing (or other) actions.  It
       is recommended that user-defined widgets should not have names starting
       with `.'.


USER\-DEFINED WIDGETS

       User-defined widgets, being implemented as shell functions, can execute
       any normal shell command.  They can also  run  other  widgets  (whether
       built-in  or user-defined) using the zle builtin command.  The standard
       input of the function is closed to prevent external commands from unin-
       tentionally  blocking  ZLE by reading from the terminal, but read -k or
       read -q can be used to read characters.  Finally, they can examine  and
       edit  the  ZLE  buffer  being edited by reading and setting the special
       parameters described below.

       These special parameters are always available in widget functions,  but
       are not in any way special outside ZLE.  If they have some normal value
       outside ZLE, that value is temporarily inaccessible,  but  will  return
       when  the widget function exits.  These special parameters in fact have
       local scope, like parameters created in a function using local.

       Inside completion widgets and traps called while ZLE is  active,  these
       parameters are available read-only.

       BUFFER (scalar)
              The  entire  contents  of the edit buffer.  If it is written to,
              the cursor remains at the same offset, unless that would put  it
              outside the buffer.

       BUFFERLINES (integer)
              The  number of screen lines needed for the edit buffer currently
              displayed on screen (i.e. without any changes to  the  preceding
              parameters done after the last redisplay); read-only.

       CONTEXT (scalar)
              The  context  in which zle was called to read a line; read-only.
              One of the values:
       start  The start of a command line (at prompt PS1).

       cont   A continuation to a command line (at prompt PS2).

       select In a select loop.

       vared  Editing a variable in vared.

       CURSOR (integer)
              The offset of the cursor, within the edit buffer.   This  is  in
              the  range  0  to  $#BUFFER,  and  is  by  definition  equal  to
              $#LBUFFER.  Attempts to move the cursor outside the buffer  will
              result  in  the cursor being moved to the appropriate end of the
              buffer.

       CUTBUFFER (scalar)
              The last item to be cut using one of the `kill-'  commands;  the
              string  which  the  next  yank  would insert in the line.  Later
              entries in the kill ring are in the array killring.

       HISTNO (integer)
              The current history number.  Setting this has the same effect as
              moving  up  or  down in the history to the corresponding history
              line.  An attempt to set it is ignored if the line is not stored
              in  the  history.   Note  this  is not the same as the parameter
              HISTCMD, which always gives the number of the history line being
              added  to  the  main shell's history.  HISTNO refers to the line
              being retrieved within zle.

       KEYMAP (scalar)
              The name of the currently selected keymap; read-only.

       KEYS (scalar)
              The keys typed to invoke  this  widget,  as  a  literal  string;
              read-only.

       killring (array)
              The  array  of  previously  killed items, with the most recently
              killed first.  This gives the items that would be retrieved by a
              yank-pop  in  the  same  order.   Note,  however,  that the most
              recently killed item is in $CUTBUFFER; $killring shows the array
              of previous entries.

              The  default size for the kill ring is eight, however the length
              may be changed by normal array operations.  Any empty string  in
              the kill ring is ignored by the yank-pop command, hence the size
              of the array effectively sets the maximum  length  of  the  kill
              ring,  while  the  number  of non-zero strings gives the current
              length, both as seen by the user at the command line.

       LASTSEARCH (scalar)
              The  last  search  string  used  by  an  interactive  search   ;
              read-only.

       LASTWIDGET (scalar)
              The name of the last widget that was executed; read-only.

       LBUFFER (scalar)
              The part of the buffer that lies to the left of the cursor posi-
              tion.  If it is assigned to, only that part  of  the  buffer  is
              replaced,  and  the  cursor remains between the new $LBUFFER and
              the old $RBUFFER.

       MARK (integer)
              Like CURSOR, but for the mark.

       NUMERIC (integer)
              The numeric argument. If no numeric  argument  was  given,  this
              parameter  is  unset. When this is set inside a widget function,
              builtin widgets called with the zle builtin command will use the
              value assigned. If it is unset inside a widget function, builtin
              widgets called behave as if no numeric argument was given.

       PENDING (integer)
              The number of bytes pending for input, i.e. the number of  bytes
              which  have  already  been typed and can immediately be read. On
              systems where the shell is not able  to  get  this  information,
              this parameter will always have a value of zero.  Read-only.

       PREBUFFER (scalar)
              In  a  multi-line  input at the secondary prompt, this read-only
              parameter contains the contents of the lines before the one  the
              cursor is currently in.

       PREDISPLAY (scalar)
              Text  to  be  displayed  before  the  start of the editable text
              buffer.  This does not have to be a complete line; to display  a
              complete  line,  a  newline  must be appended explicitly.    The
              text is reset on each new invocation (but not recursive  invoca-
              tion) of zle.

       POSTDISPLAY (scalar)
              Text  to be displayed after the end of the editable text buffer.
              This does not have to be a complete line; to display a  complete
              line, a newline must be prepended explicitly.  The text is reset
              on each new invocation (but not recursive invocation) of zle.

       RBUFFER (scalar)
              The part of the buffer that lies to  the  right  of  the  cursor
              position.  If it is assigned to, only that part of the buffer is
              replaced, and the cursor remains between the  old  $LBUFFER  and
              the new $RBUFFER.

       WIDGET (scalar)
              The name of the widget currently being executed; read-only.

       WIDGETFUNC (scalar)
              The  name of the shell function that implements a widget defined
              with either zle -N or zle -C.  In the former case, this  is  the
              second  argument  to the zle -N command that defined the widget,
              or the first argument if there was no second argument.   In  the
              latter case this is the the third argument to the zle -C command
              that defined the widget.  Read-only.

       WIDGETSTYLE (scalar)
              Describes the implementation behind the completion  widget  cur-
              rently  being executed; the second argument that followed zle -C
              when the widget was defined.  This is the name of a builtin com-
              pletion  widget.  For widgets defined with zle -N this is set to
              the empty string.  Read-only.

   Special Widget
       There are a few user-defined widgets which are special  to  the  shell.
       If they do not exist, no special action is taken.  The environment pro-
       vided is identical to that for any other editing widget.

       zle-line-init
              Executed every time the line editor is started  to  read  a  new
              line  of input.  The following example puts the line editor into
              vi command mode when it starts up.

                     zle-line-init() { zle -K vicmd; }
                     zle -N zle-line-init

              (The command inside the function sets the keymap directly; it is
              equivalent to zle vi-cmd-mode.)

       zle-keymap-select
              Executed every time the keymap changes, i.e. the special parame-
              ter KEYMAP is set to a different value, while the line editor is
              active.   Initialising  the  keymap  when the line editor starts
              does not cause the widget to be called.

              The value $KEYMAP within the function reflects the  new  keymap.
              The old keymap is passed as the sole argument.

              This can been used for detecting switches between the vi command
              (vicmd) and insert (usually main) keymaps.


STANDARD WIDGETS

       The following is a list of all the standard widgets, and their  default
       bindings  in  emacs  mode,  vi  command  mode  and  vi insert mode (the
       `emacs', `vicmd' and `viins' keymaps, respectively).

       Note that cursor keys are bound to movement keys in all three  keymaps;
       the  shell assumes that the cursor keys send the key sequences reported
       by the  terminal-handling  library  (termcap  or  terminfo).   The  key
       sequences  shown  in  the  list are those based on the VT100, common on
       many modern terminals, but in fact these are not necessarily bound.  In
       the  case  of  the  viins  keymap,  the initial escape character of the
       sequences serves also to return to the vicmd keymap: whether this  hap-
       pens is determined by the KEYTIMEOUT parameter, see zshparam(1).

   Movement
       vi-backward-blank-word (unbound) (B) (unbound)
              Move  backward  one word, where a word is defined as a series of
              non-blank characters.

       backward-char (^B ESC-[D) (unbound) (unbound)
              Move backward one character.

       vi-backward-char (unbound) (^H h ^?) (ESC-[D)
              Move backward one character, without changing lines.

       backward-word (ESC-B ESC-b) (unbound) (unbound)
              Move to the beginning of the previous word.

       emacs-backward-word
              Move to the beginning of the previous word.

       vi-backward-word (unbound) (b) (unbound)
              Move to the beginning of the previous word, vi-style.

       beginning-of-line (^A) (unbound) (unbound)
              Move to the beginning of the line.  If already at the  beginning
              of the line, move to the beginning of the previous line, if any.

       vi-beginning-of-line
              Move to the beginning of the line, without changing lines.

       end-of-line (^E) (unbound) (unbound)
              Move to the end of the line.  If already at the end of the line,
              move to the end of the next line, if any.

       vi-end-of-line (unbound) ($) (unbound)
              Move  to  the  end of the line.  If an argument is given to this
              command, the cursor will be moved to the end of the line  (argu-
              ment - 1) lines down.

       vi-forward-blank-word (unbound) (W) (unbound)
              Move  forward  one  word, where a word is defined as a series of
              non-blank characters.

       vi-forward-blank-word-end (unbound) (E) (unbound)
              Move to the end of the current word, or, if at the  end  of  the
              current  word,  to  the  end  of  the next word, where a word is
              defined as a series of non-blank characters.

       forward-char (^F ESC-[C) (unbound) (unbound)
              Move forward one character.

       vi-forward-char (unbound) (space l) (ESC-[C)
              Move forward one character.

       vi-find-next-char (^X^F) (f) (unbound)
              Read a character from the keyboard, and move to the next  occur-
              rence of it in the line.

       vi-find-next-char-skip (unbound) (t) (unbound)
              Read  a  character  from  the keyboard, and move to the position
              just before the next occurrence of it in the line.

       vi-find-prev-char (unbound) (F) (unbound)
              Read a character from the keyboard, and  move  to  the  previous
              occurrence of it in the line.

       vi-find-prev-char-skip (unbound) (T) (unbound)
              Read  a  character  from  the keyboard, and move to the position
              just after the previous occurrence of it in the line.

       vi-first-non-blank (unbound) (^) (unbound)
              Move to the first non-blank character in the line.

       vi-forward-word (unbound) (w) (unbound)
              Move forward one word, vi-style.

       forward-word (ESC-F ESC-f) (unbound) (unbound)
              Move to the beginning of the next word.  The editor's idea of  a
              word is specified with the WORDCHARS parameter.

       emacs-forward-word
              Move to the end of the next word.

       vi-forward-word-end (unbound) (e) (unbound)
              Move to the end of the next word.

       vi-goto-column (ESC-|) (|) (unbound)
              Move to the column specified by the numeric argument.

       vi-goto-mark (unbound) (`) (unbound)
              Move to the specified mark.

       vi-goto-mark-line (unbound) (') (unbound)
              Move to beginning of the line containing the specified mark.

       vi-repeat-find (unbound) (;) (unbound)
              Repeat the last vi-find command.

       vi-rev-repeat-find (unbound) (,) (unbound)
              Repeat the last vi-find command in the opposite direction.

   History Control
       beginning-of-buffer-or-history (ESC-<) (unbound) (unbound)
              Move  to  the beginning of the buffer, or if already there, move
              to the first event in the history list.

       beginning-of-line-hist
              Move to the beginning of the line.  If already at the  beginning
              of the buffer, move to the previous history line.

       beginning-of-history
              Move to the first event in the history list.

       down-line-or-history (^N ESC-[B) (j) (ESC-[B)
              Move  down  a  line  in  the buffer, or if already at the bottom
              line, move to the next event in the history list.

       vi-down-line-or-history (unbound) (+) (unbound)
              Move down a line in the buffer, or  if  already  at  the  bottom
              line,  move to the next event in the history list.  Then move to
              the first non-blank character on the line.

       down-line-or-search
              Move down a line in the buffer, or  if  already  at  the  bottom
              line,  search  forward  in the history for a line beginning with
              the first word in the buffer.

              If called from a function by the zle command with arguments, the
              first  argument  is  taken  as  the  string for which to search,
              rather than the first word in the buffer.

       down-history (unbound) (^N) (unbound)
              Move to the next event in the history list.

       history-beginning-search-backward
              Search backward in the history for a  line  beginning  with  the
              current  line  up  to the cursor.  This leaves the cursor in its
              original position.

       end-of-buffer-or-history (ESC->) (unbound) (unbound)
              Move to the end of the buffer, or if already there, move to  the
              last event in the history list.

       end-of-line-hist
              Move  to  the  end  of  the  line.  If already at the end of the
              buffer, move to the next history line.

       end-of-history
              Move to the last event in the history list.

       vi-fetch-history (unbound) (G) (unbound)
              Fetch the history line specified by the numeric argument.   This
              defaults  to  the  current history line (i.e. the one that isn't
              history yet).

       history-incremental-search-backward (^R ^Xr) (unbound) (unbound)
              Search backward  incrementally  for  a  specified  string.   The
              search  is  case-insensitive  if the search string does not have
              uppercase letters and no numeric argument was given.  The string
              may  begin with `^' to anchor the search to the beginning of the
              line.

              A restricted set  of  editing  functions  is  available  in  the
              mini-buffer.   An  interrupt signal, as defined by the stty set-
              ting, will stop the search and go back to the original line.  An
              undefined key will have the same effect. The supported functions
              are:       backward-delete-char,        vi-backward-delete-char,
              clear-screen,    redisplay,   quoted-insert,   vi-quoted-insert,
              accept-and-hold, accept-and-infer-next-history, accept-line  and
              accept-line-and-down-history.

              magic-space  just  inserts a space.  vi-cmd-mode toggles between
              the `main' and `vicmd' keymaps; the `main' keymap (insert  mode)
              will be selected initially.  history-incremental-search-backward
              will get the next occurrence of the contents of the mini-buffer.
              history-incremental-search-forward  inverts  the  sense  of  the
              search.  vi-repeat-search and vi-rev-repeat-search are similarly
              supported.   The  direction  of  the  search is indicated in the
              mini-buffer.

              Any multi-character string that is not bound to one of the above
              functions  will  beep and interrupt the search, leaving the last
              found line in the buffer. Any single character that is not bound
              to   one   of   the   above   functions,   or   self-insert   or
              self-insert-unmeta, will have the same effect but  the  function
              will be executed.

              When  called  from  a  widget  function  by the zle command, the
              incremental search commands can take a  string  argument.   This
              will  be  treated  as  a string of keys, as for arguments to the
              bindkey command, and used as initial input for the command.  Any
              characters  in  the  string  which are unused by the incremental
              search will be silently ignored.  For example,

                     zle history-incremental-search-backward forceps

              will search backwards for forceps, leaving the  minibuffer  con-
              taining the string `forceps'.

       history-incremental-search-forward (^S ^Xs) (unbound) (unbound)
              Search forward incrementally for a specified string.  The search
              is case-insensitive if the search string does not have uppercase
              letters and no numeric argument was given.  The string may begin
              with `^' to anchor the search to the beginning of the line.  The
              functions  available in the mini-buffer are the same as for his-
              tory-incremental-search-backward.

       history-search-backward (ESC-P ESC-p) (unbound) (unbound)
              Search backward in the history for a  line  beginning  with  the
              first word in the buffer.

              If called from a function by the zle command with arguments, the
              first argument is taken as  the  string  for  which  to  search,
              rather than the first word in the buffer.

       vi-history-search-backward (unbound) (/) (unbound)
              Search  backward  in  the  history  for a specified string.  The
              string may begin with `^' to anchor the search to the  beginning
              of the line.

              A  restricted  set  of  editing  functions  is  available in the
              mini-buffer.  An interrupt signal, as defined by the  stty  set-
              ting,   will  stop  the  search.  The functions available in the
              mini-buffer  are:  accept-line,  backward-delete-char,  vi-back-
              ward-delete-char,   backward-kill-word,   vi-backward-kill-word,
              clear-screen, redisplay, quoted-insert and vi-quoted-insert.

              vi-cmd-mode is treated the same as accept-line, and  magic-space
              is treated as a space.  Any other character that is not bound to
              self-insert or self-insert-unmeta will beep and be  ignored.  If
              the function is called from vi command mode, the bindings of the
              current insert mode will be used.

              If called from a function by the zle command with arguments, the
              first  argument  is  taken  as  the  string for which to search,
              rather than the first word in the buffer.

       history-search-forward (ESC-N ESC-n) (unbound) (unbound)
              Search forward in the history for  a  line  beginning  with  the
              first word in the buffer.

              If called from a function by the zle command with arguments, the
              first argument is taken as  the  string  for  which  to  search,
              rather than the first word in the buffer.

       vi-history-search-forward (unbound) (?) (unbound)
              Search  forward  in  the  history  for  a specified string.  The
              string may begin with `^' to anchor the search to the  beginning
              of  the line. The functions available in the mini-buffer are the
              same as for vi-history-search-backward.   Argument  handling  is
              also the same as for that command.

       infer-next-history (^X^N) (unbound) (unbound)
              Search  in  the history list for a line matching the current one
              and fetch the event following it.

       insert-last-word (ESC-_ ESC-.) (unbound) (unbound)
              Insert the last word from the previous history event at the cur-
              sor  position.   If a positive numeric argument is given, insert
              that word from the end of the previous history  event.   If  the
              argument  is  zero  or  negative  insert that word from the left
              (zero inserts the previous command word).  Repeating  this  com-
              mand replaces the word just inserted with the last word from the
              history event prior to the one just used; numeric arguments  can
              be used in the same way to pick a word from that event.

              When  called  from  a shell function invoked from a user-defined
              widget, the command can take one to three arguments.  The  first
              argument  specifies a history offset which applies to successive
              calls to this widget: if is -1, the default behaviour  is  used,
              while  if  it  is 1, successive calls will move forwards through
              the history.  The value 0 can be used to indicate that the  his-
              tory line examined by the previous execution of the command will
              be reexamined.  Note that negative numbers  should  be  preceded
              with a `--' argument to avoid confusing them with options.

              If two arguments are given, the second specifies the word on the
              command line in normal array index notation (as a  more  natural
              alternative to the prefix argument).  Hence 1 is the first word,
              and -1 (the default) is the last word.

              If a third argument is given, its value is ignored,  but  it  is
              used  to signify that the history offset is relative to the cur-
              rent history line, rather than the one remembered after the pre-
              vious invocations of insert-last-word.

              For example, the default behaviour of the command corresponds to

                     zle insert-last-word -- -1 -1

              while the command

                     zle insert-last-word -- -1 1 -

              always copies the first word of the line in the history  immedi-
              ately  before  the  line being edited.  This has the side effect
              that later invocations of the widget will be  relative  to  that
              line.

       vi-repeat-search (unbound) (n) (unbound)
              Repeat the last vi history search.

       vi-rev-repeat-search (unbound) (N) (unbound)
              Repeat the last vi history search, but in reverse.

       up-line-or-history (^P ESC-[A) (k) (ESC-[A)
              Move  up  a  line  in the buffer, or if already at the top line,
              move to the previous event in the history list.

       vi-up-line-or-history (unbound) (-) (unbound)
              Move up a line in the buffer, or if already  at  the  top  line,
              move  to  the  previous event in the history list.  Then move to
              the first non-blank character on the line.

       up-line-or-search
              Move up a line in the buffer, or if already  at  the  top  line,
              search  backward  in  the  history for a line beginning with the
              first word in the buffer.

              If called from a function by the zle command with arguments, the
              first  argument  is  taken  as  the  string for which to search,
              rather than the first word in the buffer.

       up-history (unbound) (^P) (unbound)
              Move to the previous event in the history list.

       history-beginning-search-forward
              Search forward in the history for a line beginning with the cur-
              rent line up to the cursor.  This leaves the cursor in its orig-
              inal position.

   Modifying Text
       vi-add-eol (unbound) (A) (unbound)
              Move to the end of the line and enter insert mode.

       vi-add-next (unbound) (a) (unbound)
              Enter insert mode after the  current  cursor  position,  without
              changing lines.

       backward-delete-char (^H ^?) (unbound) (unbound)
              Delete the character behind the cursor.

       vi-backward-delete-char (unbound) (X) (^H)
              Delete  the character behind the cursor, without changing lines.
              If in insert mode, this won't delete past the point where insert
              mode was last entered.

       backward-delete-word
              Delete the word behind the cursor.

       backward-kill-line
              Kill from the beginning of the line to the cursor position.

       backward-kill-word (^W ESC-^H ESC-^?) (unbound) (unbound)
              Kill the word behind the cursor.

       vi-backward-kill-word (unbound) (unbound) (^W)
              Kill  the  word  behind the cursor, without going past the point
              where insert mode was last entered.

       capitalize-word (ESC-C ESC-c) (unbound) (unbound)
              Capitalize the current word and move past it.

       vi-change (unbound) (c) (unbound)
              Read a movement command from the keyboard,  and  kill  from  the
              cursor  position  to  the  endpoint of the movement.  Then enter
              insert mode.  If the command is vi-change,  change  the  current
              line.

       vi-change-eol (unbound) (C) (unbound)
              Kill to the end of the line and enter insert mode.

       vi-change-whole-line (unbound) (S) (unbound)
              Kill the current line and enter insert mode.

       copy-region-as-kill (ESC-W ESC-w) (unbound) (unbound)
              Copy the area from the cursor to the mark to the kill buffer.

       copy-prev-word (ESC-^_) (unbound) (unbound)
              Duplicate the word to the left of the cursor.

       copy-prev-shell-word
              Like  copy-prev-word, but the word is found by using shell pars-
              ing, whereas copy-prev-word looks for blanks. This makes a  dif-
              ference when the word is quoted and contains spaces.

       vi-delete (unbound) (d) (unbound)
              Read  a  movement  command  from the keyboard, and kill from the
              cursor position to the endpoint of the movement.  If the command
              is vi-delete, kill the current line.

       delete-char
              Delete the character under the cursor.

       vi-delete-char (unbound) (x) (unbound)
              Delete  the  character  under the cursor, without going past the
              end of the line.

       delete-word
              Delete the current word.

       down-case-word (ESC-L ESC-l) (unbound) (unbound)
              Convert the current word to all lowercase and move past it.

       kill-word (ESC-D ESC-d) (unbound) (unbound)
              Kill the current word.

       gosmacs-transpose-chars
              Exchange the two characters behind the cursor.

       vi-indent (unbound) (>) (unbound)
              Indent a number of lines.

       vi-insert (unbound) (i) (unbound)
              Enter insert mode.

       vi-insert-bol (unbound) (I) (unbound)
              Move to the first non-blank character  on  the  line  and  enter
              insert mode.

       vi-join (^X^J) (J) (unbound)
              Join the current line with the next one.

       kill-line (^K) (unbound) (unbound)
              Kill  from the cursor to the end of the line.  If already on the
              end of the line, kill the newline character.

       vi-kill-line (unbound) (unbound) (^U)
              Kill from the cursor back  to  wherever  insert  mode  was  last
              entered.

       vi-kill-eol (unbound) (D) (unbound)
              Kill from the cursor to the end of the line.

       kill-region
              Kill from the cursor to the mark.

       kill-buffer (^X^K) (unbound) (unbound)
              Kill the entire buffer.

       kill-whole-line (^U) (unbound) (unbound)
              Kill the current line.

       vi-match-bracket (^X^B) (%) (unbound)
              Move to the bracket character (one of {}, () or []) that matches
              the one under the cursor.  If the cursor is  not  on  a  bracket
              character,  move  forward without going past the end of the line
              to find one, and then go to the matching bracket.

       vi-open-line-above (unbound) (O) (unbound)
              Open a line above the cursor and enter insert mode.

       vi-open-line-below (unbound) (o) (unbound)
              Open a line below the cursor and enter insert mode.

       vi-oper-swap-case
              Read a movement command from the keyboard, and swap the case  of
              all  characters  from the cursor position to the endpoint of the
              movement.  If the movement command  is  vi-oper-swap-case,  swap
              the case of all characters on the current line.

       overwrite-mode (^X^O) (unbound) (unbound)
              Toggle between overwrite mode and insert mode.

       vi-put-before (unbound) (P) (unbound)
              Insert  the  contents  of the kill buffer before the cursor.  If
              the kill buffer contains a sequence  of  lines  (as  opposed  to
              characters), paste it above the current line.

       vi-put-after (unbound) (p) (unbound)
              Insert the contents of the kill buffer after the cursor.  If the
              kill buffer contains a sequence of lines (as opposed to  charac-
              ters), paste it below the current line.

       quoted-insert (^V) (unbound) (unbound)
              Insert  the  next character typed into the buffer literally.  An
              interrupt character will not be inserted.

       vi-quoted-insert (unbound) (unbound) (^Q ^V)
              Display a `^' at the cursor position, and insert the next  char-
              acter  typed  into the buffer literally.  An interrupt character
              will not be inserted.

       quote-line (ESC-') (unbound) (unbound)
              Quote the current line; that is, put  a  `''  character  at  the
              beginning and the end, and convert all `'' characters to `'\'''.

       quote-region (ESC-") (unbound) (unbound)
              Quote the region from the cursor to the mark.

       vi-replace (unbound) (R) (unbound)
              Enter overwrite mode.

       vi-repeat-change (unbound) (.) (unbound)
              Repeat the last vi mode text modification.  If a count was  used
              with the modification, it is remembered.  If a count is given to
              this command, it overrides the remembered count, and  is  remem-
              bered  for future uses of this command.  The cut buffer specifi-
              cation is similarly remembered.

       vi-replace-chars (unbound) (r) (unbound)
              Replace the character under the cursor  with  a  character  read
              from the keyboard.

       self-insert  (printable characters) (unbound) (printable characters and
       some control characters)
              Insert a character into the buffer at the cursor position.

       self-insert-unmeta (ESC-^I ESC-^J ESC-^M) (unbound) (unbound)
              Insert  a character into the buffer after stripping the meta bit
              and converting ^M to ^J.

       vi-substitute (unbound) (s) (unbound)
              Substitute the next character(s).

       vi-swap-case (unbound) (~) (unbound)
              Swap the case of the character under the cursor  and  move  past
              it.

       transpose-chars (^T) (unbound) (unbound)
              Exchange  the two characters to the left of the cursor if at end
              of line, else exchange the character under the cursor  with  the
              character to the left.

       transpose-words (ESC-T ESC-t) (unbound) (unbound)
              Exchange the current word with the one before it.

       vi-unindent (unbound) (<) (unbound)
              Unindent a number of lines.

       up-case-word (ESC-U ESC-u) (unbound) (unbound)
              Convert the current word to all caps and move past it.

       yank (^Y) (unbound) (unbound)
              Insert the contents of the kill buffer at the cursor position.

       yank-pop (ESC-y) (unbound) (unbound)
              Remove  the text just yanked, rotate the kill-ring, and yank the
              new top.  Only works following yank or yank-pop.

       vi-yank (unbound) (y) (unbound)
              Read a movement command from the keyboard, and copy  the  region
              from  the  cursor  position to the endpoint of the movement into
              the kill buffer.  If the command is vi-yank,  copy  the  current
              line.

       vi-yank-whole-line (unbound) (Y) (unbound)
              Copy the current line into the kill buffer.

       vi-yank-eol
              Copy  the region from the cursor position to the end of the line
              into the kill buffer.  Arguably, this is what Y should do in vi,
              but it isn't what it actually does.

   Arguments
       digit-argument (ESC-0..ESC-9) (1-9) (unbound)
              Start  a  new  numeric argument, or add to the current one.  See
              also vi-digit-or-beginning-of-line.  This only works if bound to
              a key sequence ending in a decimal digit.

              Inside  a  widget  function,  a call to this function treats the
              last key of the key sequence which  called  the  widget  as  the
              digit.

       neg-argument (ESC--) (unbound) (unbound)
              Changes the sign of the following argument.

       universal-argument
              Multiply  the argument of the next command by 4.  Alternatively,
              if this command is followed by an  integer  (positive  or  nega-
              tive), use that as the argument for the next command.  Thus dig-
              its cannot be repeated using this command.  For example, if this
              command occurs twice, followed immediately by forward-char, move
              forward sixteen spaces; if instead it is followed  by  -2,  then
              forward-char, move backward two spaces.

              Inside  a widget function, if passed an argument, i.e. `zle uni-
              versal-argument num', the numerical argument will be set to num;
              this is equivalent to `NUMERIC=num'.

       argument-base
              Use  the existing numeric argument as a numeric base, which must
              be  in  the  range  2  to  36  inclusive.   Subsequent  use   of
              digit-argument and universal-argument will input a new prefix in
              the given base.  The usual hexadecimal convention is  used:  the
              letter  a or A corresponds to 10, and so on.  Arguments in bases
              requiring digits from 10 upwards  are  more  conveniently  input
              with  universal-argument, since ESC-a etc. are not usually bound
              to digit-argument.

              The function can be  used  with  a  command  argument  inside  a
              user-defined widget.  The following code sets the base to 16 and
              lets the user input a hexadecimal argument until a  key  out  of
              the digit range is typed:

                     zle argument-base 16
                     zle universal-argument

   Completion
       accept-and-menu-complete
              In  a  menu  completion,  insert the current completion into the
              buffer, and advance to the next possible completion.

       complete-word
              Attempt completion on the current word.

       delete-char-or-list (^D) (unbound) (unbound)
              Delete the character under the cursor.  If the cursor is at  the
              end of the line, list possible completions for the current word.

       expand-cmd-path
              Expand the current command to its full pathname.

       expand-or-complete (TAB) (unbound) (TAB)
              Attempt shell expansion on the current  word.   If  that  fails,
              attempt completion.

       expand-or-complete-prefix
              Attempt shell expansion on the current word up to cursor.

       expand-history (ESC-space ESC-!) (unbound) (unbound)
              Perform history expansion on the edit buffer.

       expand-word (^X*) (unbound) (unbound)
              Attempt shell expansion on the current word.

       list-choices (ESC-^D) (^D =) (^D)
              List possible completions for the current word.

       list-expand (^Xg ^XG) (^G) (^G)
              List the expansion of the current word.

       magic-space
              Perform  history  expansion  and insert a space into the buffer.
              This is intended to be bound to space.

       menu-complete
              Like complete-word, except that menu completion  is  used.   See
              the MENU_COMPLETE option.

       menu-expand-or-complete
              Like expand-or-complete, except that menu completion is used.

       reverse-menu-complete
              Perform  menu  completion,  like menu-complete, except that if a
              menu completion is already in progress,  move  to  the  previous
              completion rather than the next.

       end-of-list
              When  a  previous  completion displayed a list below the prompt,
              this widget can be used to move the prompt below the list.

   Miscellaneous
       accept-and-hold (ESC-A ESC-a) (unbound) (unbound)
              Push the contents of the buffer on the buffer stack and  execute
              it.

       accept-and-infer-next-history
              Execute  the  contents  of  the buffer.  Then search the history
              list for a line matching the current one and push the event fol-
              lowing onto the buffer stack.

       accept-line (^J ^M) (^J ^M) (^J ^M)
              Finish  editing  the buffer.  Normally this causes the buffer to
              be executed as a shell command.

       accept-line-and-down-history (^O) (unbound) (unbound)
              Execute the current line, and push the next history event on the
              the buffer stack.

       auto-suffix-remove
              If  the  previous  action added a suffix (space, slash, etc.) to
              the word on the command line, remove it.  Otherwise do  nothing.
              Removing  the  suffix  ends  any  active menu completion or menu
              selection.

              This widget is intended to be called from  user-defined  widgets
              to enforce a desired suffix-removal behavior.

       auto-suffix-retain
              If  the  previous  action added a suffix (space, slash, etc.) to
              the word on the command line, force it to be preserved.   Other-
              wise do nothing.  Retaining the suffix ends any active menu com-
              pletion or menu selection.

              This widget is intended to be called from  user-defined  widgets
              to enforce a desired suffix-preservation behavior.

       beep   Beep, unless the BEEP option is unset.

       vi-cmd-mode (^X^V) (unbound) (^[)
              Enter  command  mode;  that is, select the `vicmd' keymap.  Yes,
              this is bound by default in emacs mode.

       vi-caps-lock-panic
              Hang until any lowercase key is pressed.  This is for  vi  users
              without the mental capacity to keep track of their caps lock key
              (like the author).

       clear-screen (^L ESC-^L) (^L) (^L)
              Clear the screen and redraw the prompt.

       describe-key-briefly
              Reads a key sequence, then prints the  function  bound  to  that
              sequence.

       exchange-point-and-mark (^X^X) (unbound) (unbound)
              Exchange the cursor position with the position of the mark.

       execute-named-cmd (ESC-x) (unbound) (unbound)
              Read the name of an editor command and execute it.  A restricted
              set of editing functions is available in  the  mini-buffer.   An
              interrupt signal, as defined by the stty setting, will abort the
              function.  The  allowed  functions  are:   backward-delete-char,
              vi-backward-delete-char, clear-screen, redisplay, quoted-insert,
              vi-quoted-insert,   backward-kill-word,   vi-backward-kill-word,
              kill-whole-line, vi-kill-line, backward-kill-line, list-choices,
              delete-char-or-list, complete-word, accept-line,  expand-or-com-
              plete and expand-or-complete-prefix.

              kill-region  kills the last word, and vi-cmd-mode is treated the
              same as accept-line.  The space and tab characters, if not bound
              to  one of these functions, will complete the name and then list
              the possibilities if the AUTO_LIST option  is  set.   Any  other
              character that is not bound to self-insert or self-insert-unmeta
              will beep and be ignored.  The bindings of  the  current  insert
              mode will be used.

              Currently this command may not be redefined or called by name.

       execute-last-named-cmd (ESC-z) (unbound) (unbound)
              Redo the last function executed with execute-named-cmd.

              Currently this command may not be redefined or called by name.

       get-line (ESC-G ESC-g) (unbound) (unbound)
              Pop  the top line off the buffer stack and insert it at the cur-
              sor position.

       pound-insert (unbound) (#) (unbound)
              If there is no # character at the beginning of the  buffer,  add
              one  to the beginning of each line.  If there is one, remove a #
              from each line that has one.  In either case, accept the current
              line.   The  INTERACTIVE_COMMENTS option must be set for this to
              have any usefulness.

       vi-pound-insert
              If there is no # character at the beginning of the current line,
              add  one.  If there is one, remove it.  The INTERACTIVE_COMMENTS
              option must be set for this to have any usefulness.

       push-input
              Push the entire current  multiline  construct  onto  the  buffer
              stack  and return to the top-level (PS1) prompt.  If the current
              parser construct is only a single line,  this  is  exactly  like
              push-line.   Next  time  the  editor starts up or is popped with
              get-line, the construct will be popped off the top of the buffer
              stack and loaded into the editing buffer.

       push-line (^Q ESC-Q ESC-q) (unbound) (unbound)
              Push  the  current  buffer  onto  the buffer stack and clear the
              buffer.  Next time the editor starts  up,  the  buffer  will  be
              popped off the top of the buffer stack and loaded into the edit-
              ing buffer.

       push-line-or-edit
              At the top-level (PS1) prompt, equivalent to  push-line.   At  a
              secondary  (PS2)  prompt, move the entire current multiline con-
              struct into the editor buffer.   The  latter  is  equivalent  to
              push-input followed by get-line.

       read-command
              Only  useful  from  a  user-defined widget.  A keystroke is read
              just as in normal operation, but instead of  the  command  being
              executed  the  name  of  the  command  that would be executed is
              stored in the shell parameter REPLY.  This can be  used  as  the
              argument  of  a  future zle command.  If the key sequence is not
              bound, status 1 is returned; typically, however, REPLY is set to
              undefined-key to indicate a useless key sequence.

       recursive-edit
              Only  useful  from  a user-defined widget.  At this point in the
              function, the editor regains control until one of  the  standard
              widgets  which  would  normally  cause zle to exit (typically an
              accept-line caused by  hitting  the  return  key)  is  executed.
              Instead, control returns to the user-defined widget.  The status
              returned is non-zero if the return was caused by an  error,  but
              the  function  still  continues executing and hence may tidy up.
              This makes it safe for the user-defined widget to alter the com-
              mand line or key bindings temporarily.

              The following widget, caps-lock, serves as an example.
                     self-insert-ucase() {
                       LBUFFER+=${(U)KEYS[-1]}
                     }

                     integer stat

                     zle -N self-insert self-insert-ucase
                     zle -A caps-lock save-caps-lock
                     zle -A accept-line caps-lock

                     zle recursive-edit
                     stat=$?

                     zle -A .self-insert self-insert
                     zle -A save-caps-lock caps-lock
                     zle -D save-caps-lock

                     (( stat )) && zle send-break

                     return $stat
              This  causes  typed  letters  to  be  inserted capitalised until
              either accept-line (i.e. typically the return key) is  typed  or
              the  caps-lock  widget is invoked again; the later is handled by
              saving the old definition of  caps-lock  as  save-caps-lock  and
              then  rebinding  it  to  invoke accept-line.  Note that an error
              from the recursive edit is detected as a non-zero return  status
              and propagated by using the send-break widget.

       redisplay (unbound) (^R) (^R)
              Redisplays the edit buffer.

       reset-prompt (unbound) (unbound) (unbound)
              Force the prompts on both the left and right of the screen to be
              re-expanded, then redisplay  the  edit  buffer.   This  reflects
              changes  both  to the prompt variables themselves and changes in
              the expansion of the values (for example,  changes  in  time  or
              directory,  or  changes to the value of variables referred to by
              the prompt).

              Otherwise, the prompt is only expanded each time zle starts, and
              when the display as been interrupted by output from another part
              of the shell (such as a job notification) which causes the  com-
              mand line to be reprinted.

       send-break (^G ESC-^G) (unbound) (unbound)
              Abort  the  current editor function, e.g. execute-named-command,
              or the editor itself, e.g. if you are in vared. Otherwise  abort
              the parsing of the current line.

       run-help (ESC-H ESC-h) (unbound) (unbound)
              Push  the  buffer onto the buffer stack, and execute the command
              `run-help cmd', where cmd is the current command.   run-help  is
              normally aliased to man.

       vi-set-buffer (unbound) (") (unbound)
              Specify a buffer to be used in the following command.  There are
              35 buffers that can be specified: the 26 `named' buffers  "a  to
              "z  and  the  nine `queued' buffers "1 to "9.  The named buffers
              can also be specified as "A to "Z.

              When a buffer is specified for a cut command, the text being cut
              replaces  the  previous  contents of the specified buffer.  If a
              named buffer is specified using a capital, the newly cut text is
              appended to the buffer instead of overwriting it.

              If no buffer is specified for a cut command, "1 is used, and the
              contents of "1 to "8 are each shifted along one buffer; the con-
              tents of "9 is lost.

       vi-set-mark (unbound) (m) (unbound)
              Set the specified mark at the cursor position.

       set-mark-command (^@) (unbound) (unbound)
              Set the mark at the cursor position.

       spell-word (ESC-$ ESC-S ESC-s) (unbound) (unbound)
              Attempt spelling correction on the current word.

       undefined-key
              This  command  is executed when a key sequence that is not bound
              to any command is typed.  By default it beeps.

       undo (^_ ^Xu ^X^U) (unbound) (unbound)
              Incrementally undo the last text modification.

       redo   Incrementally redo undone text modifications.

       vi-undo-change (unbound) (u) (unbound)
              Undo the last text modification.  If repeated, redo the  modifi-
              cation.

       what-cursor-position (^X=) (unbound) (unbound)
              Print the character under the cursor, its code as an octal, dec-
              imal and hexadecimal number, the current cursor position  within
              the buffer and the column of the cursor in the current line.

       where-is
              Read  the name of an editor command and and print the listing of
              key sequences that invoke the specified command.

       which-command (ESC-?) (unbound) (unbound)
              Push the buffer onto the buffer stack, and execute  the  command
              `which-command   cmd'.   where   cmd  is  the  current  command.
              which-command is normally aliased to whence.

       vi-digit-or-beginning-of-line (unbound) (0) (unbound)
              If the last command executed was a digit as part of an argument,
              continue the argument.  Otherwise, execute vi-beginning-of-line.

ZSHCOMPWID(1)                                                    ZSHCOMPWID(1)


NAME

       zshcompwid - zsh completion widgets


DESCRIPTION

       The shell's programmable completion mechanism can be manipulated in two
       ways;  here the low-level features supporting the newer, function-based
       mechanism are defined.  A complete set  of  shell  functions  based  on
       these  features is described in zshcompsys(1), and users with no inter-
       est in adding to that system (or, potentially, writing their own -- see
       dictionary  entry  for  `hubris') should skip the current section.  The
       older system based on the compctl builtin command is described in  zsh-
       compctl(1).

       Completion widgets are defined by the -C option to the zle builtin com-
       mand provided by the zsh/zle module (see zshzle(1)). For example,

              zle -C complete expand-or-complete completer

       defines a widget named `complete'.  The second argument is the name  of
       any  of  the  builtin  widgets  that handle completions: complete-word,
       expand-or-complete,      expand-or-complete-prefix,      menu-complete,
       menu-expand-or-complete,    reverse-menu-complete,   list-choices,   or
       delete-char-or-list.  Note that this will still work even if the widget
       in question has been re-bound.

       When  this  newly  defined  widget  is bound to a key using the bindkey
       builtin command defined in the zsh/zle module (see  zshzle(1)),  typing
       that  key  will  call  the shell function `completer'. This function is
       responsible for generating the  possible  matches  using  the  builtins
       described  below.   As  with  other ZLE widgets, the function is called
       with its standard input closed.

       Once the function returns, the completion code takes over control again
       and treats the matches in the same manner as the specified builtin wid-
       get, in this case expand-or-complete.


SPECIAL PARAMETERS

       Inside completion widgets, and any functions  called  from  them,  some
       parameters  have  special meaning; outside these functions they are not
       special to the shell in any way.  These parameters  are  used  to  pass
       information between the completion code and the completion widget. Some
       of the builtin commands and the condition codes use or change the  cur-
       rent  values  of  these parameters.  Any existing values will be hidden
       during execution of  completion  widgets;  except  for  compstate,  the
       parameters  are  reset on each function exit (including nested function
       calls from within the completion widget) to the values  they  had  when
       the function was entered.

       CURRENT
              This is the number of the current word, i.e. the word the cursor
              is currently on in the words array.  Note  that  this  value  is
              only correct if the ksharrays option is not set.

       IPREFIX
              Initially  this will be set to the empty string.  This parameter
              functions like PREFIX; it contains a string which  precedes  the
              one in PREFIX and is not considered part of the list of matches.
              Typically, a string is transferred from the beginning of  PREFIX
              to the end of IPREFIX, for example:

                     IPREFIX=${PREFIX%%\=*}=
                     PREFIX=${PREFIX#*=}

              causes  the  part  of  the  prefix up to and including the first
              equal sign not to be treated as part of a matched string.   This
              can be done automatically by the compset builtin, see below.

       ISUFFIX
              As  IPREFIX, but for a suffix that should not be considered part
              of the matches; note that the ISUFFIX string follows the  SUFFIX
              string.

       PREFIX Initially  this will be set to the part of the current word from
              the beginning of the word up to the position of the  cursor;  it
              may be altered to give a common prefix for all matches.

       QIPREFIX
              This parameter is read-only and contains the quoted string up to
              the word being completed.  E.g.  when  completing  `"foo',  this
              parameter contains the double quote. If the -q option of compset
              is used (see below), and the original string was `"foo bar' with
              the cursor on the `bar', this parameter contains `"foo '.

       QISUFFIX
              Like QIPREFIX, but containing the suffix.

       SUFFIX Initially  this will be set to the part of the current word from
              the cursor position to the end; it may be altered to give a com-
              mon  suffix  for all matches.  It is most useful when the option
              COMPLETE_IN_WORD is set, as otherwise the whole word on the com-
              mand line is treated as a prefix.

       compstate
              This  is  an associative array with various keys and values that
              the completion code uses to exchange information with  the  com-
              pletion widget.  The keys are:

              all_quotes
                     The  -q option of the compset builtin command (see below)
                     allows a quoted string to be broken into separate  words;
                     if the cursor is on one of those words, that word will be
                     completed, possibly invoking  `compset  -q'  recursively.
                     With  this key it is possible to test the types of quoted
                     strings which are currently broken  into  parts  in  this
                     fashion.  Its value contains one character for each quot-
                     ing level.  The characters are a single quote or a double
                     quote for strings quoted with these characters, a dollars
                     sign for strings quoted with $'...' and a  backslash  for
                     strings  not  starting with a quote character.  The first
                     character in the value always corresponds to  the  inner-
                     most quoting level.

              context
                     This  will  be  set by the completion code to the overall
                     context in which completion is attempted. Possible values
                     are:

                     array_value
                            when  completing  inside  the  value  of  an array
                            parameter assignment; in this case the words array
                            contains the words inside the parentheses.

                     brace_parameter
                            when  completing  the  name  of  a  parameter in a
                            parameter expansion beginning with ${.

                     assign_parameter
                            when completing the  name  of  a  parameter  in  a
                            parameter assignment.

                     command
                            when  completing  for  a normal command (either in
                            command position or for an argument  of  the  com-
                            mand).

                     condition
                            when  completing  inside  a  `[[...]]' conditional
                            expression; in this case the words array  contains
                            only  the words inside the conditional expression.

                     math   when completing in a mathematical environment such
                            as a `((...))' construct.

                     parameter
                            when  completing  the  name  of  a  parameter in a
                            parameter expansion beginning with $ but not ${.

                     redirect
                            when completing after a redirection operator.

                     subscript
                            when completing inside a parameter subscript.

                     value  when completing the value of a  parameter  assign-
                            ment.

              exact  Controls  the behaviour when the REC_EXACT option is set.
                     It will be set to accept  if  an  exact  match  would  be
                     accepted, and will be unset otherwise.

                     If it was set when at least one match equal to the string
                     on the line was generated, the match is accepted.

              exact_string
                     The string of an exact match if one was found,  otherwise
                     unset.

              ignored
                     The  number  of  words  that  were  ignored  because they
                     matched one of the patterns given with the -F  option  to
                     the compadd builtin command.

              insert This  controls  the  manner  in which a match is inserted
                     into the command line.  On entry to the widget  function,
                     if  it is unset the command line is not to be changed; if
                     set to unambiguous, any prefix common to all  matches  is
                     to  be inserted; if set to automenu-unambiguous, the com-
                     mon prefix is to be inserted and the next  invocation  of
                     the completion code may start menu completion (due to the
                     AUTO_MENU option being set); if set to menu  or  automenu
                     menu completion will be started for the matches currently
                     generated (in the latter case this  will  happen  because
                     the  AUTO_MENU  is  set).  The value may also contain the
                     string `tab' when the completion code would normally  not
                     really  do completion, but only insert the TAB character.

                     On exit it may be set to any of the values  above  (where
                     setting  it  to the empty string is the same as unsetting
                     it), or to a number, in which case the match whose number
                     is  given  will be inserted into the command line.  Nega-
                     tive numbers count backward from  the  last  match  (with
                     `-1'  selecting  the  last match) and out-of-range values
                     are wrapped around, so that a value of zero  selects  the
                     last  match and a value one more than the maximum selects
                     the first. Unless the value of this key ends in a  space,
                     the match is inserted as in a menu completion, i.e. with-
                     out automatically appending a space.

                     Both menu and automenu may also specify the the number of
                     the  match  to insert, given after a colon.  For example,
                     `menu:2' says to start menu  completion,  beginning  with
                     the second match.

                     Note  that  a  value containing the substring `tab' makes
                     the matches generated be ignored  and  only  the  TAB  be
                     inserted.

                     Finally,  it  may  also  be  set  to all, which makes all
                     matches generated be inserted into the line.

              insert_positions
                     When the completion system inserts an unambiguous  string
                     into the line, there may be multiple places where charac-
                     ters are missing or where the character inserted  differs
                     from  at least one match.  The value of this key contains
                     a colon separated list of all these positions, as indexes
                     into the command line.

              last_prompt
                     If  this  is  set  to  a non-empty string for every match
                     added, the completion code will move the cursor  back  to
                     the  previous  prompt  after  the list of completions has
                     been displayed.  Initially this is set or unset according
                     to the ALWAYS_LAST_PROMPT option.

              list   This  controls whether or how the list of matches will be
                     displayed.  If it is unset or empty they  will  never  be
                     listed;  if  its value begins with list, they will always
                     be listed; if it begins with autolist or ambiguous,  they
                     will  be  listed  when  the  AUTO_LIST  or LIST_AMBIGUOUS
                     options respectively would normally cause them to be.

                     If the substring force appears in the value,  this  makes
                     the  list  be shown even if there is only one match. Nor-
                     mally, the list would be shown only if there are at least
                     two matches.

                     The   value   contains   the   substring  packed  if  the
                     LIST_PACKED option is set. If this substring is given for
                     all  matches  added  to a group, this group will show the
                     LIST_PACKED  behavior.  The  same   is   done   for   the
                     LIST_ROWS_FIRST option with the substring rows.

                     Finally,  if  the value contains the string explanations,
                     only the explanation strings, if any, will be listed  and
                     if  it  contains  messages, only the messages (added with
                     the -x option of compadd) will be listed.  If it contains
                     both  explanations and messages both kinds of explanation
                     strings will be listed.  It will be set appropriately  on
                     entry to a completion widget and may be changed there.

              list_lines
                     This gives the number of lines that are needed to display
                     the full list of completions.  Note that to calculate the
                     total number of lines to display you need to add the num-
                     ber of lines needed for the command line to  this  value,
                     this is available as the value of the BUFFERLINES special
                     parameter.

              list_max
                     Initially this is set to the value of the LISTMAX parame-
                     ter.   It  may be set to any other value; when the widget
                     exits this value will be used in  the  same  way  as  the
                     value of LISTMAX.

              nmatches
                     The  number of matches generated and accepted by the com-
                     pletion code so far.

              old_insert
                     On entry to the widget this will be set to the number  of
                     the match of an old list of completions that is currently
                     inserted into the command line.  If  no  match  has  been
                     inserted, this is unset.

                     As with old_list, the value of this key will only be used
                     if it is the string keep. If it was set to this value  by
                     the  widget  and there was an old match inserted into the
                     command line, this match will be kept and if the value of
                     the  insert  key  specifies  that another match should be
                     inserted, this will be inserted after the old one.

              old_list
                     This is set to yes if there is still a valid list of com-
                     pletions  from a previous completion at the time the wid-
                     get is invoked.  This will usually be  the  case  if  and
                     only  if  the previous editing operation was a completion
                     widget or one of the builtin  completion  functions.   If
                     there  is  a valid list and it is also currently shown on
                     the screen, the value of this key is shown.

                     After the widget has exited the value of this key is only
                     used  if it was set to keep.  In this case the completion
                     code will continue to use this old list.  If  the  widget
                     generated new matches, they will not be used.

              parameter
                     The  name of the parameter when completing in a subscript
                     or in the value of a parameter assignment.

              pattern_insert
                     Normally this is set to menu, which specifies  that  menu
                     completion  will  be  used  whenever a set of matches was
                     generated using pattern matching.  If it is  set  to  any
                     other non-empty string by the user and menu completion is
                     not selected by other  option  settings,  the  code  will
                     instead  insert  any  common  prefix  for  the  generated
                     matches as with normal completion.

              pattern_match
                     Locally controls the behaviour given by the GLOB_COMPLETE
                     option.   Initially  it  is set to `*' if and only if the
                     option is set.  The completion widget may set it to  this
                     value,  to  an empty string (which has the same effect as
                     unsetting it), or to any other non-empty string.   If  it
                     is non-empty, unquoted metacharacters on the command line
                     will be treated as patterns; if it is `*', then addition-
                     ally a wildcard `*' is assumed at the cursor position; if
                     it is empty or unset, metacharacters will be treated lit-
                     erally.

                     Note that the matcher specifications given to the compadd
                     builtin command  are  not  used  if  this  is  set  to  a
                     non-empty string.

              quote  When  completing  inside quotes, this contains the quota-
                     tion character (i.e. either  a  single  quote,  a  double
                     quote, or a backtick).  Otherwise it is unset.

              quoting
                     When  completing inside single quotes, this is set to the
                     string single; inside double quotes, the  string  double;
                     inside  backticks,  the string backtick.  Otherwise it is
                     unset.

              redirect
                     The redirection operator when completing in a redirection
                     position, i.e. one of <, >, etc.

              restore
                     This  is  set to auto before a function is entered, which
                     forces the special  parameters  mentioned  above  (words,
                     CURRENT,  PREFIX,  IPREFIX,  SUFFIX,  and  ISUFFIX) to be
                     restored to  their  previous  values  when  the  function
                     exits.    If a function unsets it or sets it to any other
                     string, they will not be restored.

              to_end Specifies the occasions on which the cursor is  moved  to
                     the  end  of a string when a match is inserted.  On entry
                     to a widget function, it may be single if this will  hap-
                     pen when a single unambiguous match was inserted or match
                     if it will happen any time a match is inserted (for exam-
                     ple,  by menu completion; this is likely to be the effect
                     of the ALWAYS_TO_END option).

                     On exit, it may be set to single as above.  It  may  also
                     be  set  to  always,  or to the empty string or unset; in
                     those cases the cursor will be moved to the  end  of  the
                     string always or never respectively.  Any other string is
                     treated as match.

              unambiguous
                     This key is read-only and will always be set to the  com-
                     mon  (unambiguous)  prefix the completion code has gener-
                     ated for all matches added so far.

              unambiguous_cursor
                     This gives the position the cursor would be placed at  if
                     the  common  prefix in the unambiguous key were inserted,
                     relative to the value of that key. The  cursor  would  be
                     placed  before the character whose index is given by this
                     key.

              unambiguous_positions
                     This contains all positions where characters in the unam-
                     biguous   string  are  missing  or  where  the  character
                     inserted differs from at least one of the  matches.   The
                     positions  are  given as indexes into the string given by
                     the value of the unambiguous key.

              vared  If completion is called while editing a  line  using  the
                     vared  builtin,  the value of this key is set to the name
                     of the parameter given as an argument to vared.  This key
                     is only set while a vared command is active.

       words  This  array  contains the words present on the command line cur-
              rently being edited.


BUILTIN COMMANDS

       compadd [ -akqQfenUld12C ] [ -F array ]
       [ -P prefix ] [ -S suffix ]
       [ -p hidden-prefix ] [ -s hidden-suffix ]
       [ -i ignored-prefix ] [ -I ignored-suffix ]
       [ -W file-prefix ] [ -d array ]
       [ -J name ] [ -V name ] [ -X explanation ] [ -x message ]
       [ -r remove-chars ] [ -R remove-func ]
       [ -D array ] [ -O array ] [ -A array ]
       [ -E number ]
       [ -M match-spec ] [ -- ] [ words ... ]

              This builtin command can be used to  add  matches  directly  and
              control all the information the completion code stores with each
              possible match. The return status is zero if at least one  match
              was added and non-zero if no matches were added.

              The  completion  code  breaks  the string to complete into seven
              fields in the order:

                     <ipre><apre><hpre><word><hsuf><asuf><isuf>

              The first field is an ignored  prefix  taken  from  the  command
              line,  the  contents  of  the  IPREFIX parameter plus the string
              given with the -i option. With the -U option,  only  the  string
              from the -i option is used. The field <apre> is an optional pre-
              fix string given with the -P option.   The  <hpre>  field  is  a
              string  that is considered part of the match but that should not
              be shown when listing completions, given with the -p option; for
              example,  functions  that do filename generation might specify a
              common path prefix this way.  <word> is the part  of  the  match
              that  should  appear in the list of completions, i.e. one of the
              words given at the end of the compadd command line. The suffixes
              <hsuf>,  <asuf>  and  <isuf>  correspond to the prefixes <hpre>,
              <apre> and <ipre> and are given by the options -s,  -S  and  -I,
              respectively.

              The supported flags are:

              -P prefix
                     This  gives  a  string  to  be  inserted before the given
                     words.  The string given is not considered as part of the
                     match  and  any  shell  metacharacters  in it will not be
                     quoted when the string is inserted.

              -S suffix
                     Like -P, but gives a string  to  be  inserted  after  the
                     match.

              -p hidden-prefix
                     This gives a string that should be inserted into the com-
                     mand line before the match but that should not appear  in
                     the  list of matches. Unless the -U option is given, this
                     string must be matched as part of the string on the  com-
                     mand line.

              -s hidden-suffix
                     Like  `-p', but gives a string to insert after the match.

              -i ignored-prefix
                     This gives a string to insert into the command line  just
                     before  any  string  given with the `-P' option.  Without
                     `-P' the string is inserted before the string given  with
                     `-p' or directly before the match.

              -I ignored-suffix
                     Like -i, but gives an ignored suffix.

              -a     With this flag the words are taken as names of arrays and
                     the possible matches are their values.  If only some ele-
                     ments  of  the arrays are needed, the words may also con-
                     tain subscripts, as in `foo[2,-1]'.

              -k     With this flag the words are taken as names  of  associa-
                     tive  arrays and the possible matches are their keys.  As
                     for -a, the words may  also  contain  subscripts,  as  in
                     `foo[(R)*bar*]'.

              -d array
                     This  adds  per-match  display  strings. The array should
                     contain one element per word given. The  completion  code
                     will  then display the first element instead of the first
                     word, and so on. The array may be given as the name of an
                     array  parameter or directly as a space-separated list of
                     words in parentheses.

                     If there are fewer display strings than words, the  left-
                     over  words  will be displayed unchanged and if there are
                     more display strings than  words,  the  leftover  display
                     strings will be silently ignored.

              -l     This  option only has an effect if used together with the
                     -d option. If it is given, the display strings are listed
                     one per line, not arrayed in columns.

              -o     This  option only has an effect if used together with the
                     -d option.  If it is given, the order of  the  output  is
                     determined  by the match strings;  otherwise it is deter-
                     mined by the display strings (i.e. the strings  given  by
                     the -d option).

              -J name
                     Gives  the  name of the group of matches the words should
                     be stored in.

              -V name
                     Like -J but naming a unsorted group. These are in a  dif-
                     ferent name space than groups created with the -J flag.

              -1     If given together with the -V option, makes only consecu-
                     tive duplicates in the group be removed. If combined with
                     the  -J  option,  this  has  no visible effect. Note that
                     groups with and without this flag are in  different  name
                     spaces.

              -2     If  given  together  with  the -J or -V option, makes all
                     duplicates be kept. Again, groups with and  without  this
                     flag are in different name spaces.

              -X explanation
                     The  explanation  string will be printed with the list of
                     matches, above the group currently selected.

              -x message
                     Like -X, but the message will be printed  even  if  there
                     are no matches in the group.

              -q     The suffix given with -S will be automatically removed if
                     the next character typed is a blank or  does  not  insert
                     anything, or if the suffix consists of only one character
                     and the next character typed is the same character.

              -r remove-chars
                     This is a more versatile form of the -q option.  The suf-
                     fix  given with -S or the slash automatically added after
                     completing directories will be automatically  removed  if
                     the  next  character  typed inserts one of the characters
                     given in the remove-chars.  This string is  parsed  as  a
                     characters  class and understands the backslash sequences
                     used by the print command.   For  example,  `-r  "a-z\t"'
                     removes  the suffix if the next character typed inserts a
                     lowercase character or a TAB, and `-r "^0-9"' removes the
                     suffix if the next character typed inserts anything but a
                     digit. One extra backslash sequence is understood in this
                     string:  `\-' stands for all characters that insert noth-
                     ing. Thus `-S "=" -q' is  the  same  as  `-S  "="  -r  "=
                     \t\n\-"'.

                     This  option may also be used without the -S option; then
                     any automatically added space will be removed when one of
                     the characters in the list is typed.

              -R remove-func
                     This  is another form of the -r option. When a suffix has
                     been inserted and the completion accepted,  the  function
                     remove-func  will  be  called  after  the  next character
                     typed.  It is passed the length of the suffix as an argu-
                     ment  and  can  use  the  special parameters available in
                     ordinary (non-completion) zle widgets (see zshzle(1))  to
                     analyse and modify the command line.

              -f     If  this  flag  is  given,  all of the matches built from
                     words are marked as being the names of files.   They  are
                     not required to be actual filenames, but if they are, and
                     the option LIST_TYPES is set, the  characters  describing
                     the  types  of  the files in the completion lists will be
                     shown. This also forces a slash to be added when the name
                     of a directory is completed.

              -e     This  flag  can  be used to tell the completion code that
                     the matches added are parameter  names  for  a  parameter
                     expansion.   This  will  make  the  AUTO_PARAM_SLASH  and
                     AUTO_PARAM_KEYS options be used for the matches.

              -W file-prefix
                     This string is a pathname that will be prepended to  each
                     of  the  matches  formed by the given words together with
                     any prefix specified by the -p option to form a  complete
                     filename  for  testing.   Hence it is only useful if com-
                     bined with the -f flag, as the tests will  not  otherwise
                     be performed.

              -F array
                     Specifies  an  array  containing patterns. Words matching
                     one of these patterns are ignored, i.e. not considered to
                     be possible matches.

                     The array may be the name of an array parameter or a list
                     of literal patterns enclosed in parentheses  and  quoted,
                     as  in  `-F  "(*?.o  *?.h)"'.  If the name of an array is
                     given, the elements of the array are taken  as  the  pat-
                     terns.

              -Q     This  flag instructs the completion code not to quote any
                     metacharacters in the words when inserting them into  the
                     command line.

              -M match-spec
                     This  gives local match specifications as described below
                     in the section `Matching Control'.  This  option  may  be
                     given  more than once. In this case all match-specs given
                     are concatenated with spaces between  them  to  form  the
                     specification string to use.  Note that they will only be
                     used if the -U option is not given.

              -n     Specifies that the words added are to be used as possible
                     matches, but are not to appear in the completion listing.

              -U     If this flag is given, all words given will  be  accepted
                     and no matching will be done by the completion code. Nor-
                     mally this is used in  functions  that  do  the  matching
                     themselves.

              -O array
                     If  this  option is given, the words are not added to the
                     set of possible completions.  Instead, matching  is  done
                     as  usual  and  all  of the words given as arguments that
                     match the string on the command line will  be  stored  in
                     the array parameter whose name is given as array.

              -A array
                     As  the  -O  option,  except that instead of those of the
                     words which match being stored in array, the strings gen-
                     erated  internally by the completion code are stored. For
                     example, with a matching specification of `-M  "L:|no="',
                     the string `nof' on the command line and the string `foo'
                     as one of  the  words,  this  option  stores  the  string
                     `nofoo'  in  the  array, whereas the -O option stores the
                     `foo' originally given.

              -D array
                     As with -O, the words are not added to the set of  possi-
                     ble  completions.   Instead,  the  completion  code tests
                     whether each word in turn matches what is  on  the  line.
                     If  the n'th word does not match, the n'th element of the
                     array is removed.  Elements for which  the  corresponding
                     word is matched are retained.

              -C     This  option  adds  a  special match which expands to all
                     other matches when inserted into  the  line,  even  those
                     that  are added after this option is used.  Together with
                     the -d option it is possible to  specify  a  string  that
                     should  be  displayed in the list for this special match.
                     If no string is given, it will be shown as a string  con-
                     taining  the strings that would be inserted for the other
                     matches, truncated to the width of the screen.

              -E     This option adds number empty  matches  after  the  words
                     have  been  added.  An empty match takes up space in com-
                     pletion listings but will never be inserted in  the  line
                     and can't be selected with menu completion or menu selec-
                     tion.  This makes empty matches  only  useful  to  format
                     completion  lists and to make explanatory string be shown
                     in completion lists (since empty  matches  can  be  given
                     display strings with the -d option).  And because all but
                     one empty string would otherwise be removed, this  option
                     implies  the  -V  and  -2 options (even if an explicit -J
                     option is given).

              -
              --     This flag ends the list of flags and options.  All  argu-
                     ments  after  it  will  be  taken  as the words to use as
                     matches even if they begin with hyphens.

              Except for the -M flag, if any of these flags is given more than
              once, the first one (and its argument) will be used.

       compset -p number
       compset -P [ number ] pattern
       compset -s number
       compset -S [ number ] pattern
       compset -n begin [ end ]
       compset -N beg-pat [ end-pat ]
       compset -q
              This  command simplifies modification of the special parameters,
              while its return status allows tests on them to be carried  out.

              The options are:

              -p number
                     If  the  contents  of the PREFIX parameter is longer than
                     number  characters,  the  first  number  characters   are
                     removed  from  it  and  appended  to  the contents of the
                     IPREFIX parameter.

              -P [ number ] pattern
                     If the value of the PREFIX parameter begins with anything
                     that  matches the pattern, the matched portion is removed
                     from PREFIX and appended to IPREFIX.

                     Without the optional number, the longest match is  taken,
                     but  if  number  is  given,  anything up to the number'th
                     match is moved.  If the number is negative, the number'th
                     longest  match  is moved. For example, if PREFIX contains
                     the string `a=b=c', then compset -P '*\=' will  move  the
                     string  `a=b=' into the IPREFIX parameter, but compset -P
                     1 '*\=' will move only the string `a='.

              -s number
                     As -p, but transfer the last number characters  from  the
                     value of SUFFIX to the front of the value of ISUFFIX.

              -S [ number ] pattern
                     As  -P, but match the last portion of SUFFIX and transfer
                     the matched portion to the front of the value of ISUFFIX.

              -n begin [ end ]
                     If  the current word position as specified by the parame-
                     ter CURRENT is greater than or equal to  begin,  anything
                     up  to  the begin'th word is removed from the words array
                     and the value of the parameter CURRENT is decremented  by
                     begin.

                     If  the  optional  end is given, the modification is done
                     only if the current word position is also  less  than  or
                     equal  to  end. In this case, the words from position end
                     onwards are also removed from the words array.

                     Both begin and end may be  negative  to  count  backwards
                     from the last element of the words array.

              -N beg-pat [ end-pat ]
                     If  one of the elements of the words array before the one
                     at the index given by the value of the parameter  CURRENT
                     matches  the  pattern  beg-pat,  all  elements  up to and
                     including the matching one are  removed  from  the  words
                     array and the value of CURRENT is changed to point to the
                     same word in the changed array.

                     If the optional pattern end-pat is also given, and  there
                     is  an  element in the words array matching this pattern,
                     the parameters are modified only if  the  index  of  this
                     word  is higher than the one given by the CURRENT parame-
                     ter (so that the matching word has to be after  the  cur-
                     sor).  In  this  case,  the  words  starting with the one
                     matching end-pat are also removed from the  words  array.
                     If  words  contains no word matching end-pat, the testing
                     and modification is performed as if it were not given.

              -q     The word currently being completed  is  split  on  spaces
                     into  separate  words, respecting the usual shell quoting
                     conventions.  The resulting words are stored in the words
                     array,  and CURRENT, PREFIX, SUFFIX, QIPREFIX, and QISUF-
                     FIX are modified to reflect the word part  that  is  com-
                     pleted.

              In  all  the  above  cases the return status is zero if the test
              succeeded and the parameters were modified and  non-zero  other-
              wise. This allows one to use this builtin in tests such as:

                     if compset -P '*\='; then ...

              This  forces anything up to and including the last equal sign to
              be ignored by the completion code.

       compcall [ -TD ]
              This allows the use of  completions  defined  with  the  compctl
              builtin  from  within  completion  widgets.  The list of matches
              will be generated as if one of the non-widget  completion  func-
              tion  (complete-word,  etc.)   had been called, except that only
              compctls given for specific commands are used. To force the code
              to  try completions defined with the -T option of compctl and/or
              the default completion (whether defined by  compctl  -D  or  the
              builtin  default)  in  the  appropriate places, the -T and/or -D
              flags can be passed to compcall.

              The return status can be used to test if a matching compctl def-
              inition  was  found.  It  is non-zero if a compctl was found and
              zero otherwise.

              Note that this builtin is defined by the zsh/compctl module.


CONDITION CODES

       The following additional condition codes for use within the [[  ...  ]]
       construct  are available in completion widgets.  These work on the spe-
       cial parameters.  All of these tests  can  also  be  performed  by  the
       compset builtin, but in the case of the condition codes the contents of
       the special parameters are not modified.

       -prefix [ number ] pattern
              true if the test for the -P option of compset would succeed.

       -suffix [ number ] pattern
              true if the test for the -S option of compset would succeed.

       -after beg-pat
              true if the test of the -N option with only  the  beg-pat  given
              would succeed.

       -between beg-pat end-pat
              true if the test for the -N option with both patterns would suc-
              ceed.


MATCHING CONTROL

       It is possible by use of the -M option of the compadd  builtin  command
       to  specify  how the characters in the string to be completed (referred
       to here as the command line) map onto the characters  in  the  list  of
       matches  produced by the completion code (referred to here as the trial
       completions). Note that this is not used if the command line contains a
       glob  pattern  and the GLOB_COMPLETE option is set or the pattern_match
       of the compstate special association is set to a non-empty string.

       The match-spec given as the argument to the  -M  option  (see  `Builtin
       Commands'  above)  consists  of one or more matching descriptions sepa-
       rated by whitespace.  Each description consists of a letter followed by
       a  colon  and then the patterns describing which character sequences on
       the line match which character sequences in the trial completion.   Any
       sequence  of characters not handled in this fashion must match exactly,
       as usual.

       The forms of match-spec understood are as follows. In  each  case,  the
       form  with  an  uppercase  initial character retains the string already
       typed on the command line as the final result of completion, while with
       a lowercase initial character the string on the command line is changed
       into the corresponding part of the trial completion.

       m:lpat=tpat
       M:lpat=tpat
              Here, lpat is a pattern that matches on the command line, corre-
              sponding to tpat which matches in the trial completion.

       l:lanchor|lpat=tpat
       L:lanchor|lpat=tpat
       l:lanchor||ranchor=tpat
       L:lanchor||ranchor=tpat
       b:lpat=tpat
       B:lpat=tpat
              These letters are for patterns that are anchored by another pat-
              tern on the left side. Matching for lpat and tpat is  as  for  m
              and  M, but the pattern lpat matched on the command line must be
              preceded by the pattern lanchor.  The lanchor can  be  blank  to
              anchor the match to the start of the command line string; other-
              wise the anchor can occur anywhere, but must match in  both  the
              command line and trial completion strings.

              If  no  lpat  is  given  but  a ranchor is, this matches the gap
              between substrings matched by lanchor and ranchor.  Unlike  lan-
              chor,  the  ranchor  only  needs  to  match the trial completion
              string.

              The b and B forms are similar to l and L with an  empty  anchor,
              but  need to match only the beginning of the trial completion or
              the word on the command line, respectively.

       r:lpat|ranchor=tpat
       R:lpat|ranchor=tpat
       r:lanchor||ranchor=tpat
       R:lanchor||ranchor=tpat
       e:lpat=tpat
       E:lpat=tpat
              As l, L, b and B, with the difference that the command line  and
              trial  completion patterns are anchored on the right side.  Here
              an empty ranchor and the e and E forms force the  match  to  the
              end of the trial completion or command line string.

       Each  lpat,  tpat  or anchor is either an empty string or consists of a
       sequence of literal characters (which may be quoted with a  backslash),
       question marks, character classes, and correspondence classes; ordinary
       shell patterns are not used.  Literal characters match only themselves,
       question marks match any character, and character classes are formed as
       for globbing and match any character in the given set.

       Correspondence classes are defined like character classes, but with two
       differences:  they  are  delimited  by  a  pair  of braces, and negated
       classes are not allowed, so the characters !  and  ^  have  no  special
       meaning  directly  after the opening brace.  They indicate that a range
       of characters on the line match a range of characters in the trial com-
       pletion,  but  (unlike  ordinary character classes) paired according to
       the corresponding position in the sequence. For example,  to  make  any
       lowercase  letter  on the line match the corresponding uppercase letter
       in the trial completion, you can use `m:{a-z}={A-Z}'.   More  than  one
       pair  of  classes can occur, in which case the first class before the =
       corresponds to the first after it, and so on.  If  one  side  has  more
       such  classes  than the other side, the superfluous classes behave like
       normal character classes.  In anchor  patterns  correspondence  classes
       also behave like normal character classes.

       The  pattern tpat may also be one or two stars, `*' or `**'. This means
       that the pattern on the command line can match any number of characters
       in  the trial completion. In this case the pattern must be anchored (on
       either side); in the case of a single star, the anchor then  determines
       how  much of the trial completion is to be included -- only the charac-
       ters up to the next appearance of the anchor will be matched. With  two
       stars, substrings matched by the anchor can be matched, too.

       Examples:

       The keys of the options association defined by the parameter module are
       the option names in all-lowercase form, without underscores, and  with-
       out  the  optional  no at the beginning even though the builtins setopt
       and unsetopt understand option names  with  uppercase  letters,  under-
       scores,  and  the optional no.  The following alters the matching rules
       so that the prefix no and any underscore are  ignored  when  trying  to
       match the trial completions generated and uppercase letters on the line
       match the corresponding lowercase letters in the words:

              compadd -M 'L:|[nN][oO]= M:_= M:{A-Z}={a-z}' - \
                ${(k)options}

       The first part says that the pattern `[nN][oO]' at the  beginning  (the
       empty  anchor before the pipe symbol) of the string on the line matches
       the empty string in the list of words generated by  completion,  so  it
       will be ignored if present. The second part does the same for an under-
       score anywhere in the command line string, and the third part uses cor-
       respondence  classes  so  that any uppercase letter on the line matches
       the corresponding lowercase letter in the word. The use of  the  upper-
       case  forms  of  the specification characters (L and M) guarantees that
       what has already been typed on the command line (in particular the pre-
       fix no) will not be deleted.

       Note  that  the  use  of L in the first part means that it matches only
       when at the beginning of both the command line  string  and  the  trial
       completion.  I.e.,  the  string  `_NO_f'  would  not  be  completed  to
       `_NO_foo', nor would `NONO_f' be completed to `NONO_foo' because of the
       leading  underscore or the second `NO' on the line which makes the pat-
       tern fail even though they are otherwise  ignored.  To  fix  this,  one
       would  use `B:[nN][oO]=' instead of the first part. As described above,
       this matches at the beginning of the trial completion,  independent  of
       other  characters  or  substrings  at the beginning of the command line
       word which are ignored by the same or other match-specs.

       The second example makes completion case insensitive.  This is just the
       same  as in the option example, except here we wish to retain the char-
       acters in the list of completions:

              compadd -M 'm:{a-z}={A-Z}' ...

       This makes lowercase letters match their  uppercase  counterparts.   To
       make uppercase letters match the lowercase forms as well:

              compadd -M 'm:{a-zA-Z}={A-Za-z}' ...

       A  nice  example  for the use of * patterns is partial word completion.
       Sometimes you would like to  make  strings  like  `c.s.u'  complete  to
       strings like `comp.source.unix', i.e. the word on the command line con-
       sists of multiple parts, separated by a dot in this example, where each
       part  should  be  completed  separately -- note, however, that the case
       where each part of the word, i.e. `comp', `source' and `unix'  in  this
       example,  is to be completed from separate sets of matches is a differ-
       ent problem to be solved by the implementation of the  completion  wid-
       get.  The example can be handled by:

              compadd -M 'r:|.=* r:|=*' \
                - comp.sources.unix comp.sources.misc ...

       The  first  specification  says  that  lpat  is the empty string, while
       anchor is a dot; tpat is *, so this can match anything except  for  the
       `.'  from  the anchor in the trial completion word.  So in `c.s.u', the
       matcher sees `c', followed by the empty string, followed by the  anchor
       `.',  and  likewise  for the second dot, and replaces the empty strings
       before the anchors, giving `c[omp].s[ources].u[nix]',  where  the  last
       part of the completion is just as normal.

       With  the  pattern shown above, the string `c.u' could not be completed
       to `comp.sources.unix' because  the  single  star  means  that  no  dot
       (matched  by  the  anchor)  can  be  skipped.  By using two stars as in
       `r:|.=**', however, `c.u' could be  completed  to  `comp.sources.unix'.
       This  also shows that in some cases, especially if the anchor is a real
       pattern, like a character class, the form with two stars may result  in
       more matches than one would like.

       The second specification is needed to make this work when the cursor is
       in the middle of the string on the command line  and  the  option  COM-
       PLETE_IN_WORD  is  set. In this case the completion code would normally
       try to match trial completions that end with the  string  as  typed  so
       far,  i.e.  it  will  only insert new characters at the cursor position
       rather then at the end.  However in our example we would like the  code
       to recognise matches which contain extra characters after the string on
       the line (the `nix' in the example).   Hence  we  say  that  the  empty
       string  at  the end of the string on the line matches any characters at
       the end of the trial completion.

       More generally, the specification

              compadd -M 'r:|[.,_-]=* r:|=*' ...

       allows one to complete words with abbreviations before any of the char-
       acters  in the square brackets.  For example, to complete veryverylong-
       file.c rather than veryverylongheader.h with the above in  effect,  you
       can just type very.c before attempting completion.

       The  specifications  with  both a left and a right anchor are useful to
       complete partial words whose parts are not separated  by  some  special
       character.  For  example,  in  some places strings have to be completed
       that are formed `LikeThis' (i.e. the separate parts are determined by a
       leading  uppercase  letter)  or  maybe one has to complete strings with
       trailing numbers. Here one could use the  simple  form  with  only  one
       anchor as in:

              compadd -M 'r:|[A-Z0-9]=* r:|=*' LikeTHIS FooHoo 5foo123 5bar234

       But with this, the string `H' would neither complete to `FooHoo' nor to
       `LikeTHIS' because in each case there is an uppercase letter before the
       `H'  and  that  is  matched by the anchor. Likewise, a `2' would not be
       completed.  In  both   cases   this   could   be   changed   by   using
       `r:|[A-Z0-9]=**',  but  then  `H'  completes  to  both  `LikeTHIS'  and
       `FooHoo' and a `2' matches the other strings because characters can  be
       inserted  before  every  uppercase  letter and digit. To avoid this one
       would use:

              compadd -M 'r:[^A-Z0-9]||[A-Z0-9]=** r:|=*' \
                  LikeTHIS FooHoo foo123 bar234

       By using these two anchors, a `H' matches only uppercase `H's that  are
       immediately preceded by something matching the left anchor `[^A-Z0-9]'.
       The effect is, of course, that `H' matches only the string `FooHoo',  a
       `2' matches only `bar234' and so on.

       When  using the completion system (see zshcompsys(1)), users can define
       match specifications that are to be used for specific contexts by using
       the  matcher and matcher-list styles. The values for the latter will be
       used everywhere.


COMPLETION WIDGET EXAMPLE

       The first step is to define the widget:

              zle -C complete complete-word complete-files

       Then the widget can be bound to a key using the  bindkey  builtin  com-
       mand:

              bindkey '^X\t' complete

       After that the shell function complete-files will be invoked after typ-
       ing control-X and TAB. The function should then generate  the  matches,
       e.g.:

              complete-files () { compadd - * }

       This function will complete files in the current directory matching the
       current word.

ZSHCOMPSYS(1)                                                    ZSHCOMPSYS(1)


NAME

       zshcompsys - zsh completion system


DESCRIPTION

       This describes the shell code for the `new' completion system, referred
       to  as compsys.  It is written in shell functions based on the features
       described in zshcompwid(1).

       The features are contextual, sensitive to the point at which completion
       is started.  Many completions are already provided.  For this reason, a
       user can perform a great many tasks without knowing any details  beyond
       how  to  initialize the system, which is described below in INITIALIZA-
       TION.

       The context that decides what completion is to be performed may be
       o      an argument or option position: these describe the  position  on
              the  command line at which completion is requested.  For example
              `first argument to rmdir,  the  word  being  completed  names  a
              directory';

       o      a  special  context,  denoting an element in the shell's syntax.
              For example `a word in  command  position'  or  `an  array  sub-
              script'.

       A  full  context  specification  contains  other  elements, as we shall
       describe.

       Besides commands names and contexts, the system employs two  more  con-
       cepts,  styles  and tags.  These provide ways for the user to configure
       the system's behaviour.

       Tags play a dual role.  They serve as a classification system  for  the
       matches,  typically indicating a class of object that the user may need
       to distinguish.  For example, when completing arguments of the ls  com-
       mand  the  user  may prefer to try files before directories, so both of
       these are tags.  They also appear as the rightmost element in a context
       specification.

       Styles modify various operations of the completion system, such as out-
       put formatting, but also what kinds of completers are used (and in what
       order),  or  which  tags are examined.  Styles may accept arguments and
       are manipulated using the  zstyle  command  described  in  see  zshmod-
       ules(1).

       In  summary,  tags  describe what the completion objects are, and style
       how they are to be completed.  At various points of execution, the com-
       pletion  system checks what styles and/or tags are defined for the cur-
       rent context, and uses that to modify its behavior.  The full  descrip-
       tion  of context handling, which determines how tags and other elements
       of the context influence the behaviour of styles, is described below in
       COMPLETION SYSTEM CONFIGURATION.

       When  a  completion  is requested, a dispatcher function is called; see
       the description of _main_complete in  the  list  of  control  functions
       below.  This dispatcher decides which function should be called to pro-
       duce the completions, and calls it. The result is passed to one or more
       completers,  functions that implement individual completion strategies:
       simple completion, error correction, completion with error  correction,
       menu selection, etc.

       More  generally, the shell functions contained in the completion system
       are of two types:
       o      those beginning `comp' are to be called directly; there are only
              a few of these;

       o      those  beginning  `_'  are  called  by the completion code.  The
              shell functions of this set, which implement  completion  behav-
              iour  and  may  be bound to keystrokes, are referred to as `wid-
              gets'.  These proliferate as new completions are required.


INITIALIZATION

       If the system was installed completely, it should be enough to call the
       shell  function  compinit  from  your initialization file; see the next
       section.  However, the function compinstall can be run  by  a  user  to
       configure various aspects of the completion system.

       Usually,  compinstall will insert code into .zshrc, although if that is
       not writable it will save it in another file and tell you  that  file's
       location.   Note that it is up to you to make sure that the lines added
       to .zshrc are actually run; you may, for example, need to move them  to
       an  earlier place in the file if .zshrc usually returns early.  So long
       as you keep them all together (including the comment lines at the start
       and finish), you can rerun compinstall and it will correctly locate and
       modify these lines.  Note, however, that any code you add to this  sec-
       tion  by  hand  is likely to be lost if you rerun compinstall, although
       lines using the command `zstyle' should be gracefully handled.

       The new code will take effect next time you start  the  shell,  or  run
       .zshrc  by hand; there is also an option to make them take effect imme-
       diately.  However, if compinstall has  removed  definitions,  you  will
       need to restart the shell to see the changes.

       To run compinstall you will need to make sure it is in a directory men-
       tioned in your fpath parameter, which should already be the case if zsh
       was properly configured as long as your startup files do not remove the
       appropriate  directories  from  fpath.   Then  it  must  be  autoloaded
       (`autoload  -U compinstall' is recommended).  You can abort the instal-
       lation any time you are being prompted for information, and your .zshrc
       will  not  be altered at all; changes only take place right at the end,
       where you are specifically asked for confirmation.

   Use of compinit
       This section describes the use of compinit to initialize completion for
       the  current  session when called directly; if you have run compinstall
       it will be called automatically from your .zshrc.

       To initialize the system, the function compinit should be in  a  direc-
       tory  mentioned  in  the  fpath  parameter,  and  should  be autoloaded
       (`autoload -U  compinit'  is  recommended),  and  then  run  simply  as
       `compinit'.   This will define a few utility functions, arrange for all
       the necessary shell functions to be autoloaded, and will then re-define
       all  widgets  that do completion to use the new system.  If you use the
       menu-select widget, which is  part  of  the  zsh/complist  module,  you
       should make sure that that module is loaded before the call to compinit
       so that that widget is also  re-defined.   If  completion  styles  (see
       below)  are  set  up  to  perform  expansion  as  well as completion by
       default, and the TAB key is bound to expand-or-complete, compinit  will
       rebind  it  to complete-word; this is necessary to use the correct form
       of expansion.

       Should you need to use the original completion commands, you can  still
       bind  keys  to  the old widgets by putting a `.' in front of the widget
       name, e.g. `.expand-or-complete'.

       To speed up the running of compinit, it can be made to produce a dumped
       configuration  that  will be read in on future invocations; this is the
       default, but can be turned off by calling compinit with the option  -D.
       The  dumped  file  is  .zcompdump  in the same directory as the startup
       files (i.e. $ZDOTDIR or $HOME); alternatively, an  explicit  file  name
       can  be  given  by  `compinit  -d  dumpfile'.   The  next invocation of
       compinit will read the dumped file instead of performing  a  full  ini-
       tialization.

       If the number of completion files changes, compinit will recognise this
       and produce a new dump file.  However, if the name of a function or the
       arguments in the first line of a #compdef function (as described below)
       change, it is easiest to delete the dump file by hand so that  compinit
       will  re-create it the next time it is run.  The check performed to see
       if there are new functions can be omitted by giving the option -C.   In
       this  case  the  dump  file  will  only  be  created if there isn't one
       already.

       The dumping is actually done by another  function,  compdump,  but  you
       will  only  need  to  run this yourself if you change the configuration
       (e.g. using compdef) and then want to dump the new one.   The  name  of
       the old dumped file will be remembered for this purpose.

       If the parameter _compdir is set, compinit uses it as a directory where
       completion functions can be found; this is only necessary if  they  are
       not already in the function search path.

       For  security  reasons  compinit  also  checks if the completion system
       would use files not owned by root or by the current user, or  files  in
       directories  that are world- or group-writable or that are not owned by
       root or by the current user.  If such files or directories  are  found,
       compinit  will  ask if the completion system should really be used.  To
       avoid these tests and make all files found be used without asking,  use
       the  option -u, and to make compinit silently ignore all insecure files
       and directories use the option -i.   This  security  check  is  skipped
       entirely when the -C option is given.

       The  security  check can be retried at any time by running the function
       compaudit.  This is the same check used by compinit,  but  when  it  is
       executed  directly  any changes to fpath are made local to the function
       so they do not persist.  The directories to be checked may be passed as
       arguments; if none are given, compaudit uses fpath and _compdir to find
       completion system directories, adding missing ones to fpath  as  neces-
       sary.   To  force a check of exactly the directories currently named in
       fpath, set _compdir to an empty  string  before  calling  compaudit  or
       compinit.

   Autoloaded files
       The convention for autoloaded functions used in completion is that they
       start with an underscore; as already mentioned, the fpath/FPATH parame-
       ter  must  contain  the directory in which they are stored.  If zsh was
       properly installed on your system, then fpath/FPATH automatically  con-
       tains the required directories for the standard functions.

       For  incomplete  installations,  if compinit does not find enough files
       beginning with an underscore (fewer than twenty) in the search path, it
       will  try  to  find more by adding the directory _compdir to the search
       path.  If that directory has a subdirectory named Base, all subdirecto-
       ries  will be added to the path.  Furthermore, if the subdirectory Base
       has a subdirectory named Core, compinit will add all subdirectories  of
       the  subdirectories  is to the path: this allows the functions to be in
       the same format as in the zsh source distribution.

       When compinit is  run,  it  searches  all  such  files  accessible  via
       fpath/FPATH and reads the first line of each of them.  This line should
       contain one of the tags described below.  Files whose first  line  does
       not  start  with one of these tags are not considered to be part of the
       completion system and will not be treated specially.

       The tags are:

       #compdef names... [ -[pP] patterns... [ -N names... ] ]
              The file will be made autoloadable and the function  defined  in
              it will be called when completing names, each of which is either
              the name of a command whose arguments are to be completed or one
              of  a number of special contexts in the form -context- described
              below.

              Each name may also be of the form `cmd=service'.  When  complet-
              ing  the  command  cmd, the function typically behaves as if the
              command  (or  special  context)  service  was  being   completed
              instead.  This provides a way of altering the behaviour of func-
              tions that can perform many different completions.  It is imple-
              mented  by setting the parameter $service when calling the func-
              tion; the function may choose to interpret this how  it  wishes,
              and simpler functions will probably ignore it.

              If  the  #compdef line contains one of the options -p or -P, the
              words following are taken to be patterns.  The function will  be
              called  when  completion  is  attempted for a command or context
              that matches one of the patterns.  The options  -p  and  -P  are
              used  to specify patterns to be tried before or after other com-
              pletions respectively.  Hence -P may be used to specify  default
              actions.

              The option -N is used after a list following -p or -P; it speci-
              fies that remaining words no longer define patterns.  It is pos-
              sible  to toggle between the three options as many times as nec-
              essary.

       #compdef -k style key-sequences...
              This option creates a widget behaving like  the  builtin  widget
              style  and  binds  it  to  the given key-sequences, if any.  The
              style must be one of the builtin widgets  that  perform  comple-
              tion,  namely complete-word, delete-char-or-list, expand-or-com-
              plete, expand-or-complete-prefix,  list-choices,  menu-complete,
              menu-expand-or-complete,   or   reverse-menu-complete.   If  the
              zsh/complist module is loaded  (see  zshmodules(1))  the  widget
              menu-select is also available.

              When one of the key-sequences is typed, the function in the file
              will be invoked to generate the matches.  Note that a  key  will
              not  be  re-bound  if  if  it already was (that is, was bound to
              something other than undefined-key).  The widget created has the
              same  name  as the file and can be bound to any other keys using
              bindkey as usual.

       #compdef -K widget-name style key-sequences ...
              This is similar to -k except that only one  key-sequences  argu-
              ment may be given for each widget-name style pair.  However, the
              entire set of three arguments may be repeated with  a  different
              set  of arguments.  Note in particular that the widget-name must
              be distinct in each set.  If it does not  begin  with  `_'  this
              will  be  added.  The widget-name should not clash with the name
              of any existing widget: names based on the name of the  function
              are most useful.  For example,

                     #compdef -K _foo_complete complete-word "^X^C" \
                       _foo_list list-choices "^X^D"

              (all on one line) defines a widget _foo_complete for completion,
              bound to `^X^C', and a widget _foo_list for  listing,  bound  to
              `^X^D'.

       #autoload [ options ]
              Functions  with the #autoload tag are marked for autoloading but
              are not otherwise treated specially.  Typically they are  to  be
              called from within one of the completion functions.  Any options
              supplied will be passed to the autoload builtin; a  typical  use
              is +X to force the function to be loaded immediately.  Note that
              the -U and -z flags are always added implicitly.

       The # is part of the tag name and no white space is allowed  after  it.
       The  #compdef  tags  use the compdef function described below; the main
       difference is that the name of the function is supplied implicitly.

       The special contexts for which completion functions can be defined are:

       -array-value-
              The right hand side of an array-assignment (`foo=(...)')

       -brace-parameter-
              The name of a parameter expansion within braces (`${...}')

       -assign-parameter-
              The  name of a parameter in an assignment, i.e. on the left hand
              side of an `='

       -command-
              A word in command position

       -condition-
              A word inside a condition (`[[...]]')

       -default-
              Any word for which no other completion is defined

       -equal-
              A word beginning with an equals sign

       -first-
              This is tried before any other completion function.   The  func-
              tion  called  may  set the _compskip parameter to one of various
              values: all: no further completion is attempted; a  string  con-
              taining  the substring patterns: no pattern completion functions
              will be called; a string containing default:  the  function  for
              the  `-default-'  context  will  not  be  called,  but functions
              defined for commands will

       -math- Inside mathematical contexts, such as `((...))'

       -parameter-
              The name of a parameter expansion (`$...')

       -redirect-
              The word after a redirection operator.

       -subscript-
              The contents of a parameter subscript.

       -tilde-
              After an initial tilde (`~'), but before the first slash in  the
              word.

       -value-
              On the right hand side of an assignment.

       Default  implementations  are  supplied for each of these contexts.  In
       most cases the context -context-  is  implemented  by  a  corresponding
       function  _context,  for example the context `-tilde-' and the function
       `_tilde').

       The contexts -redirect- and -value- allow extra context-specific infor-
       mation.  (Internally, this is handled by the functions for each context
       calling the function _dispatch.)  The extra information is added  sepa-
       rated by commas.

       For  the -redirect- context, the extra information is in the form `-re-
       direct-,op,command', where op is the redirection operator  and  command
       is  the name of the command on the line.  If there is no command on the
       line yet, the command field will be empty.

       For the -value- context, the form is `-value-,name,command', where name
       is  the  name of the parameter.  In the case of elements of an associa-
       tive array,  for  example  `assoc=(key  <TAB>',  name  is  expanded  to
       `name-key'.   In  certain  special  contexts,  such as completing after
       `make CFLAGS=', the command part gives the name of  the  command,  here
       make; otherwise it is empty.

       It  is  not necessary to define fully specific completions as the func-
       tions provided  will  try  to  generate  completions  by  progressively
       replacing  the elements with `-default-'.  For example, when completing
       after `foo=<TAB>', _value will try the names `-value-,foo,'  (note  the
       empty          command          part),          `-value-,foo,-default-'
       and`-value-,-default-,-default-', in that order, until it finds a func-
       tion to handle the context.

       As an example:

              compdef '_files -g "*.log"' '-redirect-,2>,-default-'

       completes  files matching `*.log' after `2> <TAB>' for any command with
       no more specific handler defined.

       Also:

              compdef _foo -value-,-default-,-default-

       specifies that _foo provides completions for the values  of  parameters
       for  which  no special function has been defined.  This is usually han-
       dled by the function _value itself.

       The same lookup rules are used when looking  up  styles  (as  described
       below); for example

              zstyle ':completion:*:*:-redirect-,2>,*:*' file-patterns '*.log'

       is  another  way  to  make  completion  after `2> <TAB>' complete files
       matching `*.log'.

   Functions
       The following function  is  defined  by  compinit  and  may  be  called
       directly.

       compdef [ -an ] function names... [ -[pP] patterns... [ -N names... ] ]
       compdef -d names...
       compdef -k [ -an ] function style key-sequences...
       compdef -K [ -an ] function name style key-sequences ...
              The  first  form  defines the function to call for completion in
              the given contexts as described for the #compdef tag above.

              Alternatively, all the arguments may  have  the  form  `cmd=ser-
              vice'.   Here  service  should  already  have  been  defined  by
              `cmd1=service' lines in #compdef files, as described above.  The
              argument for cmd will be completed in the same way as service.

              The  function  argument may alternatively be a string containing
              any shell code.  The string will  be  executed  using  the  eval
              builtin command to generate completions.  This provides a way of
              avoiding having to define a new completion function.  For  exam-
              ple,  to  complete files ending in `.h' as arguments to the com-
              mand foo:

                     compdef '_files -g "*.h"' foo

              The option -n prevents any completions already defined  for  the
              command or context from being overwritten.

              The  option -d deletes any completion defined for the command or
              contexts listed.

              The names may also contain -p, -P and -N  options  as  described
              for  the #compdef tag.  The effect on the argument list is iden-
              tical, switching between  definitions  of  patterns  tried  ini-
              tially,  patterns  tried  finally,  and normal commands and con-
              texts.

              The parameter $_compskip may be set by any function defined  for
              a  pattern context.  If it is set to a value containing the sub-
              string `patterns' none of the pattern-functions will be  called;
              if it is set to a value containing the substring `all', no other
              function will be called.

              The form with -k defines a widget with  the  same  name  as  the
              function that will be called for each of the key-sequences; this
              is like the #compdef -k tag.  The function should  generate  the
              completions  needed  and  will otherwise behave like the builtin
              widget whose name is given as the style argument.   The  widgets
              usable   for   this   are:  complete-word,  delete-char-or-list,
              expand-or-complete,   expand-or-complete-prefix,   list-choices,
              menu-complete,  menu-expand-or-complete,  and  reverse-menu-com-
              plete, as well as menu-select  if  the  zsh/complist  module  is
              loaded.   The  option  -n  prevents the key being bound if it is
              already to bound to something other than undefined-key.

              The form with -K is similar and defines multiple  widgets  based
              on  the  same  function, each of which requires the set of three
              arguments name, style and key-sequences, where  the  latter  two
              are  as for -k and the first must be a unique widget name begin-
              ning with an underscore.

              Wherever applicable, the -a option makes the function  autoload-
              able, equivalent to autoload -U function.

       The function compdef can be used to associate existing completion func-
       tions with new commands.  For example,

              compdef _pids foo

       uses the function _pids to complete process IDs for the command foo.

       Note also the _gnu_generic function described below, which can be  used
       to complete options for commands that understand the `--help' option.


COMPLETION SYSTEM CONFIGURATION

       This section gives a short overview of how the completion system works,
       and then more detail on how users can configure how  and  when  matches
       are generated.

   Overview
       When  completion is attempted somewhere on the command line the comple-
       tion system first works out the context.  This takes account of a  num-
       ber  of things including the command word (such as `grep' or `zsh') and
       options to which the current word may be an argument (such as the  `-o'
       option to zsh which takes a shell option as an argument).

       This  context information is condensed into a string consisting of mul-
       tiple fields separated by colons, referred to simply as  `the  context'
       in the remainder of the documentation.  This is used to look up styles,
       context-sensitive options that can be used to configure the  completion
       system.   The  context used for lookup may vary during the same call to
       the completion system.

       The context string always consists of a fixed set of fields,  separated
       by  colons and with a leading colon before the first, in the form :com-
       pletion:function:completer:command:argument:tag.  These have  the  fol-
       lowing meaning:

       o      The literal string completion, saying that this style is used by
              the completion system.   This  distinguishes  the  context  from
              those used by, for example, zle widgets and ZFTP functions.

       o      The function, if completion is called from a named widget rather
              than through the normal completion system.   Typically  this  is
              blank,  but  it is set by special widgets such as predict-on and
              the various functions in the Widget directory of  the  distribu-
              tion to the name of that function, often in an abbreviated form.

       o      The completer currently active, the name of the function without
              the  leading  underscore and with other underscores converted to
              hyphens.  A `completer' is in overall control of how  completion
              is  to  be performed; `complete' is the simplest, but other com-
              pleters exist to perform related tasks such as correction, or to
              modify  the  behaviour  of  a  later completer.  See the section
              `Control Functions' below for more information.

       o      The command or a special -context-, just at it appears following
              the  #compdef tag or the compdef function.  Completion functions
              for commands that have sub-commands usually modify this field to
              contain the name of the command followed by a minus sign and the
              sub-command.  For example, the completion function for  the  cvs
              command  sets this field to cvs-add when completing arguments to
              the add subcommand.

       o      The argument; this indicates which command line or option  argu-
              ment  we  are  completing.  For command arguments this generally
              takes the form argument-n, where n is the number  of  the  argu-
              ment, and for arguments to options the form option-opt-n where n
              is the number of the argument to option opt.  However,  this  is
              only  the  case  if  the  command  line  is parsed with standard
              UNIX-style options and arguments, so many completions do not set
              this.

       o      The tag.  As described previously, tags are used to discriminate
              between the types of matches a completion function can  generate
              in  a  certain context.  Any completion function may use any tag
              name it likes, but a list of  the  more  common  ones  is  given
              below.

       The  context  is  gradually put together as the functions are executed,
       starting with the main entry point, which  adds  :completion:  and  the
       function  element  if necessary.  The completer then adds the completer
       element.  The contextual  completion  adds  the  command  and  argument
       options.   Finally,  the  tag is added when the types of completion are
       known.  For example, the context name

              :completion::complete:dvips:option-o-1:files

       says that normal completion was attempted as the first argument to  the
       option -o of the command dvips:

              dvips -o ...

       and the completion function will generate filenames.

       Usually  completion  will  be  tried  for all possible tags in an order
       given by the completion function.  However,  this  can  be  altered  by
       using  the  tag-order style.  Completion is then restricted to the list
       of given tags in the given order.

       The _complete_help bindable command shows all  the  contexts  and  tags
       available  for completion at a particular point.  This provides an easy
       way of finding information for  tag-order  and  other  styles.   It  is
       described in the section `Bindable Commands' below.

       Styles  determine  such  things as how the matches are generated, simi-
       larly to shell options but with much more control.  They can  have  any
       number  of  strings  as  their value.  They are defined with the zstyle
       builtin command (see zshmodules(1)).

       When looking up styles the completion system uses full  context  names,
       including  the tag.  Looking up the value of a style therefore consists
       of two things:  the context, which may be matched as a pattern, and the
       name of the style itself, which must be given exactly.

       For example, many completion functions can generate matches in a simple
       and a verbose form and use the  verbose  style  to  decide  which  form
       should be used.  To make all such functions use the verbose form, put

              zstyle ':completion:*' verbose yes

       in  a startup file (probably .zshrc).  This gives the verbose style the
       value yes in every context inside the completion  system,  unless  that
       context has a more specific definition.  It is best to avoid giving the
       context as `*' in case the style has some meaning outside  the  comple-
       tion system.

       Many  such general purpose styles can be configured simply by using the
       compinstall function.

       A more specific example of the use of the verbose style is by the  com-
       pletion  for  the kill builtin.  If the style is set, the builtin lists
       full job texts and process command lines; otherwise it shows  the  bare
       job numbers and PIDs.  To turn the style off for this use only:

              zstyle ':completion:*:*:kill:*' verbose no

       For  even  more  control,  the  style can use one of the tags `jobs' or
       `processes'.  To turn off verbose display only for jobs:

              zstyle ':completion:*:*:kill:*:jobs' verbose no

       The -e option to zstyle even allows completion function code to  appear
       as  the  argument  to  a style; this requires some understanding of the
       internals of completion functions (see see zshcompwid(1))).  For  exam-
       ple,

              zstyle -e ':completion:*' hosts 'reply=($myhosts)'

       This  forces  the value of the hosts style to be read from the variable
       myhosts each time a host name is needed; this is useful if the value of
       myhosts  can  change  dynamically.  For another useful example, see the
       example in the description of the file-list style below.  This form can
       be slow and should be avoided for commonly examined styles such as menu
       and list-rows-first.

       Note that the order in which styles are defined does  not  matter;  the
       style  mechanism uses the most specific possible match for a particular
       style to determine the set of values.  More precisely, strings are pre-
       ferred  over patterns (for example, `:completion::complete:foo' is more
       specific than `:completion::complete:*'), and longer patterns are  pre-
       ferred over shorter patterns.

       Style  names like those of tags are arbitrary and depend on the comple-
       tion function.  However, the following two sections list  some  of  the
       most common tags and styles.

   Standard Tags
       Some  of  the following are only used when looking up particular styles
       and do not refer to a type of match.

       accounts
              used to look up the users-hosts style

       all-expansions
              used by the _expand completer when adding the single string con-
              taining all possible expansions

       all-files
              for  the  names of all files (as distinct from a particular sub-
              set, see the globbed-files tag).

       arguments
              for arguments to a command

       arrays for names of array parameters

       association-keys
              for keys of associative arrays; used when  completing  inside  a
              subscript to a parameter of this type

       bookmarks
              when  completing  bookmarks (e.g. for URLs and the zftp function
              suite)

       builtins
              for names of builtin commands

       characters
              for single characters in arguments of  commands  such  as  stty.
              Also  used  when  completing  character classes after an opening
              bracket

       colormapids
              for X colormap ids

       colors for color names

       commands
              for names of external commands.  Also used by  complex  commands
              such as cvs when completing names subcommands.

       contexts
              for contexts in arguments to the zstyle builtin command

       corrections
              used  by  the  _approximate and _correct completers for possible
              corrections

       cursors
              for cursor names used by X programs

       default
              used in some contexts to provide a way of  supplying  a  default
              when  more  specific tags are also valid.  Note that this tag is
              used when only the function field of the context name is set

       descriptions
              used when looking up the value of the format style  to  generate
              descriptions for types of matches

       devices
              for names of device special files

       directories
              for names of directories

       directory-stack
              for entries in the directory stack

       displays
              for X display names

       domains
              for network domains

       expansions
              used  by  the _expand completer for individual words (as opposed
              to the complete set of expansions) resulting from the  expansion
              of a word on the command line

       extensions
              for X server extensions

       file-descriptors
              for numbers of open file descriptors

       files  the generic file-matching tag used by functions completing file-
              names

       fonts  for X font names

       fstypes
              for file system types (e.g. for the mount command)

       functions
              names of functions -- normally shell functions, although certain
              commands may understand other kinds of function

       globbed-files
              for filenames when the name has been generated by pattern match-
              ing

       groups for names of user groups

       history-words
              for words from the history

       hosts  for hostnames

       indexes
              for array indexes

       jobs   for jobs (as listed by the `jobs' builtin)

       interfaces
              for network interfaces

       keymaps
              for names of zsh keymaps

       keysyms
              for names of X keysyms

       libraries
              for names of system libraries

       limits for system limits

       local-directories
              for names of directories that are subdirectories of the  current
              working  directory  when  completing arguments of cd and related
              builtin commands (compare path-directories)

       manuals
              for names of manual pages

       mailboxes
              for e-mail folders

       maps   for map names (e.g. NIS maps)

       messages
              used to look up the format style for messages

       modifiers
              for names of X modifiers

       modules
              for modules (e.g. zsh modules)

       my-accounts
              used to look up the users-hosts style

       named-directories
              for named directories (you wouldn't  have  guessed  that,  would
              you?)

       names  for all kinds of names

       newsgroups
              for USENET groups

       nicknames
              for nicknames of NIS maps

       options
              for command options

       original
              used  by  the _approximate, _correct and _expand completers when
              offering the original string as a match

       other-accounts
              used to look up the users-hosts style

       packages
              for packages (e.g. rpm or installed Debian packages)

       parameters
              for names of parameters

       path-directories
              for names of directories found by  searching  the  cdpath  array
              when  completing  arguments  of  cd and related builtin commands
              (compare local-directories)

       paths  used to look up the values of the  expand,  ambiguous  and  spe-
              cial-dirs styles

       pods   for perl pods (documentation files)

       ports  for communication ports

       prefixes
              for prefixes (like those of a URL)

       printers
              for print queue names

       processes
              for process identifiers

       processes-names
              used  to  look up the command style when generating the names of
              processes for killall

       sequences
              for sequences (e.g. mh sequences)

       sessions
              for sessions in the zftp function suite

       signals
              for signal names

       strings
              for strings (e.g. the replacement strings  for  the  cd  builtin
              command)

       styles for styles used by the zstyle builtin command

       suffixes
              for filename extensions

       tags   for tags (e.g. rpm tags)

       targets
              for makefile targets

       time-zones
              for time zones (e.g. when setting the TZ parameter)

       types  for types of whatever (e.g. address types for the xhost command)

       urls   used to look up the urls and local styles when completing URLs

       users  for usernames

       values for one of a set of values in certain lists

       variant
              used by _pick_variant to look up the command to run when  deter-
              mining  what program is installed for a particular command name.

       visuals
              for X visuals

       warnings
              used to look up the format style for warnings

       widgets
              for zsh widget names

       windows
              for IDs of X windows

       zsh-options
              for shell options

   Standard Styles
       Note that the values of several of these styles represent boolean  val-
       ues.   Any  of the strings `true', `on', `yes', and `1' can be used for
       the value `true' and any of the strings `false', `off', `no',  and  `0'
       for  the  value `false'.  The behavior for any other value is undefined
       except where explicitly mentioned.  The default  value  may  be  either
       true or false if the style is not set.

       Some  of  these  styles  are tested first for every possible tag corre-
       sponding to a type of match, and if no style was found, for the default
       tag.   The  most  notable styles of this type are menu, list-colors and
       styles  controlling  completion  listing  such   as   list-packed   and
       last-prompt).  When tested for the default tag, only the function field
       of the context will be set so that a style using the default  tag  will
       normally be defined along the lines of:

              zstyle ':completion:*:default' menu ...

       accept-exact
              This is tested for the default tag in addition to the tags valid
              for the current context.  If it is set to `true' and any of  the
              trial  matches  is  the  same as the string on the command line,
              this match will immediately be accepted (even if it would other-
              wise be considered ambiguous).

              When  completing  pathnames (where the tag used is `paths') this
              style accepts any number of patterns as the value in addition to
              the  boolean  values.   Pathnames matching one of these patterns
              will be accepted immediately even if the command  line  contains
              some more partially typed pathname components and these match no
              file under the directory accepted.

              This style is also used by the _expand completer  to  decide  if
              words  beginning  with  a tilde or parameter expansion should be
              expanded.  For example, if there are parameters foo and  foobar,
              the  string  `$foo' will only be expanded if accept-exact is set
              to `true'; otherwise the completion system will  be  allowed  to
              complete  $foo  to  $foobar.  If the style is set to `continue',
              _expand will add the expansion as a  match  and  the  completion
              system will also be allowed to continue.

       add-space
              This style is used by the _expand completer.  If it is true (the
              default), a space will be inserted  after  all  words  resulting
              from  the  expansion, or a slash in the case of directory names.
              If the value is `file', the completer will only add a  space  to
              names  of  existing  files.   Either a boolean true or the value
              `file' may be combined with `subst', in which case the completer
              will  not add a space to words generated from the expansion of a
              substitution of the form `$(...)' or `${...}'.

              The _prefix completer uses this style as a simple boolean  value
              to decide if a space should be inserted before the suffix.

       ambiguous
              This  applies  when  completing non-final components of filename
              paths, in other words those with a trailing  slash.   If  it  is
              set,  the  cursor  is  left after the first ambiguous component,
              even if menu completion is in use.  The style is  always  tested
              with the paths tag.

       assign-list
              When completing after an equals sign that is being treated as an
              assignment, the completion system normally  completes  only  one
              filename.   In  some cases the value  may be a list of filenames
              separated by colons, as with PATH and similar parameters.   This
              style  can  be  set  to a list of patterns matching the names of
              such parameters.

              The default is to complete lists  when  the  word  on  the  line
              already contains a colon.

       auto-description
              If  set,  this style's value will be used as the description for
              options that are not described by the completion functions,  but
              that  have exactly one argument.  The sequence `%d' in the value
              will be replaced by the description for this argument.   Depend-
              ing  on personal preferences, it may be useful to set this style
              to something like `specify: %d'.  Note that this  may  not  work
              for some commands.

       avoid-completer
              This  is  used  by  the  _all_matches completer to decide if the
              string consisting of all matches should be  added  to  the  list
              currently being generated.  Its value is a list of names of com-
              pleters.  If any of these is the name of the completer that gen-
              erated  the  matches  in this completion, the string will not be
              added.

              The default value for this style is `_expand _old_list  _correct
              _approximate',  i.e.  it  contains  the  completers  for which a
              string with all matches will almost never be wanted.

       cache-path
              This style defines the path where  any  cache  files  containing
              dumped  completion  data  are  stored.   It  defaults to `$ZDOT-
              DIR/.zcompcache', or  `$HOME/.zcompcache'  if  $ZDOTDIR  is  not
              defined.   The  completion  cache  will  not  be used unless the
              use-cache style is set.

       cache-policy
              This style defines the function that will be used  to  determine
              whether  a  cache  needs  rebuilding.   See  the  section on the
              _cache_invalid function below.

       call-command
              This style is used in the function for commands such as make and
              ant  where calling the command directly to generate matches suf-
              fers problems such as being slow or, as in the case of make  can
              potentially causes actions in the makefile to be executed. If it
              is set to `true' the command is called to generate matches.  The
              default value of this style is `false'.

       command
              In  many places, completion functions need to call external com-
              mands to generate the list of completions.  This  style  can  be
              used  to override the command that is called in some such cases.
              The elements of the value are joined with spaces to form a  com-
              mand  line  to execute.  The value can also start with a hyphen,
              in which case the usual command will be added to the  end;  this
              is  most  useful  for putting `builtin' or `command' in front to
              make sure the appropriate version of a command  is  called,  for
              example  to avoid calling a shell function with the same name as
              an external command.

              As an example, the completion function for process IDs uses this
              style with the processes tag to generate the IDs to complete and
              the list of processes  to  display  (if  the  verbose  style  is
              `true').   The list produced by the command should look like the
              output of the ps command.  The first line is not displayed,  but
              is searched for the string `PID' (or `pid') to find the position
              of the process IDs in the following lines.  If the line does not
              contain  `PID', the first numbers in each of the other lines are
              taken as the process IDs to complete.

              Note that the completion function  generally  has  to  call  the
              specified  command  for  each attempt to generate the completion
              list.  Hence care should be taken to specify only commands  that
              take  a  short  time to run, and in particular to avoid any that
              may never terminate.

       command-path
              This is a list of directories to search  for  commands  to  com-
              plete.   The  default for this style is the value of the special
              parameter path.

       commands
              This is used by the function  completing  sub-commands  for  the
              system  initialisation scripts (residing in /etc/init.d or some-
              where not too far away from that).  Its values give the  default
              commands to complete for those commands for which the completion
              function isn't able to find them out automatically.  The default
              for this style are the two strings `start' and `stop'.

       complete
              This  is  used  by  the _expand_alias function when invoked as a
              bindable command.  If it set to `true' and the word on the  com-
              mand line is not the name of an alias, matching alias names will
              be completed.

       completer
              The strings given as the value of this style provide  the  names
              of the completer functions to use. The available completer func-
              tions are described in the section `Control Functions' below.

              Each string may be either the name of a completer function or  a
              string  of the form `function:name'.  In the first case the com-
              pleter field of the context will contain the name  of  the  com-
              pleter  without the leading underscore and with all other under-
              scores replaced by hyphens.  In the second case the function  is
              the  name of the completer to call, but the context will contain
              the user-defined name in the completer field of the context.  If
              the  name  starts with a hyphen, the string for the context will
              be build from the name of the completer function as in the first
              case with the name appended to it.  For example:

                     zstyle ':completion:*' completer _complete _complete:-foo

              Here,  completion  will call the _complete completer twice, once
              using `complete' and once using `complete-foo' in the  completer
              field  of  the context.  Normally, using the same completer more
              than once only makes sense when used with  the  `functions:name'
              form, because otherwise the context name will be the same in all
              calls to the completer; possible exceptions to this rule are the
              _ignored and _prefix completers.

              The  default  value for this style is `_complete _ignored': only
              completion will be done, first using the ignored-patterns  style
              and the $fignore array and then without ignoring matches.

       condition
              This  style is used by the _list completer function to decide if
              insertion of matches  should  be  delayed  unconditionally.  The
              default is `true'.

       disabled
              If  this is set to `true', the _expand_alias completer and bind-
              able command will try to  expand  disabled  aliases,  too.   The
              default is `false'.

       disable-stat
              This  is  used  with an empty tag by the _cvs function to decide
              whether the zsh/stat module should be used to generate names  of
              modified files in the appropriate places (this is its only use).
              If the style is set, completion will use the ls command.

       domains
              A list of names of network domains for completion.  If  this  is
              not   set,   domain   names   will   be   taken  from  the  file
              /etc/resolv.conf.

       expand This style is used when completing strings consisting of  multi-
              ple parts, such as path names.

              If one of its values is the string `prefix', the partially typed
              word from the line will be expanded as far as possible  even  if
              trailing parts cannot be completed.

              If  one of its values is the string `suffix', matching names for
              components after the first ambiguous one  will  also  be  added.
              This  means that the resulting string is the longest unambiguous
              string possible.  However, menu completion can be used to  cycle
              through all matches.

       fake   This  style may be set for any completion context.  It specifies
              additional strings that will always be completed  in  that  con-
              text.  The form of each string is `value:description'; the colon
              and description may be omitted, but any literal colons in  value
              must  be  quoted  with a backslash.  Any description provided is
              shown alongside the value in completion listings.

              It is important to use a sufficiently restrictive  context  when
              specifying  fake  strings.   Note that the styles fake-files and
              fake-parameters  provide  additional  features  when  completing
              files or parameters.

       fake-always
              This  works  identically  to  the  fake  style  except  that the
              ignored-patterns style is not applied to it.  This makes it pos-
              sible  to  override  a  set of matches completely by setting the
              ignored patterns to `*'.

              The following shows a way of supplementing any  tag  with  arbi-
              trary  data,  but  having  it behave for display purposes like a
              separate tag.  In this  example  we  use  the  features  of  the
              tag-order  style  to  divide  the named-directories tag into two
              when performing completion with the standard completer  complete
              for  arguments  of cd.  The tag named-directories-normal behaves
              as normal, but the tag named-directories-mine contains  a  fixed
              set  of  directories.   This  has the effect of adding the match
              group `extra directories' with the given completions.

                     zstyle ':completion::complete:cd:*' tag-order \
                       'named-directories:-mine:extra\ directories
                       named-directories:-normal:named\ directories *'
                     zstyle ':completion::complete:cd:*:named-directories-mine' \
                       fake-always mydir1 mydir2
                     zstyle ':completion::complete:cd:*:named-directories-mine' \
                       ignored-patterns '*'

       fake-files
              This style is used when completing files and looked up without a
              tag.   Its values are of the form `dir:names...'.  This will add
              the names (strings separated by spaces) as possible matches when
              completing  in  the  directory dir, even if no such files really
              exist.

              This can be useful on systems that support  special  filesystems
              whose  top-level  pathnames  can not be listed or generated with
              glob patterns.  It can also be used for  directories  for  which
              one does not have read permission.

       fake-parameters
              This  is  used  by  the completion function for parameter names.
              Its values are names of parameters that might not yet be set but
              should be completed nonetheless.  Each name may also be followed
              by a colon and a string specifying the  type  of  the  parameter
              (like  `scalar',  `array'  or `integer').  If the type is given,
              the name will only be completed if parameters of that  type  are
              required  in the particular context.  Names for which no type is
              specified will always be completed.

       file-list
              This style controls whether files completed using  the  standard
              builtin  mechanism  are to be listed with a long list similar to
              ls -l.  Note that this feature uses the  shell  module  zsh/stat
              for  file  information;  this  loads the builtin stat which will
              replace any external stat executable.  To avoid this the follow-
              ing code can be included in an initialization file:

                     zmodload -i zsh/stat
                     disable stat

              The  style  may either be set to a true value (or `all'), or one
              of the values `insert' or `list', indicating that files  are  to
              be  listed in long format in all circumstances, or when attempt-
              ing to insert a file name, or when listing  file  names  without
              attempting to insert one.

              More  generally,  the  value may be an array of any of the above
              values, optionally followed by =num.  If num is present it gives
              the  maximum number of matches for which long listing style will
              be used.  For example,

                     zstyle ':completion:*' file-list list=20 insert=10

              specifies that long format will be used when listing  up  to  20
              files  or  inserting  a  file  with up to 10 matches (assuming a
              listing is to be shown at all, for example on an ambiguous  com-
              pletion), else short format will be used.

                     zstyle -e ':completion:*' file-list '(( ${+NUMERIC} )) && reply=(true)'

              specifies that long format will be used any time a numeric argu-
              ment is supplied, else short format.

       file-patterns
              This is used by the standard function for completing  filenames,
              _files.   If  the  style  is unset up to three tags are offered,
              `globbed-files',`directories' and `all-files', depending on  the
              types of files  expected by the caller of _files.  The first two
              (`globbed-files'  and  `directories')   are   normally   offered
              together to make it easier to complete files in sub-directories.

              The file-patterns style provides  alternatives  to  the  default
              tags, which are not used.  Its value consists of elements of the
              form `pattern:tag'; each string may contain any number  of  such
              specifications separated by spaces.

              The  pattern  is  a pattern that is to be used to generate file-
              names.  Any occurrence of the sequence `%p' is replaced  by  any
              pattern(s) passed by the function calling _files.  Colons in the
              pattern must be preceded by a backslash  to  make  them  distin-
              guishable  from the colon before the tag.  If more than one pat-
              tern is needed, the patterns can be given inside  braces,  sepa-
              rated by commas.

              The  tags  of all strings in the value will be offered by _files
              and used when looking up other styles.  Any  tags  in  the  same
              word  will  be  offered at the same time and before later words.
              If no `:tag' is given the `files' tag will be used.

              The tag may also be followed by an optional second colon  and  a
              description, which will be used for the `%d' in the value of the
              format style (if that is set) instead of the default description
              supplied  by  the completion function.  If the description given
              here contains itself a `%d', that is replaced with the  descrip-
              tion supplied by the completion function.

              For example, to make the rm command first complete only names of
              object files and then the names of all  files  if  there  is  no
              matching object file:

                     zstyle ':completion:*:*:rm:*' file-patterns \
                         '*.o:object-files' '%p:all-files'

              To alter the default behaviour of file completion -- offer files
              matching a pattern and directories on the  first  attempt,  then
              all  files -- to offer only matching files on the first attempt,
              then directories, and finally all files:

                     zstyle ':completion:*' file-patterns \
                         '%p:globbed-files' '*(-/):directories' '*:all-files'

              This works even  where  there  is  no  special  pattern:  _files
              matches  all  files  using the pattern `*' at the first step and
              stops when it sees this pattern.  Note also it will never try  a
              pattern more than once for a single completion attempt.

              During  the execution of completion functions, the EXTENDED_GLOB
              option is in effect, so the characters `#',  `~'  and  `^'  have
              special meanings in the patterns.

       file-sort
              The  standard filename completion function uses this style with-
              out a tag to determine  in  which  order  the  names  should  be
              listed;  menu  completion  will  cycle  through them in the same
              order.  The possible values are: `size' to sort by the  size  of
              the  file;  `links'  to sort by the number of links to the file;
              `modification' (or `time' or `date') to sort by the last modifi-
              cation  time;  `access'  to  sort  by  the last access time; and
              `inode' (or `change') to sort by the last inode change time.  If
              the  style is set to any other value, or is unset, files will be
              sorted alphabetically by name.  If the value contains the string
              `reverse', sorting is done in the opposite order.

       filter This is used by the LDAP plugin for e-mail address completion to
              specify the attributes to match against when filtering  entries.
              So  for  example,  if the style is set to `sn', matching is done
              against surnames.  Standard LDAP filtering  is  used  so  normal
              completion  matching is bypassed.  If this style is not set, the
              LDAP plugin is skipped.  You may also need to  set  the  command
              style to specify how to connect to your LDAP server.

       force-list
              This forces a list of completions to be shown at any point where
              listing is done, even in cases where the list would  usually  be
              suppressed.   For  example,  normally  the list is only shown if
              there are at least two different matches.  By setting this style
              to  `always',  the  list  will always be shown, even if there is
              only a single match that  will  immediately  be  accepted.   The
              style  may  also be set to a number.  In this case the list will
              be shown if there are at least that many matches, even  if  they
              would all insert the same string.

              This style is tested for the default tag as well as for each tag
              valid for the current completion.   Hence  the  listing  can  be
              forced only for certain types of match.

       format If  this is set for the descriptions tag, its value is used as a
              string to  display  above  matches  in  completion  lists.   The
              sequence  `%d'  in  this  string  will  be replaced with a short
              description of what these matches are.   This  string  may  also
              contain  the  sequences  to  specify  output attributes, such as
              `%B', `%S' and `%{...%}'.

              The style is tested with each tag valid for the current  comple-
              tion  before  it is tested for the descriptions tag.  Hence dif-
              ferent format strings can be  defined  for  different  types  of
              match.

              Note  also  that  some  completer  functions  define  additional
              `%'-sequences.  These are described for the completer  functions
              that make use of them.

              Some  completion  functions  display  messages  that may be cus-
              tomised by setting this style for the messages tag.   Here,  the
              `%d'  is  replaced  with a message given by the completion func-
              tion.

              Finally, the format string is looked up with the  warnings  tag,
              for use when no matches could be generated at all.  In this case
              the `%d' is replaced with the descriptions for the matches  that
              were  expected  separated  by  spaces.   The  sequence  `%D'  is
              replaced with the same descriptions separated by newlines.

              It is possible to use printf-style field width  specifiers  with
              `%d' and similar escape sequences.  This is handled by the zfor-
              mat builtin command  from  the  zsh/zutil  module,  see  zshmod-
              ules(1).

       glob   This  is  used by the _expand completer.  If it is set to `true'
              (the default), globbing will be attempted on the words resulting
              from  a previous substitution (see the substitute style) or else
              the original string from the line.

       global If this is set to `true' (the default), the  _expand_alias  com-
              pleter and bindable command will try to expand global aliases.

       group-name
              The  completion  system  can  group  different types of matches,
              which appear in separate lists.  This style can be used to  give
              the  names  of groups for particular tags.  For example, in com-
              mand position the completion system generates names  of  builtin
              and  external  commands,  names  of aliases, shell functions and
              parameters and reserved words as possible completions.  To  have
              the external commands and shell functions listed separately:

                     zstyle ':completion:*:*:-command-:*:commands' group-name commands
                     zstyle ':completion:*:*:-command-:*:functions' group-name functions

              As  a consequence, any match with the same tag will be displayed
              in the same group.

              If the name given is the empty string the name of  the  tag  for
              the  matches will be used as the name of the group.  So, to have
              all different types of matches  displayed  separately,  one  can
              just set:

                     zstyle ':completion:*' group-name ''

              All  matches for which no group name is defined will be put in a
              group named -default-.

       group-order
              This style is additional to the group-name style to specify  the
              order  for  display of the groups defined by that style (compare
              tag-order, which determines which completions  appear  at  all).
              The  groups named are shown in the given order; any other groups
              are shown in the order defined by the completion function.

              For example, to have names of builtin commands, shell  functions
              and  external  commands  appear in that order when completing in
              command position:

                     zstyle ':completion:*:*:-command-:*' group-order \
                            builtins functions commands

       groups A list of names of UNIX groups.  If this is not set, group names
              are taken from the YP database or the file `/etc/group'.

       hidden If  this  is set to true, matches for the given context will not
              be listed, although any description for the matches set with the
              format style will be shown.  If it is set to `all', not even the
              description will be displayed.

              Note that the matches will still be completed; they are just not
              shown in the list.  To avoid having matches considered as possi-
              ble completions at all, the tag-order style can be  modified  as
              described below.

       hosts  A  list  of names of hosts that should be completed.  If this is
              not set, hostnames are taken from the file `/etc/hosts'.

       hosts-ports
              This style is used by commands that need or accept hostnames and
              network  ports.   The strings in the value should be of the form
              `host:port'.  Valid ports are  determined  by  the  presence  of
              hostnames; multiple ports for the same host may appear.

       ignore-line
              This  is  tested  for each tag valid for the current completion.
              If it is set to `true', none of the words that  are  already  on
              the  line  will be considered as possible completions.  If it is
              set to `current', the word the cursor is on will not be  consid-
              ered  as  a  possible  completion.  The value `current-shown' is
              similar but only applies if the list of completions is currently
              shown  on  the screen.  Finally, if the style is set to `other',
              no word apart from the current one will be considered as a  pos-
              sible completion.

              The  values  `current'  and  `current-shown'  are a bit like the
              opposite of the accept-exact style:  only strings  with  missing
              characters will be completed.

              Note  that you almost certainly don't want to set this to `true'
              or `other' for a general context such as `:completion:*'.   This
              is because it would disallow completion of, for example, options
              multiple times even if  the  command  in  question  accepts  the
              option more than once.

       ignore-parents
              The  style  is  tested  without a tag by the function completing
              pathnames in order to determine whether to ignore the  names  of
              directories  already  mentioned in the current word, or the name
              of the current working directory.  The value must include one or
              both of the following strings:

              parent The name of any directory whose path is already contained
                     in the word on the line is ignored.   For  example,  when
                     completing  after  foo/../, the directory foo will not be
                     considered a valid completion.

              pwd    The name of the current working  directory  will  not  be
                     completed;  hence, for example, completion after ../ will
                     not use the name of the current directory.

              In addition, the value may include one or both of:

              ..     Ignore the specified directories only when  the  word  on
                     the line contains the substring `../'.

              directory
                     Ignore  the  specified  directories  only  when  names of
                     directories are completed, not when completing  names  of
                     files.

              Excluded  values  act  in  a  similar  fashion  to values of the
              ignored-patterns style, so they can be restored to consideration
              by the _ignored completer.

       ignored-patterns
              A  list  of  patterns;  any trial completion matching one of the
              patterns will be excluded from consideration.  The _ignored com-
              pleter  can  appear  in  the  list  of completers to restore the
              ignored matches.  This is a more  configurable  version  of  the
              shell parameter $fignore.

              Note  that  the EXTENDED_GLOB option is set during the execution
              of completion functions, so the characters `#', `~' and `^' have
              special meanings in the patterns.

       insert This  style  is  used  by  the  _all_matches completer to decide
              whether to  insert  the  list  of  all  matches  unconditionally
              instead of adding the list as another match.

       insert-ids
              When  completing  process  IDs,  for example as arguments to the
              kill and wait builtins the name of a command may be converted to
              the  appropriate  process ID.  A problem arises when the process
              name typed is not unique.  By default (or if this style  is  set
              explicitly  to `menu') the name will be converted immediately to
              a set of possible IDs, and menu completion will  be  started  to
              cycle through them.

              If the value of the style is `single', the shell will wait until
              the user has typed enough to make the command unique before con-
              verting the name to an ID; attempts at completion will be unsuc-
              cessful until that point.  If the value  is  any  other  string,
              menu  completion  will  be  started when the string typed by the
              user is longer than the common prefix to the corresponding  IDs.

       insert-tab
              If  this  is  set to `true', the completion system will insert a
              TAB character (assuming  that  was  used  to  start  completion)
              instead  of  performing  completion  when  there is no non-blank
              character to the left of the cursor.  If it is set  to  `false',
              completion will be done even there.

              The  value  may  also contain the substrings `pending' or `pend-
              ing=val'.  In this case, the typed character  will  be  inserted
              instead  of  staring  completion when there is unprocessed input
              pending.  If a val is given, completion  will  not  be  done  if
              there  are  at  least that many characters of unprocessed input.
              This is often useful when pasting characters  into  a  terminal.
              Note  however,  that it relies on the $PENDING special parameter
              from the zsh/zle module being set properly which is not  guaran-
              teed on all platforms.

              The  default value of this style is `true' except for completion
              within vared builtin command where it is `false'.

       insert-unambiguous
              This is used by the _match and _approximate  completers.   These
              completers  are  often  used with menu completion since the word
              typed may bear little resemblance to the final completion.  How-
              ever,  if  this  style  is `true', the completer will start menu
              completion only if it could find no unambiguous  initial  string
              at least as long as the original string typed by the user.

              In  the  case of the _approximate completer, the completer field
              in the context will already have been set to one of  correct-num
              or  approximate-num, where num is the number of errors that were
              accepted.

              In the case of the _match completer, the style may also  be  set
              to  the  string `pattern'.  Then the pattern on the line is left
              unchanged if it does not match unambiguously.

       keep-prefix
              This style is used by the _expand completer.  If it  is  `true',
              the  completer  will  try to keep a prefix containing a tilde or
              parameter expansion.  Hence,  for  example,  the  string  `~/f*'
              would  be  expanded  to `~/foo' instead of `/home/user/foo'.  If
              the style is set to `changed' (the  default),  the  prefix  will
              only  be  left unchanged if there were other changes between the
              expanded words and the original word from the command line.  Any
              other value forces the prefix to be expanded unconditionally.

              The  behaviour  of  expand  when  this style is true is to cause
              _expand to give up when a single  expansion  with  the  restored
              prefix  is  the  same  as the original; hence any remaining com-
              pleters may be called.

       last-prompt
              This is a more flexible form of the  ALWAYS_LAST_PROMPT  option.
              If it is true, the completion system will try to return the cur-
              sor to the previous command line after displaying  a  completion
              list.   It  is tested for all tags valid for the current comple-
              tion, then the default tag.  The cursor will be  moved  back  to
              the  previous  line  if  this  style  is `true' for all types of
              match.  Note that unlike the ALWAYS_LAST_PROMPT option  this  is
              independent of the numeric prefix argument.

       known-hosts-files
              This  style  should  contain  a list of files to search for host
              names and (if the use-ip style is set) IP addresses in a  format
              compatible  with  ssh  known_hosts files.  If it is not set, the
              files /etc/ssh/ssh_known_hosts and ~/.ssh/known_hosts are  used.

       list   This  style  is used by the _history_complete_word bindable com-
              mand.  If it is set to `true' it has no effect.  If it is set to
              `false'  matches will not be listed.  This overrides the setting
              of the options  controlling  listing  behaviour,  in  particular
              AUTO_LIST.   The  context  always  starts with `:completion:his-
              tory-words'.

       list-colors
              If the zsh/complist module is loaded, this style can be used  to
              set  color  specifications.   This mechanism replaces the use of
              the ZLS_COLORS and ZLS_COLOURS parameters described in the  sec-
              tion  `The zsh/complist Module' in zshmodules(1), but the syntax
              is the same.

              If this style is set for the default tag,  the  strings  in  the
              value  are  taken  as  specifications that are to be used every-
              where.  If it is set for other tags, the specifications are used
              only  for matches of the type described by the tag.  For this to
              work best, the group-name style must be set to an empty  string.

              In addition to setting styles for specific tags, it is also pos-
              sible to use group names specified explicitly by the  group-name
              tag together with the `(group)' syntax allowed by the ZLS_COLORS
              and ZLS_COLOURS parameters and simply using the default tag.

              It is possible to use any color specifications  already  set  up
              for the GNU version of the ls command:

                     zstyle ':completion:*:default' list-colors ${(s.:.)LS_COLORS}

              The  default  colors  are the same as for the GNU ls command and
              can be obtained by setting the style to an  empty  string  (i.e.
              '').

       list-grouped
              If  this  style  is  `true' (the default), the completion system
              will try to make certain completion  listings  more  compact  by
              grouping  matches.   For example, options for commands that have
              the same description (shown when the verbose  style  is  set  to
              `true')  will appear as a single entry.  However, menu selection
              can be used to cycle through all the matches.

       list-packed
              This is tested for each tag valid in the current context as well
              as  the  default tag.  If it is set to `true', the corresponding
              matches appear in listings as if  the  LIST_PACKED  option  were
              set.  If it is set to `false', they are listed normally.

       list-prompt
              If  this style is set for the default tag, completion lists that
              don't fit on the screen can be scrolled (see the description  of
              the  zsh/complist  module  in zshmodules(1)).  The value, if not
              the empty string, will be displayed after  every  screenful  and
              the  shell  will  prompt for a key press; if the style is set to
              the empty string, a default prompt will be used.

              The value may contain the escape sequences: `%l' or `%L',  which
              will  be  replaced  by the number of the last line displayed and
              the total number of lines; `%m' or `%M', the number of the  last
              match  shown and the total number of matches; and `%p' and `%P',
              `Top' when at the beginning of the list, `Bottom'  when  at  the
              end  and  the position shown as a percentage of the total length
              otherwise.  In each case the form with the uppercase letter will
              be  replaced  by  a  string of fixed width, padded to the  right
              with spaces, while the lowercase form  will  be  replaced  by  a
              variable  width  string.  As in other prompt strings, the escape
              sequences `%S', `%s', `%B', `%b', `%U', `%u'  for  entering  and
              leaving  the display modes standout, bold and underline are also
              available,  as  is  the  form  `%{...%}'  for  enclosing  escape
              sequences which display with zero width.

              After  deleting  this  prompt  the variable LISTPROMPT should be
              unset for the the removal to take effect.

       list-rows-first
              This style is tested in the same way as  the  list-packed  style
              and  determines whether matches are to be listed in a rows-first
              fashion as if the LIST_ROWS_FIRST option were set.

       list-suffixes
              This style is used by the function that completes filenames.  If
              it  is  true, and completion is attempted on a string containing
              multiple partially typed pathname components, all ambiguous com-
              ponents will be shown.  Otherwise, completion stops at the first
              ambiguous component.

       list-separator
              The value of this style is used in completion listing  to  sepa-
              rate  the  string  to  complete from a description when possible
              (e.g. when  completing  options).   It  defaults  to  `--'  (two
              hyphens).

       local  This  is for use with functions that complete URLs for which the
              corresponding files are available directly from the filing  sys-
              tem.  Its value should consist of three strings: a hostname, the
              path to the default web pages for the server, and the  directory
              name used by a user placing web pages within their home area.

              For example:

                     zstyle ':completion:*' local toast \
                         /var/http/public/toast public_html

              Completion  after  `http://toast/stuff/'  will look for files in
              the directory  /var/http/public/toast/stuff,   while  completion
              after  `http://toast/~yousir/' will look for files in the direc-
              tory ~yousir/public_html.

       mail-directory
              If set, zsh will assume that mailbox files can be found  in  the
              directory specified.  It defaults to `~/Mail'.

       match-original
              This  is  used  by  the _match completer.  If it is set to only,
              _match will try to generate matches without inserting a  `*'  at
              the  cursor  position.   If set to any other non-empty value, it
              will first try to generate matches without inserting the `*' and
              if  that  yields  no  matches,  it  will  try again with the `*'
              inserted.  If it is unset or set to the empty  string,  matching
              will only be performed with the `*' inserted.

       matcher
              This  style  is tested separately for each tag valid in the cur-
              rent context.  Its value is added to  any  match  specifications
              given  by  the  matcher-list  style.   It  should be in the form
              described in the section `Matching Control' in zshcompwid(1).

       matcher-list
              This style can be set to a list of match specifications that are
              to  be applied everywhere. Match specifications are described in
              the section `Matching Control' in zshcompwid(1).  The completion
              system  will  try  them  one  after  another  for each completer
              selected.  For example, to try first simple completion  and,  if
              that generates no matches, case-insensitive completion:

                     zstyle ':completion:*' matcher-list '' 'm:{a-zA-Z}={A-Za-z}'

              By  default  each  specification replaces the previous one; how-
              ever, if a specification is prefixed with +, it is added to  the
              existing list.  Hence it is possible to create increasingly gen-
              eral specifications without repetition:

                     zstyle ':completion:*' matcher-list '' '+m{a-Z}={A-Z}' '+m{A-Z}={a-z}'

              It is possible to create match specifications valid for particu-
              lar  completers  by  using  the third field of the context.  For
              example, to use the completers _complete and  _prefix  but  only
              allow case-insensitive completion with _complete:

                     zstyle ':completion:*' completer _complete _prefix
                     zstyle ':completion:*:complete:*' matcher-list \
                            '' 'm:{a-zA-Z}={A-Za-z}'

              User-defined  names,  as  explained for the completer style, are
              available.  This makes it possible to  try  the  same  completer
              more  than  once  with different match specifications each time.
              For example, to try normal completion without a match specifica-
              tion,  then  normal  completion  with case-insensitive matching,
              then correction, and finally partial-word completion:

                     zstyle ':completion:*' completer _complete _correct _complete:foo
                     zstyle ':completion:*:complete:*' matcher-list \
                         '' 'm:{a-zA-Z}={A-Za-z}'
                     zstyle ':completion:*:foo:*' matcher-list \
                         'm:{a-zA-Z}={A-Za-z} r:|[-_./]=* r:|=*'

              If the style is unset in any context no match  specification  is
              applied.   Note  also  that some completers such as _correct and
              _approximate do not use the match specifications at all,  though
              these  completers  will  only  ever  called  once  even  if  the
              matcher-list contains more than one element.

              Where multiple specifications are useful, note that  the  entire
              completion  is  done for each element of matcher-list, which can
              quickly reduce the shell's performance.   As  a  rough  rule  of
              thumb,  one  to  three strings will give acceptable performance.
              On the other hand, putting multiple space-separated values  into
              the  same  string does not have an appreciable impact on perfor-
              mance.

       max-errors
              This is used by the _approximate and  _correct  completer  func-
              tions  to  determine the maximum number of errors to allow.  The
              completer will try to generate completions by first allowing one
              error,  then  two  errors,  and  so  on, until either a match or
              matches were found or the maximum number of errors given by this
              style has been reached.

              If  the  value for this style contains the string `numeric', the
              completer function will take any numeric argument as the maximum
              number of errors allowed. For example, with

                     zstyle ':completion:*:approximate:::' max-errors 2 numeric

              two errors are allowed if no numeric argument is given, but with
              a numeric argument of six (as in `ESC-6 TAB'), up to six  errors
              are  accepted.  Hence with a value of `0 numeric', no correcting
              completion will be attempted unless a numeric argument is given.

              If  the  value  contains the string `not-numeric', the completer
              will not try to generate  corrected  completions  when  given  a
              numeric  argument,  so  in  this case the number given should be
              greater than zero.  For example, `2 not-numeric' specifies  that
              correcting completion with two errors will usually be performed,
              but if a numeric argument is given, correcting  completion  will
              not be performed.

              The default value for this style is `2 numeric'.

       max-matches-width
              This  style is used to determine the trade off between the width
              of the display used for matches and the  width  used  for  their
              descriptions  when  the  verbose  style is in effect.  The value
              gives the number of display columns to reserve for the  matches.
              The default is half the width of the screen.

              This  has  the  most  impact  when several matches have the same
              description and so will be  grouped  together.   Increasing  the
              style will allow more matches to be grouped together; decreasing
              it will allow more of the description to be visible.

       menu   If this is true in the context of any of the  tags  defined  for
              the  current completion menu completion will be used.  The value
              for a specific tag  will  take  precedence  over  that  for  the
              `default' tag.

              If none of the values found in this way is true but at least one
              is set to `auto', the shell behaves as if the  AUTO_MENU  option
              is set.

              If one of the values is explicitly set to false, menu completion
              will be explicitly  turned  off,  overriding  the  MENU_COMPLETE
              option and other settings.

              In the form `yes=num', where `yes' may be any of the true values
              (`yes', `true', `on' and `1'), menu completion will be turned on
              if there are at least num matches.  In the form `yes=long', menu
              completion will be turned on if the list does  not  fit  on  the
              screen.   This  does  not activate menu completion if the widget
              normally only lists completions,  but  menu  completion  can  be
              activated  in  that  case  with the value `yes=long-list' (Typi-
              cally, the value `select=long-list' described later is more use-
              ful as it provides control over scrolling.)

              Similarly,  with any of the `false' values (as in `no=10'), menu
              completion will not be used if there are num or more matches.

              The value of this widget also controls menu selection, as imple-
              mented  by  the  zsh/complist  module.  The following values may
              appear either alongside or instead of the values above.

              If the value contains the string `select', menu  selection  will
              be started unconditionally.

              In the form `select=num', menu selection will only be started if
              there are at least num matches.  If the values for more than one
              tag provide a number, the smallest number is taken.

              Menu  selection can be turned off explicitly by defining a value
              containing the string`no-select'.

              It is also possible to start menu selection only if the list  of
              matches   does  not  fit  on  the  screen  by  using  the  value
              `select=long'.  To start menu selection even if the current wid-
              get only performs listing, use the value `select=long-list'.

              To  turn on menu completion or menu selection when a there are a
              certain number of matches or the list of matches does not fit on
              the  screen,  both  of  `yes=' and `select=' may be given twice,
              once with a number and once with `long' or `long-list'.

              Finally, it is possible to activate two special  modes  of  menu
              selection.   The word `interactive' in the value causes interac-
              tive mode to be  entered  immediately  when  menu  selection  is
              started;  see the description of the zsh/complist module in zsh-
              modules(1).RE for a description of interactive mode.   Including
              the  string  `search' does the same for incremental search mode.
              To  select  backward  incremental  search,  include  the  string
              `search-backward'.  )

              muttrc If  set,  gives  the  location  of the mutt configuration
                     file.  It defaults to `~/.muttrc'.

              numbers
                     This is used with the jobs tag.  If  it  is  `true',  the
                     shell  will  complete job numbers instead of the shortest
                     unambiguous prefix of the job command text.  If the value
                     is  a  number, job numbers will only be used if that many
                     words from the job descriptions are required  to  resolve
                     ambiguities.   For  example, if the value is `1', strings
                     will only be used if all jobs differ in the first word on
                     their command lines.

              old-list
                     This  is used by the _oldlist completer.  If it is set to
                     `always', then standard  widgets  which  perform  listing
                     will  retain  the  current  list of matches, however they
                     were generated; this can be turned  off  explicitly  with
                     the  value  `never',  giving  the  behaviour  without the
                     _oldlist completer.  If the style is unset, or any  other
                     value, then the existing list of completions is displayed
                     if it is not already; otherwise, the standard  completion
                     list  is  generated;  this  is  the  default behaviour of
                     _oldlist.  However, if there is  an  old  list  and  this
                     style  contains  the  name of the completer function that
                     generated the list, then the old list will be  used  even
                     if  it  was generated by a widget which does not do list-
                     ing.

                     For example, suppose  you  type  ^Xc  to  use  the  _cor-
                     rect_word  widget,  which generates a list of corrections
                     for the word under the cursor.  Usually, typing ^D  would
                     generate  a  standard list of completions for the word on
                     the command line, and show that.  With _oldlist, it  will
                     instead show the list of corrections already generated.

                     As  another  example  consider the _match completer: with
                     the insert-unambiguous style set  to  `true'  it  inserts
                     only  a  common prefix string, if there is any.  However,
                     this may remove parts of the original  pattern,  so  that
                     further completion could produce more matches than on the
                     first attempt.  By using the _oldlist completer and  set-
                     ting  this style to _match, the list of matches generated
                     on the first attempt will be used again.

              old-matches
                     This is used by the _all_matches completer to  decide  if
                     an  old  list  of  matches  should be used if one exists.
                     This is selected by one of the `true' values  or  by  the
                     string `only'.  If the value is `only', _all_matches will
                     only use an old list and won't have  any  effect  on  the
                     list of matches currently being generated.

                     If  this  style is set it is generally unwise to call the
                     _all_matches completer unconditionally.  One possible use
                     is  for  either  this  style or the completer style to be
                     defined with the -e option to zstyle to  make  the  style
                     conditional.

              old-menu
                     This  is used by the _oldlist completer.  It controls how
                     menu completion behaves when  a  completion  has  already
                     been  inserted  and  the user types a standard completion
                     key such as TAB.  The default behaviour  of  _oldlist  is
                     that  menu  completion always continues with the existing
                     list of completions.  If this style is  set  to  `false',
                     however,  a new completion is started if the old list was
                     generated by a different completion command; this is  the
                     behaviour without the _oldlist completer.

                     For  example,  suppose you type ^Xc to generate a list of
                     corrections, and menu completion is started in one of the
                     usual  ways.   Usually,  or with this style set to false,
                     typing TAB at this point would start trying  to  complete
                     the  line  as  it now appears.  With _oldlist, it instead
                     continues to cycle through the list of corrections.

              original
                     This is used by the _approximate and _correct  completers
                     to  decide  if  the  original string should be added as a
                     possible completion.  Normally,  this  is  done  only  if
                     there  are at least two possible corrections, but if this
                     style is set to `true', it is always  added.   Note  that
                     the  style  will  be examined with the completer field in
                     the context name set to correct-num  or  approximate-num,
                     where num is the number of errors that were accepted.

              packageset
                     This  style  is  used  when  completing  arguments of the
                     Debian `dpkg' program.  It contains an override  for  the
                     default package set for a given context.  For example,

                            zstyle ':completion:*:complete:dpkg:option--status-1:*' \
                                           packageset avail

                     causes  available  packages,  rather  than only installed
                     packages, to be completed for `dpkg --status'.

              path   The function that completes color names uses  this  style
                     with the colors tag.  The value should be the pathname of
                     a file containing color names in the  format  of  an  X11
                     rgb.txt  file.   If the style is not set but this file is
                     found in one of various standard  locations  it  will  be
                     used as the default.

              pine-directory
                     If  set,  specifies the directory containing PINE mailbox
                     files.  There is no default, since recursively  searching
                     this directory is inconvenient for anyone who doesn't use
                     PINE.

              ports  A list of Internet service names (network ports) to  com-
                     plete.   If this is not set, service names are taken from
                     the file `/etc/services'.

              prefix-hidden
                     This is used for certain completions which share a common
                     prefix,   for  example  command  options  beginning  with
                     dashes.  If it is `true', the prefix will not be shown in
                     the list of matches.

                     The default value for this style is `false'.

              prefix-needed
                     This,  too, is used for matches with a common prefix.  If
                     it is set to `true' this common prefix must be  typed  by
                     the user to generate the matches.  In the case of command
                     options, this means that the initial `-',  `+',  or  `--'
                     must be typed explicitly before option names will be com-
                     pleted.

                     The default value for this style is `true'.

              preserve-prefix
                     This style is used when completing path names.  Its value
                     should  be  a  pattern  matching an initial prefix of the
                     word to complete that should be left unchanged under  all
                     circumstances.   For  example,  on some Unices an initial
                     `//' (double slash) has a special meaning;  setting  this
                     style  to  the  string `//' will preserve it.  As another
                     example, setting this style to `?:/' under  Cygwin  would
                     allow completion after `a:/...' and so on.

              range  This  is  used  by  the  _history completer and the _his-
                     tory_complete_word bindable command to decide which words
                     should be completed.

                     If  it  is a singe number, only the last N words from the
                     history will be completed.

                     If it is a range of the form `max:slice', the last  slice
                     words  will be completed; then if that yields no matches,
                     the slice words before those will be  tried  and  so  on.
                     This  process  stops  either  when at least one match was
                     been found, or max words have been tried.

                     The default is to complete all words from the history  at
                     once.

              regular
                     This  style  is  used  by the _expand_alias completer and
                     bindable command.  If set to `true' (the default),  regu-
                     lar  aliases  will  be expanded but only in command posi-
                     tion.  If it is set  to  `false',  regular  aliases  will
                     never  be  expanded.    If it is set to `always', regular
                     aliases will be expanded even if not in command position.

              rehash If  this  is  set  when completing external commands, the
                     internal list (hash) of commands will be updated for each
                     search  by  issuing the rehash command.  There is a speed
                     penalty for this which is only likely  to  be  noticeable
                     when directories in the path have slow file access.

              remote-access
                     If  set to false, certain commands will be prevented from
                     making Internet connections to retrieve  remote  informa-
                     tion.   This includes the completion for the CVS command.

                     It is not always possible to know if connections  are  in
                     fact  to a remote site, so some may be prevented unneces-
                     sarily.

              remove-all-dups
                     The _history_complete_word bindable command and the _his-
                     tory  completer  use  this  to  decide  if  all duplicate
                     matches should be removed, rather than  just  consecutive
                     duplicates.

              select-prompt
                     If  this  is  set  for the default tag, its value will be
                     displayed during  menu  selection  (see  the  menu  style
                     above)  when  the  completion  list  does  not fit on the
                     screen  as  a  whole.   The  same  escapes  as  for   the
                     list-prompt style are understood, except that the numbers
                     refer to the match or line the mark  is  on.   A  default
                     prompt is used when the value is the empty string.

              select-scroll
                     This  style  is tested for the default tag and determines
                     how a completion list is scrolled during a menu selection
                     (see  the menu style above) when the completion list does
                     not fit on the screen as a whole.  If the  value  is  `0'
                     (zero), the list is scrolled by half-screenfuls; if it is
                     a positive integer, the list is  scrolled  by  the  given
                     number  of lines; if it is a negative number, the list is
                     scrolled by a screenful minus the absolute value  of  the
                     given  number of lines.  The default is to scroll by sin-
                     gle lines.

              separate-sections
                     This style is used with the manuals tag  when  completing
                     names of manual pages.  If it is `true', entries for dif-
                     ferent sections are added separately using tag  names  of
                     the form `manual.X', where X is the section number.  When
                     the group-name style is also in effect, pages  from  dif-
                     ferent  sections  will  appear separately.  This style is
                     also used similarly with the words style when  completing
                     words  for the dict command. It allows words from differ-
                     ent dictionary databases to  be  added  separately.   The
                     default for this style is `false'.

              show-completer
                     Tested whenever a new completer is tried.  If it is true,
                     the completion system outputs a progress message  in  the
                     listing  area showing what completer is being tried.  The
                     message will be overwritten by any  output  when  comple-
                     tions  are  found and is removed after completion is fin-
                     ished.

              single-ignored
                     This is used by the _ignored completer when there is only
                     one match.  If its value is `show', the single match will
                     be displayed but not inserted.  If the value  is  `menu',
                     then  the  single  match and the original string are both
                     added as matches and menu completion is  started,  making
                     it easy to select either of them.

              sort   Many  completion  widgets call _description at some point
                     which decides whether the matches  are  added  sorted  or
                     unsorted  (often  indirectly  via _wanted or _requested).
                     This style can be set explicitly to one of the usual true
                     or false values as an override.  If it is not set for the
                     context, the standard behaviour of the calling widget  is
                     used.

                     The  style  is  tested  first  against  the  full context
                     including the tag, and if that fails to produce  a  value
                     against the context without the tag.

                     If   the  calling  widget  explicitly  requests  unsorted
                     matches, this is usually honoured.  However, the  default
                     (unsorted)  behaviour  of completion for the command his-
                     tory may be overridden by setting the style to true.

                     In the _expand completer, if it is  set  to  `true',  the
                     expansions generated will always be sorted.  If it is set
                     to `menu', then the expansions are only sorted when  they
                     are  offered as single strings but not in the string con-
                     taining all possible expansions.

              special-dirs
                     Normally, the completion code will not produce the direc-
                     tory names `.' and `..' as possible completions.  If this
                     style is set to `true', it will add both `.' and `..'  as
                     possible  completions;  if  it  is set to `..', only `..'
                     will be added.

                     The following example sets special-dirs to `..' when  the
                     current  prefix  is  empty,  is a single `.', or consists
                     only of a path beginning with `../'.  Otherwise the value
                     is `false'.

                            zstyle -e ':completion:*' special-dirs \
                               '[[ $PREFIX = (../)#(|.|..) ]] && reply=(..)'

              squeeze-slashes
                     If  set to `true', sequences of slashes in filename paths
                     (for example in `foo//bar') will be treated as  a  single
                     slash.   This is the usual behaviour of UNIX paths.  How-
                     ever, by default the file completion function behaves  as
                     if there were a `*' between the slashes.

              stop   If  set  to  `true',  the _history_complete_word bindable
                     command will stop once when reaching the beginning or end
                     of  the  history.   Invoking  _history_complete_word will
                     then wrap around to the opposite end of the history.   If
                     this style is set to `false' (the default), _history_com-
                     plete_word will loop immediately as in a menu completion.

              strip-comments
                     If set to `true', this style causes non-essential comment
                     text to be removed from completion matches.  Currently it
                     is  only  used  when completing e-mail addresses where it
                     removes any display name from the addresses, cutting them
                     down to plain user@host form.

              subst-globs-only
                     This  is  used by the _expand completer.  If it is set to
                     `true', the expansion will only be used  if  it  resulted
                     from globbing; hence, if expansions resulted from the use
                     of the substitute style described below, but  these  were
                     not  further  changed by globbing, the expansions will be
                     rejected.

                     The default for this style is `false'.

              substitute
                     This boolean style controls whether the _expand completer
                     will  first try to expand all substitutions in the string
                     (such as `$(...)' and `${...}').

                     The default is `true'.

              suffix This is used by the _expand completer if the word  starts
                     with a tilde or contains a parameter expansion.  If it is
                     set to `true', the word  will  only  be  expanded  if  it
                     doesn't  have  a  suffix,  i.e.  if  it is something like
                     `~foo' or  `$foo'  rather  than  `~foo/'  or  `$foo/bar',
                     unless  that  suffix  itself contains characters eligible
                     for expansion.  The default for this style is `true'.

              tag-order
                     This provides a mechanism for sorting how the tags avail-
                     able in a particular context will be used.

                     The  values  for  the  style  are sets of space-separated
                     lists of tags.  The tags in each value will be  tried  at
                     the  same  time;  if no match is found, the next value is
                     used.  (See the file-patterns style for an  exception  to
                     this behavior.)

                     For example:

                            zstyle ':completion:*:complete:-command-:*' tag-order \
                                'commands functions'

                     specifies  that  completion  in  command  position  first
                     offers external commands and shell functions.   Remaining
                     tags will be tried if no completions are found.

                     In  addition  to  tag names, each string in the value may
                     take one of the following forms:

                     -      If any value consists of only a hyphen, then  only
                            the  tags specified in the other values are gener-
                            ated.  Normally all tags not  explicitly  selected
                            are  tried last if the specified tags fail to gen-
                            erate any matches.  This means that a single value
                            consisting  only of a single hyphen turns off com-
                            pletion.

                     ! tags...
                            A string starting with an exclamation mark  speci-
                            fies  names  of tags that are not to be used.  The
                            effect is the same as if all other  possible  tags
                            for the context had been listed.

                     tag:label ...
                            Here, tag is one of the standard tags and label is
                            an arbitrary name.  Matches are generated as  nor-
                            mal but the name label is used in contexts instead
                            of tag.  This is not useful in words starting with
                            !.

                            If  the  label  starts  with  a hyphen, the tag is
                            prepended to the label to form the name  used  for
                            lookup.   This  can be used to make the completion
                            system try a certain tag more than once, supplying
                            different  style  settings  for  each attempt; see
                            below for an example.

                     tag:label:description
                            As before, but description will replace  the  `%d'
                            in  the  value  of the format style instead of the
                            default description  supplied  by  the  completion
                            function.   Spaces  in  the  description  must  be
                            quoted with a  backslash.   A  `%d'  appearing  in
                            description is replaced with the description given
                            by the completion function.

                     In any of the forms above the tag may  be  a  pattern  or
                     several  patterns  in the form `{pat1,pat2...}'.  In this
                     case all matching tags will be used except for any  given
                     explicitly in the same string.

                     One  use  of  these  features is to try one tag more than
                     once, setting other styles differently on  each  attempt,
                     but  still  to  use  all the other tags without having to
                     repeat them all.  For  example,  to  make  completion  of
                     function names in command position ignore all the comple-
                     tion functions starting with an underscore the first time
                     completion is tried:

                            zstyle ':completion:*:*:-command-:*' tag-order \
                                'functions:-non-comp *' functions
                            zstyle ':completion:*:functions-non-comp' ignored-patterns '_*'

                     On  the  first  attempt, all tags will be offered but the
                     functions tag will  be  replaced  by  functions-non-comp.
                     The ignored-patterns style is set for this tag to exclude
                     functions starting with an underscore.  If there  are  no
                     matches,  the second value of the tag-order style is used
                     which completes functions using  the  default  tag,  this
                     time presumably including all function names.

                     The  matches  for  one  tag  can  be split into different
                     groups.  For example:

                            zstyle ':completion:*' tag-order \
                                'options:-long:long\ options
                                 options:-short:short\ options
                                 options:-single-letter:single\ letter\ options'

                            zstyle ':completion:*:options-long' ignored-patterns '[-+](|-|[^-]*)'
                            zstyle ':completion:*:options-short' ignored-patterns '--*' '[-+]?'
                            zstyle ':completion:*:options-single-letter' ignored-patterns '???*'

                     With the group-names style set,  options  beginning  with
                     `--', options beginning with a single `-' or `+' but con-
                     taining multiple characters,  and  single-letter  options
                     will  be  displayed  in  separate  groups  with different
                     descriptions.

                     Another use of patterns is to try multiple match specifi-
                     cations one after another.  The matcher-list style offers
                     something similar, but it is tested  very  early  in  the
                     completion  system and hence can't be set for single com-
                     mands nor for more specific contexts.  Here is how to try
                     normal completion without any match specification and, if
                     that generates no matches, try again  with  case-insensi-
                     tive matching, restricting the effect to arguments of the
                     command foo:

                            zstyle ':completion:*:*:foo:*' tag-order '*' '*:-case'
                            zstyle ':completion:*-case' matcher 'm:{a-z}={A-Z}'

                     First, all the tags offered when completing after foo are
                     tried  using  the  normal tag name.  If that generates no
                     matches, the second value of  tag-order  is  used,  which
                     tries all tags again except that this time each has -case
                     appended to its name for lookup of  styles.   Hence  this
                     time the value for the matcher style from the second call
                     to zstyle in the  example  is  used  to  make  completion
                     case-insensitive.

                     It is possible to use the -e option of the zstyle builtin
                     command to specify conditions for the use  of  particular
                     tags.  For example:

                            zstyle -e '*:-command-:*' tag-order '
                                if [[ -n $PREFIX$SUFFIX ]]; then
                                  reply=( )
                                else
                                  reply=( - )
                                fi'

                     Completion  in command position will be attempted only if
                     the string typed so far is not  empty.   This  is  tested
                     using  the PREFIX special parameter; see zshcompwid for a
                     description of parameters which are special  inside  com-
                     pletion  widgets.   Setting  reply to an empty array pro-
                     vides the default behaviour of trying all tags  at  once;
                     setting  it to an array containing only a hyphen disables
                     the use of all tags and hence of all completions.

                     If no tag-order style has been defined for a context, the
                     strings   `(|*-)argument-*   (|*-)option-*   values'  and
                     `options' plus all tags offered by the  completion  func-
                     tion  will be used to provide a sensible default behavior
                     that causes arguments (whether normal  command  arguments
                     or  arguments  of  options) to be completed before option
                     names for most commands.

              urls   This is used together with the the urls tag by  functions
                     completing URLs.

                     If  the value consists of more than one string, or if the
                     only string does  not  name  a  file  or  directory,  the
                     strings are used as the URLs to complete.

                     If  the  value contains only one string which is the name
                     of a normal file the URLs are taken from that file (where
                     the URLs may be separated by white space or newlines).

                     Finally,  if  the only string in the value names a direc-
                     tory, the directory hierarchy rooted  at  this  directory
                     gives the completions.  The top level directory should be
                     the file access method, such as `http', `ftp', `bookmark'
                     and  so  on.  In many cases the next level of directories
                     will be a filename.  The directory hierarchy can  descend
                     as deep as necessary.

                     For example,

                            zstyle ':completion:*' urls ~/.urls
                            mkdir -p ~/.urls/ftp/ftp.zsh.org/pub/development

                     allows  completion  of  all  the  components  of  the URL
                     ftp://ftp.zsh.org/pub/development after suitable commands
                     such as `netscape' or `lynx'.  Note, however, that access
                     methods and files are completed  separately,  so  if  the
                     hosts  style is set hosts can be completed without refer-
                     ence to the urls style.

                     See the description in the function _urls itself for more
                     information (e.g. `more $^fpath/_urls(N)').

              use-cache
                     If this is set, the completion caching layer is activated
                     for any completions which use it (via  the  _store_cache,
                     _retrieve_cache,   and  _cache_invalid  functions).   The
                     directory containing the cache files can be changed  with
                     the cache-path style.

              use-compctl
                     If  this  style is set to a string not equal to false, 0,
                     no, and off, the completion system may use any completion
                     specifications  defined with the compctl builtin command.
                     If the style is unset, this is done only if the  zsh/com-
                     pctl  module  is loaded.  The string may also contain the
                     substring `first' to use completions defined  with  `com-
                     pctl  -T', and the substring `default' to use the comple-
                     tion defined with `compctl -D'.

                     Note that this is only intended to smooth the  transition
                     from  compctl to the new completion system and may disap-
                     pear in the future.

                     Note also that the definitions from compctl will only  be
                     used  if there is no specific completion function for the
                     command in question.  For example, if there is a function
                     _foo  to  complete  arguments to the command foo, compctl
                     will never be invoked for foo.  However, the compctl ver-
                     sion will be tried if foo only uses default completion.

              use-ip By default, the function _hosts that completes host names
                     strips IP addresses from entries read from host databases
                     such  as  NIS  and ssh files.  If this style is true, the
                     corresponding IP addresses  can  be  completed  as  well.
                     This  style  is  not  use  in any context where the hosts
                     style is set; note also it must be set before  the  cache
                     of  host  names is generated (typically the first comple-
                     tion attempt).

              use-perl
                     Various parts of the function system use awk  to  extract
                     words  from  files  or command output as this universally
                     available.  However, many versions of awk have  arbitrary
                     limits  on the size of input.  If this style is set, perl
                     will be used instead.  This is almost  always  preferable
                     if perl is available on your system.

                     Currently  this  is  only used in completions for `make',
                     but it may be extended depending  on  authorial  frustra-
                     tion.

              users  This  may  be set to a list of usernames to be completed.
                     If it is not set all usernames will be  completed.   Note
                     that  if  it  is set only that list of users will be com-
                     pleted; this is because  on  some  systems  querying  all
                     users can take a prohibitive amount of time.

              users-hosts
                     The   values   of  this  style  should  be  of  the  form
                     `user@host' or `user:host'. It is used for commands  that
                     need  pairs  of user- and hostnames.  These commands will
                     complete usernames  from  this  style  (only),  and  will
                     restrict  subsequent  hostname completion to hosts paired
                     with that user in one of the values of the style.

                     It is possible to group values for sets of commands which
                     allow  a  remote  login, such as rlogin and ssh, by using
                     the my-accounts tag.  Similarly, values for sets of  com-
                     mands  which  usually refer to the accounts of other peo-
                     ple, such as talk and finger, can be grouped by using the
                     other-accounts tag.  More ambivalent commands may use the
                     accounts tag.

              users-hosts-ports
                     Like users-hosts but used for commands  like  telnet  and
                     containing strings of the form `user@host:port'.

              verbose
                     If  set,  as  it is by default, the completion listing is
                     more verbose.  In particular many commands show  descrip-
                     tions for options if this style is `true'.

              word   This  is  used by the _list completer, which prevents the
                     insertion  of  completions  until  a  second   completion
                     attempt when the line has not changed.  The normal way of
                     finding out if the line has changed  is  to  compare  its
                     entire contents between the two occasions.  If this style
                     is true, the comparison is instead performed only on  the
                     current  word.   Hence  if  completion  is  performed  on
                     another word with the same contents, completion will  not
                     be delayed.


CONTROL FUNCTIONS

       The initialization script compinit redefines all the widgets which per-
       form completion to call the supplied  widget  function  _main_complete.
       This function acts as a wrapper calling the so-called `completer' func-
       tions that generate matches.  If _main_complete is  called  with  argu-
       ments, these are taken as the names of completer functions to be called
       in the order given.  If no arguments are given, the set of functions to
       try is taken from the completer style.  For example, to use normal com-
       pletion and correction if that doesn't generate any matches:

              zstyle ':completion:*' completer _complete _correct

       after calling compinit. The default value for this style is  `_complete
       _ignored',  i.e. normally only ordinary completion is tried, first with
       the effect of the ignored-patterns style  and  then  without  it.   The
       _main_complete  function  uses the return status of the completer func-
       tions to decide if other completers should be called.   If  the  return
       status  is  zero,  no other completers are tried and the _main_complete
       function returns.

       If the first argument to _main_complete is a single hyphen,  the  argu-
       ments  will  not  be taken as names of completers.  Instead, the second
       argument gives a name to use in the completer field of the context  and
       the other arguments give a command name and arguments to call to gener-
       ate the matches.

       The following completer functions are contained  in  the  distribution,
       although  users may write their own.  Note that in contexts the leading
       underscore is stripped, for example basic completion  is  performed  in
       the context `:completion::complete:...'.

       _all_matches
              This  completer  can  be  used to add a string consisting of all
              other matches.  As it influences later completers it must appear
              as  the first completer in the list.  The list of all matches is
              affected by the avoid-completer and old-matches styles described
              above.

              It may be useful to use the _generic function described below to
              bind _all_matches to its own keystroke, for example:

                     zle -C all-matches complete-word _generic
                     bindkey '^Xa' all-matches
                     zstyle ':completion:all-matches:*' old-matches only
                     zstyle ':completion:all-matches::::' completer _all_matches

              Note that this does not generate completions by  itself.   First
              use  any  of  the  standard ways of generating a list of comple-
              tions, then use ^Xa to show all matches.

       _approximate
              This is similar to the basic _complete completer but allows  the
              completions  to  undergo  corrections.   The  maximum  number of
              errors can  be  specified  by  the  max-errors  style;  see  the
              description of approximate matching in zshexpn(1) for how errors
              are counted.  Normally this completer will only be  tried  after
              the normal _complete completer:

                     zstyle ':completion:*' completer _complete _approximate

              This  will give correcting completion if and only if normal com-
              pletion yields no possible completions.  When corrected  comple-
              tions  are found, the completer will normally start menu comple-
              tion allowing you to cycle through these strings.

              This completer uses the tags corrections and original when  gen-
              erating  the  possible corrections and the original string.  The
              format style for the former may contain the additional sequences
              `%e'  and  `%o'  which  will be replaced by the number of errors
              accepted to generate the corrections and  the  original  string,
              respectively.

              The  completer  progressively  increases  the  number  of errors
              allowed up to the limit by the max-errors style, hence if a com-
              pletion  is found with one error, no completions with two errors
              will be shown, and so on.  It modifies the completer name in the
              context  to  indicate  the  number of errors being tried: on the
              first try the completer field contains `approximate-1',  on  the
              second try `approximate-2', and so on.

              When _approximate is called from another function, the number of
              errors to accept may be passed with the -a option.  The argument
              is  in  the  same  format  as  the  max-errors style, all in one
              string.

              Note that this completer (and the _correct  completer  mentioned
              below)  can  be quite expensive to call, especially when a large
              number of errors are allowed.  One way to avoid this is  to  set
              up  the  completer  style  using the -e option to zstyle so that
              some completers are only used when  completion  is  attempted  a
              second time on the same string, e.g.:

                     zstyle -e ':completion:*' completer '
                       if [[ $_last_try != "$HISTNO$BUFFER$CURSOR" ]]; then
                         _last_try="$HISTNO$BUFFER$CURSOR"
                         reply=(_complete _match _prefix)
                       else
                         reply=(_ignored _correct _approximate)
                       fi'

              This uses the HISTNO parameter and the BUFFER and CURSOR special
              parameters that are available inside zle and completion  widgets
              to  find  out  if the command line hasn't changed since the last
              time completion was tried.  Only then are the _ignored, _correct
              and _approximate completers called.

       _complete
              This  completer  generates  all  possible  completions in a con-
              text-sensitive manner, i.e. using the settings defined with  the
              compdef function explained above and the current settings of all
              special parameters.  This gives the normal completion behaviour.

              To  complete  arguments  of commands, _complete uses the utility
              function _normal, which is in turn responsible for  finding  the
              particular function; it is described below.  Various contexts of
              the form -context- are handled specifically. These are all  men-
              tioned above as possible arguments to the #compdef tag.

              Before  trying  to find a function for a specific context, _com-
              plete checks if the  parameter  `compcontext'  is  set.  Setting
              `compcontext'  allows  the  usual  completion  dispatching to be
              overridden which is useful in places such  as  a  function  that
              uses vared for input. If it is set to an array, the elements are
              taken to be the possible matches which will be  completed  using
              the tag `values' and the description `value'. If it is set to an
              associative array, the keys are used as the possible completions
              and  the  values (if non-empty) are used as descriptions for the
              matches.  If `compcontext' is set to a string containing colons,
              it  should  be of the form `tag:descr:action'.  In this case the
              tag and descr give the tag and description to use and the action
              indicates  what should be completed in one of the forms accepted
              by the _arguments utility function described below.

              Finally, if `compcontext' is set to a string without colons, the
              value  is  taken as the name of the context to use and the func-
              tion defined for that context will be called.  For this purpose,
              there  is  a special context named -command-line- that completes
              whole command lines (commands and their arguments).  This is not
              used  by the completion system itself but is nonetheless handled
              when explicitly called.

       _correct
              Generate corrections, but not completions, for the current word;
              this is similar to _approximate but will not allow any number of
              extra characters at the cursor  as  that  completer  does.   The
              effect  is  similar to spell-checking.  It is based on _approxi-
              mate, but the completer field in the context name is correct.

              For example, with:

                     zstyle ':completion:::::' completer _complete _correct _approximate
                     zstyle ':completion:*:correct:::' max-errors 2 not-numeric
                     zstyle ':completion:*:approximate:::' max-errors 3 numeric

              correction will accept up to two errors.  If a numeric  argument
              is  given, correction will not be performed, but correcting com-
              pletion will be, and will accept as many errors as given by  the
              numeric  argument.  Without a numeric argument, first correction
              and then correcting completion will be tried, with the first one
              accepting  two errors and the second one accepting three errors.

              When _correct is called as a function, the number of  errors  to
              accept may be given following the -a option.  The argument is in
              the same form a values to the accept style, all in one string.

              This completer function is  intended  to  be  used  without  the
              _approximate  completer  or,  as in the example, just before it.
              Using it after  the  _approximate  completer  is  useless  since
              _approximate will at least generate the corrected strings gener-
              ated by the _correct completer -- and probably more.

       _expand
              This completer function does not really perform completion,  but
              instead  checks  if the word on the command line is eligible for
              expansion and, if it is, gives detailed control  over  how  this
              expansion  is  done.   For this to happen, the completion system
              needs to be invoked with complete-word,  not  expand-or-complete
              (the  default  binding for TAB), as otherwise the string will be
              expanded by the shell's internal mechanism before the completion
              system  is  started.   Note also this completer should be called
              before the _complete completer function.

              The tags used when generating expansions are all-expansions  for
              the  string  containing all possible expansions, expansions when
              adding the possible expansions as single  matches  and  original
              when  adding  the  original  string from the line.  The order in
              which these strings are generated, if at all, can be  controlled
              by the group-order and tag-order styles, as usual.

              The format string for all-expansions and for expansions may con-
              tain the sequence `%o' which will be replaced  by  the  original
              string from the line.

              The  kind  of expansion to be tried is controlled by the substi-
              tute, glob and subst-globs-only styles.

              It is also possible to call _expand as a function, in which case
              the different modes may be selected with options: -s for substi-
              tute, -g for glob and -o for subst-globs-only.

       _expand_alias
              If the word the cursor is on is an alias, it is expanded and  no
              other  completers are called.  The types of aliases which are to
              be expanded can be controlled with the  styles  regular,  global
              and disabled.

              This function is also a bindable command, see the section `Bind-
              able Commands' below.

       _history
              Complete words from the shell's  command   history.   This  com-
              pleter can be controlled by the remove-all-dups, and sort styles
              as for the _history_complete_word bindable command, see the sec-
              tion  `Bindable Commands' below and the section `Completion Sys-
              tem Configuration' above.

       _ignored
              The ignored-patterns style can be set  to  a  list  of  patterns
              which  are  compared against possible completions; matching ones
              are removed.  With this completer those  matches  can  be  rein-
              stated, as if no ignored-patterns style were set.  The completer
              actually generates its own list of matches; which completers are
              invoked  is  determined  in the same way as for the _prefix com-
              pleter.  The single-ignored style is also available as described
              above.

       _list  This  completer  allows  the  insertion of matches to be delayed
              until completion is attempted a second time without the word  on
              the  line being changed.  On the first attempt, only the list of
              matches will be shown.  It is affected by the  styles  condition
              and  word,  see  the  section  `Completion System Configuration'
              above.

       _match This completer is intended to be used after the  _complete  com-
              pleter.  It behaves similarly but the string on the command line
              may be a pattern to match against trial completions.  This gives
              the effect of the GLOB_COMPLETE option.

              Normally completion will be performed by taking the pattern from
              the line, inserting a `*' at the cursor position  and  comparing
              the  resulting  pattern with the possible completions generated.
              This can be modified with  the  match-original  style  described
              above.

              The  generated  matches  will  be  offered  in a menu completion
              unless the insert-unambiguous style is set to  `true';  see  the
              description above for other options for this style.

              Note that matcher specifications defined globally or used by the
              completion functions (the styles matcher-list and matcher)  will
              not be used.

       _menu  This  completer  was  written as simple example function to show
              how menu completion can be enabled in shell  code.  However,  it
              has  the notable effect of disabling menu selection which can be
              useful with _generic based widgets. It should  be  used  as  the
              first  completer  in the list.  Note that this is independent of
              the setting of the MENU_COMPLETE option and does not  work  with
              the other menu completion widgets such as reverse-menu-complete,
              or accept-and-menu-complete.

       _oldlist
              This completer controls  how  the  standard  completion  widgets
              behave  when  there is an existing list of completions which may
              have been generated  by  a  special  completion  (i.e.  a  sepa-
              rately-bound  completion  command).  It allows the ordinary com-
              pletion keys to continue to use the  list  of  completions  thus
              generated,  instead  of producing a new list of ordinary contex-
              tual completions.  It should appear in the  list  of  completers
              before  any  of the widgets which generate matches.  It uses two
              styles: old-list and old-menu, see the section `Completion  Sys-
              tem Configuration' above.

       _prefix
              This  completer  can  be  used to try completion with the suffix
              (everything after the cursor) ignored.  In other words, the suf-
              fix  will  not be considered to be part of the word to complete.
              The effect is similar to the expand-or-complete-prefix  command.

              The completer style is used to decide which other completers are
              to be called to generate matches.  If this style is  unset,  the
              list  of  completers  set  for  the  current  context is used --
              except, of course, the _prefix completer  itself.   Furthermore,
              if  this  completer  appears  more than once in the list of com-
              pleters only those completers not  already  tried  by  the  last
              invocation of _prefix will be called.

              For example, consider this global completer style:

                     zstyle ':completion:*' completer \
                         _complete _prefix _correct _prefix:foo

              Here, the _prefix completer tries normal completion but ignoring
              the suffix.  If that doesn't generate any matches,  and  neither
              does  the  call to the _correct completer after it, _prefix will
              be called a second time and, now only trying correction with the
              suffix  ignored.  On the second invocation the completer part of
              the context appears as `foo'.

              To use _prefix as the last resort and try only normal completion
              when it is invoked:

                     zstyle ':completion:*' completer _complete ... _prefix
                     zstyle ':completion::prefix:*' completer _complete

              The  add-space  style is also respected.  If it is set to `true'
              then _prefix will insert a space between the  matches  generated
              (if any) and the suffix.

              Note  that this completer is only useful if the COMPLETE_IN_WORD
              option is set; otherwise, the cursor will be moved to the end of
              the  current word before the completion code is called and hence
              there will be no suffix.

       bashcompinit
              This function provides compatibility  with  bash's  programmable
              completion system.  When run it will define the functions, comp-
              gen and complete which correspond to the bash builtins with  the
              same names.  It will then be possible to use completion specifi-
              cations and functions written for bash.


BINDABLE COMMANDS

       In addition to the context-dependent completions  provided,  which  are
       expected to work in an intuitively obvious way, there are a few widgets
       implementing special behaviour which can be bound separately  to  keys.
       The following is a list of these and their default bindings.

       _bash_completions
              This  function  is  used by two widgets, _bash_complete-word and
              _bash_list-choices.  It exists  to  provide  compatibility  with
              completion  bindings in bash.  The last character of the binding
              determines what is completed: `!', command names; `$',  environ-
              ment  variables;  `@',  host  names;  `/',  file names; `~' user
              names.  In bash, the binding preceded by `\e' gives  completion,
              and  preceded  by `^X' lists options.  As some of these bindings
              clash with standard zsh bindings, only `\e~' and `^X~' are bound
              by  default.   To add the rest, the following should be added to
              .zshrc after compinit has been run:

                     for key in '!' '$' '@' '/' '~'; do
                       bindkey "\e$key" _bash_complete-word
                       bindkey "^X$key" _bash_list-choices
                     done

              This includes the bindings for `~' in  case  they  were  already
              bound  to  something else; the completion code does not override
              user bindings.

       _correct_filename (^XC)
              Correct the filename path at the cursor position.  Allows up  to
              six  errors in the name.  Can also be called with an argument to
              correct a filename path, independently of zle; the correction is
              printed on standard output.

       _correct_word (^Xc)
              Performs correction of the current argument using the usual con-
              textual completions as possible choices. This stores the  string
              `correct-word'  in  the  function  field of the context name and
              then calls the _correct completer.

       _expand_alias (^Xa)
              This function can be used as a completer and as a bindable  com-
              mand.   It  expands the word the cursor is on if it is an alias.
              The types of alias expanded can be controlled  with  the  styles
              regular, global and disabled.

              When  used as a bindable command there is one additional feature
              that can be selected by setting the complete  style  to  `true'.
              In  this  case,  if  the  word  is  not  the  name  of an alias,
              _expand_alias tries to complete the word to a  full  alias  name
              without  expanding  it.  It leaves the cursor directly after the
              completed word so that invoking  _expand_alias  once  more  will
              expand the now-complete alias name.

       _expand_word (^Xe)
              Performs expansion on the current word:  equivalent to the stan-
              dard expand-word  command,  but  using  the  _expand  completer.
              Before  calling  it, the function field of the context is set to
              `expand-word'.

       _generic
              This function is not defined  as  a  widget  and  not  bound  by
              default.   However,  it  can be used to define a widget and will
              then store the name of the widget in the function field  of  the
              context and call the completion system.  This allows custom com-
              pletion widgets with their own  set  of  style  settings  to  be
              defined  easily.   For example, to define a widget that performs
              normal completion and starts menu selection:

                     zle -C foo complete-word _generic
                     bindkey '...' foo
                     zstyle ':completion:foo:*' menu yes select=1

              Note in particular that the completer style may be set  for  the
              context in order to change the set of functions used to generate
              possible matches.  If _generic is called with  arguments,  those
              are  passed  through to _main_complete as the list of completers
              in place of those defined by the completer style.

       _history_complete_word (\e/)
              Complete words from the shell's command history. This  uses  the
              list, remove-all-dups, sort, and stop styles.

       _most_recent_file (^Xm)
              Complete  the  name  of the most recently modified file matching
              the pattern on the command line (which may be blank).  If  given
              a  numeric  argument  N, complete the Nth most recently modified
              file.  Note the completion, if any, is always unique.

       _next_tags (^Xn)
              This command alters the set of matches used to that for the next
              tag,  or  set of tags, either as given by the tag-order style or
              as set by default; these matches would otherwise not  be  avail-
              able.   Successive  invocations of the command cycle through all
              possible sets of tags.

       _read_comp (^X^R)
              Prompt the user for a string, and use that to perform completion
              on  the  current  word.   There  are  two  possibilities for the
              string.  First, it can be a set  of  words  beginning  `_',  for
              example  `_files  -/', in which case the function with any argu-
              ments will be called to generate the  completions.   Unambiguous
              parts of the function name will be completed automatically (nor-
              mal completion is not available at this point) until a space  is
              typed.

              Second, any other string will be passed as a set of arguments to
              compadd and should hence be an expression specifying what should
              be completed.

              A  very  restricted  set  of  editing commands is available when
              reading the string:  `DEL' and `^H' delete the  last  character;
              `^U'  deletes  the  line,  and `^C' and `^G' abort the function,
              while `RET' accepts the completion.  Note  the  string  is  used
              verbatim  as  a  command  line,  so  arguments must be quoted in
              accordance with standard shell rules.

              Once a string has been read, the next call  to  _read_comp  will
              use  the existing string instead of reading a new one.  To force
              a new string to be read, call _read_comp with  a  numeric  argu-
              ment.

       _complete_debug (^X?)
              This widget performs ordinary completion, but captures in a tem-
              porary file a trace of the shell commands executed by  the  com-
              pletion  system.   Each completion attempt gets its own file.  A
              command to view each of these files is pushed  onto  the  editor
              buffer stack.

       _complete_help (^Xh)
              This  widget  displays  information about the context names, the
              tags, and the completion functions used when completing  at  the
              current  cursor position. If given a numeric argument other than
              1 (as in `ESC-2 ^Xh'), then the styles used and the contexts for
              which they are used will be shown, too.

              Note  that  the  information  about styles may be incomplete; it
              depends on the information available from the  completion  func-
              tions  called,  which  in  turn  is determined by the user's own
              styles and other settings.

       _complete_tag (^Xt)
              This widget completes symbol tags created by the etags or  ctags
              programmes (note there is no connection with the completion sys-
              tem's tags) stored in a file TAGS, in the format used by  etags,
              or  tags,  in the format created by ctags.  It will look back up
              the path hierarchy for the first occurrence of either  file;  if
              both  exist,  the  file  TAGS is preferred.  You can specify the
              full path to a TAGS or tags file by setting the parameter $TAGS-
              FILE  or  $tagsfile  respectively.  The corresponding completion
              tags used are etags and vtags, after emacs and vi  respectively.


UTILITY FUNCTIONS

       Descriptions follow for utility functions that may be useful when writ-
       ing completion functions.  If functions are  installed  in  subdirecto-
       ries,  most of these reside in the Base subdirectory.  Like the example
       functions for commands in the distribution, the utility functions  gen-
       erating  matches  all follow the convention of returning status zero if
       they generated completions and  non-zero  if  no  matching  completions
       could be added.

       Two  more  features  are  offered  by the _main_complete function.  The
       arrays compprefuncs and comppostfuncs may contain  names  of  functions
       that  are  to be called immediately before or after completion has been
       tried.  A function will only be called once unless it explicitly  rein-
       serts itself into the array.

       _all_labels [ -x ] [ -12VJ ] tag name descr [ command args ... ]
              This  is  a  convenient  interface  to  the _next_label function
              below, implementing the loop shown in the  _next_label  example.
              The  command  and  its  arguments  are  called  to  generate the
              matches.  The options stored in the parameter name will automat-
              ically  be  inserted  into the args passed to the command.  Nor-
              mally, they are put directly after the command, but  if  one  of
              the  args  is a single hyphen, they are inserted directly before
              that.  If the hyphen is the last argument, it  will  be  removed
              from  the  argument  list  before  the  command is called.  This
              allows _all_labels to be used in  almost  all  cases  where  the
              matches can be generated by a single call to the compadd builtin
              command or by a call to one of the utility functions.

              For example:

                     local expl
                     ...
                     if _requested foo; then
                       ...
                       _all_labels foo expl '...' compadd ... - $matches
                     fi

              Will complete the strings from the matches parameter, using com-
              padd  with  additional  options  which will take precedence over
              those generated by _all_labels.

       _alternative [ -C name ] spec ...
              This function is useful in simple cases where multiple tags  are
              available.   Essentially  it  implements  a  loop  like  the one
              described for the _tags function below.

              The tags to use and the action to perform if a tag is  requested
              are   described   using   the  specs  which  are  of  the  form:
              `tag:descr:action'.  The tags are offered using _tags and if the
              tag is requested, the action is executed with the given descrip-
              tion descr.  The actions are those accepted  by  the  _arguments
              function  (described  below), excluding the `->state' and `=...'
              forms.

              For example, the action may be a simple function call:

                     _alternative \
                         'users:user:_users' \
                         'hosts:host:_hosts'

              offers usernames and hostnames as possible matches, generated by
              the _users and _hosts functions respectively.

              Like  _arguments, this functions uses _all_labels to execute the
              actions, which will loop over all sets of  tags.   Special  han-
              dling  is only required if there is an additional valid tag, for
              example inside a function called from _alternative.

              Like _tags this function supports the -C option to give  a  dif-
              ferent name for the argument context field.

       _arguments [ -nswWACRS ] [ -O name ] [ -M matchspec ] [ : ] spec ...
              This  function  can be used to give a complete specification for
              completion for a command whose arguments  follow  standard  UNIX
              option  and  argument  conventions.  The following forms specify
              individual sets of options and arguments;  to  avoid  ambiguity,
              these  may be separated from the options to _arguments itself by
              a single colon.  Options to _arguments itself must be  in  sepa-
              rate words, i.e. -s -w, not -sw.

              With the option -n, _arguments sets the parameter NORMARG to the
              position of the first normal argument in the $words array,  i.e.
              the position after the end of the options.  If that argument has
              not been reached, NORMARG is  set  to  -1.   The  caller  should
              declare  `integer NORMARG' if the -n option is passed; otherwise
              the parameter is not used.

              n:message:action
              n::message:action
                     This describes the n'th  normal  argument.   The  message
                     will  be  printed  above  the  matches  generated and the
                     action indicates what can be completed in  this  position
                     (see  below).  If there are two colons before the message
                     the argument is optional.  If the message  contains  only
                     white  space,  nothing  will be printed above the matches
                     unless the action adds an explanation string itself.

              :message:action
              ::message:action
                     Similar, but describes the next argument, whatever number
                     that  happens  to  be.  If all arguments are specified in
                     this form in the correct order the numbers  are  unneces-
                     sary.

              *:message:action
              *::message:action
              *:::message:action
                     This  describes  how  arguments (usually non-option argu-
                     ments, those not beginning with - or +) are  to  be  com-
                     pleted  when neither of the first two forms was provided.
                     Any number of arguments can be completed in this fashion.

                     With  two  colons  before  the message, the words special
                     array and the CURRENT special parameter are  modified  to
                     refer  only  to  the  normal arguments when the action is
                     executed or evaluated.  With three colons before the mes-
                     sage  they are modified to refer only to the normal argu-
                     ments covered by this description.

              optspec
              optspec:...
                     This describes an option.  The colon  indicates  handling
                     for  one  or  more  arguments to the option; if it is not
                     present, the option is assumed to take no arguments.

                     By default, options are multi-character name, one `-word'
                     per  option.   With -s, options may be single characters,
                     with more than one option per word, although words start-
                     ing  with two hyphens, such as `--prefix', are still con-
                     sidered complete option  names.   This  is  suitable  for
                     standard GNU options.

                     The  combination  of  -s  with  -w  allows  single-letter
                     options to be combined in a single word even  if  one  or
                     more  of  the options take arguments.  For example, if -a
                     takes an argument, with no -s `-ab' is  considered  as  a
                     single  (unhandled) option; with -s -ab is an option with
                     the argument `b'; with both -s and -w,  -ab  may  be  the
                     option -a and the option -b with arguments still to come.

                     The option -W takes this a stage further:  it is possible
                     to  complete single-letter options even after an argument
                     that occurs in the same word.  However, it depends on the
                     action performed whether options will really be completed
                     at this point.  For more control, use a utility  function
                     like _guard as part of the action.

                     The  following  forms  are available for the initial opt-
                     spec, whether or not the option has arguments.

                     *optspec
                            Here optspec is one of the remaining forms  below.
                            This   indicates  the  following  optspec  may  be
                            repeated.  Otherwise if the  corresponding  option
                            is already present on the command line to the left
                            of the cursor it will not be offered again.

                     -optname
                     +optname
                            In the simplest  form  the  optspec  is  just  the
                            option name beginning with a minus or a plus sign,
                            such as `-foo'.  The first argument for the option
                            (if  any)  must follow as a separate word directly
                            after the option.

                            Either of `-+optname' and `+-optname' can be  used
                            to  specify  that  -optname  and +optname are both
                            valid.

                            In all the remaining forms, the leading `-' may be
                            replaced by or paired with `+' in this way.

                     -optname-
                            The   first  argument  of  the  option  must  come
                            directly after the option name in the  same  word.
                            For  example,  `-foo-:...' specifies that the com-
                            pleted  option  and  argument   will   look   like
                            `-fooarg'.

                     -optname+
                            The  first  argument  may appear immediately after
                            optname in the same word, or may appear as a sepa-
                            rate   word   after   the  option.   For  example,
                            `-foo+:...' specifies that  the  completed  option
                            and  argument  will  look like either `-fooarg' or
                            `-foo arg'.

                     -optname=
                            The argument may appear as the next  word,  or  in
                            same  word  as the option name provided that it is
                            separated from it by an equals sign,  for  example
                            `-foo=arg' or `-foo arg'.

                     -optname=-
                            The  argument  to  the option must appear after an
                            equals sign in the same word, and may not be given
                            in the next argument.

                     optspec[explanation]
                            An  explanation  string  may be appended to any of
                            the preceding forms of optspec by enclosing it  in
                            brackets, as in `-q[query operation]'.

                            The  verbose  style  is used to decide whether the
                            explanation strings are displayed with the  option
                            in a completion listing.

                            If  no  bracketed  explanation string is given but
                            the auto-description style is  set  and  only  one
                            argument  is described for this optspec, the value
                            of the style is displayed, with any appearance  of
                            the sequence `%d' in it replaced by the message of
                            the first optarg that  follows  the  optspec;  see
                            below.

              It  is possible for options with a literal `+' or `=' to appear,
              but that character must be quoted, for example `-\+'.

              Each optarg following an optspec must take one of the  following
              forms:

              :message:action
              ::message:action
                     An argument to the option; message and action are treated
                     as for ordinary arguments.  In the first form, the  argu-
                     ment is mandatory, and in the second form it is optional.

                     This group may be repeated for options which take  multi-
                     ple  arguments.   In  other words, :message1:action1:mes-
                     sage2:action2 specifies that the option takes  two  argu-
                     ments.

              :*pattern:message:action
              :*pattern::message:action
              :*pattern:::message:action
                     This  describes multiple arguments.  Only the last optarg
                     for an option taking multiple arguments may be  given  in
                     this  form.  If the pattern is empty (i.e., :*:), all the
                     remaining words on  the  line  are  to  be  completed  as
                     described  by  the action; otherwise, all the words up to
                     and including a word matching the pattern are to be  com-
                     pleted using the action.

                     Multiple  colons are treated as for the `*:...' forms for
                     ordinary arguments:  when the message is preceded by  two
                     colons,  the  words special array and the CURRENT special
                     parameter are modified during the execution or evaluation
                     of  the  action  to  refer  only  to  the words after the
                     option.  When preceded by three colons, they are modified
                     to refer only to the words covered by this description.

       Any literal colon in an optname, message, or action must be preceded by
       a backslash, `\:'.

       Each of the forms above may be preceded by a  list  in  parentheses  of
       option  names and argument numbers.  If the given option is on the com-
       mand line, the options and arguments indicated in parentheses will  not
       be  offered.   For  example,  `(-two  -three  1)-one:...' completes the
       option `-one'; if this appears on the command line,  the  options  -two
       and  -three and the first ordinary argument will not be completed after
       it.  `(-foo):...' specifies an ordinary argument completion; -foo  will
       not be completed if that argument is already present.

       Other items may appear in the list of excluded options to indicate var-
       ious other items that should not be applied when the current specifica-
       tion is matched: a single star (*) for the rest arguments (i.e. a spec-
       ification  of  the  form  `*:...');  a  colon  (:)   for   all   normal
       (non-option-)  arguments;  and a hyphen (-) for all options.  For exam-
       ple, if `(*)' appears before an option and the option  appears  on  the
       command line, the list of remaining arguments (those shown in the above
       table beginning with `*:') will not be completed.

       To aid in reuse of specifications, it is possible to precede any of the
       forms  above  with  `!';  then  the  form  will no longer be completed,
       although if the option or argument appears on  the  command  line  they
       will be skipped as normal.  The main use for this is when the arguments
       are given by an array, and _arguments is  called  repeatedly  for  more
       specific  contexts:  on  the first call `_arguments $global_options' is
       used, and on subsequent calls `_arguments !$^global_options'.

       In each of the forms above the action determines how completions should
       be generated.  Except for the `->string' form below, the action will be
       executed by calling the _all_labels function to process all tag labels.
       No special handling of tags is needed unless a function call introduces
       a new one.

       The forms for action are as follows.

         (single unquoted space)
              This is useful where an argument is required but it is not  pos-
              sible or desirable to generate matches for it.  The message will
              be displayed but no completions listed.  Note that even in  this
              case  the colon at the end of the message is needed; it may only
              be omitted when neither a message nor an action is given.

       (item1 item2 ...)
              One of a list of possible matches, for example:

                     :foo:(foo bar baz)

       ((item1\:desc1 ...))
              Similar to the above, but with descriptions  for  each  possible
              match.  Note the backslash before the colon.  For example,

                     :foo:((a\:bar b\:baz))

              The  matches  will be listed together with their descriptions if
              the description style is set with the values tag in the context.

       ->string
              In this form, _arguments processes the arguments and options and
              then returns control to the calling function with parameters set
              to  indicate  the state of processing; the calling function then
              makes its own  arrangements  for  generating  completions.   For
              example,  functions  that implement a state machine can use this
              type of action.

              Where _arguments encounters a  `->string',  it  will  strip  all
              leading  and  trailing  whitespace from string and set the array
              state to the set of all stringss for which an action  is  to  be
              performed.

              By  default and in common with all other well behaved completion
              functions, _arguments returns status zero if it was able to  add
              matches  and  non-zero  otherwise.  However, if the -R option is
              given, _arguments will instead return a status of 300  to  indi-
              cate that $state is to be handled.

              In  addition  to $state, _arguments also sets the global parame-
              ters `context', `line' and `opt_args' as  described  below,  and
              does  not  reset any changes made to the special parameters such
              as PREFIX and words.  This gives the calling function the choice
              of resetting these parameters or propagating changes in them.

              A  function calling _arguments with at least one action contain-
              ing a `->string' therefore must declare appropriate local param-
              eters:

                     local context state line
                     typeset -A opt_args

              to avoid _arguments from altering the global environment.

       {eval-string}
              A  string  in  braces  is  evaluated  as  shell code to generate
              matches.  If the eval-string itself does not begin with an open-
              ing  parenthesis or brace it is split into separate words before
              execution.

       = action
              If the action starts with `= ' (an equals  sign  followed  by  a
              space),  _arguments  will  insert  the  contents of the argument
              field of the current context as the new  first  element  in  the
              words  special array and increment the value of the CURRENT spe-
              cial parameter.  This has the effect of inserting a  dummy  word
              onto the completion command line while not changing the point at
              which completion is taking place.

              This is most useful with one of the specifiers that restrict the
              words on the command line on which the action is to operate (the
              two- and three-colon forms above).  One particular use  is  when
              an  action itself causes _arguments on a restricted range; it is
              necessary to use this trick to  insert  an  appropriate  command
              name into the range for the second call to _arguments to be able
              to parse the line.

        word...
       word...
              This covers all forms other than those  above.   If  the  action
              starts with a space, the remaining list of words will be invoked
              unchanged.

              Otherwise it will be invoked  with  some  extra  strings  placed
              after  the first word; these are to be passed down as options to
              the compadd builtin.  They ensure that the  state  specified  by
              _arguments,  in particular the descriptions of options and argu-
              ments, is correctly passed to  the  completion  command.   These
              additional  arguments are taken from the array parameter `expl';
              this will be set up before executing the action and hence may be
              referred  to  inside  it,  typically in an expansion of the form
              `$expl[@]' which preserves empty elements of the array.

       During the performance of the action the array `line' will  be  set  to
       the  command  name and normal arguments from the command line, i.e. the
       words from the command line excluding all options and their  arguments.
       Options  are  stored  in  the  associative array `opt_args' with option
       names as keys and their arguments as the values.  For options that have
       more  than  one  argument  these  are given as one string, separated by
       colons.  All colons in the original arguments are preceded  with  back-
       slashes.

       The  parameter  `context' is set when returning to the calling function
       to perform an action of the form `->string'.  It is set to an array  of
       elements  corresponding  to  the elements of $state.  Each element is a
       suitable name for the argument field of the context: either a string of
       the  form `option-opt-n' for the n'th argument of the option -opt, or a
       string of the form `argument-n' for  the  n'th  argument.   For  `rest'
       arguments,  that  is  those in the list at the end not handled by posi-
       tion, n is the string `rest'.  For example, when completing  the  argu-
       ment  of  the -o option, the name is `option-o-1', while for the second
       normal (non-option-) argument it is `argument-2'.

       Furthermore, during the evaluation of the action the  context  name  in
       the  curcontext  parameter is altered to append the same string that is
       stored in the context parameter.

       It is possible to specify multiple sets of options and  arguments  with
       the  sets  separated  by single hyphens.  The specifications before the
       first hyphen (if any) are shared by all the remaining sets.  The  first
       word in every other set provides a name for the set which may appear in
       exclusion lists in specifications, either alone or before  one  of  the
       possible  values  described  above.   In  the  second case a `-' should
       appear between this name and the remainder.

       For example:

              _arguments \
                  -a \
                - set1 \
                  -c \
                - set2 \
                  -d \
                  ':arg:(x2 y2)'

       This defines two sets.  When the command line contains the option `-c',
       the  `-d'  option and the argument will not be considered possible com-
       pletions.  When it contains `-d' or an argument, the option  `-c'  will
       not be considered.  However, after `-a' both sets will still be consid-
       ered valid.

       If the name given for one of the mutually exclusive sets is of the form
       `(name)' then only one value from each set will ever be completed; more
       formally, all specifications are mutually exclusive to all other speci-
       fications  in  the same set.  This is useful for defining multiple sets
       of options which are mutually exclusive and in which  the  options  are
       aliases for each other.  For example:

              _arguments \
                  -a -b \
                - '(compress)' \
                  {-c,--compress}'[compress]' \
                - '(uncompress)' \
                  {-d,--decompress}'[decompress]'

       As  the  completion  code  has to parse the command line separately for
       each set this form of argument is slow and should  only  be  used  when
       necessary.   A useful alternative is often an option specification with
       rest-arguments (as in `-foo:*:...'); here the option -foo  swallows  up
       all remaining arguments as described by the optarg definitions.

       The  options -S and -A are available to simplify the specifications for
       commands with standard option parsing.  With -S, no option will be com-
       pleted  after  a  `--'  appearing on its own on the line; this argument
       will otherwise be ignored; hence in the line

              foobar -a -- -b

       the `-a' is considered an option but the `-b' is  considered  an  argu-
       ment, while the `--' is considered to be neither.

       With  -A, no options will be completed after the first non-option argu-
       ment on the line.  The -A must be followed by a  pattern  matching  all
       strings  which  are not to be taken as arguments.  For example, to make
       _arguments stop completing options after the first normal argument, but
       ignoring  all  strings  starting  with  a  hyphen  even if they are not
       described by one of the optspecs, the form is `-A "-*"'.

       The option `-O name' specifies the name of an array whose elements will
       be  passed  as  arguments  to functions called to execute actions.  For
       example, this can be used to pass the same set of options for the  com-
       padd builtin to all actions.

       The  option  `-M  spec' sets a match specification to use to completion
       option names and values.  It must  appear  before  the  first  argument
       specification.   The  default is `r:|[_-]=* r:|=*': this allows partial
       word completion after `_' and `-', for example `-f-b' can be  completed
       to `-foo-bar'.

       The  option  -C tells _arguments to modify the curcontext parameter for
       an action of the form `->state'.  This is the standard  parameter  used
       to  keep  track  of  the current context.  Here it (and not the context
       array) should be made local to the calling function  to  avoid  passing
       back  the modified value and should be initialised to the current value
       at the start of the function:

              local curcontext="$curcontext"

       This is useful where it is not possible for multiple states to be valid
       together.

       The option `--' allows _arguments to work out the names of long options
       that support the `--help' option which is standard  in  many  GNU  com-
       mands.   The  command word is called with the argument `--help' and the
       output examined for option names.  Clearly, it can be dangerous to pass
       this  to commands which may not support this option as the behaviour of
       the command is unspecified.

       In addition to options, `_arguments --' will try to deduce the types of
       arguments available for options when the form `--opt=val' is valid.  It
       is also possible to provide hints by examining the  help  text  of  the
       command  and  adding  specifiers  of the form `pattern:message:action';
       note that normal _arguments specifiers are not used.   The  pattern  is
       matched against the help text for an option, and if it matches the mes-
       sage and action are used as for other argument specifiers.   For  exam-
       ple:

              _arguments -- '*\*:toggle:(yes no)' \
                            '*=FILE*:file:_files' \
                            '*=DIR*:directory:_files -/' \
                            '*=PATH*:directory:_files -/'

       Here, `yes' and `no' will be completed as the argument of options whose
       description ends in a star; file names will be  completed  for  options
       that  contain the substring `=FILE' in the description; and directories
       will be completed for options  whose  description  contains  `=DIR'  or
       `=PATH'.   The  last  three  are in fact the default and so need not be
       given explicitly, although it is possible to override the use of  these
       patterns.  A typical help text which uses this feature is:

                -C, --directory=DIR          change to directory DIR

       so that the above specifications will cause directories to be completed
       after `--directory', though not after `-C'.

       Note also that _arguments tries to find out automatically if the  argu-
       ment  for  an  option is optional.  This can be specified explicitly by
       doubling the colon before the message.

       If the pattern ends in `(-)', this will removed from  the  pattern  and
       the  action  will  be used only directly after the `=', not in the next
       word.  This is the behaviour of a normal specification defined with the
       form `=-'.

       The `_arguments --' can be followed by the option `-i patterns' to give
       patterns for options which are not to be completed.  The  patterns  can
       be  given  as  the  name  of an array parameter or as a literal list in
       parentheses.  For example,

              _arguments -- -i \
                  "(--(en|dis)able-FEATURE*)"

       will cause completion to  ignore  the  options  `--enable-FEATURE'  and
       `--disable-FEATURE' (this example is useful with GNU configure).

       The  `_arguments  --' form can also be followed by the option `-s pair'
       to describe option aliases.  Each pair consists  of  a  pattern  and  a
       replacement.  For example, some configure-scripts describe options only
       as `--enable-foo', but also accept `--disable-foo'.  To  allow  comple-
       tion of the second form:

              _arguments -- -s "(#--enable- --disable-)"

       Here is a more general example of the use of _arguments:

              _arguments '-l+:left border:' \
                         '-format:paper size:(letter A4)' \
                         '*-copy:output file:_files::resolution:(300 600)' \
                         ':postscript file:_files -g \*.\(ps\|eps\)' \
                         '*:page number:'

       This  describes three options: `-l', `-format', and `-copy'.  The first
       takes one argument described as `left border' for which  no  completion
       will  be  offered  because  of the empty action.  Its argument may come
       directly after the `-l' or it may be given as  the  next  word  on  the
       line.

       The  `-format' option takes one argument in the next word, described as
       `paper size' for which only the strings `letter' and `A4' will be  com-
       pleted.

       The  `-copy'  option  may appear more than once on the command line and
       takes two arguments.  The first is mandatory and will be completed as a
       filename.   The  second is optional (because of the second colon before
       the description `resolution') and will be completed  from  the  strings
       `300' and `600'.

       The  last  two  descriptions say what should be completed as arguments.
       The first describes the first argument as a `postscript file' and makes
       files ending in `ps' or `eps' be completed.  The last description gives
       all other arguments the description `page numbers' but does  not  offer
       completions.

       _cache_invalid cache_identifier
              This  function returns status zero if the completions cache cor-
              responding to the given cache identifier needs  rebuilding.   It
              determines  this  by  looking  up the cache-policy style for the
              current context.  This should provide a function name  which  is
              run  with  the  full path to the relevant cache file as the only
              argument.

              Example:

                     _example_caching_policy () {
                         # rebuild if cache is more than a week old
                         oldp=( "$1"(Nmw+1) )
                         (( $#oldp ))
                     }

       _call_function return name [ args ... ]
              If a function name exists, it is called with the arguments args.
              The  return  argument gives the name of a parameter in which the
              return status from the function name; if return is  empty  or  a
              single hyphen it is ignored.

              The  return status of _call_function itself is zero if the func-
              tion name exists and was called and non-zero otherwise.

       _call_program tag string ...
              This function provides a mechanism for the user to override  the
              use  of an external command.  It looks up the command style with
              the supplied tag.  If the style is set, its value is used as the
              command to execute.  The strings from the call to _call_program,
              or from the style if set, are concatenated with  spaces  between
              them  and  the resulting string is evaluated.  The return status
              is the return status of the command called.

       _combination [ -s pattern ] tag style spec ... field opts ...
              This function is used to complete combinations of  values,   for
              example  pairs  of  hostnames and usernames.  The style argument
              gives the style which defines the pairs; it is looked  up  in  a
              context with the tag specified.

              The style name consists of field names separated by hyphens, for
              example `users-hosts-ports'.  For each  field  for  a  value  is
              already known, a spec of the form `field=pattern' is given.  For
              example, if the command line so far specifies a user `pws',  the
              argument `users=pws' should appear.

              The  next  argument  with no equals sign is taken as the name of
              the field for which completions should be generated  (presumably
              not one of the fields for which the value is known).

              The matches generated will be taken from the value of the style.
              These should contain the possible values for the combinations in
              the  appropriate  order  (users,  hosts,  ports  in  the example
              above).  The different  fields  the  values  for  the  different
              fields  are  separated  by colons.  This can be altered with the
              option -s to _combination which specifies a pattern.   Typically
              this  is  a  character  class, as for example `-s "[:@]"' in the
              case of the users-hosts style.    Each `field=pattern'  specifi-
              cation  restricts the completions which apply to elements of the
              style with appropriately matching fields.

              If no style with the given name is defined for the given tag, or
              if  none  of  the strings in style's value match, but a function
              name of the required field preceded by an underscore is defined,
              that function will be called to generate the matches.  For exam-
              ple, if there is no `users-hosts-ports' or no matching  hostname
              when  a  host  is required, the function `_hosts' will automati-
              cally be called.

              If the same name is used for more than one field,  in  both  the
              `field=pattern'  and  the  argument  that  gives the name of the
              field to be completed, the number of the  field  (starting  with
              one)  may  be  given after the fieldname, separated from it by a
              colon.

              All arguments after the required field name are passed  to  com-
              padd  when  generating  matches  from the style value, or to the
              functions for the fields if they are called.

       _describe [ -oO | -t tag ] descr name1 [ name2 ] opts ... -- ...
              This function associates completions with descriptions.   Multi-
              ple  groups  separated  by  -- can be supplied, potentially with
              different completion options opts.

              The descr is taken as a string to display above the  matches  if
              the  format style for the descriptions tag is set.  This is fol-
              lowed by one or two names of arrays followed by options to  pass
              to  compadd.   The first array contains the possible completions
              with their descriptions in  the  form  `completion:description'.
              If  a  second  array is given, it should have the same number of
              elements as the first; in this case the  corresponding  elements
              are  added  as  possible  completions  instead of the completion
              strings from the first array.  The completion list  will  retain
              the  descriptions  from the first array.  Finally, a set of com-
              pletion options can appear.

              If the option  `-o'  appears  before  the  first  argument,  the
              matches  added will be treated as names of command options (N.B.
              not shell options), typically following a `-', `--'  or  `+'  on
              the  command  line.  In this case _describe uses the prefix-hid-
              den, prefix-needed and verbose styles to find out if the strings
              should be added as completions and if the descriptions should be
              shown.  Without the `-o' option, only the verbose style is  used
              to  decide  how descriptions are shown.  If `-O' is used instead
              of `-O', command options are completed as  above  but  _describe
              will not handle the prefix-needed style.

              With the -t option a tag can be specified.  The default is `val-
              ues' or, if the -o option is given, `options'.

              If selected by the list-grouped style,  strings  with  the  same
              description will appear together in the list.

              _describe uses the _all_labels function to generate the matches,
              so it does not need to appear inside a loop over tag labels.

       _description [ -x ] [ -12VJ ] tag name descr [ spec ... ]
              This function is not to be confused with the previous one; it is
              used  as  a helper function for creating options to compadd.  It
              is buried inside many of the higher level  completion  functions
              and so often does not need to be called directly.

              The  styles listed below are tested in the current context using
              the given tag.  The resulting options for compadd are  put  into
              the  array  named  name  (this is traditionally `expl', but this
              convention is not enforced).  The  description  for  the  corre-
              sponding set of matches is passed to the function in descr.

              The styles tested are: format, hidden, matcher, ignored-patterns
              and group-name.  The format style is first tested for the  given
              tag  and  then  for  the descriptions tag if no value was found,
              while the remainder are only tested for the  tag  given  as  the
              first argument.  The function also calls _setup which tests some
              more styles.

              The string returned by the format style (if any) will  be  modi-
              fied so that the sequence `%d' is replaced by the descr given as
              the third argument without any leading or trailing white  space.
              If,  after  removing  the  white  space,  the descr is the empty
              string, the format style will not be used and  the  options  put
              into the name array will not contain an explanation string to be
              displayed above the matches.

              If _description is called with more than  three  arguments,  the
              additional specs should be of the form `char:str'.  These supply
              escape sequence replacements for the format style: every appear-
              ance of `%char' will be replaced by string.

              If  the  -x  option  is given, the description will be passed to
              compadd using the -x option instead of  the  default  -X.   This
              means  that  the description will be displayed even if there are
              no corresponding matches.

              The options placed  in  the  array  name  take  account  of  the
              group-name  style,  so  matches  are  placed in a separate group
              where necessary.  The group normally has its elements sorted (by
              passing  the  option  -J  to compadd), but if an option starting
              with `-V', `-J', `-1', or `-2' is passed to  _description,  that
              option  will be included in the array.  Hence it is possible for
              the completion group to be unsorted by giving the  option  `-V',
              `-1V', or `-2V'.

              In most cases, the function will be used like this:

                     local expl
                     _description files expl file
                     compadd "$expl[@]" - "$files[@]"

              Note  the use of the parameter expl, the hyphen, and the list of
              matches.  Almost all calls to compadd within the completion sys-
              tem  use  a  similar  format;  this  ensures that user-specified
              styles are correctly passed down to the builtins which implement
              the internals of completion.

       _dispatch context string ...
              This  sets  the current context to context and looks for comple-
              tion functions to handle this context  by  hunting  through  the
              list  of  command  names or special contexts (as described above
              for compdef) given as string ....  The first completion function
              to  be  defined  for  one of the contexts in the list is used to
              generate matches.  Typically, the last string  is  -default-  to
              cause  the function for default completion to be used as a fall-
              back.

              The function sets the parameter $service  to  the  string  being
              tried,  and  sets  the context/command field (the fourth) of the
              $curcontext parameter to the context given as  the  first  argu-
              ment.

       _files The  function _files calls _path_files with all the arguments it
              was passed except for -g and -/.  The use of these  two  options
              depends on the setting of the  file-patterns style.

              This  function  accepts  the  full  set  of  options  allowed by
              _path_files, described below.

       _gnu_generic
              This function is a simple wrapper around the _arguments function
              described  above.  It can be used to determine automatically the
              long options understood by commands that  produce  a  list  when
              passed  the  option  `--help'.   It  is intended to be used as a
              top-level completion function in its own right.  For example, to
              enable option completion for the commands foo and bar, use

                     compdef _gnu_generic foo bar

              after the call to compinit.

              The  completion system as supplied is conservative in its use of
              this function, since it is important  to  be  sure  the  command
              understands the option `--help'.

       _guard [ options ] pattern descr
              This function is intended to be used in the action for the spec-
              ifications passed  to  _arguments  and  similar  functions.   It
              returns  immediately with a non-zero return status if the string
              to be completed does not match  the  pattern.   If  the  pattern
              matches,  the descr is displayed; the function then returns sta-
              tus zero if the word to complete is not empty,  non-zero  other-
              wise.

              The  pattern may be preceded by any of the options understood by
              compadd that are passed down from _description, namely  -M,  -J,
              -V,  -1,  -2,  -n,  -F  and  -X.   All  of these options will be
              ignored.  This fits in conveniently  with  the  argument-passing
              conventions of actions for _arguments.

              As  an  example,  consider  a  command taking the options -n and
              -none, where -n must be followed by a numeric value in the  same
              word.  By using:

                     _arguments '-n-: :_guard "[0-9]#" "numeric value"' '-none'

              _arguments  can  be  made  to  both display the message `numeric
              value' and complete options after `-n<TAB>'.   If  the  `-n'  is
              already  followed  by  one or more digits (the pattern passed to
              _guard) only the message will be displayed; if the `-n' is  fol-
              lowed by another character, only options are completed.

       _message [ -r12 ] [ -VJ group ] descr
       _message -e [ tag ] descr
              The  descr  is used in the same way as the third argument to the
              _description function, except that  the  resulting  string  will
              always  be shown whether or not matches were generated.  This is
              useful for displaying a help message in places where no  comple-
              tions can be generated.

              The  format  style  is  examined with the messages tag to find a
              message; the usual tag, descriptions, is used only if the  style
              is not set with the former.

              If  the -r option is given, no style is used; the descr is taken
              literally as the string to display.  This is  most  useful  when
              the descr comes from a pre-processed argument list which already
              contains an expanded description.

              The -12VJ options and the group are passed to compadd and  hence
              determine the group the message string is added to.

              The second form gives a description for completions with the tag
              tag to be shown even if there are no matches for that tag.   The
              tag can be omitted and if so the tag is taken from the parameter
              $curtag; this is maintained by the completion system and  so  is
              usually correct.

       _multi_parts sep array
              The  argument  sep  is  a separator character.  The array may be
              either the name of an array parameter or a literal array in  the
              form  `(foo  bar)',  a  parenthesised list of words separated by
              whitespace.  The possible completions are the strings  from  the
              array.   However,  each chunk delimited by sep will be completed
              separately.  For example, the _tar function uses `_multi_parts /
              patharray'  to  complete partial file paths from the given array
              of complete file paths.

              The -i option causes _multi_parts to insert a unique match  even
              if  that  requires  multiple separators to be inserted.  This is
              not usually the expected behaviour with filenames,  but  certain
              other types of completion, for example those with a fixed set of
              possibilities, may be more suited to this form.

              Like other utility functions, this function  accepts  the  `-V',
              `-J',  `-1',  `-2',  `-n',  `-f',  `-X', `-M', `-P', `-S', `-r',
              `-R', and `-q' options and passes them to the compadd builtin.

       _next_label [ -x ] [ -12VJ ] tag name descr [ options ... ]
              This function is used to implement the loop over  different  tag
              labels for a particular tag as described above for the tag-order
              style.  On each call it checks to see if there are any more  tag
              labels;  if there is it returns status zero, otherwise non-zero.
              As this function requires a current  tag  to  be  set,  it  must
              always follow a call to _tags or _requested.

              The  -x12VJ  options and the first three arguments are passed to
              the _description function.  Where appropriate the  tag  will  be
              replaced  by a tag label in this call.  Any description given in
              the  tag-order  style  is  preferred  to  the  descr  passed  to
              _next_label.

              The options given after the descr are set in the parameter given
              by name, and hence are to be passed to compadd or whatever func-
              tion is called to add the matches.

              Here  is  a  typical  use of this function for the tag foo.  The
              call to _requested determines if tag foo is required at all; the
              loop  over _next_label handles any labels defined for the tag in
              the tag-order style.

                     local expl ret=1
                     ...
                     if _requested foo; then
                       ...
                       while _next_label foo expl '...'; do
                         compadd "$expl[@]" ... && ret=0
                       done
                       ...
                     fi
                     return ret

       _normal
              This is the standard function called to handle  completion  out-
              side  any  special -context-.  It is called both to complete the
              command word and also the arguments for a command.  In the  sec-
              ond  case,  _normal looks for a special completion for that com-
              mand, and if there is  none  it  uses  the  completion  for  the
              -default- context.

              A  second  use is to reexamine the command line specified by the
              $words array and the $CURRENT parameter after  those  have  been
              modified.   For  example,  the  function _precommand, which com-
              pletes after pre-command specifiers such as nohup,  removes  the
              first  word from the words array, decrements the CURRENT parame-
              ter, then calls _normal again.  The effect is  that  `nohup  cmd
              ...' is treated in the same way as `cmd ...'.

              If  the command name matches one of the patterns given by one of
              the options -p or -P to compdef,  the  corresponding  completion
              function  is called and then the parameter _compskip is checked.
              If it is set completion is terminated at that point even  if  no
              matches  have  been  found.   This  is the same effect as in the
              -first- context.

       _options
              This can be used to complete the names  of  shell  options.   It
              provides  a  matcher  specification that ignores a leading `no',
              ignores underscores and allows upper-case letters to match their
              lower-case   counterparts   (for   example,   `glob',  `noglob',
              `NO_GLOB' are all completed).  Any arguments are  propagated  to
              the compadd builtin.

       _options_set and _options_unset
              These  functions  complete  only  set or unset options, with the
              same matching specification used in the _options function.

              Note that you need to uncomment a few lines  in  the  _main_com-
              plete  function for these functions to work properly.  The lines
              in question are used to store  the  option  settings  in  effect
              before  the completion widget locally sets the options it needs.
              Hence these functions are not generally used by  the  completion
              system.

       _parameters
              This is used to complete the names of shell parameters.

              The  option  `-g  pattern'  limits  the completion to parameters
              whose type matches the pattern.  The type of a parameter is that
              shown by `print ${(t)param}', hence judicious use of `*' in pat-
              tern is probably necessary.

              All other arguments are passed to the compadd builtin.

       _path_files
              This function is used throughout the completion system  to  com-
              plete  filenames.   It  allows completion of partial paths.  For
              example,  the  string   `/u/i/s/sig'   may   be   completed   to
              `/usr/include/sys/signal.h'.

              The options accepted by both _path_files and _files are:

              -f     Complete all filenames.  This is the default.

              -/     Specifies that only directories should be completed.

              -g pattern
                     Specifies  that only files matching the pattern should be
                     completed.

              -W paths
                     Specifies path prefixes that are to be prepended  to  the
                     string  from  the  command line to generate the filenames
                     but that should not be inserted as completions nor  shown
                     in  completion  listings.  Here, paths may be the name of
                     an array parameter, a literal list of paths  enclosed  in
                     parentheses or an absolute pathname.

              -F ignored-files
                     This  behaves as for the corresponding option to the com-
                     padd builtin.  It gives direct control over  which  file-
                     names  should  be ignored.  If the option is not present,
                     the ignored-patterns style is used.

              Both _path_files and _files also accept  the  following  options
              which are passed to compadd: `-J', `-V', `-1', `-2', `-n', `-X',
              `-M', `-P', `-S', `-q', `-r', and `-R'.

              Finally, the  _path_files  function   uses  the  styles  expand,
              ambiguous,  special-dirs,  list-suffixes and file-sort described
              above.

       _pick_variant [ -c command ] [ -r name ] label=pattern ... label [ args
       ... ]
              This function is used to resolve situations where a single  com-
              mand  name  requires  more  than  one  type  of handling, either
              because it has more than one variant or because there is a  name
              clash between two different commands.

              The  command to run is taken from the first element of the array
              words unless this is overridden by the option -c.  This  command
              is  run  and  its  output is compared with a series of patterns.
              Arguments to be passed to the command can be  specified  at  the
              end after all the other arguments.  The patterns to try in order
              are given by the arguments label=pattern; if the output of `com-
              mand  args  ...' contains pattern, then label is selected as the
              label for the command variant.  If none of the  patterns  match,
              the final command label is selected and status 1 is returned.

              If  the  `-r  name'  is given, the label picked is stored in the
              parameter named name.

              The results are also  cached  in  the  _cmd_variant  associative
              array indexed by the name of the command run.

       _regex_arguments name spec ...
              This function generates a completion function name which matches
              the specifications spec ..., a set  of  regular  expressions  as
              described  below.   After running _regex_arguments, the function
              name should be called as a normal completion function.  The pat-
              tern  to  be matched is given by the contents of the words array
              up to the current cursor  position  joined  together  with  null
              characters; no quotation is applied.

              The  arguments  are grouped as sets of alternatives separated by
              `|', which are tried one after  the  other  until  one  matches.
              Each  alternative consists of a one or more specifications which
              are tried  left  to  right,  with  each  pattern  matched  being
              stripped  in  turn from the command line being tested, until all
              of the group succeeds or until one fails; in  the  latter  case,
              the  next  alternative is tried.  This structure can be repeated
              to arbitrary depth by using parentheses; matching proceeds  from
              inside to outside.

              A  special  procedure  is  applied  if  no test succeeds but the
              remaining command line string contains no null character (imply-
              ing  the  remaining word is the one for which completions are to
              be generated).  The  completion  target  is  restricted  to  the
              remaining  word  and  any actions for the corresponding patterns
              are executed.  In this case, nothing is stripped from  the  com-
              mand line string.  The order of evaluation of the actions can be
              determined by the tag-order style; the various formats supported
              by  _alternative  can  be used in action.  The descr is used for
              setting up the array parameter expl.

              Specification arguments take one of following  forms,  in  which
              metacharacters such as `(', `)', `#' and `|' should be quoted.

              /pattern/ [%lookahead%] [-guard] [:tag:descr:action]
                     This is a single primitive component.  The function tests
                     whether  the  combined  pattern  `(#b)((#B)pattern)looka-
                     head*'  matches  the command line string.  If so, `guard'
                     is evaluated and its return status is examined to  deter-
                     mine  if the test has succeeded.  The pattern string `[]'
                     is guaranteed never  to  match.   The  lookahead  is  not
                     stripped from the command line before the next pattern is
                     examined.

                     The argument starting with : is used in the  same  manner
                     as an argument to _alternative.

                     A  component is used as follows: pattern is tested to see
                     if the component already exists on the command line.   If
                     it  does,  any  following  specifications are examined to
                     find something to complete.  If a  component  is  reached
                     but  no  such pattern exists yet on the command line, the
                     string containing the action is used to generate  matches
                     to insert at that point.

              /pattern/+ [%lookahead%] [-guard] [:tag:descr:action]
                     This  is  similar to `/pattern/ ...' but the left part of
                     the command line string (i.e. the part already matched by
                     previous patterns) is also considered part of the comple-
                     tion target.

              /pattern/- [%lookahead%] [-guard] [:tag:descr:action]
                     This is similar to `/pattern/ ...' but the actions of the
                     current  and previously matched patterns are ignored even
                     if the following `pattern' matches the empty string.

              ( spec )
                     Parentheses may be used to groups specs; note each paren-
                     thesis is a single argument to _regex_arguments.

              spec # This allows any number of repetitions of spec.

              spec spec
                     The  two  specs  are to be matched one after the other as
                     described above.

              spec | spec
                     Either of the two specs can be matched.

              The function _regex_words can be used as a  helper  function  to
              generate  matches  for  a set of alternative words possibly with
              their own arguments as a command line argument.

              Examples:

                     _regex_arguments _tst /$'[^\0]#\0'/ \
                     /$'[^\0]#\0'/ :'compadd aaa'

              This generates a function _tst that completes aaa  as  its  only
              argument.   The  tag  and  description  for the action have been
              omitted for brevity (this works but is not recommended in normal
              use).   The  first  component matches the command word, which is
              arbitrary; the second matches  any argument.  As the argument is
              also  arbitrary, any following component would not depend on aaa
              being present.

                     _regex_arguments _tst /$'[^\0]#\0'/ \
                     /$'aaa\0'/ :'compadd aaa'

              This is a more typical use; it is  similar,  but  any  following
              patterns  would only match if aaa was present as the first argu-
              ment.

                     _regex_arguments _tst /$'[^\0]#\0'/ \( \
                     /$'aaa\0'/ :'compadd aaa' \
                     /$'bbb\0'/ :'compadd bbb' \) \#

              In this example, an indefinite number of command  arguments  may
              be completed.  Odd arguments are completed as aaa and even argu-
              ments as bbb.  Completion fails unless the set of  aaa  and  bbb
              arguments before the current one is matched correctly.

                     _regex_arguments _tst /$'[^\0]#\0'/ \
                     \( /$'aaa\0'/ :'compadd aaa' \| \
                     /$'bbb\0'/ :'compadd bbb' \) \#

              This  is similar, but either aaa or bbb may be completed for any
              argument.  In this case _regex_words could be used to generate a
              suitable expression for the arguments.

       _regex_words tag description spec ...
              This  function  can  be  used  to  generate  arguments  for  the
              _regex_arguments command which may  be  inserted  at  any  point
              where  a set of rules is expected.  The tag and description give
              a standard tag and description pertaining to  the  current  con-
              text.   Each spec contains two or three arguments separated by a
              colon: note that there is no leading colon in this case.

              Each spec gives one of a set of words that may be  completed  at
              this point, together with arguments.  It is thus roughly equiva-
              lent to the _arguments function when used in normal  (non-regex)
              completion.

              The  part  of  the spec before the first colon is the word to be
              completed.  This may contain a *; the entire  word,  before  and
              after  the  *  is  completed,  but only the text before the * is
              required for the context to be matched, so  that  further  argu-
              ments may be completed after the abbreviated form.

              The second part of spec is a description for the word being com-
              pleted.

              The optional third part of the spec describes how words  follow-
              ing  the one being completed are themselves to be completed.  It
              will be evaluated in order to avoid problems with quoting.  This
              means  that  typically  it contains a reference to an array con-
              taining previously generated regex arguments.

              The option -t term specifies a terminator for the  word  instead
              of the usual space.  This is handled as an auto-removable suffix
              in the manner of the option -s sep to _values.

              The result of the processing by _regex_words is  placed  in  the
              array reply, which should be made local to the calling function.
              If the set of words and arguments may be matched repeatedly, a #
              should be appended to the generated array at that point.

              For example:

                     local -a reply
                     _regex_words mydb-commands 'mydb commands' \
                       'add:add an entry to mydb:$mydb_add_cmds' \
                       'show:show entries in mydb'
                     _regex_arguments _mydb "$reply[@]"
                     _mydb "$@"

              This  shows a completion function for a command mydb which takes
              two command arguments, add and show.  show takes  no  arguments,
              while  the  arguments  for  add have already been prepared in an
              array mydb_add_cmds,  quite  possibly  by  a  previous  call  to
              _regex_words.

       _requested [ -x ] [ -12VJ ] tag [ name descr [ command args ... ] ]
              This  function  is called to decide whether a tag already regis-
              tered by a call to _tags (see below) has been requested  by  the
              user  and  hence  completion  should  be  performed  for it.  It
              returns status zero if the tag is requested and non-zero  other-
              wise.   The  function  is  typically used as part of a loop over
              different tags as follows:

                     _tags foo bar baz
                     while _tags; do
                       if _requested foo; then
                         ... # perform completion for foo
                       fi
                       ... # test the tags bar and baz in the same way
                       ... # exit loop if matches were generated
                     done

              Note that the test for whether matches  were  generated  is  not
              performed  until the end of the _tags loop.  This is so that the
              user can set the tag-order style to specify a set of tags to  be
              completed at the same time.

              If  name  and descr are given, _requested calls the _description
              function with these arguments together with the  options  passed
              to _requested.

              If  command  is  given,  the _all_labels function will be called
              immediately with the same arguments.  In simple cases this makes
              it  possible to perform the test for the tag and the matching in
              one go.  For example:

                     local expl ret=1
                     _tags foo bar baz
                     while _tags; do
                       _requested foo expl 'description' \
                           compadd foobar foobaz && ret=0
                       ...
                       (( ret )) || break
                     done

              If the command is not compadd, it must nevertheless be  prepared
              to handle the same options.

       _retrieve_cache cache_identifier
              This  function  retrieves  completion  information from the file
              given by cache_identifier, stored in a  directory  specified  by
              the  cache-path  style  which  defaults  to  ~/.zcompcache.  The
              return status is zero if retrieval was successful.  It will only
              attempt retrieval if the use-cache style is set, so you can call
              this function without worrying about whether the user wanted  to
              use the caching layer.

              See _store_cache below for more details.

       _sep_parts
              This  function  is  passed  alternating arrays and separators as
              arguments.  The arrays specify completions for parts of  strings
              to  be separated by the separators.  The arrays may be the names
              of array parameters or a quoted list of  words  in  parentheses.
              For   example,  with  the  array  `hosts=(ftp  news)'  the  call
              `_sep_parts '(foo bar)' @ hosts' will complete the  string   `f'
              to `foo' and the string `b@n' to `bar@news'.

              This  function  accepts  the  compadd  options `-V', `-J', `-1',
              `-2', `-n', `-X', `-M', `-P', `-S', `-r',  `-R',  and  `-q'  and
              passes them on to the compadd builtin used to add the matches.

       _setup tag [ group ]
              This function sets up the special parameters used by the comple-
              tion system appropriately for the tag given as the  first  argu-
              ment.     It   uses   the   styles   list-colors,   list-packed,
              list-rows-first, last-prompt, accept-exact, menu and force-list.

              The  optional  group supplies the name of the group in which the
              matches will be placed.  If it is not given, the tag is used  as
              the group name.

              This  function  is  called  automatically  from _description and
              hence is not normally called explicitly.

       _store_cache cache_identifier params ...
              This function, together with _retrieve_cache and _cache_invalid,
              implements  a  caching layer which can be used in any completion
              function.  Data obtained by  costly  operations  are  stored  in
              parameters; this function then dumps the values of those parame-
              ters to a file.  The data can then  be  retrieved  quickly  from
              that  file  via  _retrieve_cache, even in different instances of
              the shell.

              The cache_identifier specifies the file which the data should be
              dumped  to.   The file is stored in a directory specified by the
              cache-path style which defaults to ~/.zcompcache.  The remaining
              params arguments are the parameters to dump to the file.

              The  return status is zero if storage was successful.  The func-
              tion will only attempt storage if the use-cache style is set, so
              you  can  call  this function without worrying about whether the
              user wanted to use the caching layer.

              The completion function may avoid calling  _retrieve_cache  when
              it  already  has  the  completion  data available as parameters.
              However, in that case it should  call  _cache_invalid  to  check
              whether  the  data  in the parameters and in the cache are still
              valid.

              See the _perl_modules completion function for a  simple  example
              of the usage of the caching layer.

       _tags [ [ -C name ] tags ... ]
              If  called  with  arguments,  these are taken to be the names of
              tags valid for completions in the current context.   These  tags
              are stored internally and sorted by using the tag-order style.

              Next, _tags is called repeatedly without arguments from the same
              completion function.  This successively selects the first,  sec-
              ond,  etc. set of tags requested by the user.  The return status
              is zero if at least one of the tags is  requested  and  non-zero
              otherwise.   To  test  if  a  particular tag is to be tried, the
              _requested function should be called (see above).

              If `-C name' is given, name is temporarily stored in  the  argu-
              ment  field (the fifth) of the context in the curcontext parame-
              ter during the call to _tags; the field  is  restored  on  exit.
              This  allows _tags to use a more specific context without having
              to change and reset the curcontext parameter (which has the same
              effect).

       _values [ -O name ] [ -s sep ] [ -S sep ] [ -wC ] desc spec ...
              This  is  used to complete arbitrary keywords (values) and their
              arguments, or lists of such combinations.

              If the first argument is the option `-O name', it will  be  used
              in  the same way as by the _arguments function.  In other words,
              the elements of the name array will be passed  to  compadd  when
              executing an action.

              If the first argument (or the first argument after `-O name') is
              `-s', the next argument is used as the character that  separates
              multiple  values.   This  character is automatically added after
              each value in an auto-removable fashion (see below); all  values
              completed by `_values -s' appear in the same word on the command
              line, unlike completion using _arguments.  If this option is not
              present, only a single value will be completed per word.

              Normally,  _values  will  only use the current word to determine
              which values are already present on the command line  and  hence
              are not to be completed again.  If the -w option is given, other
              arguments are examined as well.

              The first non-option argument is used as a string to print as  a
              description before listing the values.

              All other arguments describe the possible values and their argu-
              ments in the same format used for the description of options  by
              the  _arguments  function (see above).  The only differences are
              that no minus or plus sign is required at the beginning,  values
              can  have  only  one argument, and the forms of action beginning
              with an equal sign are not supported.

              The character separating a value from its argument  can  be  set
              using  the  option -S (like -s, followed by the character to use
              as the separator in the next argument).  By default  the  equals
              sign will be used as the separator between values and arguments.

              Example:

                     _values -s , 'description' \
                             '*foo[bar]' \
                             '(two)*one[number]:first count:' \
                             'two[another number]::second count:(1 2 3)'

              This describes three possible values: `foo', `one',  and  `two'.
              The  first  is  described  as  `bar',  takes no argument and may
              appear more than once.  The second is described as `number', may
              appear   more  than  once,  and  takes  one  mandatory  argument
              described as `first count'; no action is specified, so  it  will
              not be completed.  The `(two)' at the beginning says that if the
              value `one' is on the line, the value `two' will  no  longer  be
              considered  a  possible  completion.   Finally,  the  last value
              (`two') is described as `another number' and takes  an  optional
              argument  described  as `second count' for which the completions
              (to appear after an `=') are `1', `2',  and  `3'.   The  _values
              function  will  complete lists of these values separated by com-
              mas.

              Like _arguments, this function temporarily adds another  context
              name  component to the arguments element (the fifth) of the cur-
              rent context while executing the action.  Here this name is just
              the name of the value for which the argument is completed.

              The  style verbose is used to decide if the descriptions for the
              values (but not those for the arguments) should be printed.

              The associative array val_args is  used  to  report  values  and
              their  arguments;  this works similarly to the opt_args associa-
              tive array used by _arguments.  Hence the function calling _val-
              ues should declare the local parameters state, line, context and
              val_args:

                     local context state line
                     typeset -A val_args

              when using an action of the form `->string'.  With this function
              the context parameter will be set to the name of the value whose
              argument is to be completed.

              Note also that _values normally adds the character used  as  the
              separator between values as an auto-removable suffix (similar to
              a `/' after a directory).  However, this is not possible  for  a
              `->string'  action as the matches for the argument are generated
              by the calling function.  To get the usual  behaviour,  the  the
              calling  function can add the separator x as a suffix by passing
              the options `-qS x' either directly or indirectly to compadd.

              The option -C is treated in the same way as it is by _arguments.
              In  that  case  the  parameter  curcontext  should be made local
              instead of context (as described above).

       _wanted [ -x ] [ -C name ]  [ -12VJ ] tag name descr command args ...
              In many contexts, completion can only  generate  one  particular
              set of matches, usually corresponding to a single tag.  However,
              it is still  necessary  to  decide  whether  the  user  requires
              matches of this type.  This function is useful in such a case.

              The  arguments  to  _wanted are the same as those to _requested,
              i.e. arguments to be passed to _description.  However,  in  this
              case  the  command is not optional;  all the processing of tags,
              including the loop over both tags and tag labels and the genera-
              tion of matches, is carried out automatically by _wanted.

              Hence  to offer only one tag and immediately add the correspond-
              ing matches with the given description:

                     local expl
                     _wanted tag expl 'description' \
                         compadd matches...

              Note that, as for _requested, the command must be able to accept
              options to be passed down to compadd.

              Like  _tags  this function supports the -C option to give a dif-
              ferent name for the argument context field.  The -x  option  has
              the same meaning as for _description.


COMPLETION DIRECTORIES

       In  the  source distribution, the files are contained in various subdi-
       rectories of the Completion directory.  They may have been installed in
       the same structure, or into one single function directory.  The follow-
       ing is a description of the  files  found  in  the  original  directory
       structure.   If  you  wish to alter an installed file, you will need to
       copy it to some directory which appears earlier in your fpath than  the
       standard directory where it appears.

       Base   The  core functions and special completion widgets automatically
              bound to keys.  You will certainly need most  of  these,  though
              will  probably  not need to alter them.  Many of these are docu-
              mented above.

       Zsh    Functions for completing arguments of shell builtin commands and
              utility  functions  for  this.   Some  of these are also used by
              functions from the Unix directory.

       Unix   Functions for completing  arguments  of  external  commands  and
              suites  of  commands.   They may need modifying for your system,
              although in many cases some attempt is made to decide which ver-
              sion  of  a command is present.  For example, completion for the
              mount command tries to determine the system it  is  running  on,
              while  completion for many other utilities try to decide whether
              the GNU version of the command is in use, and hence whether  the
              --help option is supported.

       X, AIX, BSD, ...
              Completion  and  utility function for commands available only on
              some systems.  These are not arranged  hierarchically,  so,  for
              example, both the Linux and Debian directories, as well as the X
              directory, may be useful on your system.

ZSHCOMPCTL(1)                                                    ZSHCOMPCTL(1)


NAME

       zshcompctl - zsh programmable completion


DESCRIPTION

       This version of zsh has two ways of performing completion of  words  on
       the  command  line.  New users of the shell may prefer to use the newer
       and more powerful system based on shell functions; this is described in
       zshcompsys(1),  and  the  basic  shell  mechanisms which support it are
       described in zshcompwid(1).  This manual entry describes the older com-
       pctl command.
       compctl [ -CDT ] options [ command ... ]
       compctl  [ -CDT ] options [ -x pattern options - ... -- ] [ + options [
       -x ... -- ] ... [+] ] [ command ... ]
       compctl -M match-specs ...
       compctl -L [ -CDTM ] [ command ... ]
       compctl + command ...

       Control  the editor's completion behavior according to the supplied set
       of options.  Various editing commands, notably expand-or-complete-word,
       usually  bound  to  tab,  will  attempt to complete a word typed by the
       user, while others, notably delete-char-or-list, usually bound to ^D in
       EMACS editing mode, list the possibilities; compctl controls what those
       possibilities are.  They may for example be filenames (the most  common
       case,  and  hence  the  default),  shell  variables,  or  words  from a
       user-specified list.


COMMAND FLAGS

       Completion of the arguments of a command may be different for each com-
       mand  or may use the default.  The behavior when completing the command
       word itself may also be separately specified.  These correspond to  the
       following flags and arguments, all of which (except for -L) may be com-
       bined with any combination of the options described subsequently in the
       section `Option Flags':

       command ...
              controls completion for the named commands, which must be listed
              last on the command line.  If completion is attempted for a com-
              mand  with a pathname containing slashes and no completion defi-
              nition is found, the search is retried with  the  last  pathname
              component.  If  the command starts with a =, completion is tried
              with the pathname of the command.

              Any of the command strings may be patterns of the form  normally
              used for filename generation.  These should be be quoted to pro-
              tect them from immediate  expansion;  for  example  the  command
              string  'foo*'  arranges for completion of the words of any com-
              mand beginning with foo.  When completion is attempted, all pat-
              tern completions are tried in the reverse order of their defini-
              tion until one matches.  By default, completion then proceeds as
              normal, i.e. the shell will try to generate more matches for the
              specific command on the command line; this can be overridden  by
              including -tn in the flags for the pattern completion.

              Note that aliases are expanded before the command name is deter-
              mined unless the COMPLETE_ALIASES option is set.   Commands  may
              not be combined with the -C, -D or -T flags.

       -C     controls  completion  when the command word itself is being com-
              pleted.  If no compctl -C command has been issued,  the names of
              any  executable  command (whether in the path or specific to the
              shell, such as aliases or functions) are completed.

       -D     controls default completion behavior for the arguments  of  com-
              mands  not assigned any special behavior.  If no compctl -D com-
              mand has been issued, filenames are completed.

       -T     supplies completion flags to be used before any other processing
              is  done,  even  before processing for compctls defined for spe-
              cific commands.  This is especially useful  when  combined  with
              extended completion (the -x flag, see the section `Extended Com-
              pletion' below).  Using this flag you can define default  behav-
              ior  which  will apply to all commands without exception, or you
              can alter the standard behavior for all commands.  For  example,
              if  your  access to the user database is too slow and/or it con-
              tains too many users (so that completion after `~' is  too  slow
              to be usable), you can use

                     compctl -T -x 's[~] C[0,[^/]#]' -k friends -S/ -tn

              to  complete  the strings in the array friends after a `~'.  The
              C[...] argument is necessary so that this form  of  ~-completion
              is not tried after the directory name is finished.

       -L     lists  the existing completion behavior in a manner suitable for
              putting into a start-up script; the  existing  behavior  is  not
              changed.   Any  combination  of  the above forms, or the -M flag
              (which must follow the -L flag), may be specified, otherwise all
              defined  completions  are  listed.  Any other flags supplied are
              ignored.

       no argument
              If no argument is given, compctl lists all  defined  completions
              in an abbreviated form;  with a list of options, all completions
              with those flags set  (not  counting  extended  completion)  are
              listed.

       If  the  +  flag is alone and followed immediately by the command list,
       the completion behavior for all the commands in the list  is  reset  to
       the  default.   In  other  words,  completion will subsequently use the
       options specified by the -D flag.

       The form with -M as the first and only option defines  global  matching
       specifications (see zshcompwid). The match specifications given will be
       used for every completion attempt (only when using  compctl,  not  with
       the new completion system) and are tried in the order in which they are
       defined until one generates at least one match. E.g.:

              compctl -M '' 'm:{a-zA-Z}={A-Za-z}'

       This will first try completion without any global match  specifications
       (the  empty  string)  and,  if that generates no matches, will try case
       insensitive completion.


OPTION FLAGS

       [ -fcFBdeaRGovNAIOPZEnbjrzu/12 ]
       [ -k array ] [ -g globstring ] [ -s subststring ]
       [ -K function ]
       [ -Q ] [ -P prefix ] [ -S suffix ]
       [ -W file-prefix ] [ -H num pattern ]
       [ -q ] [ -X explanation ] [ -Y explanation ]
       [ -y func-or-var ] [ -l cmd ] [ -h cmd ] [ -U ]
       [ -t continue ] [ -J name ] [ -V name ]
       [ -M match-spec ]

       The remaining options specify the type of command arguments to look for
       during  completion.   Any  combination of these flags may be specified;
       the result is a sorted list of all the possibilities.  The options  are
       as follows.

   Simple Flags
       These produce completion lists made up by the shell itself:

       -f     Filenames and filesystem paths.

       -/     Just filesystem paths.

       -c     Command  names, including aliases, shell functions, builtins and
              reserved words.

       -F     Function names.

       -B     Names of builtin commands.

       -m     Names of external commands.

       -w     Reserved words.

       -a     Alias names.

       -R     Names of regular (non-global) aliases.

       -G     Names of global aliases.

       -d     This can be combined with -F, -B, -w, -a, -R and -G to get names
              of disabled functions, builtins, reserved words or aliases.

       -e     This  option (to show enabled commands) is in effect by default,
              but may be combined with -d; -de in combination with -F, -B, -w,
              -a,  -R  and  -G  will  complete  names  of functions, builtins,
              reserved words or aliases whether or not they are disabled.

       -o     Names of shell options (see zshoptions(1)).

       -v     Names of any variable defined in the shell.

       -N     Names of scalar (non-array) parameters.

       -A     Array names.

       -I     Names of integer variables.

       -O     Names of read-only variables.

       -p     Names of parameters used by the shell (including special parame-
              ters).

       -Z     Names of shell special parameters.

       -E     Names of environment variables.

       -n     Named directories.

       -b     Key binding names.

       -j     Job  names:   the  first  word of the job leader's command line.
              This is useful with the kill builtin.

       -r     Names of running jobs.

       -z     Names of suspended jobs.

       -u     User names.

   Flags with Arguments
       These have user supplied arguments to determine how the list of comple-
       tions is to be made up:

       -k array
              Names  taken from the elements of $array (note that the `$' does
              not appear on the command line).   Alternatively,  the  argument
              array itself may be a set of space- or comma-separated values in
              parentheses, in which any delimiter may be escaped with a  back-
              slash; in this case the argument should be quoted.  For example,

                     compctl -k "(cputime filesize datasize stacksize
                                 coredumpsize resident descriptors)" limit

       -g globstring
              The globstring is expanded using filename globbing; it should be
              quoted  to  protect  it  from immediate expansion. The resulting
              filenames are taken as the  possible  completions.   Use  `*(/)'
              instead  of `*/' for directories.  The fignore special parameter
              is not applied to the resulting files.  More  than  one  pattern
              may  be given separated by blanks. (Note that brace expansion is
              not part of globbing.  Use the  syntax  `(either|or)'  to  match
              alternatives.)

       -s subststring
              The  subststring  is  split  into words and these words are than
              expanded using all shell expansion mechanisms (see  zshexpn(1)).
              The resulting words are taken as possible completions.  The fig-
              nore special parameter is not applied to  the  resulting  files.
              Note that -g is faster for filenames.

       -K function
              Call the given function to get the completions.  Unless the name
              starts with an underscore, the function is passed two arguments:
              the  prefix and the suffix of the word on which completion is to
              be attempted, in other words those characters before the  cursor
              position, and those from the cursor position onwards.  The whole
              command line can be accessed with the -c and  -l  flags  of  the
              read  builtin.  The function should set the variable reply to an
              array containing the completions (one completion  per  element);
              note  that reply should not be made local to the function.  From
              such a function the command line can be accessed with the -c and
              -l flags to the read builtin.  For example,

                     function whoson { reply=(`users`); }
                     compctl -K whoson talk

              completes only logged-on users after `talk'.  Note that `whoson'
              must return an array, so `reply=`users`' would be incorrect.

       -H num pattern
              The possible completions are taken from  the  last  num  history
              lines.   Only  words matching pattern are taken.  If num is zero
              or negative the whole history is searched and if pattern is  the
              empty  string  all words are taken (as with `*').  A typical use
              is

                     compctl -D -f + -H 0 ''

              which forces completion to look back in the history list  for  a
              word if no filename matches.

   Control Flags
       These do not directly specify types of name to be completed, but manip-
       ulate the options that do:

       -Q     This instructs the shell not to quote any metacharacters in  the
              possible  completions.  Normally the results of a completion are
              inserted into the command line with any metacharacters quoted so
              that  they are interpreted as normal characters.  This is appro-
              priate for filenames and ordinary strings.  However, for special
              effects,  such  as inserting a backquoted expression from a com-
              pletion array (-k) so that the expression will not be  evaluated
              until the complete line is executed, this option must be used.

       -P prefix
              The  prefix  is  inserted  just before the completed string; any
              initial part already typed will be completed and the whole  pre-
              fix ignored for completion purposes.  For example,

                     compctl -j -P "%" kill

              inserts  a  `%'  after  the  kill command and then completes job
              names.

       -S suffix
              When a completion is found the suffix is inserted after the com-
              pleted  string.   In  the  case of menu completion the suffix is
              inserted immediately, but it is still possible to cycle  through
              the list of completions by repeatedly hitting the same key.

       -W file-prefix
              With  directory  file-prefix:   for command, file, directory and
              globbing completion (options -c, -f, -/, -g), the file prefix is
              implicitly added in front of the completion.  For example,

                     compctl -/ -W ~/Mail maildirs

              completes  any subdirectories to any depth beneath the directory
              ~/Mail, although that prefix does  not  appear  on  the  command
              line.   The  file-prefix may also be of the form accepted by the
              -k flag, i.e. the name of an array or a literal list  in  paren-
              thesis.  In  this  case  all the directories in the list will be
              searched for possible completions.

       -q     If used with a suffix as specified by the -S option, this causes
              the  suffix to be removed if the next character typed is a blank
              or does not insert anything or if the suffix  consists  of  only
              one  character  and the next character typed is the same charac-
              ter; this the same rule used for the  AUTO_REMOVE_SLASH  option.
              The  option  is  most  useful for list separators (comma, colon,
              etc.).

       -l cmd This option restricts the range of command line words  that  are
              considered  to  be  arguments.   If  combined  with  one  of the
              extended completion patterns  `p[...]',  `r[...]',  or  `R[...]'
              (see  the  section  `Extended  Completion'  below)  the range is
              restricted to the range of arguments specified in the  brackets.
              Completion is then performed as if these had been given as argu-
              ments to the cmd supplied with the option. If the cmd string  is
              empty  the  first word in the range is instead taken as the com-
              mand name, and command name completion performed  on  the  first
              word in the range.  For example,

                     compctl -x 'r[-exec,;]' -l '' -- find

              completes  arguments  between  `-exec' and the following `;' (or
              the end of the command line if there is no such  string)  as  if
              they were a separate command line.

       -h cmd Normally  zsh  completes  quoted  strings  as a whole. With this
              option, completion can be done separately on different parts  of
              such  strings. It works like the -l option but makes the comple-
              tion code work on the parts of the current word that  are  sepa-
              rated by spaces. These parts are completed as if they were argu-
              ments to the given cmd. If cmd is the empty  string,  the  first
              part is completed as a command name, as with -l.

       -U     Use  the whole list of possible completions, whether or not they
              actually match the word on the command line.  The word typed  so
              far will be deleted.  This is most useful with a function (given
              by the -K option) which can examine the word  components  passed
              to  it  (or  via the read builtin's -c and -l flags) and use its
              own criteria to decide what matches.  If there is no completion,
              the original word is retained.  Since the produced possible com-
              pletions seldom have interesting common prefixes  and  suffixes,
              menu  completion  is started immediately if AUTO_MENU is set and
              this flag is used.

       -y func-or-var
              The list provided by func-or-var is  displayed  instead  of  the
              list  of  completions whenever a listing is required; the actual
              completions to be inserted are not affected.  It can be provided
              in  two ways. Firstly, if func-or-var begins with a $ it defines
              a variable, or if it begins with a left  parenthesis  a  literal
              array, which contains the list.  A variable may have been set by
              a call to a function using the -K option.  Otherwise it contains
              the  name  of  a  function  which will be executed to create the
              list.  The function will be  passed  as  an  argument  list  all
              matching  completions,  including prefixes and suffixes expanded
              in full, and should set the array reply to the result.  In  both
              cases,  the display list will only be retrieved after a complete
              list of matches has been created.

              Note that the returned list does not have to correspond, even in
              length,  to  the original set of matches, and may be passed as a
              scalar instead of an array.  No special formatting of characters
              is performed on the output in this case; in particular, newlines
              are printed literally and if they appear output  in  columns  is
              suppressed.

       -X explanation
              Print  explanation  when trying completion on the current set of
              options. A `%n' in this string is  replaced  by  the  number  of
              matches that were added for this explanation string.  The expla-
              nation only appears if completion was tried  and  there  was  no
              unique  match,  or when listing completions. Explanation strings
              will be listed together with the matches of the group  specified
              together  with the -X option (using the -J or -V option). If the
              same explanation string is given to  multiple  -X  options,  the
              string  appears  only  once  (for  each group) and the number of
              matches shown for the `%n' is the total number  of  all  matches
              for each of these uses. In any case, the explanation string will
              only be shown if there was at least  one  match  added  for  the
              explanation string.

              The  sequences  %B,  %b,  %S,  %s,  %U,  and  %u  specify output
              attributes (bold, standout, and underline) and  %{...%}  can  be
              used to include literal escape sequences as in prompts.

       -Y explanation
              Identical  to  -X,  except  that the explanation first undergoes
              expansion following  the  usual  rules  for  strings  in  double
              quotes.   The  expansion will be carried out after any functions
              are called for the -K or -y options, allowing them to set  vari-
              ables.

       -t continue
              The  continue-string  contains  a character that specifies which
              set of completion flags should be used next.  It is useful:

              (i) With -T, or when trying a list of pattern completions,  when
              compctl  would  usually  continue with ordinary processing after
              finding matches; this can be suppressed with `-tn'.

              (ii) With a list of alternatives separated by  +,  when  compctl
              would  normally  stop  when  one  of  the alternatives generates
              matches.  It can be forced to consider the next set  of  comple-
              tions by adding `-t+' to the flags of the alternative before the
              `+'.

              (iii) In an extended completion list (see below),  when  compctl
              would  normally  continue  until  a set of conditions succeeded,
              then use only the immediately following flags.  With `-t-', com-
              pctl  will  continue  trying extended completions after the next
              `-'; with `-tx' it will  attempt  completion  with  the  default
              flags, in other words those before the `-x'.

       -J name
              This  gives  the  name of the group the matches should be placed
              in. Groups are listed and sorted separately; likewise, menu com-
              pletion  will  offer  the  matches in the groups in the order in
              which the groups were defined. If no group  name  is  explicitly
              given,  the  matches  are  stored  in a group named default. The
              first time a group name is encountered, a group with  that  name
              is  created. After that all matches with the same group name are
              stored in that group.

              This can be useful with non-exclusive  alternative  completions.
              For example, in

                     compctl -f -J files -t+ + -v -J variables foo

              both  files  and  variables are possible completions, as the -t+
              forces both sets of alternatives before and after the  +  to  be
              considered  at  once.   Because  of the -J options, however, all
              files are listed before all variables.

       -V name
              Like -J, but matches within the group  will  not  be  sorted  in
              listings  nor in menu completion. These unsorted groups are in a
              different name space from the sorted ones, so groups defined  as
              -J files and -V files are distinct.

       -1     If  given  together  with  the -V option, makes only consecutive
              duplicates in the group be removed. Note that  groups  with  and
              without this flag are in different name spaces.

       -2     If given together with the -J or -V option, makes all duplicates
              be kept. Again, groups with and without this flag are in differ-
              ent name spaces.

       -M match-spec
              This  defines  additional  matching  control specifications that
              should be used only when testing words for  the  list  of  flags
              this  flag  appears  in.  The format of the match-spec string is
              described in zshcompwid.


ALTERNATIVE COMPLETION

       compctl [ -CDT ] options + options [ + ... ] [ + ] command ...

       The form with `+' specifies alternative options.  Completion  is  tried
       with the options before the first `+'. If this produces no matches com-
       pletion is tried with the flags after the `+' and so on. If  there  are
       no  flags  after the last `+' and a match has not been found up to that
       point, default completion is tried.  If the list of flags contains a -t
       with  a + character, the next list of flags is used even if the current
       list produced matches.

       Additional options are available that restrict completion to some  part
       of the command line; this is referred to as `extended completion'.


EXTENDED COMPLETION

       compctl [ -CDT ] options -x pattern options - ... --
                [ command ... ]
       compctl [ -CDT ] options [ -x pattern options - ... -- ]
                [ + options [ -x ... -- ] ... [+] ] [ command ... ]

       The  form  with  `-x'  specifies  extended  completion for the commands
       given; as shown, it may be combined with alternative  completion  using
       `+'.  Each pattern is examined in turn; when a match is found, the cor-
       responding options, as described in the section `Option  Flags'  above,
       are  used to generate possible completions.  If no pattern matches, the
       options given before the -x are used.

       Note that each pattern should be supplied  as  a  single  argument  and
       should be quoted to prevent expansion of metacharacters by the shell.

       A  pattern  is built of sub-patterns separated by commas; it matches if
       at least one of these sub-patterns matches  (they  are  `or'ed).  These
       sub-patterns  are  in  turn composed of other sub-patterns separated by
       white spaces which match if all of the  sub-patterns  match  (they  are
       `and'ed).  An element of the sub-patterns is of the form `c[...][...]',
       where the pairs of brackets may be repeated as often as necessary,  and
       matches  if  any  of the sets of brackets match (an `or').  The example
       below makes this clearer.

       The elements may be any of the following:

       s[string]...
              Matches if the current word on the command line starts with  one
              of the strings given in brackets.  The string is not removed and
              is not part of the completion.

       S[string]...
              Like s[string] except that the string is part of the completion.

       p[from,to]...
              Matches  if the number of the current word is between one of the
              from and to pairs inclusive. The comma and to are  optional;  to
              defaults  to  the  same value as from.  The numbers may be nega-
              tive: -n refers to the n'th last word on the line.

       c[offset,string]...
              Matches if the string matches the word offset by offset from the
              current word position.  Usually offset will be negative.

       C[offset,pattern]...
              Like c but using pattern matching instead.

       w[index,string]...
              Matches  if  the  word  in position index is equal to the corre-
              sponding string.  Note that the word count  is  made  after  any
              alias expansion.

       W[index,pattern]...
              Like w but using pattern matching instead.

       n[index,string]...
              Matches if the current word contains string.  Anything up to and
              including the indexth occurrence of this string will not be con-
              sidered part of the completion, but the rest will.  index may be
              negative to count from the end: in most cases, index will  be  1
              or -1.  For example,

                     compctl -s '`users`' -x 'n[1,@]' -k hosts -- talk

              will  usually  complete  usernames, but if you insert an @ after
              the name, names from the array hosts (assumed to  contain  host-
              names,  though  you  must  make the array yourself) will be com-
              pleted.  Other commands such as rcp can be handled similarly.

       N[index,string]...
              Like n except that the string  will  be  taken  as  a  character
              class.   Anything  up to and including the indexth occurrence of
              any of the characters in string will not be considered  part  of
              the completion.

       m[min,max]...
              Matches  if  the  total number of words lies between min and max
              inclusive.

       r[str1,str2]...
              Matches if the cursor is after a  word  with  prefix  str1.   If
              there  is also a word with prefix str2 on the command line after
              the one matched by str1 it matches only if the cursor is  before
              this  word. If the comma and str2 are omitted, it matches if the
              cursor is after a word with prefix str1.

       R[str1,str2]...
              Like r but using pattern matching instead.

       q[str]...
              Matches the word currently being completed is in  single  quotes
              and the str begins with the letter `s', or if completion is done
              in double quotes and str starts with the letter `d', or if  com-
              pletion is done in backticks and str starts with a `b'.


EXAMPLE

              compctl -u -x 's[+] c[-1,-f],s[-f+]' \
                -g '~/Mail/*(:t)' - 's[-f],c[-1,-f]' -f -- mail

       This is to be interpreted as follows:

       If the current command is mail, then

              if ((the current word begins with + and the previous word is -f)
              or (the current word begins with -f+)), then complete the
              non-directory part (the `:t' glob modifier) of files in the directory
              ~/Mail; else

              if the current word begins with -f or the previous word was -f, then
              complete any file; else

              complete user names.

ZSHMODULES(1)                                                    ZSHMODULES(1)


NAME

       zshmodules - zsh loadable modules


DESCRIPTION

       Some  optional  parts  of zsh are in modules, separate from the core of
       the shell.  Each of these modules may be linked  in  to  the  shell  at
       build  time, or can be dynamically linked while the shell is running if
       the installation supports this feature.  The modules that  are  bundled
       with the zsh distribution are:

       zsh/cap
              Builtins  for manipulating POSIX.1e (POSIX.6) capability (privi-
              lege) sets.

       zsh/clone
              A builtin that can clone a running shell onto another  terminal.

       zsh/compctl
              The compctl builtin for controlling completion.

       zsh/complete
              The basic completion code.

       zsh/complist
              Completion listing extensions.

       zsh/computil
              A  module  with  utility  builtins needed for the shell function
              based completion system.

       zsh/datetime
              Some date/time commands and parameters.

       zsh/deltochar
              A ZLE function duplicating EMACS' zap-to-char.

       zsh/example
              An example of how to write a module.

       zsh/files
              Some basic file manipulation commands as builtins.

       zsh/mapfile
              Access to external files via a special associative array.

       zsh/mathfunc
              Standard scientific functions for use  in  mathematical  evalua-
              tions.

       zsh/newuser
              Arrange for files for new users to be installed.

       zsh/parameter
              Access to internal hash tables via special associative arrays.

       zsh/pcre
              Interface to the PCRE library.

       zsh/sched
              A  builtin  that  provides a timed execution facility within the
              shell.

       zsh/net/socket
              Manipulation of Unix domain sockets

       zsh/stat
              A builtin command interface to the stat system call.

       zsh/system
              A builtin interface to various low-level system features.

       zsh/net/tcp
              Manipulation of TCP sockets

       zsh/termcap
              Interface to the termcap database.

       zsh/terminfo
              Interface to the terminfo database.

       zsh/zftp
              A builtin FTP client.

       zsh/zle
              The Zsh Line Editor, including the bindkey and vared builtins.

       zsh/zleparameter
              Access to internals of the Zsh Line Editor via parameters.

       zsh/zprof
              A module allowing profiling for shell functions.

       zsh/zpty
              A builtin for starting a command in a pseudo-terminal.

       zsh/zselect
              Block and return when file descriptors are ready.

       zsh/zutil
              Some utility builtins, e.g. the one for supporting configuration
              via styles.


THE ZSH/CAP MODULE

       The zsh/cap module is used for manipulating POSIX.1e (POSIX.6) capabil-
       ity sets.  If the operating system does not support this interface, the
       builtins  defined by this module will do nothing.  The builtins in this
       module are:

       cap [ capabilities ]
              Change the shell's process  capability  sets  to  the  specified
              capabilities,  otherwise  display  the shell's current capabili-
              ties.

       getcap filename ...
              This is a built-in implementation of the POSIX standard utility.
              It displays the capability sets on each specified filename.

       setcap capabilities filename ...
              This is a built-in implementation of the POSIX standard utility.
              It sets the capability sets on each specified  filename  to  the
              specified capabilities.


THE ZSH/CLONE MODULE

       The zsh/clone module makes available one builtin command:

       clone tty
              Creates  a forked instance of the current shell, attached to the
              specified tty.  In the new shell, the PID, PPID and TTY  special
              parameters  are changed appropriately.  $! is set to zero in the
              new shell, and to the new shell's PID in the original shell.

              The return status of the builtin is zero in both shells if  suc-
              cessful, and non-zero on error.

              The  target  of  clone  should be an unused terminal, such as an
              unused virtual console or a virtual terminal created by

              xterm -e sh -c 'trap : INT QUIT TSTP; tty;  while  :;  do  sleep
              100000000; done'

              Some  words  of  explanation are warranted about this long xterm
              command line: when doing clone on a pseudo-terminal, some  other
              session  ("session"  meant  as  a unix session group, or SID) is
              already owning the terminal. Hence the cloned zsh cannot acquire
              the pseudo-terminal as a controlling tty. That means two things:

              the job control  signals  will  go  to  the  sh-started-by-xterm
              process
                    group  (that's why we disable INT QUIT and TSTP with trap;
              otherwise
                    the while loop could get suspended or killed)

              the cloned shell will have job control disabled, and the job
                    control keys (control-C, control-\ and control-Z) will not
              work.

              This does not apply when cloning to an unused vc.

              Cloning  to an used (and unprepared) terminal will result in two
              processes reading simultaneously from the  same  terminal,  with
              input bytes going randomly to either process.

              clone  is  mostly  useful  as  a  shell built-in replacement for
              openvt.


THE ZSH/COMPCTL MODULE

       The zsh/compctl module makes available two builtin  commands.  compctl,
       is the old, deprecated way to control completions for ZLE.  See zshcom-
       pctl(1).   The  other  builtin  command,  compcall  can  be   used   in
       user-defined completion widgets, see zshcompwid(1).


THE ZSH/COMPLETE MODULE

       The  zsh/complete module makes available several builtin commands which
       can be used in user-defined completion widgets, see zshcompwid(1).


THE ZSH/COMPLIST MODULE

       The zsh/complist module offers three extensions to completion listings:
       the  ability to highlight matches in such a list, the ability to scroll
       through long lists and a different style of menu completion.

   Colored completion listings
       Whenever one of the parameters ZLS_COLORS or ZLS_COLOURS is set and the
       zsh/complist  module  is  loaded  or  linked into the shell, completion
       lists will be colored.  Note, however, that complist will not automati-
       cally  be loaded if it is not linked in:  on systems with dynamic load-
       ing, `zmodload zsh/complist' is required.

       The parameters ZLS_COLORS and  ZLS_COLOURS  describe  how  matches  are
       highlighted.  To turn on highlighting an empty value suffices, in which
       case all the default values given below will be used.   The  format  of
       the value of these parameters is the same as used by the GNU version of
       the ls command: a colon-separated list of specifications  of  the  form
       `name=value'.   The  name  may be one of the following strings, most of
       which specify file types for which the value will be used.  The strings
       and their default values are:

       no 0   for  normal  text  (i.e.  when displaying something other than a
              matched file)

       fi 0   for regular files

       di 32  for directories

       ln 36  for symbolic links

       pi 31  for named pipes (FIFOs)

       so 33  for sockets

       bd 44;37
              for block devices

       cd 44;37
              for character devices

       ex 35  for executable files

       mi none
              for a non-existent file (default is the value defined for fi)

       lc \e[ for the left code (see below)

       rc m   for the right code

       tc 0   for the character indicating the file type  printed after  file-
              names if the LIST_TYPES option is set

       sp 0   for the spaces printed after matches to align the next column

       ec none
              for the end code

       Apart  from  these strings, the name may also be an asterisk (`*') fol-
       lowed by any string. The value given for such a string will be used for
       all  files  whose  name  ends with the string.  The name may also be an
       equals sign (`=') followed by a pattern.  The value given for this pat-
       tern  will  be  used for all matches (not just filenames) whose display
       string are matched by the pattern.  Definitions for both of these  take
       precedence over the values defined for file types and the form with the
       leading asterisk takes precedence over the form with the leading  equal
       sign.

       The  last  form also allows different parts of the displayed strings to
       be colored differently.  For this, the pattern has to  use  the  `(#b)'
       globbing  flag  and  pairs  of parentheses surrounding the parts of the
       strings that are to be colored differently.  In this case the value may
       consist  of  more  than  one  color code separated by equal signs.  The
       first code will be used for all parts for which  no  explicit  code  is
       specified and the following codes will be used for the parts matched by
       the  sub-patterns  in  parentheses.   For  example,  the  specification
       `=(#b)(?)*(?)=0=3=7'  will  be  used for all matches which are at least
       two characters long and will use the code `3' for the first  character,
       `7' for the last character and `0' for the rest.

       All  three  forms  of name may be preceded by a pattern in parentheses.
       If this is given, the value will be used only  for  matches  in  groups
       whose  names  are matched by the pattern given in the parentheses.  For
       example, `(g*)m*=43' highlights  all  matches  beginning  with  `m'  in
       groups  whose names  begin with `g' using the color code `43'.  In case
       of the `lc', `rc', and `ec' codes, the group pattern is ignored.

       Note also that all patterns are tried in the order in which they appear
       in  the parameter value until the first one matches which is then used.

       When printing a match, the code prints the value of lc, the  value  for
       the  file-type or the last matching specification with a `*', the value
       of rc, the string to display for the match itself, and then  the  value
       of  ec  if that is defined or the values of lc, no, and rc if ec is not
       defined.

       The default values are ISO 6429 (ANSI) compliant and  can  be  used  on
       vt100 compatible terminals such as xterms.  On monochrome terminals the
       default values will have no visible effect.  The colors  function  from
       the  contribution  can be used to get associative arrays containing the
       codes for ANSI terminals (see the section `Other Functions' in  zshcon-
       trib(1)).   For  example,  after  loading  colors, one could use `$col-
       ors[red]'  to  get  the  code  for  foreground  color  red  and  `$col-
       ors[bg-green]' for the code for background color green.

       If  the completion system invoked by compinit is used, these parameters
       should not be set directly because the  system  controls  them  itself.
       Instead, the list-colors style should be used (see the section `Comple-
       tion System Configuration' in zshcompsys(1)).

   Scrolling in completion listings
       To enable scrolling through a completion list, the LISTPROMPT parameter
       must  be set.  Its value will be used as the prompt; if it is the empty
       string, a default prompt will be used.  The value may  contain  escapes
       of  the  form  `%x'.   It  supports the escapes `%B', `%b', `%S', `%s',
       `%U', `%u' and `%{...%}' used also in shell prompts as  well  as  three
       pairs of additional sequences: a `%l' or `%L' is replaced by the number
       of the last line shown and the total number of lines in the form  `num-
       ber/total';  a  `%m'  or  `%M'  is replaced with the number of the last
       match shown and the total number  of  matches;  and  `%p'  or  `%P'  is
       replaced  with  `Top', `Bottom' or the position of the first line shown
       in percent of the total number of  lines,  respectively.   In  each  of
       these  cases the form with the uppercase letter will be replaced with a
       string of fixed width, padded to the right with spaces, while the  low-
       ercase form will not be padded.

       If the parameter LISTPROMPT is set, the completion code will not ask if
       the list should be shown.  Instead it immediately starts displaying the
       list,  stopping  after  the  first screenful, showing the prompt at the
       bottom, waiting for a  keypress  after  temporarily  switching  to  the
       listscroll  keymap.   Some  of the zle functions have a special meaning
       while scrolling lists:

       send-break
              stops listing discarding the key pressed

       accept-line, down-history, down-line-or-history
       down-line-or-search, vi-down-line-or-history
              scrolls forward one line

       complete-word, menu-complete, expand-or-complete
       expand-or-complete-prefix, menu-complete-or-expand
              scrolls forward one screenful

       Every other character stops listing and immediately processes  the  key
       as  usual.   Any key that is not bound in the listscroll keymap or that
       is bound  to  undefined-key  is  looked  up  in  the  keymap  currently
       selected.

       As for the ZLS_COLORS and ZLS_COLOURS parameters, LISTPROMPT should not
       be set directly when using the shell function based completion  system.
       Instead, the list-prompt style should be used.

   Menu selection
       The  zsh/complist  module also offers an alternative style of selecting
       matches from a list, called menu selection, which can be  used  if  the
       shell is set up to return to the last prompt after showing a completion
       list (see the ALWAYS_LAST_PROMPT option in zshoptions(1)).  It  can  be
       invoked  directly  by  the  widget  menu-select  defined by the module.
       Alternatively, the parameter MENUSELECT can be set to an integer, which
       gives  the  minimum  number of matches that must be present before menu
       selection is automatically turned on.  This second method requires that
       menu  completion  be  started,  either  directly  from a widget such as
       menu-complete, or due to one of the options MENU_COMPLETE or  AUTO_MENU
       being  set.  If MENUSELECT is set, but is 0, 1 or empty, menu selection
       will always be started during an ambiguous menu completion.

       When using the completion system based on shell functions, the  MENUSE-
       LECT  parameter should not be used (like the ZLS_COLORS and ZLS_COLOURS
       parameters described above).  Instead, the menu style  should  be  used
       with the select=... keyword.

       After  menu  selection is started, the matches will be listed. If there
       are more matches than fit on the screen, only the  first  screenful  is
       shown.   The  matches  to  insert into the command line can be selected
       from this list.  In the list one match is highlighted using  the  value
       for ma from the ZLS_COLORS or ZLS_COLOURS parameter.  The default value
       for this is `7' which forces the selected match to be highlighted using
       standout  mode  on  a vt100-compatible terminal.  If neither ZLS_COLORS
       nor ZLS_COLOURS is set, the same terminal control sequence as  for  the
       `%S' escape in prompts is used.

       If  there  are  more  matches  than fit on the screen and the parameter
       MENUPROMPT is set, its value will be shown below the matches.  It  sup-
       ports  the  same  escape sequences as LISTPROMPT, but the number of the
       match or line shown will be that of the one where the mark  is  placed.
       If its value is the empty string, a default prompt will be used.

       The  MENUSCROLL  parameter  can  be  used  to  specify  how the list is
       scrolled.  If the parameter is unset, this is done line by line, if  it
       is  set to `0' (zero), the list will scroll half the number of lines of
       the screen.  If the value is positive, it gives the number of lines  to
       scroll  and  if it is negative, the list will be scrolled the number of
       lines of the screen minus the (absolute) value.

       As for the ZLS_COLORS, ZLS_COLOURS and LISTPROMPT  parameters,  neither
       MENUPROMPT  nor  MENUSCROLL should be set directly when using the shell
       function based  completion  system.   Instead,  the  select-prompt  and
       select-scroll styles should be used.

       The completion code sometimes decides not to show all of the matches in
       the list.  These hidden matches are either matches for which  the  com-
       pletion  function  which  added them explicitly requested that they not
       appear in the list (using the -n option of the compadd builtin command)
       or  they  are  matches  which  duplicate  a  string already in the list
       (because they differ only in things like prefixes or suffixes that  are
       not  displayed).   In  the  list used for menu selection, however, even
       these matches are shown so that it is  possible  to  select  them.   To
       highlight such matches the hi and du capabilities in the ZLS_COLORS and
       ZLS_COLOURS parameters are supported for hidden matches  of  the  first
       and second kind, respectively.

       Selecting matches is done by moving the mark around using the zle move-
       ment functions.  When not all matches can be shown on the screen at the
       same  time,  the  list will scroll up and down when crossing the top or
       bottom line.  The following zle functions have special  meaning  during
       menu selection:

       accept-line
              accepts the current match and leaves menu selection

       send-break
              leaves  menu selection and restores the previous contents of the
              command line

       redisplay, clear-screen
              execute their normal function without leaving menu selection

       accept-and-hold, accept-and-menu-complete
              accept the  currently  inserted  match  and  continue  selection
              allowing to select the next match to insert into the line

       accept-and-infer-next-history
              accepts  the  current  match and then tries completion with menu
              selection again;  in the case of files this allows one to select
              a directory and immediately attempt to complete files in it;  if
              there are no matches, a message is shown and one can use undo to
              go  back  to  completion  on the previous level, every other key
              leaves menu selection (including the other zle  functions  which
              are otherwise special during menu selection)

       undo   removes matches inserted during the menu selection by one of the
              three functions before

       down-history, down-line-or-history
       vi-down-line-or-history,  down-line-or-search
              moves the mark one line down

       up-history, up-line-or-history
       vi-up-line-or-history, up-line-or-search
              moves the mark one line up

       forward-char, vi-forward-char
              moves the mark one column right

       backward-char, vi-backward-char
              moves the mark one column left

       forward-word, vi-forward-word
       vi-forward-word-end, emacs-forward-word
              moves the mark one screenful down

       backward-word, vi-backward-word, emacs-backward-word
              moves the mark one screenful up

       vi-forward-blank-word, vi-forward-blank-word-end
              moves the mark to the first line of the next group of matches

       vi-backward-blank-word
              moves the mark to the last line of the previous group of matches

       beginning-of-history
              moves the mark to the first line

       end-of-history
              moves the mark to the last line

       beginning-of-buffer-or-history, beginning-of-line
       beginning-of-line-hist, vi-beginning-of-line
              moves the mark to the leftmost column

       end-of-buffer-or-history, end-of-line
       end-of-line-hist, vi-end-of-line
              moves the mark to the rightmost column

       complete-word, menu-complete, expand-or-complete
       expand-or-complete-prefix, menu-expand-or-complete
              moves the mark to the next match

       reverse-menu-complete
              moves the mark to the previous match

       vi-insert
              this toggles between normal and interactive mode; in interactive
              mode the keys bound to self-insert and self-insert-unmeta insert
              into  the  command  line  as  in normal editing mode but without
              leaving menu selection; after each character completion is tried
              again  and the list changes to contain only the new matches; the
              completion  widgets  make  the  longest  unambiguous  string  be
              inserted  in  the command line and undo and backward-delete-char
              go back to the previous set of matches

       history-incremental-search-forward,
              history-incremental-search-backward  this   starts   incremental
              searches  in  the  list  of completions displayed; in this mode,
              accept-line only leaves incremental search, going  back  to  the
              normal menu selection mode

       All movement functions wrap around at the edges; any other zle function
       not listed leaves menu selection and executes  that  function.   It  is
       possible  to  make  widgets  in the above list do the same by using the
       form of the widget with a  `.'  in  front.   For  example,  the  widget
       `.accept-line'  has  the effect of leaving menu selection and accepting
       the entire command line.

       During this selection the widget uses the keymap menuselect.   Any  key
       that is not defined in this keymap or that is bound to undefined-key is
       looked up in the keymap currently selected.  This  is  used  to  ensure
       that  the  most important keys used during selection (namely the cursor
       keys, return, and TAB) have sensible defaults.  However,  keys  in  the
       menuselect  keymap  can  be modified directly using the bindkey builtin
       command (see zshmodules(1)). For example, to make the return key  leave
       menu selection without accepting the match currently selected one could
       call

              bindkey -M menuselect '^M' send-break

       after loading the zsh/complist module.


THE ZSH/COMPUTIL MODULE

       The zsh/computil module adds several builtin commands that are used  by
       some  of  the  completion  functions  in the completion system based on
       shell functions (see  zshcompsys(1)  ).   Except  for  compquote  these
       builtin  commands  are  very  specialised and thus not very interesting
       when writing your own completion functions.  In summary, these  builtin
       commands are:

       comparguments
              This  is  used by the _arguments function to do the argument and
              command line parsing.  Like compdescribe it has an option -i  to
              do  the  parsing  and initialize some internal state and various
              options to access the state information to decide what should be
              completed.

       compdescribe
              This is used by the _describe function to build the displays for
              the matches and to get the strings to add as matches with  their
              options.   On  the first call one of the options -i or -I should
              be supplied as the first argument.  In the first  case,  display
              strings  without the descriptions will be generated, in the sec-
              ond case, the string used to separate  the  matches  from  their
              descriptions  must  be  given  as  the  second  argument and the
              descriptions (if any) will be shown.  All  other  arguments  are
              like the definition arguments to _describe itself.

              Once  compdescribe  has been called with either the -i or the -I
              option, it can be repeatedly called with the -g option  and  the
              names  of  five arrays as its arguments.  This will step through
              the different sets of matches and store the options in the first
              array,  the strings with descriptions in the second, the matches
              for these in the third, the strings without descriptions in  the
              fourth,  and the matches for them in the fifth array.  These are
              then directly given to compadd to register the matches with  the
              completion code.

       compfiles
              Used  by  the _path_files function to optimize complex recursive
              filename generation (globbing).  It does three things.  With the
              -p  and -P options it builds the glob patterns to use, including
              the paths already handled and trying to  optimize  the  patterns
              with  respect  to  the  prefix  and suffix from the line and the
              match specification currently used.   The  -i  option  does  the
              directory  tests  for the ignore-parents style and the -r option
              tests if a component for some of the matches are  equal  to  the
              string  on  the  line  and  removes all other matches if that is
              true.

       compgroups
              Used by the _tags function to implement  the  internals  of  the
              group-order  style.   This  only takes its arguments as names of
              completion groups and creates the groups for it (all six  types:
              sorted  and  unsorted,  both  without  removing duplicates, with
              removing all duplicates and  with  removing  consecutive  dupli-
              cates).

       compquote [ -p ] names ...
              There  may be reasons to write completion functions that have to
              add the matches using the -Q option to compadd and perform quot-
              ing  themselves.  Instead of interpreting the first character of
              the all_quotes key of  the  compstate  special  association  and
              using  the  q  flag  for  parameter expansions, one can use this
              builtin command.  The arguments are the names of scalar or array
              parameters  and  the  values  of  these parameters are quoted as
              needed for the innermost quoting level.  If  the  -p  option  is
              given,  quoting  is  done  as if there is some prefix before the
              values of the parameters, so that a leading equal sign will  not
              be quoted.

              The  return status is non-zero in case of an error and zero oth-
              erwise.

       comptags
       comptry
              These implement the internals of the tags mechanism.

       compvalues
              Like comparguments, but for the _values function.


THE ZSH/DATETIME MODULE

       The zsh/datetime module makes available one builtin command:

       strftime [ -s scalar ] format epochtime
       strftime -r [ -q ] [ -s scalar ] format timestring
              Output the date denoted by epochtime in the format specified.

              With the option -r (reverse), use the format format to parse the
              input  string  timestring and output the number of seconds since
              the epoch at which the time occurred.  If no timezone is parsed,
              the  current  timezone is used; other parameters are set to zero
              if not present.  If timestring does not match format the command
              returns  status  1;  it will additionally print an error message
              unless the option -q (quiet) is given.   If  timestring  matches
              format  but not all characters in timestring were used, the con-
              version succeeds; however, a warning is issued unless the option
              -q is given.  The matching is implemented by the system function
              strptime; see strptime(3).  This means that  zsh  format  exten-
              sions are not available, however for reverse lookup they are not
              required.  If the  function  is  not  implemented,  the  command
              returns status 2 and (unless -q is given) prints a message.

              If  -s scalar is given, assign the date string (or epoch time in
              seconds if -r is given) to scalar instead of printing it.

       The zsh/datetime module makes available one parameter:

       EPOCHSECONDS
              An integer value representing the number of  seconds  since  the
              epoch.


THE ZSH/DELTOCHAR MODULE

       The zsh/deltochar module makes available two ZLE functions:

       delete-to-char
              Read  a  character from the keyboard, and delete from the cursor
              position up to and including the next (or, with repeat count  n,
              the  nth)  instance  of  that character.  Negative repeat counts
              mean delete backwards.

       zap-to-char
              This behaves like delete-to-char, except that the  final  occur-
              rence of the character itself is not deleted.


THE ZSH/EXAMPLE MODULE

       The zsh/example module makes available one builtin command:

       example [ -flags ] [ args ... ]
              Displays the flags and arguments it is invoked with.

       The  purpose  of the module is to serve as an example of how to write a
       module.


THE ZSH/FILES MODULE

       The  zsh/files  module  makes  some  standard  commands  available   as
       builtins:

       chgrp [ -Rs ] group filename ...
              Changes  group  of files specified.  This is equivalent to chown
              with a user-spec argument of `:group'.

       chown [ -Rs ] user-spec filename ...
              Changes ownership and group of files specified.

              The user-spec can be in four forms:

              user   change owner to user; do not change group
              user:: change owner to user; do not change group
              user:  change owner to user;  change  group  to  user's  primary
                     group
              user:group
                     change owner to user; change group to group
              :group do not change owner; change group to group

              In each case, the `:' may instead be a `.'.  The rule is that if
              there is a `:' then the separator is `:', otherwise if there  is
              a  `.'  then the separator is `.', otherwise there is no separa-
              tor.

              Each of user and group may be either a username (or group  name,
              as appropriate) or a decimal user ID (group ID).  Interpretation
              as a name takes precedence, if there is an all-numeric  username
              (or group name).

              The  -R option causes chown to recursively descend into directo-
              ries, changing the ownership of all files in the directory after
              changing the ownership of the directory itself.

              The  -s  option  is  a zsh extension to chown functionality.  It
              enables paranoid behaviour, intended to avoid security  problems
              involving  a chown being tricked into affecting files other than
              the ones intended.  It will refuse to follow symbolic links,  so
              that  (for  example) ``chown luser /tmp/foo/passwd'' can't acci-
              dentally chown /etc/passwd if /tmp/foo happens to be a  link  to
              /etc.  It will also check where it is after leaving directories,
              so that a recursive chown of a deep directory tree can't end  up
              recursively chowning /usr as a result of directories being moved
              up the tree.

       ln [ -dfis ] filename dest
       ln [ -dfis ] filename ... dir
              Creates hard (or, with -s, symbolic) links.  In the first  form,
              the specified destination is created, as a link to the specified
              filename.  In the second form, each of the filenames is taken in
              turn,  and  linked to a pathname in the specified directory that
              has the same last pathname component.

              Normally, ln will not attempt to create hard links  to  directo-
              ries.   This check can be overridden using the -d option.  Typi-
              cally only the super-user can actually succeed in creating  hard
              links  to directories.  This does not apply to symbolic links in
              any case.

              By default, existing files cannot be replaced by links.  The  -i
              option  causes  the  user to be queried about replacing existing
              files.  The -f option  causes  existing  files  to  be  silently
              deleted, without querying.  -f takes precedence.

       mkdir [ -p ] [ -m mode ] dir ...
              Creates  directories.   With  the -p option, non-existing parent
              directories are first created if necessary, and there will be no
              complaint if the directory already exists.  The -m option can be
              used to specify (in octal) a set of  file  permissions  for  the
              created  directories, otherwise mode 777 modified by the current
              umask (see umask(2)) is used.

       mv [ -fi ] filename dest
       mv [ -fi ] filename ... dir
              Moves files.  In the first form, the specified filename is moved
              to  the  specified destination.  In the second form, each of the
              filenames is taken in turn, and moved to a pathname in the spec-
              ified directory that has the same last pathname component.

              By  default,  the user will be queried before replacing any file
              that the user cannot  write  to,  but  writable  files  will  be
              silently  removed.   The -i option causes the user to be queried
              about replacing any existing files.  The -f  option  causes  any
              existing  files  to  be  silently deleted, without querying.  -f
              takes precedence.

              Note that this mv will not move files across devices.   Histori-
              cal  versions  of  mv,  when actual renaming is impossible, fall
              back on  copying  and  removing  files;  if  this  behaviour  is
              desired,  use  cp  and rm manually.  This may change in a future
              version.

       rm [ -dfirs ] filename ...
              Removes files and directories specified.

              Normally, rm will not remove directories  (except  with  the  -r
              option).   The  -d  option causes rm to try removing directories
              with unlink (see unlink(2)), the same  method  used  for  files.
              Typically  only the super-user can actually succeed in unlinking
              directories in this way.  -d takes precedence over -r.

              By default, the user will be queried before  removing  any  file
              that  the  user  cannot  write  to,  but  writable files will be
              silently removed.  The -i option causes the user to  be  queried
              about  removing  any  files.   The  -f option causes files to be
              silently deleted, without querying,  and  suppresses  all  error
              indications.  -f takes precedence.

              The -r option causes rm to recursively descend into directories,
              deleting all files in the directory before removing  the  direc-
              tory with the rmdir system call (see rmdir(2)).

              The  -s  option  is  a  zsh  extension  to rm functionality.  It
              enables paranoid behaviour, intended to  avoid  common  security
              problems  involving  a  root-run  rm being tricked into removing
              files other than the ones intended.  It will  refuse  to  follow
              symbolic  links,  so  that  (for example) ``rm /tmp/foo/passwd''
              can't accidentally remove /etc/passwd if /tmp/foo happens to  be
              a  link  to  /etc.  It will also check where it is after leaving
              directories, so that a recursive removal  of  a  deep  directory
              tree  can't  end  up  recursively  removing  /usr as a result of
              directories being moved up the tree.

       rmdir dir ...
              Removes empty directories specified.

       sync   Calls the system call of the  same  name  (see  sync(2)),  which
              flushes  dirty  buffers to disk.  It might return before the I/O
              has actually been completed.


THE ZSH/MAPFILE MODULE

       The zsh/mapfile module provides one special associative array parameter
       of the same name.

       mapfile
              This  associative  array  takes  as keys the names of files; the
              resulting value is the  content  of  the  file.   The  value  is
              treated  identically  to any other text coming from a parameter.
              The value may also be assigned to, in which  case  the  file  in
              question  is  written (whether or not it originally existed); or
              an element may be unset, which will delete the file in question.
              For  example, `vared mapfile[myfile]' works as expected, editing
              the file `myfile'.

              When the array is accessed as a whole, the keys are the names of
              files  in  the  current  directory, and the values are empty (to
              save a huge overhead in memory).   Thus  ${(k)mapfile}  has  the
              same  affect  as  the  glob operator *(D), since files beginning
              with a dot are not special.  Care must be taken with expressions
              such  as  rm  ${(k)mapfile}, which will delete every file in the
              current directory without the usual `rm *' test.

              The parameter mapfile may be made read-only; in that case, files
              referenced may not be written or deleted.

   Limitations
       Although  reading  and  writing  of the file in question is efficiently
       handled, zsh's internal memory management may be  arbitrarily  baroque.
       Thus  it should not automatically be assumed that use of mapfile repre-
       sents a gain in efficiency over use of other mechanisms.  Note in  par-
       ticular  that  the whole contents of the file will always reside physi-
       cally in memory when accessed (possibly multiple times, due to standard
       parameter substitution operations).  In particular, this means handling
       of sufficiently long files (greater than the machine's swap  space,  or
       than the range of the pointer type) will be incorrect.

       No  errors  are  printed  or  flagged  for non-existent, unreadable, or
       unwritable files, as the parameter mechanism is too low  in  the  shell
       execution hierarchy to make this convenient.

       It  is  unfortunate that the mechanism for loading modules does not yet
       allow the user to specify the name of the shell parameter to  be  given
       the special behaviour.


THE ZSH/MATHFUNC MODULE

       The  zsh/mathfunc  module  provides standard mathematical functions for
       use when evaluating mathematical formulae.  The syntax agrees with nor-
       mal C and FORTRAN conventions, for example,

              (( f = sin(0.3) ))

       assigns the sine of 0.3 to the parameter f.

       Most  functions  take  floating  point  arguments and return a floating
       point value.  However, any necessary conversions  from  or  to  integer
       type  will  be  performed  automatically by the shell.  Apart from atan
       with a second argument and the abs, int and float functions, all  func-
       tions  behave as noted in the manual page for the corresponding C func-
       tion, except that any arguments out of range for the function in  ques-
       tion will be detected by the shell and an error reported.

       The  following  functions  take a single floating point argument: acos,
       acosh, asin, asinh, atan, atanh, cbrt, ceil, cos, cosh, erf, erfc, exp,
       expm1,  fabs,  floor,  gamma,  j0, j1, lgamma, log, log10, log1p, logb,
       sin, sinh, sqrt, tan, tanh, y0, y1.  The atan function  can  optionally
       take  a  second  argument, in which case it behaves like the C function
       atan2.  The ilogb function takes a single floating point argument,  but
       returns an integer.

       The  function signgam takes no arguments, and returns an integer, which
       is the C variable of the same name, as  described  in  gamma(3).   Note
       that  it  is therefore only useful immediately after a call to gamma or
       lgamma.  Note also  that  `signgam(RPAR'  and  `signgam'  are  distinct
       expressions.

       The  following  functions  take two floating point arguments: copysign,
       fmod, hypot, nextafter.

       The following take an integer first argument and a floating point  sec-
       ond argument: jn, yn.

       The  following take a floating point first argument and an integer sec-
       ond argument: ldexp, scalb.

       The function abs does not convert the type of its single  argument;  it
       returns  the  absolute  value  of  either a floating point number or an
       integer.  The functions float and int convert their  arguments  into  a
       floating point or integer value (by truncation) respectively.

       Note  that  the C pow function is available in ordinary math evaluation
       as the `**' operator and is not provided here.

       The function rand48 is available if your system's mathematical  library
       has the function erand48(3).  It returns a pseudo-random floating point
       number between 0 and 1.  It takes a single string optional argument.

       If the argument is not present, the random number seed  is  initialised
       by  three calls to the rand(3) function --- this produces the same ran-
       dom numbers as the next three values of $RANDOM.

       If the argument is present, it gives the name  of  a  scalar  parameter
       where  the  current  random  number  seed will be stored.  On the first
       call, the value must contain at least twelve  hexadecimal  digits  (the
       remainder of the string is ignored), or the seed will be initialised in
       the same manner as for a call to rand48 with no  argument.   Subsequent
       calls  to  rand48(param)  will  then maintain the seed in the parameter
       param as a string of twelve hexadecimal digits, with no base signifier.
       The  random  number  sequences  for different parameters are completely
       independent, and are also independent from that used by calls to rand48
       with no argument.

       For example, consider

              print $(( rand48(seed) ))
              print $(( rand48() ))
              print $(( rand48(seed) ))

       Assuming  $seed  does  not  exist,  it will be initialised by the first
       call.  In the second call, the default seed is initialised; note,  how-
       ever,  that  because of the properties of rand() there is a correlation
       between the seeds used for the two initialisations, so for more  secure
       uses,  you  should  generate  your  own  12-byte  seed.  The third call
       returns to the same sequence of random numbers used in the first  call,
       unaffected by the intervening rand48().


THE ZSH/NEWUSER MODULE

       The  zsh/newuser  module  is loaded at boot if it is available, the RCS
       option is set, and the PRIVILEGED option is not set (all three are true
       by default).  This takes place immediately after commands in the global
       zshenv file (typically /etc/zshenv), if any, have  been  executed.   If
       the  module  is  not available it is silently ignored by the shell; the
       module may safely be removed from $MODULE_PATH by the administrator  if
       it is not required.

       On  loading,  the  module  tests  if any of the start-up files .zshenv,
       .zprofile, .zshrc or .zlogin exist in the directory given by the  envi-
       ronment  variable  ZDOTDIR, or the user's home directory if that is not
       set.  The test is not performed and the module halts processing if  the
       shell  was  in  an  emulation mode (i.e. had been invoked as some other
       shell than zsh).

       If none of the start-up files were found, the module then looks for the
       file  newuser  first in a sitewide directory, usually the parent direc-
       tory of the site-functions directory, and if that is not found the mod-
       ule searches in a version-specific directory, usually the parent of the
       functions  directory  containing  version-specific  functions.   (These
       directories   can   be   configured   when   zsh  is  built  using  the
       --enable-site-scriptdir=dir and --enable-scriptdir=dir flags to config-
       ure,   respectively;   the   defaults  are  prefix/share/zsh  and  pre-
       fix/share/zsh/$ZSH_VERSION where the default prefix is /usr/local.)

       If the file newuser is found, it is then sourced in the same manner  as
       a  start-up  file.   The  file  is  expected to contain code to install
       start-up files for the user, however any valid shell code will be  exe-
       cuted.

       The zsh/newuser module is then unconditionally unloaded.

       Note  that  it  is  possible  to achieve exactly the same effect as the
       zsh/newuser module by adding code to /etc/zshenv.   The  module  exists
       simply  to  allow  the shell to make arrangements for new users without
       the need for invervention by package maintainers and system administra-
       tors.


THE ZSH/PARAMETER MODULE

       The  zsh/parameter  module  gives  access  to some of the internal hash
       tables used by the shell by defining some special parameters.

       options
              The keys for this associative array are the names of the options
              that  can  be  set  and  unset  using  the  setopt  and unsetopt
              builtins. The value of each key is either the string on  if  the
              option  is  currently  set,  or  the string off if the option is
              unset.  Setting a key to one of these strings is like setting or
              unsetting  the  option,  respectively.  Unsetting  a key in this
              array is like setting it to the value off.

       commands
              This array gives access to the command hash table. The keys  are
              the  names of external commands, the values are the pathnames of
              the files that would be  executed  when  the  command  would  be
              invoked. Setting a key in this array defines a new entry in this
              table in the same way as with the hash builtin. Unsetting a  key
              as  in  `unset  "commands[foo]"' removes the entry for the given
              key from the command hash table.

       functions
              This associative array maps names of enabled functions to  their
              definitions.  Setting  a  key  in it is like defining a function
              with the name given by the key and the body given by the  value.
              Unsetting a key removes the definition for the function named by
              the key.

       dis_functions
              Like functions but for disabled functions.

       builtins
              This associative array gives information about the builtin  com-
              mands  currently  enabled. The keys are the names of the builtin
              commands and the values are either `undefined' for builtin  com-
              mands that will automatically be loaded from a module if invoked
              or `defined' for builtin commands that are already loaded.

       dis_builtins
              Like builtins but for disabled builtin commands.

       reswords
              This array contains the enabled reserved words.

       dis_reswords
              Like reswords but for disabled reserved words.

       aliases
              This maps the names of the regular aliases currently enabled  to
              their expansions.

       dis_aliases
              Like aliases but for disabled regular aliases.

       galiases
              Like aliases, but for global aliases.

       dis_galiases
              Like galiases but for disabled global aliases.

       saliases
              Like raliases, but for suffix aliases.

       dis_saliases
              Like saliases but for disabled suffix aliases.

       parameters
              The  keys in this associative array are the names of the parame-
              ters currently defined. The values are  strings  describing  the
              type  of the parameter, in the same format used by the t parame-
              ter flag, see zshexpn(1) .  Setting or unsetting  keys  in  this
              array is not possible.

       modules
              An  associative array giving information about modules. The keys
              are  the  names  of  the  modules  loaded,  registered   to   be
              autoloaded,  or  aliased.  The  value says which state the named
              module is in and is one of the strings  `loaded',  `autoloaded',
              or  `alias:name',  where  name is the name the module is aliased
              to.

              Setting or unsetting keys in this array is not possible.

       dirstack
              A normal array holding the elements of the directory stack. Note
              that  the  output  of the dirs builtin command includes one more
              directory, the current working directory.

       history
              This associative array maps history event numbers  to  the  full
              history lines.

       historywords
              A special array containing the words stored in the history.

       jobdirs
              This  associative array maps job numbers to the directories from
              which the job was started (which may not be the  current  direc-
              tory of the job).

       jobtexts
              This associative array maps job numbers to the texts of the com-
              mand lines that were used to start the jobs.

       jobstates
              This associative array gives information about the states of the
              jobs  currently known. The keys are the job numbers and the val-
              ues are strings of the form  `job-state:mark:pid=state...'.  The
              job-state  gives the state the whole job is currently in, one of
              `running', `suspended', or `done'. The mark is `+' for the  cur-
              rent  job, `-' for the previous job and empty otherwise. This is
              followed by one `pid=state' for every process in  the  job.  The
              pids are, of course, the process IDs and the state describes the
              state of that process.

       nameddirs
              This associative array maps the names of  named  directories  to
              the pathnames they stand for.

       userdirs
              This associative array maps user names to the pathnames of their
              home directories.

       funcstack
              This array contains the names of the functions  currently  being
              executed.  The  first  element is the name of the function using
              the parameter.

       functrace
              This array contains the names and line numbers  of  the  callers
              corresponding  to  the  functions currently being executed.  The
              format of each element is name:lineno.


THE ZSH/PCRE MODULE

       The zsh/pcre module makes some commands available as builtins:

       pcre_compile [ -aimx ] PCRE
              Compiles a perl-compatible regular expression.

              Option -a will force the pattern to be anchored.  Option -i will
              compile  a  case-insensitive  pattern.  Option -m will compile a
              multi-line pattern; that is, ^ and $ will match newlines  within
              the  pattern.   Option  -x  will  compile  an  extended pattern,
              wherein whitespace and # comments are ignored.

       pcre_study
              Studies the previously-compiled PCRE which may result in  faster
              matching.

       pcre_match [ -a arr ] string
              Returns  successfully  if string matches the previously-compiled
              PCRE.

              If  the  expression  captures  substrings  within   parentheses,
              pcre_match will set the array $match to those substrings, unless
              the -a option is given, in which case it will set the array arr.

       The zsh/pcre module makes available the following test condition:
       expr -pcre-match pcre
              Matches a string against a perl-compatible regular expression.

              For example,

              [[  "$text"  -pcre-match ^d+$ ]] && print text variable contains
              only "d's".


THE ZSH/SCHED MODULE

       The zsh/sched module makes available one builtin command:

       sched [-o] [+]hh:mm[:ss] command ...
       sched [-o] [+]seconds command ...
       sched [ -item ]
              Make an entry in the scheduled list of commands to execute.  The
              time  may  be specified in either absolute or relative time, and
              either as hours, minutes and (optionally) seconds separated by a
              colon,  or  seconds  alone.  An absolute number of seconds indi-
              cates the time since the epoch (1970/01/01 00:00); this is  use-
              ful in combination with the features in the zsh/datetime module,
              see the zsh/datetime module entry in zshmodules(1).

              With no arguments, prints the list of  scheduled  commands.   If
              the  scheduled command has the -o flag set, this is shown at the
              start of the command.

              With the argument `-item', removes the given item from the list.
              The  numbering of the list is continuous and entries are in time
              order, so the numbering can change when  entries  are  added  or
              deleted.

              Commands  are  executed  either  immediately before a prompt, or
              while the shell's line editor is waiting for input.  In the lat-
              ter case it is useful to be able to produce output that does not
              interfere with the line being edited.  Providing the  option  -o
              causes  the shell to clear the command line before the event and
              redraw it afterwards.  This should be used  with  any  scheduled
              event  that  produces  visible output to the terminal; it is not
              needed, for example, with output that updates a terminal  emula-
              tor's title bar.


THE ZSH/NET/SOCKET MODULE

       The zsh/net/socket module makes available one builtin command:

       zsocket [ -altv ] [ -d fd ] [ args ]
              zsocket  is  implemented as a builtin to allow full use of shell
              command line editing, file I/O, and job control mechanisms.

   Outbound Connections
       zsocket [ -v ] [ -d fd ] filename
              Open a new Unix domain connection to filename.  The shell param-
              eter  REPLY  will  be set to the file descriptor associated with
              that connection.  Currently, only stream  connections  are  sup-
              ported.

              If  -d  is  specified,  its argument will be taken as the target
              file descriptor for the connection.

              In order to elicit more verbose output, use -v.

   Inbound Connections
       zsocket -l [ -v ] [ -d fd ] filename
              zsocket -l will open a socket listening on filename.  The  shell
              parameter  REPLY  will  be set to the file descriptor associated
              with that listener.

              If -d is specified, its argument will be  taken  as  the  target
              file descriptor for the connection.

              In order to elicit more verbose output, use -v.

       zsocket -a [ -tv ] [ -d targetfd ] listenfd
              zsocket  -a  will  accept  an  incoming connection to the socket
              associated with listenfd.  The shell parameter REPLY will be set
              to the file descriptor associated with the inbound connection.

              If  -d  is  specified,  its argument will be taken as the target
              file descriptor for the connection.

              If -t is specified, zsocket will return if no  incoming  connec-
              tion is pending.  Otherwise it will wait for one.

              In order to elicit more verbose output, use -v.


THE ZSH/STAT MODULE

       The zsh/stat module makes available one builtin command:

       stat  [  -gnNolLtTrs  ] [ -f fd ] [ -H hash ] [ -A array ] [ -F fmt ] [
       +element ] [ file ... ]
              The  command  acts  as  a front end to the stat system call (see
              stat(2)).  If the stat call fails, the appropriate system  error
              message  printed and status 1 is returned.  The fields of struct
              stat give information about the files provided as  arguments  to
              the command.  In addition to those available from the stat call,
              an extra element `link' is provided.  These elements are:

              device The number of the device on which the file resides.

              inode  The unique number of the file  on  this  device  (`inode'
                     number).

              mode   The mode of the file; that is, the file's type and access
                     permissions.  With the -s option, this will  be  returned
                     as a string corresponding to the first column in the dis-
                     play of the ls -l command.

              nlink  The number of hard links to the file.

              uid    The user ID of the  owner  of  the  file.   With  the  -s
                     option, this is displayed as a user name.

              gid    The  group  ID  of the file.  With the -s option, this is
                     displayed as a group name.

              rdev   The raw device number.  This is only useful  for  special
                     devices.

              size   The size of the file in bytes.

              atime
              mtime
              ctime  The  last  access, modification and inode change times of
                     the file, respectively, as the number  of  seconds  since
                     midnight  GMT  on 1st January, 1970.  With the -s option,
                     these are printed as strings for the local time zone; the
                     format can be altered with the -F option, and with the -g
                     option the times are in GMT.

              blksize
                     The number of bytes in one allocation block on the device
                     on which the file resides.

              block  The number of disk blocks used by the file.

              link   If  the  file  is  a link and the -L option is in effect,
                     this contains the name of the file linked  to,  otherwise
                     it  is  empty.   Note  that  if  this element is selected
                     (``stat +link'') then  the  -L  option  is  automatically
                     used.

              A  particular element may be selected by including its name pre-
              ceded by a `+' in the option list; only one element is  allowed.
              The  element may be shortened to any unique set of leading char-
              acters.  Otherwise, all elements will be shown for all files.

              Options:

              -A array
                     Instead of displaying the  results  on  standard  output,
                     assign  them  to  an  array,  one struct stat element per
                     array element for each file in order.  In this case  nei-
                     ther  the  name  of the element nor the name of the files
                     appears in array unless the -t or -n options were  given,
                     respectively.   If  -t is given, the element name appears
                     as a prefix to the appropriate array element;  if  -n  is
                     given,  the file name appears as a separate array element
                     preceding all the others.  Other formatting  options  are
                     respected.

              -H hash
                     Similar  to  -A,  but  instead assign the values to hash.
                     The keys are the elements listed above.  If the -n option
                     is  provided then the name of the file is included in the
                     hash with key name.

              -f fd  Use the file on  file  descriptor  fd  instead  of  named
                     files; no list of file names is allowed in this case.

              -F fmt Supplies a strftime (see strftime(3)) string for the for-
                     matting of the time elements.  The -s option is  implied.

              -g     Show  the  time  elements  in  the GMT time zone.  The -s
                     option is implied.

              -l     List the names of the type elements (to  standard  output
                     or  an  array  as  appropriate)  and  return immediately;
                     options other than -A and arguments are ignored.

              -L     Perform an lstat (see lstat(2)) rather than a stat system
                     call.   In  this case, if the file is a link, information
                     about the link itself rather  than  the  target  file  is
                     returned.   This option is required to make the link ele-
                     ment useful.

              -n     Always show the names of files.  Usually these  are  only
                     shown when output is to standard output and there is more
                     than one file in the list.

              -N     Never show the names of files.

              -o     If a raw file mode is printed, show it in octal, which is
                     more  useful  for  human  consumption than the default of
                     decimal.  A leading zero will be printed  in  this  case.
                     Note that this does not affect whether a raw or formatted
                     file mode is shown, which is controlled by the -r and  -s
                     options, nor whether a mode is shown at all.

              -r     Print raw data (the default format) alongside string data
                     (the -s format); the string data appears  in  parentheses
                     after the raw data.

              -s     Print  mode,  uid,  gid  and  the  three time elements as
                     strings instead of numbers.  In each case the  format  is
                     like that of ls -l.

              -t     Always  show  the  type  names for the elements of struct
                     stat.  Usually these are only shown  when  output  is  to
                     standard  output  and  no  individual  element  has  been
                     selected.

              -T     Never show the type names of the struct stat elements.


THE ZSH/SYSTEM MODULE

       The zsh/system module makes available three builtin  commands  and  two
       parameters.


BUILTINS

       syserror [ -e errvar ] [ -p prefix ] [ errno | errname ]
              This command prints out the error message associated with errno,
              a system error number, followed by a newline to standard  error.

              Instead of the error number, a name errname, for example ENOENT,
              may be used.  The set of names is the same as  the  contents  of
              the array errnos, see below.

              If  the  string  prefix  is given, it is printed in front of the
              error message, with no intervening space.

              If errvar is supplied, the entire message, without a newline, is
              assigned to the parameter names errvar and nothing is output.

              A  return  status  of  0  indicates the message was successfully
              printed (although it may not be useful if the error  number  was
              out  of  the  system's range), a return status of 1 indicates an
              error in the parameters, and a return status of 2 indicates  the
              error  name was not recognised (no message is printed for this).

       sysread [ -c countvar ] [ -i infd ] [ -o outfd ]
         [ -s bufsize ] [ -t timeout ] [ param ]
              Perform a single system read from file descriptor infd, or  zero
              if that is not given.  The result of the read is stored in param
              or REPLY if that is not given.  If countvar is given, the number
              of bytes read is assigned to the parameter named by countvar.

              The  maximum  number of bytes read is bufsize or 8192 if that is
              not given, however the command returns as soon as any number  of
              bytes was successfully read.

              If  timeout  is  given, it specifies a timeout in seconds, which
              may be zero to poll the file descriptor.  This is handled by the
              poll  system call if available, otherwise the select system call
              if available.

              If outfd is given, an attempt is made to  write  all  the  bytes
              just  read to the file descriptor outfd.  If this fails, because
              of a system error other than EINTR or because of an internal zsh
              error  during  an  interrupt, the bytes read but not written are
              stored in the parameter named by param if supplied  (no  default
              is  used  in  this  case),  and the number of bytes read but not
              written is stored in the parameter named by countvar if that  is
              supplied.  If it was successful, countvar contains the full num-
              ber of bytes transferred, as usual, and param is not set.

              The error EINTR (interrupted system call) is handled  internally
              so  that  shell  interrupts  are transparent to the caller.  Any
              other error causes a return.

              The possible return statuses are
              0      At least one byte of data was successfully read  and,  if
                     appropriate, written.

              1      There  was  an  error  in  the parameters to the command.
                     This is the only error for which a message is printed  to
                     standard error.

              2      There  was  an error on the read, or on polling the input
                     file descriptor for a timeout.  The parameter ERRNO gives
                     the error.

              3      Data were successfully read, but there was an error writ-
                     ing them to outfd.  The parameter ERRNO gives the  error.

              4      The  attempt  to  read timed out.  Note this does not set
                     ERRNO as this is not a system error.

              5      No system error occurred, but zero bytes were read.  This
                     usually  indicates  end  of file.  The parameters are set
                     according to the  usual  rules;  no  write  to  outfd  is
                     attempted.

       syswrite [ -c countvar ] [ -o outfd ] data
              The  data  (a  single  string  of bytes) are written to the file
              descriptor outfd, or 1 if that is not  given,  using  the  write
              system call.  Multiple write operations may be used if the first
              does not write all the data.

              If countvar is given, the number of byte written  is  stored  in
              the parameter named by countvar; this may not be the full length
              of data if an error occurred.

              The error EINTR (interrupted system call) is handled  internally
              by  retrying;  otherwise  an error causes the command to return.
              For example, if the file descriptor is set to non-blocking  out-
              put,  an  error EAGAIN (on some systems, EWOULDBLOCK) may result
              in the command returning early.

              The return status may be 0 for success, 1 for an  error  in  the
              parameters  to  the  command, or 2 for an error on the write; no
              error message is printed in the last  case,  but  the  parameter
              ERRNO will reflect the error that occurred.


PARAMETERS

       errnos A  readonly  array of the names of errors defined on the system.
              These are typically macros defined in C by including the  system
              header  file  errno.h.   The  index  of  each name (assuming the
              option KSH_ARRAYS is unset) corresponds  to  the  error  number.
              Error numbers num before the last known error which have no name
              are given the name Enum in the array.

              Note that aliases for errors are not handled; only the canonical
              name is used.

       sysparams
              A readonly associative array.  The keys are:
       pid    Returns  the  process  ID  of  the current process, even in sub-
              shells.  Compare $$, which returns the process ID  of  the  main
              shell process.

       ppid   Returns  the  process  ID  of the parent of the current process,
              even in subshells.  Compare $PPID, which returns the process  ID
              of the parent of the main shell process.


THE ZSH/NET/TCP MODULE

       The zsh/net/tcp module makes available one builtin command:

       ztcp [ -acflLtv ] [ -d fd ] [ args ]
              ztcp is implemented as a builtin to allow full use of shell com-
              mand line editing, file I/O, and job control mechanisms.

              If ztcp is run with no options, it will output the  contents  of
              its session table.

              If  it  is  run with only the option -L, it will output the con-
              tents of the session table in a format  suitable  for  automatic
              parsing.   The option is ignored if given with a command to open
              or close a session.  The output consists of a set of lines,  one
              per session, each containing the following elements separated by
              spaces:

              File descriptor
                     The file descriptor in use for the connection.  For  nor-
                     mal  inbound (I) and outbound (O) connections this may be
                     read and written by the usual shell mechanisms.  However,
                     it should only be close with `ztcp -c'.

              Connection type
                     A letter indicating how the session was created:

                     Z      A session created with the zftp command.

                     L      A  connection opened for listening with `ztcp -l'.

                     I      An inbound connection accepted with `ztcp -a'.

                     O      An outbound connection  created  with  `ztcp  host
                            ...'.

              The local host
                     This  is  usually  set  to  an all-zero IP address as the
                     address of the localhost is irrelevant.

              The local port
                     This is likely to be zero unless the  connection  is  for
                     listening.

              The remote host
                     This  is  the fully qualified domain name of the peer, if
                     available, else an IP address.   It  is  an  all-zero  IP
                     address for a session opened for listening.

              The remote port
                     This is zero for a connection opened for listening.

   Outbound Connections
       ztcp [ -v ] [ -d fd ] host [ port ]
              Open  a  new TCP connection to host.  If the port is omitted, it
              will default to port 23.  The connection will be  added  to  the
              session  table  and the shell parameter REPLY will be set to the
              file descriptor associated with that connection.

              If -d is specified, its argument will be  taken  as  the  target
              file descriptor for the connection.

              In order to elicit more verbose output, use -v.

   Inbound Connections
       ztcp -l [ -v ] [ -d fd ] port
              ztcp  -l  will  open a socket listening on TCP port.  The socket
              will be added to the session table and the shell parameter REPLY
              will  be  set  to  the file descriptor associated with that lis-
              tener.

              If -d is specified, its argument will be  taken  as  the  target
              file descriptor for the connection.

              In order to elicit more verbose output, use -v.

       ztcp -a [ -tv ] [ -d targetfd ] listenfd
              ztcp  -a  will accept an incoming connection to the port associ-
              ated with listenfd.  The connection will be added to the session
              table  and  the  shell  parameter  REPLY will be set to the file
              descriptor associated with the inbound connection.

              If -d is specified, its argument will be  taken  as  the  target
              file descriptor for the connection.

              If  -t  is specified, ztcp will return if no incoming connection
              is pending.  Otherwise it will wait for one.

              In order to elicit more verbose output, use -v.

   Closing Connections
       ztcp -cf [ -v ] [ fd ]
       ztcp -c [ -v ] [ fd ]
              ztcp -c will close the socket associated with  fd.   The  socket
              will be removed from the session table.  If fd is not specified,
              ztcp will close everything in the session table.

              Normally, sockets registered by zftp (see zshmodules(1) ) cannot
              be closed this way.  In order to force such a socket closed, use
              -f.

              In order to elicit more verbose output, use -v.

   Example
       Here is how to create a TCP connection between two  instances  of  zsh.
       We  need  to  pick  an unassigned port; here we use the randomly chosen
       5123.

       On host1,
              zmodload zsh/net/tcp
              ztcp -l 5123
              listenfd=$REPLY
              ztcp -a $listenfd
              fd=$REPLY
       The second from last command blocks until there is an incoming  connec-
       tion.

       Now  create  a connection from host2 (which may, of course, be the same
       machine):
              zmodload zsh/net/tcp
              ztcp host1 5123
              fd=$REPLY

       Now on each host, $fd contains a file descriptor  for  talking  to  the
       other.  For example, on host1:
              print This is a message >&$fd
       and on host2:
              read -r line <&$fd; print -r - $line
       prints `This is a message'.

       To tidy up, on host1:
              ztcp -c $listenfd
              ztcp -c $fd
       and on host2
              ztcp -c $fd


THE ZSH/TERMCAP MODULE

       The zsh/termcap module makes available one builtin command:

       echotc cap [ arg ... ]
              Output  the  termcap  value corresponding to the capability cap,
              with optional arguments.

       The zsh/termcap module makes available one parameter:

       termcap
              An associative array that maps termcap capability codes to their
              values.


THE ZSH/TERMINFO MODULE

       The zsh/terminfo module makes available one builtin command:

       echoti cap [ arg ]
              Output  the  terminfo value corresponding to the capability cap,
              instantiated with arg if applicable.

       The zsh/terminfo module makes available one parameter:

       terminfo
              An associative array that  maps  terminfo  capability  names  to
              their values.


THE ZSH/ZFTP MODULE

       The zsh/zftp module makes available one builtin command:

       zftp subcommand [ args ]
              The  zsh/zftp  module  is a client for FTP (file transfer proto-
              col).  It is implemented as a builtin to allow full use of shell
              command  line  editing,  file  I/O,  and job control mechanisms.
              Often, users will access it via shell functions providing a more
              powerful  interface; a set is provided with the zsh distribution
              and is described in zshzftpsys(1).  However, the zftp command is
              entirely usable in its own right.

              All  commands  consist  of the command name zftp followed by the
              name of a subcommand.  These are listed below.  The return  sta-
              tus  of  each  subcommand  is supposed to reflect the success or
              failure of the remote operation.  See a description of the vari-
              able ZFTP_VERBOSE for more information on how responses from the
              server may be printed.

   Subcommands
       open host[:port] [ user [ password [ account ] ] ]
              Open a new FTP session to host, which  may  be  the  name  of  a
              TCP/IP  connected host or an IP number in the standard dot nota-
              tion.  If the argument is in the form host:port, open a  connec-
              tion to TCP port port instead of the standard FTP port 21.  This
              may be the name of a TCP service or a number:  see the  descrip-
              tion of ZFTP_PORT below for more information.

              If  IPv6  addresses in colon format are used, the host should be
              surrounded by quoted square brackets to distinguish it from  the
              port, for example '[fe80::203:baff:fe02:8b56]'.  For consistency
              this is allowed with all forms of host.

              Remaining arguments are passed to the  login  subcommand.   Note
              that  if  no  arguments  beyond host are supplied, open will not
              automatically call login.  If no arguments at all are  supplied,
              open will use the parameters set by the params subcommand.

              After   a   successful  open,  the  shell  variables  ZFTP_HOST,
              ZFTP_PORT, ZFTP_IP and ZFTP_SYSTEM  are  available;  see  `Vari-
              ables' below.

       login [ name [ password [ account ] ] ]
       user [ name [ password [ account ] ] ]
              Login  the  user name with parameters password and account.  Any
              of the parameters can be omitted, and will be read from standard
              input if needed (name is always needed).  If standard input is a
              terminal, a prompt for each one  will  be  printed  on  standard
              error and password will not be echoed.  If any of the parameters
              are not used, a warning message is printed.

              After  a  successful  login,  the  shell  variables   ZFTP_USER,
              ZFTP_ACCOUNT  and ZFTP_PWD are available; see `Variables' below.

              This command may be re-issued when a user is already logged  in,
              and the server will first be reinitialized for a new user.

       params [ host [ user [ password [ account ] ] ] ]
       params -
              Store  the  given  parameters  for  a later open command with no
              arguments.  Only those given on the command line will be  remem-
              bered.   If no arguments are given, the parameters currently set
              are printed, although the password will  appear  as  a  line  of
              stars;  the return status is one if no parameters were set, zero
              otherwise.

              Any of the parameters may be specified as a `?', which may  need
              to  be quoted to protect it from shell expansion.  In this case,
              the appropriate parameter will be read from stdin  as  with  the
              login  subcommand,  including  special handling of password.  If
              the `?' is followed by a string, that is used as the prompt  for
              reading the parameter instead of the default message (any neces-
              sary punctuation and whitespace should be included at the end of
              the  prompt).   The  first letter of the parameter (only) may be
              quoted with a `\'; hence an argument "\\$word"  guarantees  that
              the string from the shell parameter $word will be treated liter-
              ally, whether or not it begins with a `?'.

              If instead a single `-' is given, the  existing  parameters,  if
              any,  are deleted.  In that case, calling open with no arguments
              will cause an error.

              The list of parameters is not deleted after a close, however  it
              will be deleted if the zsh/zftp module is unloaded.

              For example,

                     zftp params ftp.elsewhere.xx juser '?Password for juser: '

              will store the host ftp.elsewhere.xx and the user juser and then
              prompt the user for the corresponding password  with  the  given
              prompt.

       test   Test  the  connection;  if  the  server has reported that it has
              closed the connection (maybe due to a timeout), return status 2;
              if  no  connection was open anyway, return status 1; else return
              status 0.  The test subcommand is silent,  apart  from  messages
              printed by the $ZFTP_VERBOSE mechanism, or error messages if the
              connection closes.  There is no network overhead for this  test.

              The  test is only supported on systems with either the select(2)
              or poll(2) system calls; otherwise the message `not supported on
              this system' is printed instead.

              The test subcommand will automatically be called at the start of
              any other subcommand for the current session when  a  connection
              is open.

       cd directory
              Change the remote directory to directory.  Also alters the shell
              variable ZFTP_PWD.

       cdup   Change the remote directory to the one higher in  the  directory
              tree.  Note that cd .. will also work correctly on non-UNIX sys-
              tems.

       dir [ args... ]
              Give a (verbose) listing of the remote directory.  The args  are
              passed directly to the server. The command's behaviour is imple-
              mentation dependent, but a UNIX server will typically  interpret
              args as arguments to the ls command and with no arguments return
              the result of `ls -l'. The directory is listed to standard  out-
              put.

       ls [ args ]
              Give  a  (short) listing of the remote directory.  With no args,
              produces a raw list of the files in the directory, one per line.
              Otherwise,  up to vagaries of the server implementation, behaves
              similar to dir.

       type [ type ]
              Change the type for the transfer to type, or print  the  current
              type if type is absent.  The allowed values are `A' (ASCII), `I'
              (Image, i.e. binary), or `B' (a synonym for `I').

              The FTP default for a transfer is ASCII.  However, if zftp finds
              that  the remote host is a UNIX machine with 8-bit byes, it will
              automatically switch to using binary  for  file  transfers  upon
              open.  This can subsequently be overridden.

              The  transfer type is only passed to the remote host when a data
              connection is established;  this  command  involves  no  network
              overhead.

       ascii  The same as type A.

       binary The same as type I.

       mode [ S | B ]
              Set  the  mode  type to stream (S) or block (B).  Stream mode is
              the default; block mode is not widely supported.

       remote files...
       local [ files... ]
              Print the size and last modification time of the remote or local
              files.   If there is more than one item on the list, the name of
              the file is printed first.  The first number is the  file  size,
              the second is the last modification time of the file in the for-
              mat CCYYMMDDhhmmSS consisting of year, month, date,  hour,  min-
              utes  and  seconds in GMT.  Note that this format, including the
              length, is guaranteed, so that time strings can be directly com-
              pared  via  the [[ builtin's < and > operators, even if they are
              too long to be represented as integers.

              Not all servers support the commands for retrieving this  infor-
              mation.  In that case, the remote command will print nothing and
              return status 2, compared with status 1 for a file not found.

              The local command (but not remote) may be  used  with  no  argu-
              ments,  in  which case the information comes from examining file
              descriptor zero.  This is the same file as seen by a put command
              with no further redirection.

       get file [...]
              Retrieve all files from the server, concatenating them and send-
              ing them to standard output.

       put file [...]
              For each file, read a file from standard input and send that  to
              the remote host with the given name.

       append file [...]
              As  put, but if the remote file already exists, data is appended
              to it instead of overwriting it.

       getat file point
       putat file point
       appendat file point
              Versions of get, put and append which will start the transfer at
              the  given point in the remote file.  This is useful for append-
              ing to an incomplete local file.  However, note that this  abil-
              ity  is  not  universally supported by servers (and is not quite
              the behaviour specified by the standard).

       delete file [...]
              Delete the list of files on the server.

       mkdir directory
              Create a new directory directory on the server.

       rmdir directory
              Delete the directory directory  on the server.

       rename old-name new-name
              Rename file old-name to new-name on the server.

       site args...
              Send a host-specific command to the server.  You  will  probably
              only need this if instructed by the server to use it.

       quote args...
              Send  the raw FTP command sequence to the server.  You should be
              familiar with the FTP command set as defined  in  RFC959  before
              doing  this.   Useful  commands may include STAT and HELP.  Note
              also the mechanism for returning messages as described  for  the
              variable  ZFTP_VERBOSE  below,  in  particular that all messages
              from the control connection are sent to standard error.

       close
       quit   Close the current data connection.  This unsets the shell param-
              eters  ZFTP_HOST,  ZFTP_PORT,  ZFTP_IP,  ZFTP_SYSTEM, ZFTP_USER,
              ZFTP_ACCOUNT, ZFTP_PWD, ZFTP_TYPE and ZFTP_MODE.

       session [ sessname ]
              Allows multiple FTP sessions to be used at once.   The  name  of
              the  session  is  an arbitrary string of characters; the default
              session is called `default'.  If this command is called  without
              an  argument,  it  will  list  all the current sessions; with an
              argument, it will either switch to the existing  session  called
              sessname, or create a new session of that name.

              Each  session remembers the status of the connection, the set of
              connection-specific shell parameters (the same set as are  unset
              when a connection closes, as given in the description of close),
              and any user parameters specified with  the  params  subcommand.
              Changing  to  a previous session restores those values; changing
              to a new session initialises them in the same way as if zftp had
              just  been  loaded.  The name of the current session is given by
              the parameter ZFTP_SESSION.

       rmsession [ sessname ]
              Delete a session; if a name is not given, the current session is
              deleted.  If the current session is deleted, the earliest exist-
              ing session becomes the new current session, otherwise the  cur-
              rent  session  is  not changed.  If the session being deleted is
              the only one, a new session  called  `default'  is  created  and
              becomes  the  current  session;  note that this is a new session
              even if the session being deleted is also called  `default'.  It
              is  recommended  that  sessions  not be deleted while background
              commands which use zftp are still active.

   Parameters
       The following shell parameters are used by  zftp.   Currently  none  of
       them are special.

       ZFTP_TMOUT
              Integer.  The time in seconds to wait for a network operation to
              complete before returning an error.  If this is not set when the
              module  is  loaded,  it  will  be given the default value 60.  A
              value of zero turns off timeouts.  If a timeout  occurs  on  the
              control  connection  it  will  be closed.  Use a larger value if
              this occurs too frequently.

       ZFTP_IP
              Readonly.  The IP address of the current connection in dot nota-
              tion.

       ZFTP_HOST
              Readonly.   The  hostname  of the current remote server.  If the
              host was  opened  as  an  IP  number,  ZFTP_HOST  contains  that
              instead;  this  saves the overhead for a name lookup, as IP num-
              bers are most commonly used when a nameserver is unavailable.

       ZFTP_PORT
              Readonly.  The number of the remote TCP port to which  the  con-
              nection  is open (even if the port was originally specified as a
              named service).  Usually this is the standard FTP port, 21.

              In the unlikely event that your system does not have the  appro-
              priate conversion functions, this appears in network byte order.
              If your system is little-endian, the port then consists  of  two
              swapped  bytes  and  the standard port will be reported as 5376.
              In that case, numeric ports passed to zftp open will  also  need
              to be in this format.

       ZFTP_SYSTEM
              Readonly.   The  system  type  string  returned by the server in
              response to an FTP SYST request.  The most interesting case is a
              string beginning "UNIX Type: L8", which ensures maximum compati-
              bility with a local UNIX host.

       ZFTP_TYPE
              Readonly.  The type to be used for data transfers ,  either  `A'
              or `I'.   Use the type subcommand to change this.

       ZFTP_USER
              Readonly.  The username currently logged in, if any.

       ZFTP_ACCOUNT
              Readonly.   The  account name of the current user, if any.  Most
              servers do not require an account name.

       ZFTP_PWD
              Readonly.  The current directory on the server.

       ZFTP_CODE
              Readonly.  The three digit code of the last FTP reply  from  the
              server as a string.  This can still be read after the connection
              is closed, and is not changed when the current session  changes.

       ZFTP_REPLY
              Readonly.   The  last line of the last reply sent by the server.
              This can still be read after the connection is  closed,  and  is
              not changed when the current session changes.

       ZFTP_SESSION
              Readonly.  The name of the current FTP session; see the descrip-
              tion of the session subcommand.

       ZFTP_PREFS
              A string of preferences for altering aspects  of  zftp's  behav-
              iour.  Each preference is a single character.  The following are
              defined:

              P      Passive:  attempt to make the remote server initiate data
                     transfers.  This is slightly more efficient than sendport
                     mode.  If the letter S occurs later in the  string,  zftp
                     will  use sendport mode if passive mode is not available.

              S      Sendport:  initiate transfers by the  FTP  PORT  command.
                     If  this  occurs before any P in the string, passive mode
                     will never be attempted.

              D      Dumb:  use only the bare minimum of FTP  commands.   This
                     prevents  the  variables  ZFTP_SYSTEM  and  ZFTP_PWD from
                     being set, and will mean all connections default to ASCII
                     type.   It  may prevent ZFTP_SIZE from being set during a
                     transfer if the server does  not  send  it  anyway  (many
                     servers do).

              If  ZFTP_PREFS is not set when zftp is loaded, it will be set to
              a default of `PS', i.e. use passive mode if available, otherwise
              fall back to sendport mode.

       ZFTP_VERBOSE
              A  string  of digits between 0 and 5 inclusive, specifying which
              responses from the server should be printed.  All  responses  go
              to  standard  error.  If any of the numbers 1 to 5 appear in the
              string, raw responses from the server with reply codes beginning
              with  that  digit  will be printed to standard error.  The first
              digit of the three digit reply code is defined by RFC959 to cor-
              respond to:

              1.     A positive preliminary reply.

              2.     A positive completion reply.

              3.     A positive intermediate reply.

              4.     A transient negative completion reply.

              5.     A permanent negative completion reply.

              It should be noted that, for unknown reasons, the reply `Service
              not available', which forces termination  of  a  connection,  is
              classified  as  421,  i.e.  `transient negative', an interesting
              interpretation of the word `transient'.

              The code 0 is special:  it indicates that all but the last  line
              of  multiline  replies  read  from the server will be printed to
              standard error in a processed format.   By  convention,  servers
              use this mechanism for sending information for the user to read.
              The appropriate reply code, if it  matches  the  same  response,
              takes priority.

              If  ZFTP_VERBOSE  is not set when zftp is loaded, it will be set
              to the default value 450, i.e., messages destined for  the  user
              and  all  errors  will  be  printed.  A null string is valid and
              specifies that no messages should be printed.

   Functions
       zftp_chpwd
              If this function is set by the user, it is called every time the
              directory changes on the server, including when a user is logged
              in, or when a connection is closed.  In the last case, $ZFTP_PWD
              will be unset; otherwise it will reflect the new directory.

       zftp_progress
              If  this function is set by the user, it will be called during a
              get, put or append operation each time sufficient data has  been
              received from the host.  During a get, the data is sent to stan-
              dard output, so it is vital that this function should  write  to
              standard error or directly to the terminal, not to standard out-
              put.

              When it is called with a transfer  in  progress,  the  following
              additional shell parameters are set:

              ZFTP_FILE
                     The name of the remote file being transferred from or to.

              ZFTP_TRANSFER
                     A G for a get operation and a P for a put operation.

              ZFTP_SIZE
                     The total size of the complete  file  being  transferred:
                     the  same  as  the first value provided by the remote and
                     local subcommands for a particular file.  If  the  server
                     cannot   supply  this  value  for  a  remote  file  being
                     retrieved, it will not be set.  If input is from  a  pipe
                     the  value  may  be  incorrect and correspond simply to a
                     full pipe buffer.

              ZFTP_COUNT
                     The amount of data so far transferred; a  number  between
                     zero  and  $ZFTP_SIZE,  if  that  is set.  This number is
                     always available.

              The function is initially called with ZFTP_TRANSFER  set  appro-
              priately and ZFTP_COUNT set to zero.  After the transfer is fin-
              ished,  the  function  will  be  called  one  more   time   with
              ZFTP_TRANSFER set to GF or PF, in case it wishes to tidy up.  It
              is  otherwise  never  called  twice  with  the  same  value   of
              ZFTP_COUNT.

              Sometimes  the progress meter may cause disruption.  It is up to
              the user to decide whether the function should be defined and to
              use unfunction when necessary.

   Problems
       A  connection may not be opened in the left hand side of a pipe as this
       occurs in a subshell and the file information is  not  updated  in  the
       main shell.  In the case of type or mode changes or closing the connec-
       tion in a subshell, the information is returned but variables  are  not
       updated until the next call to zftp.  Other status changes in subshells
       will not be reflected by changes to the variables (but should be other-
       wise harmless).

       Deleting  sessions while a zftp command is active in the background can
       have unexpected effects, even if it does  not  use  the  session  being
       deleted.   This  is because all shell subprocesses share information on
       the state of all connections, and deleting a session changes the order-
       ing of that information.

       On  some operating systems, the control connection is not valid after a
       fork(), so that operations in subshells, on the left  hand  side  of  a
       pipeline,  or  in  the  background are not possible, as they should be.
       This is presumably a bug in the operating system.


THE ZSH/ZLE MODULE

       The zsh/zle module contains the Zsh Line Editor.  See zshzle(1).


THE ZSH/ZLEPARAMETER MODULE

       The zsh/zleparameter module defines two special parameters that can  be
       used  to  access  internal information of the Zsh Line Editor (see zsh-
       zle(1)).

       keymaps
              This array contains the names of the keymaps currently  defined.

       widgets
              This  associative  array  contains one entry per widget defined.
              The name of the widget is the key and the value  gives  informa-
              tion  about  the  widget.  It is either the string `builtin' for
              builtin  widgets,  a  string  of  the   form   `user:name'   for
              user-defined  widgets, where name is the name of the shell func-
              tion implementing the widget, or it is  a  string  of  the  form
              `completion:type:name', for completion widgets. In the last case
              type is the name of the builtin widgets  the  completion  widget
              imitates in its behavior and name is the name of the shell func-
              tion implementing the completion widget.


THE ZSH/ZPROF MODULE

       When loaded, the zsh/zprof causes shell functions to be profiled.   The
       profiling  results  can be obtained with the zprof builtin command made
       available by this module.  There is no way to turn profiling off  other
       than unloading the module.

       zprof [ -c ]
              Without the -c option, zprof lists profiling results to standard
              output.  The format is  comparable  to  that  of  commands  like
              gprof.

              At  the  top  there is a summary listing all functions that were
              called at least once.  This  summary  is  sorted  in  decreasing
              order  of  the  amount of time spent in each.  The lines contain
              the number of the function in order,  which  is  used  in  other
              parts  of  the list in suffixes of the form `[num]'.RE, then the
              number of calls made to the function.  The  next  three  columns
              list  the  time  in  milliseconds  spent in the function and its
              descendents, the average time in milliseconds spent in the func-
              tion  and  its  descendents  per call and the percentage of time
              spent in all shell functions  used  in  this  function  and  its
              descendents.  The following three columns give the same informa-
              tion, but counting only the time spent in the  function  itself.
              The final column shows the name of the function.

              After  the  summary,  detailed  information about every function
              that was invoked is listed, sorted in decreasing  order  of  the
              amount of time spent in each function and its descendents.  Each
              of these entries consists of descriptions for the functions that
              called  the  function  described,  the  function itself, and the
              functions that were called from it.   The  description  for  the
              function itself has the same format as in the summary (and shows
              the same information).  The other lines don't show the number of
              the  function  at  the  beginning  and have their function named
              indented to make it easier to distinguish the line  showing  the
              function described in the section from the surrounding lines.

              The  information shown in this case is almost the same as in the
              summary, but only refers to the call hierarchy being  displayed.
              For example, for a calling function the column showing the total
              running time lists the time spent in the described function  and
              its  descendents only for the times when it was called from that
              particular calling function.  Likewise, for a  called  function,
              this  columns  lists the total time spent in the called function
              and its descendents only for the times when it was  called  from
              the function described.

              Also  in  this case, the column showing the number of calls to a
              function also shows a slash and then the total number of invoca-
              tions made to the called function.

              As  long  as  the  zsh/zprof module is loaded, profiling will be
              done and multiple invocations of the zprof builtin command  will
              show the times and numbers of calls since the module was loaded.
              With the -c option, the zprof builtin  command  will  reset  its
              internal counters and will not show the listing.  )


THE ZSH/ZPTY MODULE

       The zsh/zpty module offers one builtin:

       zpty [ -e ] [ -b ] name [ arg ... ]
              The  arguments  following  name  are  concatenated  with  spaces
              between, then executed as a command, as if passed  to  the  eval
              builtin.   The command runs under a newly assigned pseudo-termi-
              nal; this is useful for running commands non-interactively which
              expect  an interactive environment.  The name is not part of the
              command, but is used to refer to this command in later calls  to
              zpty.

              With  the -e option, the pseudo-terminal is set up so that input
              characters are echoed.

              With the -b option, input to and output from the pseudo-terminal
              are made non-blocking.

       zpty -d [ names ... ]
              The  second form, with the -d option, is used to delete commands
              previously started, by supplying a list of their names.   If  no
              names  are  given, all commands are deleted.  Deleting a command
              causes the HUP signal to be sent to the corresponding process.

       zpty -w [ -n ] name [ strings ... ]
              The -w option can be used to send the to command name the  given
              strings as input (separated by spaces).  If the -n option is not
              given, a newline is added at the end.

              If no strings are provided, the standard input is copied to  the
              pseudo-terminal;  this may stop before copying the full input if
              the pseudo-terminal is non-blocking.

              Note that the command under the pseudo-terminal sees this  input
              as  if  it were typed, so beware when sending special tty driver
              characters such as word-erase, line-kill, and end-of-file.

       zpty -r [ -t ] name [ param [ pattern ] ]
              The -r option can be used to read  the  output  of  the  command
              name.   With  only a name argument, the output read is copied to
              the standard output.  Unless the pseudo-terminal  is  non-block-
              ing, copying continues until the command under the pseudo-termi-
              nal exits; when non-blocking, only as much output as is  immedi-
              ately  available  is  copied.   The return status is zero if any
              output is copied.

              When also given a param argument, at most one line is  read  and
              stored  in the parameter named param.  Less than a full line may
              be read if the pseudo-terminal is non-blocking.  The return sta-
              tus is zero if at least one character is stored in param.

              If  a  pattern  is given as well, output is read until the whole
              string read matches the pattern, even in the non-blocking  case.
              The  return  status  is zero if the string read matches the pat-
              tern, or if the command has exited but at  least  one  character
              could  still  be  read.   As  of  this writing, a maximum of one
              megabyte of output can be consumed this way; if a full  megabyte
              is  read  without  matching  the  pattern,  the return status is
              non-zero.

              In all cases, the return status is non-zero if nothing could  be
              read, and is 2 if this is because the command has finished.

              If  the  -r  option  is  combined with the -t option, zpty tests
              whether output is available before trying to read.  If no output
              is available, zpty immediately returns the status 1.

       zpty -t name
              The  -t option without the -r option can be used to test whether
              the command name is still running.  It returns a zero status  if
              the command is running and a non-zero value otherwise.

       zpty [ -L ]
              The  last  form, without any arguments, is used to list the com-
              mands currently defined.  If the -L option  is  given,  this  is
              done in the form of calls to the zpty builtin.


THE ZSH/ZSELECT MODULE

       The zsh/zselect module makes available one builtin command:

       zselect [ -rwe -t timeout -a array ] [ fd ... ]
              The  zselect builtin is a front-end to the `select' system call,
              which blocks until a file descriptor is  ready  for  reading  or
              writing,  or  has  an error condition, with an optional timeout.
              If this is not available on your system, the command  prints  an
              error  message and returns status 2 (normal errors return status
              1).  For more information, see your  systems  documentation  for
              select(3).   Note  there is no connection with the shell builtin
              of the same name.

              Arguments  and  options  may  be  intermingled  in  any   order.
              Non-option arguments are file descriptors, which must be decimal
              integers.  By default, file descriptors are  to  be  tested  for
              reading,  i.e.  zselect will return when data is available to be
              read from the file descriptor, or more precisely,  when  a  read
              operation  from the file descriptor will not block.  After a -r,
              -w and -e, the given file descriptors are to be tested for read-
              ing,  writing,  or error conditions.  These options and an arbi-
              trary list of file descriptors may be given in any order.

              (The presence of an `error condition' is not well defined in the
              documentation  for  many  implementations  of  the select system
              call.  According to recent versions of the POSIX  specification,
              it  is really an exception condition, of which the only standard
              example is out-of-band data received on a socket.  So zsh  users
              are unlikely to find the -e option useful.)

              The  option  `-t timeout' specifies a timeout in hundredths of a
              second.  This may be zero, in which case  the  file  descriptors
              will  simply  be polled and zselect will return immediately.  It
              is possible to call zselect  with  no  file  descriptors  and  a
              non-zero  timeout  for  use  as  a finer-grained replacement for
              `sleep'; not, however, the return status is always 1 for a time-
              out.

              The  option  `-a  array'  indicates  that array should be set to
              indicate the file descriptor(s) which are ready.  If the  option
              is  not  given,  the  array reply will be used for this purpose.
              The array will contain a string similar  to  the  arguments  for
              zselect.  For example,

                     zselect -t 0 -r 0 -w 1

              might return immediately with status 0 and $reply containing `-r
              0 -w 1' to show that both file descriptors  are  ready  for  the
              requested operations.

              The option `-A assoc' indicates that the associative array assoc
              should be set to  indicate  the  file  descriptor(s(  which  are
              ready.   This  option overrides the option -a, nor will reply be
              modified.  The keys of assoc are the file descriptors,  and  the
              corresponding values are any of the characters `rwe' to indicate
              the condition.

              The command returns status 0 if some file descriptors are  ready
              for  reading.  If the operation timed out, or a timeout of 0 was
              given and no file descriptors were ready, or there was an error,
              it  returns status 1 and the array will not be set (nor modified
              in any way).  If there was an error in the select operation  the
              appropriate error message is printed.


THE ZSH/ZUTIL MODULE

       The zsh/zutil module only adds some builtins:

       zstyle [ -L [ pattern [ style ] ] ]
       zstyle [ -e | - | -- ] pattern style strings ...
       zstyle -d [ pattern [ styles ... ] ]
       zstyle -g name [ pattern [ style ] ]
       zstyle -abs context style name [ sep ]
       zstyle -Tt context style [ strings ...]
       zstyle -m context style pattern
              This  builtin  command  is  used  to  define  and lookup styles.
              Styles are pairs of names and values, where the  values  consist
              of  any  number  of strings.  They are stored together with pat-
              terns and lookup is done by giving a string,  called  the  `con-
              text', which is compared to the patterns.  The definition stored
              for the first matching pattern will be returned.

              For ordering of comparisons, patterns  are  searched  from  most
              specific  to  least specific, and patterns that are equally spe-
              cific keep the order in which they were defined.  A  pattern  is
              considered  to be more specific than another if it contains more
              components (substrings separated by colons) or if  the  patterns
              for  the  components are more specific, where simple strings are
              considered to be more specific than patterns  and  complex  pat-
              terns are considered to be more specific than the pattern `*'.

              The  first form (without arguments) lists the definitions in the
              order zstyle will test them.

              If the -L option is given, listing is done in the form of  calls
              to  zstyle.  The optional first argument is a pattern which will
              be matched against the string supplied as the  pattern  for  the
              context; note that this means, for example, `zstyle -L ":comple-
              tion:*"' will match any  supplied  pattern  beginning  `:comple-
              tion:', not just ":completion:*":  use ":completion:\*" to match
              that.  The optional second argument limits the output to a  spe-
              cific  style  (not  a  pattern).   -L is not compatible with any
              other options.

              The other forms are the following:

              zstyle [ - | -- | -e ] pattern style strings ...
                     Defines the given style for the pattern with the  strings
                     as  the  value.   If  the -e option is given, the strings
                     will  be  concatenated  (separated  by  spaces)  and  the
                     resulting string will be evaluated (in the same way as it
                     is done by the eval builtin command) when  the  style  is
                     looked  up.   In  this case the parameter `reply' must be
                     assigned to set the strings returned  after  the  evalua-
                     tion.   Before  evaluating the value, reply is unset, and
                     if it is still unset after the evaluation, the  style  is
                     treated as if it were not set.

              zstyle -d [ pattern [ styles ... ] ]
                     Delete  style  definitions. Without arguments all defini-
                     tions are deleted, with a  pattern  all  definitions  for
                     that  pattern  are  deleted  and if any styles are given,
                     then only those styles are deleted for the pattern.

              zstyle -g name [ pattern [ style ] ]
                     Retrieve a style definition. The name is used as the name
                     of  an array in which the results are stored. Without any
                     further arguments, all  patterns  defined  are  returned.
                     With  a  pattern  the styles defined for that pattern are
                     returned and with both a pattern and a style,  the  value
                     strings of that combination is returned.

              The other forms can be used to look up or test patterns.

              zstyle -s context style name [ sep ]
                     The  parameter  name  is  set  to  the value of the style
                     interpreted as a string.  If the value  contains  several
                     strings  they  are  concatenated with spaces (or with the
                     sep string if that is given) between them.

              zstyle -b context style name
                     The value is stored in name as a  boolean,  i.e.  as  the
                     string  `yes'  if  the value has only one string and that
                     string is equal to one of `yes', `true', `on', or `1'. If
                     the  value  is  any  other  string  or  has more than one
                     string, the parameter is set to `no'.

              zstyle -a context style name
                     The value is stored in name  as  an  array.  If  name  is
                     declared as an associative array,  the first, third, etc.
                     strings are used as the keys and the  other  strings  are
                     used as the values.

              zstyle -t context style [ strings ...]
              zstyle -T context style [ strings ...]
                     Test  the  value  of  a  style,  i.e.  the -t option only
                     returns a status (sets  $?).   Without  any  strings  the
                     return  status  is  zero  if  the style is defined for at
                     least one matching pattern, has only one  string  in  its
                     value, and that is equal to one of `true', `yes', `on' or
                     `1'. If any strings are given the status is zero  if  and
                     only  if at least one of the strings is equal to at least
                     one of the strings in the value.  If  the  style  is  not
                     defined, the status is 2.

                     The  -T option tests the values of the style like -t, but
                     it returns status zero (rather than 2) if  the  style  is
                     not defined for any matching pattern.

              zstyle -m context style pattern
                     Match a value. Returns status zero if the pattern matches
                     at least one of the strings in the value.

       zformat -f param format specs ...
       zformat -a array sep specs ...
              This builtin provides two different  forms  of  formatting.  The
              first form is selected with the -f option. In this case the for-
              mat string will be modified by replacing sequences starting with
              a  percent  sign  in  it with strings from the specs.  Each spec
              should be of the  form  `char:string'  which  will  cause  every
              appearance  of  the sequence `%char' in format to be replaced by
              the string.  The `%' sequence may also contain optional  minimum
              and  maximum  field width specifications between the `%' and the
              `char' in the form `%min.maxc', i.e. the minimum field width  is
              given first and if the maximum field width is used, it has to be
              preceded by a dot.  Specifying a minimum field width  makes  the
              result  be  padded  with  spaces  to  the right if the string is
              shorter than the requested width.  Padding to the  left  can  be
              achieved by giving a negative minimum field width.  If a maximum
              field width is specified, the string  will  be  truncated  after
              that  many  characters.   After  all `%' sequences for the given
              specs have been processed, the resulting string is stored in the
              parameter param.

              The  %-escapes  also  understand ternary expressions in the form
              used by prompts.  The % is followed by a `(' and then  an  ordi-
              nary  format  specifier character as described above.  There may
              be a set of digits either before or after the `('; these specify
              a  test  number,  which  defaults to zero.  Negative numbers are
              also allowed.  An arbitrary delimiter character follows the for-
              mat  specifier, which is followed by a piece of `true' text, the
              delimiter character again, a piece of `false' text, and a  clos-
              ing  parenthesis.   The complete expression (without the digits)
              thus looks like `%(X.text1.text2)', except that the `.'  charac-
              ter  is  arbitrary.  The value given for the format specifier in
              the char:string  expressions  is  evaluated  as  a  mathematical
              expression,  and compared with the test number.  If they are the
              same, text1 is output, else text2 is output.  A parenthesis  may
              be escaped in text2 as %).  Either of text1 or text2 may contain
              nested %-escapes.

              For example:

                     zformat -f REPLY "The answer is '%3(c.yes.no)'." c:3

              outputs "The answer is 'yes'." to REPLY since the value for  the
              format specifier c is 3, agreeing with the digit argument to the
              ternary expression.

              The second form, using the -a option, can be used  for  aligning
              strings.   Here,  the  specs  are of the form `left:right' where
              `left' and `right' are arbitrary  strings.   These  strings  are
              modified  by  replacing the colons by the sep string and padding
              the left strings with spaces  to  the  right  so  that  the  sep
              strings  in  the result (and hence the right strings after them)
              are all aligned if the strings are  printed  below  each  other.
              All  strings  without a colon are left unchanged and all strings
              with an empty right string have the trailing colon removed.   In
              both  cases the lengths of the strings are not used to determine
              how the other strings are to be aligned.  The resulting  strings
              are stored in the array.

       zregexparse
              This implements some internals of the _regex_arguments function.

       zparseopts [ -D ] [ -K ] [ -E ] [ -a array ] [ -A assoc ] specs
              This builtin simplifies the parsing  of  options  in  positional
              parameters,  i.e.  the  set of arguments given by $*.  Each spec
              describes one option and must be of the form `opt[=array]'.   If
              an option described by opt is found in the positional parameters
              it is copied into the array specified with the -a option; if the
              optional  `=array'  is  given,  it  is  instead copied into that
              array.

              Note that it is an error to give any spec  without  an  `=array'
              unless one of the -a or -A options is used.

              Unless the -E option is given, parsing stops at the first string
              that isn't described by one of the specs.  Even with -E, parsing
              always stops at a positional parameter equal to `-' or `--'.

              The  opt  description  must be one of the following.  Any of the
              special characters can appear in the option name provided it  is
              preceded by a backslash.

              name
              name+  The  name  is  the name of the option without the leading
                     `-'.  To specify a GNU-style  long  option,  one  of  the
                     usual two leading `-' must be included in name; for exam-
                     ple, a `--file'  option  is  represented  by  a  name  of
                     `-file'.

                     If  a  `+'  appears after name, the option is appended to
                     array each time it is found in the positional parameters;
                     without the `+' only the last occurrence of the option is
                     preserved.

                     If one of these forms is used, the option takes no  argu-
                     ment,  so  parsing stops if the next positional parameter
                     does not also begin with `-' (unless  the  -E  option  is
                     used).

              name:
              name:-
              name:: If one or two colons are given, the option takes an argu-
                     ment; with one colon, the argument is mandatory and  with
                     two  colons  it is optional.  The argument is appended to
                     the array after the option itself.

                     An optional argument is put into the same  array  element
                     as the option name (note that this makes empty strings as
                     arguments indistinguishable).  A  mandatory  argument  is
                     added as a separate element unless the `:-' form is used,
                     in which case the argument is put into the same  element.

                     A  `+' as described above may appear between the name and
                     the first colon.

       The options of zparseopts itself are:

       -a array
              As described above, this names the default  array  in  which  to
              store the recognised options.

       -A assoc
              If this is given, the options and their values are also put into
              an associative array with the option names as keys and the argu-
              ments (if any) as the values.

       -D     If  this option is given, all options found are removed from the
              positional parameters of the calling shell or shell function, up
              to  but  not  including any not described by the specs.  This is
              similar to using the shift builtin.

       -K     With this option, the  arrays  specified  with  the  -a  and  -A
              options and with the `=array' forms are kept unchanged when none
              of the specs for  them  is  used.   This  allows  assignment  of
              default values to them before calling zparseopts.

       -E     This  changes  the parsing rules to not stop at the first string
              that isn't described by one of the specs.  It  can  be  used  to
              test for or (if used together with -D) extract options and their
              arguments, ignoring all other options and arguments that may  be
              in the positional parameters.

       For example,

              set -- -a -bx -c y -cz baz -cend
              zparseopts a=foo b:=bar c+:=bar

       will have the effect of

              foo=(-a)
              bar=(-b x -c y -c z)

       The arguments from `baz' on will not be used.

       As an example for the -E option, consider:

              set -- -a x -b y -c z arg1 arg2
              zparseopts -E -D b:=bar

       will have the effect of

              bar=(-b y)
              set -- -a x -c z arg1 arg2

       I.e.,  the  option  -b  and its arguments are taken from the positional
       parameters and put into the array bar.

ZSHTCPSYS(1)                                                      ZSHTCPSYS(1)


NAME

       zshtcpsys - zsh tcp system


DESCRIPTION

       A module zsh/net/tcp is provided to provide  network  I/O  over  TCP/IP
       from  within  the  shell;  see its description in zshmodules(1) .  This
       manual page describes a function suite based on  the  module.   If  the
       module  is  installed,  the functions are usually installed at the same
       time, in which case they will  be  available  for  autoloading  in  the
       default  function  search path.  In addition to the zsh/net/tcp module,
       the zsh/zselect module is used to implement  timeouts  on  read  opera-
       tions.   For troubleshooting tips, consult the corresponding advice for
       the zftp functions described in zshftpsys(1) .

       There are functions corresponding to the  basic  I/O  operations  open,
       close,  read  and  send,  named  tcp_open  etc.,  as well as a function
       tcp_expect for pattern match analysis of data read as input.  The  sys-
       tem  makes it easy to receive data from and send data to multiple named
       sessions at once.  In addition, it can be linked with the shell's  line
       editor in such a way that input data is automatically shown at the ter-
       minal.  Other facilities available  including  logging,  filtering  and
       configurable output prompts.

       To  use  the  system  where  it  is  available,  it should be enough to
       `autoload -U tcp_open' and run tcp_open as documented below to start  a
       session.   The tcp_open function will autoload the remaining functions.


TCP USER FUNCTIONS

   Basic I/O
       tcp_open [-qz] host port [ sess ]
       tcp_open [-qz] [ -s sess | -l sess,... ] ...
       tcp_open [-qz] [-a fd | -f fd ] [ sess ]
              Open a new session.  In the first and simplest form, open a  TCP
              connection to host host at port port; numeric and symbolic forms
              are understood for both.

              If sess is given, this becomes the name of the session which can
              be used to refer to multiple different TCP connections.  If sess
              is not given, the function will  invent  a  numeric  name  value
              (note  this  is not the same as the file descriptor to which the
              session is attached).  It is recommended that session names  not
              include  `funny'  characters,  where  funny  characters  are not
              well-defined but  certainly  do  not  include  alphanumerics  or
              underscores, and certainly do include whitespace.

              In  the second case, one or more sessions to be opened are given
              by name.  A  single  session  name  is  given  after  -s  and  a
              comma-separated  list  after -l; both options may be repeated as
              many times as necessary.  The host and port are  read  from  the
              file .ztcp_sessions in the same directory as the user's zsh ini-
              tialisation files, i.e. usually the home directory, but $ZDOTDIR
              if  that  is set.  The file consists of lines each giving a ses-
              sion name and the corresponding host and  port,  in  that  order
              (note  the  session  name  comes  first, not last), separated by
              whitespace.

              The third form allows passive and fake TCP connections.  If  the
              option  -a  is  used, its argument is a file descriptor open for
              listening for connections.  No function front-end is provided to
              open  such  a file descriptor, but a call to `ztcp -l port' will
              create one with the file  descriptor  stored  in  the  parameter
              $REPLY.   The listening port can be closed with `ztcp -c fd'.  A
              call to `tcp_open -a fd' will block until a remote  TCP  connec-
              tion  is  made  to  port on the local machine.  At this point, a
              session is created in the usual way  and  is  largely  indistin-
              guishable  from  an  active  connection  created with one of the
              first two forms.

              If the option -f is used, its  argument  is  a  file  descriptor
              which  is  used  directly as if it were a TCP session.  How well
              the remainder of the TCP function system copes with this depends
              on what actually underlies this file descriptor.  A regular file
              is likely to be unusable; a FIFO (pipe) of some sort  will  work
              better,  but  note  that it is not a good idea for two different
              sessions to attempt to read from the same FIFO at once.

              If the option -q is given with any of the three forms,  tcp_open
              will  not  print informational messages, although it will in any
              case exit with an appropriate status.

              If the line editor (zle) is in use, which is typically the  case
              if  the shell is interactive, tcp_open installs a handler inside
              zle which will check for new data at the same time as it  checks
              for keyboard input.  This is convenient as the shell consumes no
              CPU time while waiting; the test is performed by  the  operating
              system.   Giving  the  option -z to any of the forms of tcp_open
              prevents the handler from being installed, so data must be  read
              explicitly.   Note, however, this is not necessary for executing
              complete sets of send and read commands from a function, as  zle
              is not active at this point.  Generally speaking, the handler is
              only active when the shell is waiting for  input  at  a  command
              prompt or in the vared builtin.  The option has no effect if zle
              is not active; `[[ -o zle]]' will test for this.

              The first session to be opened becomes the current  session  and
              subsequent calls to tcp_open do not change it.  The current ses-
              sion is stored in the parameter $TCP_SESS; see  below  for  more
              detail about the parameters used by the system.

       tcp_close [-qn] [ -a | -l sess,... | sess ... ]
              Close  the  named  sessions,  or  the current session if none is
              given, or all open sessions if -a is given.  The options -l  and
              -s  are both handled for consistency with tcp_open, although the
              latter is redundant.

              If the session being closed is the  current  one,  $TCP_SESS  is
              unset,  leaving no current session, even if there are other ses-
              sions still open.

              If the session was opened with tcp_open -f, the file  descriptor
              is  closed  so  long  as  it  is  in the range 0 to 9 accessible
              directly from the command line.  If the option -n is  given,  no
              attempt  will  be  made  to close file descriptors in this case.
              The -n option is not used for genuine  ztcp  session;  the  file
              descriptors are always closed with the session.

              If  the  option  -q  is given, no informational messages will be
              printed.

       tcp_read [-bdq] [ -t TO ] [ -T TO ]
           [ -a | -u fd ... | -l sess,... | -s sess ...]
              Perform a read operation on the current session, or on a list of
              sessions  if  any  are given with -u, -l or -s, or all open ses-
              sions if the option -a is given.   Any  of  the  -u,  -l  or  -s
              options may be repeated or mixed together.  The -u option speci-
              fies a file descriptor directly (only those managed by this sys-
              tem are useful), the other two specify sessions as described for
              tcp_open above.

              The function checks for new data available on all  the  sessions
              listed.   Unless the -b option is given, it will not block wait-
              ing for new data.  Any one line of data from any of  the  avail-
              able  sessions  will be read, stored in the parameter $TCP_LINE,
              and displayed to standard output unless $TCP_SILENT  contains  a
              non-empty  string.   When  printed to standard output the string
              $TCP_PROMPT will be shown at the start of the line; the  default
              form  for this includes the name of the session being read.  See
              below for more information on these parameters.  In  this  mode,
              tcp_read  can  be  called  repeatedly  until it returns status 2
              which indicates all pending input from  all  specified  sessions
              has been handled.

              With the option -b, equivalent to an infinite timeout, the func-
              tion will block until a line is available to read  from  one  of
              the   specified  sessions.   However,  only  a  single  line  is
              returned.

              The option  -d  indicates  that  all  pending  input  should  be
              drained.   In  this  case tcp_read may process multiple lines in
              the manner given above; only the last is  stored  in  $TCP_LINE,
              but the complete set is stored in the array $tcp_lines.  This is
              cleared at the start of each call to tcp_read.

              The options -t and -T specify a timeout in seconds, which may be
              a  floating  point  number  for increased accuracy.  With -t the
              timeout is applied before each line read.  With -T, the  timeout
              applies  to  the  overall operation, possibly including multiple
              read operations if  the  option  -d  is  present;  without  this
              option, there is no distinction between -t and -T.

              The  function  does not print informational messages, but if the
              option -q is given, no error message is printed for a  non-exis-
              tent session.

              A  return  status  of  2 indicates a timeout or no data to read.
              Any other non-zero return status indicates some error condition.

              See tcp_log for how to control where data is sent by tcp_read.

       tcp_send [-cnq] [ -s sess | -l sess,... ] data ...
       tcp_send [-cnq] -a data ...
              Send  the supplied data strings to all the specified sessions in
              turn.  The underlying operation differs little from a `print -r'
              to  the  session's file descriptor, although it attempts to pre-
              vent the shell from dying  owing  to  a  SIGPIPE  caused  by  an
              attempt to write to a defunct session.

              The  option  -c  causes  tcp_send  to behave like cat.  It reads
              lines from standard input until end of input and sends  them  in
              turn  to  the specified session(s) exactly as if they were given
              as data arguments to individual tcp_send commands.

              The option -n prevents tcp_send from putting a  newline  at  the
              end of the data strings.

              The remaining options all behave as for tcp_read.

              The data arguments are not further processed once they have been
              passed to tcp_send; they are simply passed down to print -r.

              If the parameter $TCP_OUTPUT is a non-empty string  and  logging
              is  enabled then the data sent to each session will be echoed to
              the log file(s) with $TCP_OUTPUT  in  front  where  appropriate,
              much in the manner of $TCP_PROMPT.

   Session Management
       tcp_alias [-q] alias=sess ...
       tcp_alias [-q] [ alias ] ...
       tcp_alias -d [-q] alias ...
              This function is not particularly well tested.

              The  first  form  creates an alias for a session name; alias can
              then be used to refer to the existing  session  sess.   As  many
              aliases may be listed as required.

              The  second  form lists any aliases specified, or all aliases if
              none.

              The third form deletes all the aliases listed.   The  underlying
              sessions are not affected.

              The  option  -q  suppresses  an  inconsistently chosen subset of
              error messages.

       tcp_log [-asc] [ -n | -N ] [ logfile ]
              With an argument logfile, all future input from tcp_read will be
              logged  to  the  named  file.  Unless -a (append) is given, this
              file will first be truncated or created empty.   With  no  argu-
              ments, show the current status of logging.

              With  the option -s, per-session logging is enabled.  Input from
              tcp_read is output to the file logfile.sess.  As the session  is
              automatically  discriminated  by  the filename, the contents are
              raw  (no  $TCP_PROMPT).   The  option   -a  applies  as   above.
              Per-session  logging and logging of all data in one file are not
              mutually exclusive.

              The option -c closes all logging, both complete and  per-session
              logs.

              The options -n and -N respectively turn off or restore output of
              data read by tcp_read to standard output;  hence  `tcp_log  -cn'
              turns off all output by tcp_read.

              The  function  is  purely  a convenient front end to setting the
              parameters  $TCP_LOG,  $TCP_LOG_SESS,  $TCP_SILENT,  which   are
              described below.

       tcp_rename old new
              Rename  session  old  to  session  new.   The  old  name becomes
              invalid.

       tcp_sess [ sess [ command  ... ] ]
              With no arguments, list all the  open  sessions  and  associated
              file  descriptors.   The  current session is marked with a star.
              For  use  in  functions,  direct  access   to   the   parameters
              $tcp_by_name,  $tcp_by_fd  and $TCP_SESS is probably more conve-
              nient; see below.

              With a sess argument, set the current session to sess.  This  is
              equivalent to changing $TCP_SESS directly.

              With  additional  arguments, temporarily set the current session
              while executing the string command ....  The first  argument  is
              re-evaluated  so  as  to  expand aliases etc., but the remaining
              arguments are passed through as the  appear  to  tcp_sess.   The
              original session is restored when tcp_sess exits.

   Advanced I/O
       tcp_command send-options ... send-arguments ...
              This  is  a convenient front-end to tcp_send.  All arguments are
              passed to tcp_send, then the function pauses waiting  for  data.
              While data is arriving at least every $TCP_TIMEOUT (default 0.3)
              seconds, data is handled and printed out according to  the  cur-
              rent settings.  Status 0 is always returned.

              This  is  generally  only useful for interactive use, to prevent
              the display becoming fragmented by output returned from the con-
              nection.   Within a programme or function it is generally better
              to handle reading data by a more explicit method.

       tcp_expect [ -q ] [ -p var ] [ -t  to | -T TO]
           [ -a | -s sess ... | -l sess,... ] pattern ...
              Wait for input matching any of the given patterns  from  any  of
              the  specified  sessions.   Input is ignored until an input line
              matches one of the given patterns; at this point status zero  is
              returned, the matching line is stored in $TCP_LINE, and the full
              set of lines read during the call to tcp_expect is stored in the
              array $tcp_expect_lines.

              Sessions  are specified in the same way as tcp_read: the default
              is to use the current session, otherwise the sessions  specified
              by -a, -s, or -l are used.

              Each  pattern  is a standard zsh extended-globbing pattern; note
              that it needs to be quoted to avoid it  being  expanded  immedi-
              ately  by  filename generation.  It must match the full line, so
              to match a substring there must be a `*' at the start  and  end.
              The  line  matched  against  includes  the  $TCP_PROMPT added by
              tcp_read.  It is possible to include the globbing flags `#b'  or
              `#m'  in  the  patterns  to make backreferences available in the
              parameters $MATCH, $match, etc., as described in  the  base  zsh
              documentation on pattern matching.

              Unlike tcp_read, the default behaviour of tcp_expect is to block
              indefinitely until the required input is  found.   This  can  be
              modified  by  specifying a timeout with -t or -T; these function
              as in  tcp_read,  specifying  a  per-read  or  overall  timeout,
              respectively,  in  seconds, as an integer or floating-point num-
              ber.  As tcp_read, the function returns status 2  if  a  timeout
              occurs.

              The  function  returns  as soon as any one of the patterns given
              match.  If the caller  needs  to  know  which  of  the  patterns
              matched,  the  option -p var can be used; on return, $var is set
              to the number of the pattern using ordinary zsh  indexing,  i.e.
              the  first  is 1, and so on.  Note the absence of a `$' in front
              of var.  To avoid  clashes,  the  parameter  cannot  begin  with
              `_expect'.

              The option -q is passed directly down to tcp_read.

              As  all  input  is  done via tcp_read, all the usual rules about
              output of lines read apply.  One exception is that the parameter
              $tcp_lines  will  only  reflect  the  line  actually  matched by
              tcp_expect; use $tcp_expect_lines for the full set of lines read
              during the function call.

       tcp_proxy
              This  is a simple-minded function to accept a TCP connection and
              execute  a  command  with  I/O  redirected  to  the  connection.
              Extreme  caution should be taken as there is no security whatso-
              ever and this can leave your computer open to the  world.   Ide-
              ally, it should only be used behind a firewall.

              The first argument is a TCP port on which the function will lis-
              ten.

              The remaining arguments give a command and its arguments to exe-
              cute  with  standard  input,  standard output and standard error
              redirected to the file descriptor on which the TCP  session  has
              been  accepted.   If  no command is given, a new zsh is started.
              This gives everyone  on  your  network  direct  access  to  your
              account, which in many cases will be a bad thing.

              The  command  is  run  in  the background, so tcp_proxy can then
              accept new connections.  It continues to accept new  connections
              until interrupted.

       tcp_spam [-ertv] [ -a | -s  sess | -l sess,... ] cmd ...
              Execute  `cmd ...' for each session in turn.  Note this executes
              the command and arguments; it does not send the command line  as
              data unless the -t (transmit) option is given.

              The sessions may be selected explicitly with the standard -a, -s
              or -l options, or may be chosen  implicitly.   If  none  of  the
              three  options  is  given  the  rules  are:  first, if the array
              $tcp_spam_list is set, this is taken as the  list  of  sessions,
              otherwise all sessions are taken.  Second, any sessions given in
              the array $tcp_no_spam_list are removed from the  list  of  ses-
              sions.

              Normally,  any  sessions added by the `-a' flag or when all ses-
              sions are chosen implicitly are  spammed  in  alphabetic  order;
              sessions  given  by  the  $tcp_spam_list array or on the command
              line are spammed in the order given.  The -r flag  reverses  the
              order however it was arrived it.

              The  -v  flag specifies that a $TCP_PROMPT will be output before
              each session.  This is output after any modification to TCP_SESS
              by   the  user-defined  tcp_on_spam  function  described  below.
              (Obviously that function is able to generate its own output.)

              If the option -e is present, the line given as cmd ...  is  exe-
              cuted  using  eval, otherwise it is executed without any further
              processing.

       tcp_talk
              This is a fairly simple-minded attempt to  force  input  to  the
              line editor to go straight to the default TCP_SESSION.

              An  escape  string,  $TCP_TALK_ESCAPE,  default  `:', is used to
              allow access to normal shell operation.  If it is on its own  at
              the  start of the line, or followed only by whitespace, the line
              editor returns to normal operation.  Otherwise, the  string  and
              any  following  whitespace  are skipped and the remainder of the
              line executed as shell input without any change of the line edi-
              tor's operating mode.

              The current implementation is somewhat deficient in terms of use
              of the command history.  For this reason, many users will prefer
              to use some form of alternative approach for sending data easily
              to the current session.  One simple approach is  to  alias  some
              special character (such as `%') to `tcp_command --'.

       tcp_wait
              The  sole  argument is an integer or floating point number which
              gives the seconds to delay.  The shell will do nothing for  that
              period  except  wait  for  input  on all TCP sessions by calling
              tcp_read -a.  This is similar to the  interactive  behaviour  at
              the command prompt when zle handlers are installed.

   `One-shot' file transfer
       tcp_point port
       tcp_shoot host port
              This  pair  of functions provide a simple way to transfer a file
              between two hosts within the shell.  Note,  however,  that  bulk
              data  transfer is currently done using cat.  tcp_point reads any
              data arriving at port and sends it to standard output; tcp_shoot
              connects  to  port  on  host  and sends its standard input.  Any
              unused port may be used; the standard mechanism  for  picking  a
              port  is to think of a random four-digit number above 1024 until
              one works.

              To transfer a file from  host  woodcock  to  host  springes,  on
              springes:

                     tcp_point 8091 >output_file

              and on woodcock:

                     tcp_shoot springes 8091 <input_file

              As  these  two functions do not require tcp_open to set up a TCP
              connection first, they may need to be autoloaded separately.


TCP USER\-DEFINED FUNCTIONS

       Certain functions, if defined by the user, will be called by the  func-
       tion  system  in certain contexts.  This facility depends on the module
       zsh/parameter, which is usually available in interactive shells as  the
       completion  system  depends  on  it.   None  of  the  functions need be
       defined; they simply provide convenient hooks when necessary.

       Typically, these are called after the requested action has been  taken,
       so that the various parameters will reflect the new state.

       tcp_on_alias alias fd
              When  an alias is defined, this function will be called with two
              arguments: the name of the alias, and the file descriptor of the
              corresponding session.

       tcp_on_close sess fd
              This  is  called with the name of a session being closed and the
              file descriptor which corresponded to that session.   Both  will
              be invalid by the time the function is called.

       tcp_on_open sess fd
              This  is  called  after  a new session has been defined with the
              session name and file descriptor as arguments.

       tcp_on_rename oldsess fd newsess
              This is called after a session has been renamed with  the  three
              arguments old session name, file descriptor, new session name.

       tcp_on_spam sess command ...
              This is called once for each session spammed, just before a com-
              mand is executed for a session by tcp_spam.  The  arguments  are
              the  session  name  followed by the command list to be executed.
              If tcp_spam was called with the option  -t,  the  first  command
              will be tcp_send.

              This  function  is  called after $TCP_SESS is set to reflect the
              session to be spammed, but before any use of it is made.   Hence
              it is possible to alter the value of $TCP_SESS within this func-
              tion.  For example, the  session  arguments  to  tcp_spam  could
              include  extra  information  to be stripped off and processed in
              tcp_on_spam.

              If the function sets the parameter $REPLY to `done', the command
              line  is not executed; in addition, no prompt is printed for the
              -v option to tcp_spam.

       tcp_on_unalias alias fd
              This is called with the name of an alias and  the  corresponding
              session's file descriptor after an alias has been deleted.


TCP UTILITY FUNCTIONS

       The  following  functions  are used by the TCP function system but will
       rarely if ever need to be called directly.

       tcp_fd_handler
              This is the function installed by tcp_open  for  handling  input
              from  within the line editor, if that is required.  It is in the
              format documented for the builtin `zle -F' in zshzle(1) .

              While active, the function sets the parameter TCP_HANDLER_ACTIVE
              to 1.  This allows shell code called internally (for example, by
              setting tcp_on_read) to tell if is being called when  the  shell
              is otherwise idle at the editor prompt.

       tcp_output [ -q ] -P prompt -F fd -S sess
              This  function  is  used for both logging and handling output to
              standard output, from within tcp_read  and  (if  $TCP_OUTPUT  is
              set) tcp_send.

              The  prompt  to use is specified by -P; the default is the empty
              string.  It can contain:
              %c     Expands to 1 if the session is the current session,  oth-
                     erwise   0.    Used   with  ternary  expresions  such  as
                     `%(c.-.+)' to output `+' for the current session and  `-'
                     otherwise.

              %f     Replaced by the session's file descriptor.

              %s     Replaced by the session name.

              %%     Replaced by a single `%'.

              The  option  -q suppresses output to standard output, but not to
              any log files which are configured.

              The -S and -F options are used to pass in the session  name  and
              file descriptor for possible replacement in the prompt.


TCP USER PARAMETERS

       Parameters  follow  the  usual  convention  that  uppercase is used for
       scalars and integers, while lowercase is used for normal  and  associa-
       tive  array.  It is always safe for user code to read these parameters.
       Some parameters may also be set; these are  noted  explicitly.   Others
       are  included  in this group as they are set by the function system for
       the user's benefit, i.e. setting them is typically not  useful  but  is
       benign.

       It  is  often  also useful to make settable parameters local to a func-
       tion.  For example, `local TCP_SILENT=1' specifies that data read  dur-
       ing  the  function call will not be printed to standard output, regard-
       less  of  the  setting  outside   the   function.    Likewise,   `local
       TCP_SESS=sess'  sets  a  session  for  the  duration of a function, and
       `local TCP_PROMPT=' specifies that no prompt is used for  input  during
       the function.

       tcp_expect_lines
              Array.    The  set  of  lines  read  during  the  last  call  to
              tcp_expect, including the last ($TCP_LINE).

       tcp_filter
              Array. May be set directly.  A set of extended globbing patterns
              which,  if  matched in tcp_output, will cause the line not to be
              printed to standard output.  The patterns should be  defined  as
              described  for  the  arguments to tcp_expect.  Output of line to
              log files is not affected.

       TCP_HANDLER_ACTIVE
              Scalar.  Set to 1 within tcp_fd_handler to indicate to functions
              called  recursively  that they have been called during an editor
              session.  Otherwise unset.

       TCP_LINE
              The last line read by tcp_read, and hence also tcp_expect.

       TCP_LINE_FD
              The   file   descriptor   from   which   $TCP_LINE   was   read.
              ${tcp_by_fd[$TCP_LINE_FD]}  will  give the corresponding session
              name.

       tcp_lines
              Array. The set of lines read during the last call  to  tcp_read,
              including the last ($TCP_LINE).

       TCP_LOG
              May  be set directly, although it is also controlled by tcp_log.
              The name of a file to which output from  all  sessions  will  be
              sent.   The output is proceeded by the usual $TCP_PROMPT.  If it
              is not an absolute path name, it will follow the user's  current
              directory.

       TCP_LOG_SESS
              May  be set directly, although it is also controlled by tcp_log.
              The prefix for a set of files to which output from each  session
              separately    will    be    sent;    the    full   filename   is
              ${TCP_LOG_SESS}.sess.  Output to each file is raw; no prompt  is
              added.   If  it is not an absolute path name, it will follow the
              user's current directory.

       tcp_no_spam_list
              Array.  May be set directly.  See tcp_spam for how this is used.

       TCP_OUTPUT
              May  be set directly.  If a non-empty string, any data sent to a
              session by tcp_send will be logged.  This  parameter  gives  the
              prompt  to  be used in a file specified by $TCP_LOG but not in a
              file generated from $TCP_LOG_SESS.  The prompt  string  has  the
              same  format as TCP_PROMPT and the same rules for its use apply.

       TCP_PROMPT
              May be set directly.  Used  as  the  prefix  for  data  read  by
              tcp_read  which is printed to standard output or to the log file
              given by $TCP_LOG, if any.  Any `%s', `%f' or `%%' occurring  in
              the string will be replaced by the name of the session, the ses-
              sion's underlying file descriptor,  or  a  single  `%',  respec-
              tively.   The  expression `%c' expands to 1 if the session being
              read is the current session, else 0;  this  is  most  useful  in
              ternary  expressions such as `%(c.-.+)' which outputs `+' if the
              session is the current one, else `-'.

       TCP_READ_DEBUG
              May be set directly.  If this has non-zero length, tcp_read will
              give some limited diagnostics about data being read.

       TCP_SECONDS_START
              This value is created and initialised to zero by tcp_open.

              The  functions  tcp_read  and tcp_expect use the shell's SECONDS
              parameter for their own timing purposes.  If that  parameter  is
              not  of floating point type on entry to one of the functions, it
              will create a local parameter SECONDS which  is  floating  point
              and set the parameter TCP_SECONDS_START to the previous value of
              $SECONDS.  If the parameter is already  floating  point,  it  is
              used without a local copy being created and TCP_SECONDS_START is
              not set.  As the global value is zero, the shell elapsed time is
              guaranteed to be the sum of $SECONDS and $TCP_SECONDS_START.

              This  can  be  avoided by setting SECONDS globally to a floating
              point value using `typeset -F SECONDS'; then the  TCP  functions
              will  never make a local copy and never set TCP_SECONDS_START to
              a non-zero value.

       TCP_SESS
              May be set directly.  The current session; must refer to one  of
              the sessions established by tcp_open.

       TCP_SILENT
              May  be set directly, although it is also controlled by tcp_log.
              If of non-zero length, data read by tcp_read will not be written
              to standard output, though may still be written to a log file.

       tcp_spam_list
              Array.   May  be set directly.  See the description of the func-
              tion tcp_spam for how this is used.

       TCP_TALK_ESCAPE
              May be set  directly.   See  the  description  of  the  function
              tcp_talk for how this is used.

       TCP_TIMEOUT
              May  be  set directly.  Currently this is only used by the func-
              tion tcp_command, see above.


TCP USER\-DEFINED PARAMETERS

       The following parameters are not set by the function system, but have a
       special effect if set by the user.

       tcp_on_read
              This should be an associative array; if it is not, the behaviour
              is undefined.  Each key is the name of a shell function or other
              command,  and  the corresponding value is a shell pattern (using
              EXTENDED_GLOB).  Every line read from a TCP session directly  or
              indirectly   using   tcp_read  (which  includes  lines  read  by
              tcp_expect) is  compared  against  the  pattern.   If  the  line
              matches,  the  command given in the key is called with two argu-
              ments: the name of the session from which the line was read, and
              the line itself.

              If  any function called to handle a line returns a non-zero sta-
              tus, the line is not output.  Thus a  tcp_on_read  handler  con-
              taining  only the instruction `return 1' can be used to suppress
              output of particular lines  (see,  however,  tcp_filter  above).
              However,  the  line  is  still stored in TCP_LINE and tcp_lines;
              this occurs after all tcp_on_read processing.


TCP UTILITY PARAMETERS

       These parameters are controlled by the function  system;  they  may  be
       read directly, but should not usually be set by user code.

       tcp_aliases
              Associative  array.   The  keys are the names of sessions estab-
              lished with tcp_open; each value is a  space-separated  list  of
              aliases which refer to that session.

       tcp_by_fd
              Associative  array.  The keys are session file descriptors; each
              value is the name of that session.

       tcp_by_name
              Associative array.  The keys are the  names  of  sessions;  each
              value is the file descriptor associated with that session.


TCP EXAMPLES

       Here is a trivial example using a remote calculator.

       TO  create a calculator server on port 7337 (see the dc manual page for
       quite how infuriating the underlying command is):

              tcp_proxy 7337 dc

       To connect to this from the same host with a session also named `dc':

              tcp_open localhost 7337 dc

       To send a command to the remote session and wait a short while for out-
       put (assuming dc is the current session):

              tcp_command 2 4 + p

       To close the session:

              tcp_close

       The  tcp_proxy  needs  to  be killed to be stopped.  Note this will not
       usually kill any connections which have already been accepted, and also
       that the port is not immediately available for reuse.

       The  following  chunk  of  code  puts  a list of sessions into an xterm
       header, with the current session followed by a star.

              print -n "\033]2;TCP:" ${(k)tcp_by_name:/$TCP_SESS/$TCP_SESS\*} "\a"


TCP BUGS

       The function tcp_read uses the shell's normal read  builtin.   As  this
       reads a complete line at once, data arriving without a terminating new-
       line can cause the function to block indefinitely.

       Though the function suite works well for interactive use and  for  data
       arriving  in  small amounts, the performance when large amounts of data
       are being exchanged is likely to be extremely poor.

ZSHZFTPSYS(1)                                                    ZSHZFTPSYS(1)


NAME

       zshzftpsys - zftp function front-end


DESCRIPTION

       This describes the set of shell functions supplied with the source dis-
       tribution  as an interface to the zftp builtin command, allowing you to
       perform FTP operations from the shell command line or within  functions
       or scripts.  The interface is similar to a traditional FTP client (e.g.
       the ftp command itself, see ftp(1)), but as it is entirely done  within
       the  shell  all the familiar completion, editing and globbing features,
       and so on, are present, and macros are particularly simple to write  as
       they are just ordinary shell functions.

       The  prerequisite  is  that  the  zftp command, as described in zshmod-
       ules(1) , must be available in the version of  zsh  installed  at  your
       site.   If the shell is configured to load new commands at run time, it
       probably is: typing `zmodload zsh/zftp' will make sure  (if  that  runs
       silently, it has worked).  If this is not the case, it is possible zftp
       was linked into the shell anyway: to test this, type `which  zftp'  and
       if  zftp  is  available  you will get the message `zftp: shell built-in
       command'.

       Commands given directly with zftp builtin may be  interspersed  between
       the  functions  in  this suite; in a few cases, using zftp directly may
       cause some of the status information  stored  in  shell  parameters  to
       become  invalid.   Note  in particular the description of the variables
       $ZFTP_TMOUT, $ZFTP_PREFS and $ZFTP_VERBOSE for zftp.


INSTALLATION

       You should make sure all the functions from the  Functions/Zftp  direc-
       tory  of the source distribution are available; they all begin with the
       two letters `zf'.  They may already have been installed on your system;
       otherwise,  you  will  need  to find them and copy them.  The directory
       should appear as one of the elements of the $fpath array  (this  should
       already  be the case if they were installed), and at least the function
       zfinit should be autoloaded; it will autoload the  rest.   Finally,  to
       initialize  the use of the system you need to call the zfinit function.
       The following code in your .zshrc will arrange  for  this;  assume  the
       functions are stored in the directory ~/myfns:

              fpath=(~/myfns $fpath)
              autoload -U zfinit
              zfinit

       Note  that zfinit assumes you are using the zmodload method to load the
       zftp command.  If it is already built into the shell, change zfinit  to
       zfinit  -n.  It is helpful (though not essential) if the call to zfinit
       appears after any code to initialize the new  completion  system,  else
       unnecessary compctl commands will be given.


FUNCTIONS

       The sequence of operations in performing a file transfer is essentially
       the same as that in a standard FTP client.  Note that, due to  a  quirk
       of the shell's getopts builtin, for those functions that handle options
       you must use `--' rather than `-' to ensure the remaining arguments are
       treated literally (a single `-' is treated as an argument).

   Opening a connection
       zfparams [ host [ user [ password ... ] ] ]
              Set  or  show  the  parameters for a future zfopen with no argu-
              ments.  If no arguments are given, the  current  parameters  are
              displayed  (the  password will be shown as a line of asterisks).
              If a host is given, and either the user or password is not, they
              will  be  prompted for; also, any parameter given as `?' will be
              prompted for, and if the `?' is followed by a string, that  will
              be  used  as  the prompt.  As zfopen calls zfparams to store the
              parameters, this usually need not be called directly.

              A single argument `-' will delete the stored  parameters.   This
              will  also cause the memory of the last directory (and so on) on
              the other host to be deleted.

       zfopen [ -1 ] [ host [ user [ password [ account ] ] ] ]
              If host is present, open a connection to that host  under  user-
              name  user  with  password  password (and, on the rare occasions
              when it is necessary, account account).  If a necessary  parame-
              ter is missing or given as `?' it will be prompted for.  If host
              is not present, use a previously stored set of parameters.

              If the command was successful, and the  terminal  is  compatible
              with  xterm  or  is  sun-cmd, a summary will appear in the title
              bar, giving the local host:directory and the remote  host:direc-
              tory;  this  is  handled  by  the function zftp_chpwd, described
              below.

              Normally, the host, user and password  are  internally  recorded
              for  later  re-opening, either by a zfopen with no arguments, or
              automatically (see below).  With the option `-1', no information
              is  stored.  Also, if an open command with arguments failed, the
              parameters will not be retained  (and  any  previous  parameters
              will  also  be  deleted).   A zfopen on its own, or a zfopen -1,
              never alters the stored parameters.

              Both zfopen and zfanon (but not zfparams) understand URLs of the
              form  ftp://host/path... as meaning to connect to the host, then
              change directory to path (which  must  be  a  directory,  not  a
              file).   The `ftp://' can be omitted; the trailing `/' is enough
              to trigger recognition of the path.  Note  prefixes  other  than
              `ftp:'  are  not  recognized,  and that all characters after the
              first slash beyond host are significant in path.

       zfanon [ -1 ] host
              Open a connection host for anonymous FTP.  The username used  is
              `anonymous'.   The  password  (which  will be reported the first
              time) is generated as user@host; this  is  then  stored  in  the
              shell parameter $EMAIL_ADDR which can alternatively be set manu-
              ally to a suitable string.

   Directory management
       zfcd [ dir ]
       zfcd -
       zfcd old new
              Change the current directory on  the  remote  server:   this  is
              implemented  to  have  many of the features of the shell builtin
              cd.

              In the first form with dir present, change to the directory dir.
              The  command `zfcd ..' is treated specially, so is guaranteed to
              work on non-UNIX servers (note this  is  handled  internally  by
              zftp).  If dir is omitted, has the effect of `zfcd ~'.

              The second form changes to the directory previously current.

              The  third  form  attempts  to  change  the current directory by
              replacing the first occurrence of the string old with the string
              new in the current directory.

              Note that in this command, and indeed anywhere a remote filename
              is expected, the string which on the local host  corresponds  to
              `~' is converted back to a `~' before being passed to the remote
              machine.  This is convenient because of  the  way  expansion  is
              performed  on  the  command  line before zfcd receives a string.
              For example, suppose the command is  `zfcd  ~/foo'.   The  shell
              will    expand   this   to   a   full   path   such   as   `zfcd
              /home/user2/pws/foo'.  At this stage, zfcd recognises  the  ini-
              tial path as corresponding to `~' and will send the directory to
              the remote host as ~/foo, so that the `~' will  be  expanded  by
              the  server  to  the correct remote host directory.  Other named
              directories of the form `~name' are not treated in this fashion.

       zfhere Change  directory  on the remote server to the one corresponding
              to the current local directory, with special handling of `~'  as
              in  zfcd.   For  example,  if  the  current  local  directory is
              ~/foo/bar, then zfhere performs the effect of `zfcd  ~/foo/bar'.

       zfdir [ -rfd ] [ - ] [ dir-options ] [ dir ]
              Produce a long directory listing.  The arguments dir-options and
              dir are passed directly to the server and their effect is imple-
              mentation  dependent,  but specifying a particular remote direc-
              tory dir is usually possible.  The output is  passed  through  a
              pager  given  by  the  environment variable $PAGER, or `more' if
              that is not set.

              The directory is usually cached for re-use.  In fact, two caches
              are  maintained.  One is for use when there is no dir-options or
              dir, i.e. a full listing of the current remote directory; it  is
              flushed when the current remote directory changes.  The other is
              kept for repeated use of zfdir  with  the  same  arguments;  for
              example,  repeated use of `zfdir /pub/gnu' will only require the
              directory to be retrieved on  the  first  call.   Alternatively,
              this  cache  can  be  re-viewed with the -r option.  As relative
              directories will confuse zfdir, the -f option  can  be  used  to
              force  the  cache  to be flushed before the directory is listed.
              The option -d will delete both caches without showing  a  direc-
              tory listing; it will also delete the cache of file names in the
              current remote directory, if any.

       zfls [ ls-options ] [ dir ]
              List files on the remote server.  With no arguments,  this  will
              produce  a  simple  list  of  file  names for the current remote
              directory.  Any arguments are passed directly to the server.  No
              pager and no caching is used.

   Status commands
       zftype [ type ]
              With no arguments, show the type of data to be transferred, usu-
              ally ASCII or binary.  With an argument, change  the  type:  the
              types  `A' or `ASCII' for ASCII data and `B' or `BINARY', `I' or
              `IMAGE' for binary data are understood case-insensitively.

       zfstat [ -v ]
              Show the status of the current or last connection,  as  well  as
              the  status  of  some  of  zftp's status variables.  With the -v
              option, a more verbose  listing  is  produced  by  querying  the
              server for its version of events, too.

   Retrieving files
       The  commands  for  retrieving  files all take at least two options. -G
       suppresses remote filename expansion which would otherwise be performed
       (see  below  for  a more detailed description of that).  -t attempts to
       set the modification time of the local file to that of the remote file:
       this  requires  version  5 of perl, see the description of the function
       zfrtime below for more information.

       zfget [ -Gtc ] file1 ...
              Retrieve all the listed files file1 ... one at a time  from  the
              remote  server.   If  a  file  contains  a `/', the full name is
              passed to the remote server, but  the  file  is  stored  locally
              under  the  name  given  by  the  part after the final `/'.  The
              option -c (cat) forces all files to be sent as a  single  stream
              to standard output; in this case the -t option has no effect.

       zfuget [ -Gvst ] file1 ...
              As  zfget,  but  only  retrieve  files  where the version on the
              remote server is newer (has a later modification time), or where
              the  local file does not exist.  If the remote file is older but
              the files have different sizes, or if the sizes are the same but
              the  remote  file  is  newer,  the user will usually be queried.
              With the option -s, the command runs silently  and  will  always
              retrieve the file in either of those two cases.  With the option
              -v, the command prints more information about the files while it
              is working out whether or not to transfer them.

       zfcget [ -Gt ] file1 ...
              As  zfget,  but if any of the local files exists, and is shorter
              than the corresponding remote file, the command assumes that  it
              is  the result of a partially completed transfer and attempts to
              transfer the rest of the file.  This is useful on a poor connec-
              tion which keeps failing.

              Note  that  this  requires a commonly implemented, but non-stan-
              dard, version of the FTP protocol, so is not guaranteed to  work
              on all servers.

       zfgcp [ -Gt ] remote-file local-file
       zfgcp [ -Gt ] rfile1 ... ldir
              This  retrieves  files  from  the  remote  server with arguments
              behaving similarly to the cp command.

              In the first form, copy remote-file from the server to the local
              file local-file.

              In  the  second  form, copy all the remote files rfile1 ... into
              the local directory ldir retaining  the  same  basenames.   This
              assumes UNIX directory semantics.

   Sending files
       zfput [ -r ] file1 ...
              Send  all  the  file1 ... given separately to the remote server.
              If a filename contains a `/', the full filename is used  locally
              to  find  the file, but only the basename is used for the remote
              file name.

              With the option -r, if any of the files are directories they are
              sent  recursively with all their subdirectories, including files
              beginning with `.'.   This  requires  that  the  remote  machine
              understand UNIX file semantics, since `/' is used as a directory
              separator.

       zfuput [ -vs ] file1 ...
              As zfput, but only send files which are newer than  their  local
              equivalents, or if the remote file does not exist.  The logic is
              the same as for zfuget, but reversed between  local  and  remote
              files.

       zfcput file1 ...
              As  zfput,  but if any remote file already exists and is shorter
              than the local equivalent, assume it is the result of an  incom-
              plete  transfer  and  send the rest of the file to append to the
              existing part.  As the FTP append command is part of  the  stan-
              dard  set, this is in principle more likely to work than zfcget.

       zfpcp local-file remote-file
       zfpcp lfile1 ... rdir
              This sends files to the remote server  with  arguments  behaving
              similarly to the cp command.

              With   two   arguments,   copy   local-file  to  the  server  as
              remote-file.

              With more than two arguments, copy all the  local  files  lfile1
              ...  into  the existing remote directory rdir retaining the same
              basenames.  This assumes UNIX directory semantics.

              A problem arises if you attempt to use zfpcp lfile1  rdir,  i.e.
              the  second  form of copying but with two arguments, as the com-
              mand has no simple way of  knowing  if  rdir  corresponds  to  a
              directory or a filename.  It attempts to resolve this in various
              ways.  First, if the rdir argument is `.' or `..' or ends  in  a
              slash, it is assumed to be a directory.  Secondly, if the opera-
              tion of copying to a remote file in the first form  failed,  and
              the remote server sends back the expected failure code 553 and a
              reply including the string `Is a  directory',  then  zfpcp  will
              retry using the second form.

   Closing the connection
       zfclose
              Close the connection.

   Session management
       zfsession [ -lvod ] [ sessname ]
              Allows you to manage multiple FTP sessions at once.  By default,
              connections take place in a session called `default'; by  giving
              the  command  `zfsession  sessname'  you  can change to a new or
              existing session with a name of your choice.   The  new  session
              remembers its own connection, as well as associated shell param-
              eters, and also the host/user parameters set by zfparams.  Hence
              you  can  have different sessions set up to connect to different
              hosts, each remembering the appropriate host, user and password.

              With no arguments, zfsession prints the name of the current ses-
              sion; with the option -l it lists all sessions  which  currently
              exist,  and  with  the option -v it gives a verbose list showing
              the host and directory for each session, where the current  ses-
              sion is marked with an asterisk.  With -o, it will switch to the
              most recent previous session.

              With -d, the given session (or else the current one) is removed;
              everything to do with it is completely forgotten.  If it was the
              only session, a new session called `default' is created and made
              current.   It  is safest not to delete sessions while background
              commands using zftp are active.

       zftransfer sess1:file1 sess2:file2
              Transfer files between two sessions; no local copy is made.  The
              file is read from the session sess1 as file1 and written to ses-
              sion sess2 as file file2; file1 and file2 may be relative to the
              current  directories  of the session.  Either sess1 or sess2 may
              be omitted (though the colon should be retained if  there  is  a
              possibility  of a colon appearing in the file name) and defaults
              to the current session; file2 may be omitted or may end  with  a
              slash,  in  which case the basename of file1 will be added.  The
              sessions sess1 and sess2 must be distinct.

              The operation is performed using pipes, so it is  required  that
              the  connections  still be valid in a subshell, which is not the
              case under versions of some operating systems, presumably due to
              a system bug.

   Bookmarks
       The two functions zfmark and zfgoto allow you to `bookmark' the present
       location (host, user and directory) of the current FTP  connection  for
       later use.  The file to be used for storing and retrieving bookmarks is
       given by the parameter $ZFTP_BMFILE; if not set when  one  of  the  two
       functions  is  called,  it  will  be  set to the file .zfbkmarks in the
       directory where your zsh startup files live (usually ~).

       zfmark [ bookmark ]
              If given an argument, mark the current host, user and  directory
              under the name bookmark for later use by zfgoto.  If there is no
              connection open, use the values for the last connection  immedi-
              ately  before  it  was closed; it is an error if there was none.
              Any existing bookmark under  the  same  name  will  be  silently
              replaced.

              If  not  given  an argument, list the existing bookmarks and the
              points to which they refer in the form user@host:directory; this
              is  the  format  in  which  they are stored, and the file may be
              edited directly.

       zfgoto [ -n ] bookmark
              Return to the location given by bookmark, as previously  set  by
              zfmark.  If the location has user `ftp' or `anonymous', open the
              connection with zfanon, so that no password is required.  If the
              user and host parameters match those stored for the current ses-
              sion, if any, those will be  used,  and  again  no  password  is
              required.  Otherwise a password will be prompted for.

              With  the  option  -n,  the  bookmark  is taken to be a nickname
              stored by the ncftp program  in  its  bookmark  file,  which  is
              assumed  to  be  ~/.ncftp/bookmarks.  The function works identi-
              cally in other ways.  Note that there is no mechanism for adding
              or modifying ncftp bookmarks from the zftp functions.

   Other functions
       Mostly,  these  functions  will  not  be  called  directly  (apart from
       zfinit), but are described here for  completeness.   You  may  wish  to
       alter zftp_chpwd and zftp_progress, in particular.

       zfinit [ -n ]
              As described above, this is used to initialize the zftp function
              system.  The -n option should be used if  the  zftp  command  is
              already built into the shell.

       zfautocheck [ -dn ]
              This  function is called to implement automatic reopening behav-
              iour, as described in  more  detail  below.   The  options  must
              appear  in  the  first  argument;  -n  prevents the command from
              changing to the old directory, while -d prevents it from setting
              the  variable  do_close,  which  it otherwise does as a flag for
              automatically closing the connection after a transfer.  The host
              and  directory  for  the last session are stored in the variable
              $zflastsession, but the internal  host/user/password  parameters
              must also be correctly set.

       zfcd_match prefix suffix
              This performs matching for completion of remote directory names.
              If the remote server is UNIX, it will attempt  to  persuade  the
              server  to list the remote directory with subdirectories marked,
              which usually works but is not guaranteed.  On  other  hosts  it
              simply calls zfget_match and hence completes all files, not just
              directories.  On some systems, directories  may  not  even  look
              like filenames.

       zfget_match prefix suffix
              This  performs  matching for completion of remote filenames.  It
              caches files for the  current  directory  (only)  in  the  shell
              parameter  $zftp_fcache.   It is in the form to be called by the
              -K option of compctl, but also works when  called  from  a  wid-
              get-style  completion function with prefix and suffix set appro-
              priately.

       zfrglob varname
              Perform remote globbing, as  describes  in  more  detail  below.
              varname  is  the name of a variable containing the pattern to be
              expanded; if there were any matches, the same variable  will  be
              set to the expanded set of filenames on return.

       zfrtime lfile rfile [ time ]
              Set  the  local file lfile to have the same modification time as
              the remote file rfile, or the explicit time time in  FTP  format
              CCYYMMDDhhmmSS for the GMT timezone.

              Currently this requires perl version 5 to perform the conversion
              from GMT to local time.  This is unfortunately difficult  to  do
              using shell code alone.

       zftp_chpwd
              This  function  is  called every time a connection is opened, or
              closed, or the remote directory changes.   This  version  alters
              the  title bar of an xterm-compatible or sun-cmd terminal emula-
              tor to reflect the local and remote hostnames and current direc-
              tories.   It  works  best when combined with the function chpwd.
              In particular, a function of the form

                     chpwd() {
                       if [[ -n $ZFTP_USER ]]; then
                         zftp_chpwd
                       else
                         # usual chpwd e.g put host:directory in title bar
                       fi
                     }

              fits in well.

       zftp_progress
              This function shows the status of the  transfer.   It  will  not
              write  anything  unless  the output is going to a terminal; how-
              ever, if you transfer files in the background, you  should  turn
              off  progress  reports  by hand using `zstyle ':zftp:*' progress
              none'.  Note also that if you alter it, any output  must  be  to
              standard error, as standard output may be a file being received.
              The form of the progress meter, or whether it is  used  at  all,
              can be configured without altering the function, as described in
              the next section.

       zffcache
              This is used to implement caching of files in the current direc-
              tory for each session separately.  It is used by zfget_match and
              zfrglob.


MISCELLANEOUS FEATURES

   Configuration
       Various styles are available using the standard shell style  mechanism,
       described  in  zshmodules(1).  Briefly,  the  command `zstyle ':zftp:*'
       style value ...'.  defines the style to have value value; more than one
       value  may be given, although that is not useful in the cases described
       here.  These values will then be used throughout the zftp function sys-
       tem.   For more precise control, the first argument, which gives a con-
       text in which the style applies, can be modified to include a  particu-
       lar  function,  as  for example `:zftp:zfget': the style will then have
       the given value only in the zfget function.  Values for the same  style
       in  different  contexts  may be set; the most specific function will be
       used, where strings are held to be more  specific  than  patterns,  and
       longer  patterns  and  shorter  patterns.  Note that only the top level
       function name, as called by the user, is used; calling of  lower  level
       functions is transparent to the user.  Hence modifications to the title
       bar in zftp_chpwd use  the  contexts  :zftp:zfopen,  :zftp:zfcd,  etc.,
       depending  where  it  was called from.  The following styles are under-
       stood:

       progress
              Controls the way that zftp_progress reports on the progress of a
              transfer.   If  empty,  unset,  or `none', no progress report is
              made; if `bar' a growing bar of inverse video is shown; if `per-
              cent'  (or  any other string, though this may change in future),
              the percentage of the file transferred is shown.  The bar  meter
              requires  that  the  width  of the terminal be available via the
              $COLUMNS parameter (normally this is set automatically).  If the
              size  of  the  file  being transferred is not available, bar and
              percent meters will simply show the number of bytes  transferred
              so far.

              When zfinit is run, if this style is not defined for the context
              :zftp:*, it will be set to `bar'.

       update Specifies the minimum  time  interval  between  updates  of  the
              progress  meter  in  seconds.  No update is made unless new data
              has been received, so the actual time interval is  limited  only
              by $ZFTP_TIMEOUT.

              As  described for progress, zfinit will force this to default to
              1.

       remote-glob
              If set to `1', `yes' or `true', filename  generation  (globbing)
              is performed on the remote machine instead of by zsh itself; see
              below.

       titlebar
              If set to `1', `yes' or `true', zftp_chpwd will put  the  remote
              host  and  remote directory into the titlebar of terminal emula-
              tors such as xterm or sun-cmd that allow this.

              As described for progress, zfinit will force this to default  to
              1.

       chpwd  If set to `1' `yes' or `true', zftp_chpwd will call the function
              chpwd when a connection is closed.  This is useful if the remote
              host  details were put into the terminal title bar by zftp_chpwd
              and your usual chpwd also modifies the title bar.

              When zfinit is run, it will determine whether chpwd  exists  and
              if  so  it will set the default value for the style to 1 if none
              exists already.

       Note that there is also an associative array  zfconfig  which  contains
       values  used  by  the  function system.  This should not be modified or
       overwritten.

   Remote globbing
       The commands for retrieving files usually perform  filename  generation
       (globbing)  on  their  arguments; this can be turned off by passing the
       option -G to each of the commands.  Normally this operates by  retriev-
       ing a complete list of files for the directory in question, then match-
       ing these locally against the pattern supplied.  This has the advantage
       that  the  full  range  of  zsh patterns (respecting the setting of the
       option EXTENDED_GLOB) can be used.  However, it means that  the  direc-
       tory part of a filename will not be expanded and must be given exactly.
       If the remote server does not support  the  UNIX  directory  semantics,
       directory  handling  is problematic and it is recommended that globbing
       only be used within the current directory.  The list of  files  in  the
       current  directory,  if  retrieved,  will be cached, so that subsequent
       globs in the same  directory  without  an  intervening  zfcd  are  much
       faster.

       If  the  remote-glob style (see above) is set, globbing is instead per-
       formed on the remote host: the server is asked for a list  of  matching
       files.   This  is  highly  dependent  on how the server is implemented,
       though typically UNIX servers will provide support for basic glob  pat-
       terns.   This  may in some cases be faster, as it avoids retrieving the
       entire list of directory contents.

   Automatic and temporary reopening
       As described for the zfopen command, a subsequent zfopen with no param-
       eters  will  reopen the connection to the last host (this includes con-
       nections made with the zfanon command).  Opened in  this  fashion,  the
       connection  starts in the default remote directory and will remain open
       until explicitly closed.

       Automatic re-opening is also available.  If a connection  is  not  cur-
       rently  open  and  a  command requiring a connection is given, the last
       connection is implicitly reopened.  In this case  the  directory  which
       was  current  when  the connection was closed again becomes the current
       directory (unless, of course, the command given changes it).  Automatic
       reopening  will  also  take  place  if  the connection was close by the
       remote server for whatever reason (e.g. a timeout).  It is  not  avail-
       able if the -1 option to zfopen or zfanon was used.

       Furthermore,  if  the command issued is a file transfer, the connection
       will be closed after  the  transfer  is  finished,  hence  providing  a
       one-shot mode for transfers.  This does not apply to directory changing
       or listing commands; for example a zfdir may reopen  a  connection  but
       will  leave  it open.  Also, automatic closure will only ever happen in
       the same command as automatic opening, i.e a zfdir directly followed by
       a zfget will never close the connection automatically.

       Information  about the previous connection is given by the zfstat func-
       tion.  So, for example, if that reports:

              Session:        default
              Not connected.
              Last session:   ftp.bar.com:/pub/textfiles

       then the command zfget file.txt will attempt to reopen a connection  to
       ftp.bar.com, retrieve the file /pub/textfiles/file.txt, and immediately
       close the connection again.  On the other hand, zfcd ..  will open  the
       connection in the directory /pub and leave it open.

       Note  that  all  the above is local to each session; if you return to a
       previous session, the connection for that session is the one which will
       be reopened.

   Completion
       Completion  of  local and remote files, directories, sessions and book-
       marks is supported.  The older,  compctl-style  completion  is  defined
       when zfinit is called; support for the new widget-based completion sys-
       tem is provided in  the  function  Completion/Zsh/Command/_zftp,  which
       should  be  installed with the other functions of the completion system
       and hence should automatically be available.

ZSHCONTRIB(1)                                                    ZSHCONTRIB(1)


NAME

       zshcontrib - user contributions to zsh


DESCRIPTION

       The Zsh source distribution includes a number of items  contributed  by
       the  user community.  These are not inherently a part of the shell, and
       some may not be available in every zsh installation.  The most signifi-
       cant of these are documented here.  For documentation on other contrib-
       uted items such as shell functions, look for comments in  the  function
       source files.


UTILITIES

   Accessing On-Line Help
       The key sequence ESC h is normally bound by ZLE to execute the run-help
       widget (see zshzle(1)).  This invokes the  run-help  command  with  the
       command  word from the current input line as its argument.  By default,
       run-help is an alias for the man command, so this often fails when  the
       command  word  is  a  shell  builtin  or  a  user-defined function.  By
       redefining the run-help alias, one can improve the  on-line  help  pro-
       vided by the shell.

       The helpfiles utility, found in the Util directory of the distribution,
       is a Perl program that can be used to process the zsh manual to produce
       a  separate  help  file for each shell builtin and for many other shell
       features as well.  The autoloadable run-help function, found  in  Func-
       tions/Misc,  searches  for  these  helpfiles and performs several other
       tests to produce the most complete help possible for the command.

       There may already be a directory of help files on your system; look  in
       /usr/share/zsh  or /usr/local/share/zsh and subdirectories below those,
       or ask your system administrator.

       To create your own help files with helpfiles, choose or create a direc-
       tory where the individual command help files will reside.  For example,
       you might choose ~/zsh_help.  If you unpacked the zsh  distribution  in
       your home directory, you would use the commands:

              mkdir ~/zsh_help
              cd ~/zsh_help
              man zshall | colcrt - | \
              perl ~/zsh-4.3.4/Util/helpfiles

       Next,  to  use  the  run-help function, you need to add lines something
       like the following to your .zshrc or equivalent startup file:

              unalias run-help
              autoload run-help
              HELPDIR=~/zsh_help

       The HELPDIR parameter tells run-help where to look for the help  files.
       If your system already has a help file directory installed, set HELPDIR
       to the path of that directory instead.

       Note that in order for `autoload run-help' to work, the  run-help  file
       must  be  in one of the directories named in your fpath array (see zsh-
       param(1)).  This should already be the case if you have a standard  zsh
       installation;  if  it is not, copy Functions/Misc/run-help to an appro-
       priate directory.

   Recompiling Functions
       If you frequently edit your zsh functions, or periodically update  your
       zsh  installation  to  track the latest developments, you may find that
       function digests compiled with the zcompile builtin are frequently  out
       of date with respect to the function source files.  This is not usually
       a problem, because zsh always looks for the newest file when loading  a
       function,  but  it may cause slower shell startup and function loading.
       Also, if a digest file is explicitly used as an element of  fpath,  zsh
       won't check whether any of its source files has changed.

       The  zrecompile  autoloadable function, found in Functions/Misc, can be
       used to keep function digests up to date.

       zrecompile [ -qt ] [ name ... ]
       zrecompile [ -qt ] -p args [ -- args ... ]
              This tries to find *.zwc files and automatically re-compile them
              if at least one of the original files is newer than the compiled
              file.  This works only if the names stored in the compiled files
              are  full  paths  or are relative to the directory that contains
              the .zwc file.

              In the first form, each name is the name of a compiled file or a
              directory  containing *.zwc files that should be checked.  If no
              arguments are given, the directories and *.zwc  files  in  fpath
              are used.

              When -t is given, no compilation is performed, but a return sta-
              tus of zero (true) is set if there are files  that  need  to  be
              re-compiled  and non-zero (false) otherwise.  The -q option qui-
              ets the chatty output that describes what zrecompile is doing.

              Without the -t option, the return status is zero  if  all  files
              that  needed  re-compilation  could  be compiled and non-zero if
              compilation for at least one of the files failed.

              If the -p option is given, the args are interpreted  as  one  or
              more  sets  of  arguments  for zcompile, separated by `--'.  For
              example:

                     zrecompile -p \
                                -R ~/.zshrc -- \
                                -M ~/.zcompdump -- \
                                ~/zsh/comp.zwc ~/zsh/Completion/*/_*

              This compiles ~/.zshrc into ~/.zshrc.zwc if that  doesn't  exist
              or  if  it  is  older  than  ~/.zshrc. The compiled file will be
              marked for reading instead of mapping.  The  same  is  done  for
              ~/.zcompdump  and  ~/.zcompdump.zwc,  but  this compiled file is
              marked  for  mapping.  The  last  line   re-creates   the   file
              ~/zsh/comp.zwc if any of the files matching the given pattern is
              newer than it.

              Without the -p  option,  zrecompile  does  not  create  function
              digests that do not already exist, nor does it add new functions
              to the digest.

       The following shell loop is an example of a method for  creating  func-
       tion  digests  for  all functions in your fpath, assuming that you have
       write permission to the directories:

              for ((i=1; i <= $#fpath; ++i)); do
                dir=$fpath[i]
                zwc=${dir:t}.zwc
                if [[ $dir == (.|..) || $dir == (.|..)/* ]]; then
                  continue
                fi
                files=($dir/*(N-.))
                if [[ -w $dir:h && -n $files ]]; then
                  files=(${${(M)files%/*/*}#/})
                  if ( cd $dir:h &&
                       zrecompile -p -U -z $zwc $files ); then
                    fpath[i]=$fpath[i].zwc
                  fi
                fi
              done

       The -U and -z options are appropriate for functions in the default  zsh
       installation fpath; you may need to use different options for your per-
       sonal function directories.

       Once the digests have been created and your fpath modified to refer  to
       them,  you can keep them up to date by running zrecompile with no argu-
       ments.

   Keyboard Definition
       The large number of possible combinations of  keyboards,  workstations,
       terminals, emulators, and window systems makes it impossible for zsh to
       have built-in key bindings for  every  situation.   The  zkbd  utility,
       found  in  Functions/Misc, can help you quickly create key bindings for
       your configuration.

       Run zkbd either as an autoloaded function, or as a shell script:

              zsh -f ~/zsh-4.3.4/Functions/Misc/zkbd

       When you run zkbd, it first asks you to enter your  terminal  type;  if
       the  default it offers is correct, just press return.  It then asks you
       to press a number of different keys  to  determine  characteristics  of
       your  keyboard and terminal; zkbd warns you if it finds anything out of
       the ordinary, such as a Delete key that sends neither ^H nor ^?.

       The keystrokes read by zkbd are recorded as a definition for  an  asso-
       ciative  array  named  key, written to a file in the subdirectory .zkbd
       within either your HOME or ZDOTDIR directory.  The name of the file  is
       composed  from  the  TERM,  VENDOR  and  OSTYPE  parameters,  joined by
       hyphens.

       You may read this file into your .zshrc or another  startup  file  with
       the "source" or "." commands, then reference the key parameter in bind-
       key commands, like this:

              source ${ZDOTDIR:-$HOME}/.zkbd/$TERM-$VENDOR-$OSTYPE
              [[ -n ${key[Left]} ]] && bindkey "${key[Left]}" backward-char
              [[ -n ${key[Right]} ]] && bindkey "${key[Right]}" forward-char
              # etc.

       Note that in order for `autoload zkbd' to work, the zkdb file  must  be
       in  one of the directories named in your fpath array (see zshparam(1)).
       This should already be the case if you have a  standard  zsh  installa-
       tion;  if  it is not, copy Functions/Misc/zkbd to an appropriate direc-
       tory.

   Dumping Shell State
       Occasionally you may encounter what appears to be a bug in  the  shell,
       particularly  if  you  are using a beta version of zsh or a development
       release.  Usually it is sufficient to send a description of the problem
       to  one of the zsh mailing lists (see zsh(1)), but sometimes one of the
       zsh developers will need to recreate your environment in order to track
       the problem down.

       The script named reporter, found in the Util directory of the distribu-
       tion, is provided for this purpose.  (It is also possible  to  autoload
       reporter,  but  reporter  is  not installed in fpath by default.)  This
       script outputs a detailed dump of the  shell  state,  in  the  form  of
       another script that can be read with `zsh -f' to recreate that state.

       To  use  reporter, read the script into your shell with the `.' command
       and redirect the output into a file:

              . ~/zsh-4.3.4/Util/reporter > zsh.report

       You should check the zsh.report file for any sensitive information such
       as  passwords  and delete them by hand before sending the script to the
       developers.  Also, as the output can be voluminous, it's best  to  wait
       for the developers to ask for this information before sending it.

       You  can  also  use  reporter to dump only a subset of the shell state.
       This is sometimes useful for creating startup files for the first time.
       Most  of  the output from reporter is far more detailed than usually is
       necessary for a startup file, but the  aliases,  options,  and  zstyles
       states  may  be  useful  because  they  include  only  changes from the
       defaults.  The bindings state may be useful if you have created any  of
       your own keymaps, because reporter arranges to dump the keymap creation
       commands as well as the bindings for every keymap.

       As is usual with automated tools, if you create  a  startup  file  with
       reporter,  you  should edit the results to remove unnecessary commands.
       Note that if you're using the new completion  system,  you  should  not
       dump  the  functions state to your startup files with reporter; use the
       compdump function instead (see zshcompsys(1)).

       reporter [ state ... ]
              Print to standard output the indicated  subset  of  the  current
              shell state.  The state arguments may be one or more of:

              all    Output everything listed below.
              aliases
                     Output alias definitions.
              bindings
                     Output ZLE key maps and bindings.
              completion
                     Output  old-style  compctl  commands.   New completion is
                     covered by functions and zstyles.
              functions
                     Output autoloads and function definitions.
              limits Output limit commands.
              options
                     Output setopt commands.
              styles Same as zstyles.
              variables
                     Output shell parameter assignments, plus export  commands
                     for any environment variables.
              zstyles
                     Output zstyle commands.

              If the state is omitted, all is assumed.

       With the exception of `all', every state can be abbreviated by any pre-
       fix, even a single letter; thus a is the same as aliases, z is the same
       as zstyles, etc.


PROMPT THEMES

   Installation
       You  should  make  sure  all  the  functions from the Functions/Prompts
       directory of the source distribution are available; they all begin with
       the  string `prompt_' except for the special function`promptinit'.  You
       also need the `colors' function  from  Functions/Misc.   All  of  these
       functions  may  already have been installed on your system; if not, you
       will need to find them and copy them.  The directory should  appear  as
       one of the elements of the fpath array (this should already be the case
       if they were installed), and at least the function promptinit should be
       autoloaded;  it will autoload the rest.  Finally, to initialize the use
       of the system you need to call the promptinit function.  The  following
       code  in  your  .zshrc  will arrange for this; assume the functions are
       stored in the directory ~/myfns:

              fpath=(~/myfns $fpath)
              autoload -U promptinit
              promptinit

   Theme Selection
       Use the prompt command to select your preferred  theme.   This  command
       may  be  added to your .zshrc following the call to promptinit in order
       to start zsh with a theme already selected.

       prompt [ -c | -l ]
       prompt [ -p | -h ] [ theme ... ]
       prompt [ -s ] theme [ arg ... ]
              Set or examine the prompt theme.  With no options  and  a  theme
              argument,  the theme with that name is set as the current theme.
              The available themes are determined at  run  time;  use  the  -l
              option  to  see  a  list.  The special theme `random' selects at
              random one of the available themes and sets your prompt to that.

              In  some  cases  the  theme may be modified by one or more argu-
              ments, which should be given after the theme name.  See the help
              for each theme for descriptions of these arguments.

              Options are:

              -c     Show  the currently selected theme and its parameters, if
                     any.
              -l     List all available prompt themes.
              -p     Preview the theme named by theme, or  all  themes  if  no
                     theme is given.
              -h     Show help for the theme named by theme, or for the prompt
                     function if no theme is given.
              -s     Set theme as the current theme and save state.

       prompt_theme_setup
              Each available theme has a setup function which is called by the
              prompt function to install that theme.  This function may define
              other functions as necessary to maintain the  prompt,  including
              functions  used  to  preview  the prompt or provide help for its
              use.  You should not normally  call  a  theme's  setup  function
              directly.


ZLE FUNCTIONS

   Widgets
       These  functions all implement user-defined ZLE widgets (see zshzle(1))
       which can be bound to keystrokes in interactive shells.  To  use  them,
       your .zshrc should contain lines of the form

              autoload function
              zle -N function

       followed  by  an  appropriate bindkey command to associate the function
       with a key sequence.  Suggested bindings are described below.

       bash-style word functions
              If you are looking for functions to implement  moving  over  and
              editing  words  in  the  manner of bash, where only alphanumeric
              characters are considered word characters, you can use the func-
              tions  described  in  the next section.  The following is suffi-
              cient:

                     autoload -U select-word-style
                     select-word-style bash

       forward-word-match, backward-word-match
       kill-word-match, backward-kill-word-match
       transpose-words-match, capitalize-word-match
       up-case-word-match, down-case-word-match
       select-word-style, match-word-context, match-words-by-style
              The eight `-match' functions are drop-in  replacements  for  the
              builtin widgets without the suffix.  By default they behave in a
              similar way.  However, by the use of  styles  and  the  function
              select-word-style, the way words are matched can be altered.

              The  simplest  way  of  configuring  the  functions  is  to  use
              select-word-style, which can either be called as a normal  func-
              tion with the appropriate argument, or invoked as a user-defined
              widget that will prompt for the  first  character  of  the  word
              style  to  be  used.   The  first  time it is invoked, the eight
              -match functions will automatically  replace  the  builtin  ver-
              sions, so they do not need to be loaded explicitly.

              The  word styles available are as follows.  Only the first char-
              acter is examined.

              bash   Word characters are alphanumeric characters only.

              normal As  in  normal  shell  operation:   word  characters  are
                     alphanumeric  characters  plus  any characters present in
                     the string given by the parameter $WORDCHARS.

              shell  Words are  complete  shell  command  arguments,  possibly
                     including  complete quoted strings, or any tokens special
                     to the shell.

              whitespace
                     Words are any set of characters delimited by  whitespace.

              default
                     Restore the default settings; this is usually the same as
                     `normal'.

              More control can  be  obtained  using  the  zstyle  command,  as
              described in zshmodules(1).  Each style is looked up in the con-
              text :zle:widget where widget is the name  of  the  user-defined
              widget,  not the name of the function implementing it, so in the
              case of the definitions supplied by select-word-style the appro-
              priate  contexts are :zle:forward-word, and so on.  The function
              select-word-style itself always defines styles for  the  context
              `:zle:*'  which can be overridden by more specific (longer) pat-
              terns as well as explicit contexts.

              The style word-style specifies the rules to use.  This may  have
              the following values.

              normal Use  the  standard  shell  rules,  i.e. alphanumerics and
                     $WORDCHARS, unless overridden by the styles word-chars or
                     word-class.

              specified
                     Similar to normal, but only the specified characters, and
                     not also alphanumerics, are considered word characters.

              unspecified
                     The negation of  specified.   The  given  characters  are
                     those which will not be considered part of a word.

              shell  Words  are obtained by using the syntactic rules for gen-
                     erating shell command arguments.   In  addition,  special
                     tokens which are never command arguments such as `()' are
                     also treated as words.

              whitespace
                     Words are whitespace-delimited strings of characters.

              The first three of those rules usually use $WORDCHARS,  but  the
              value   in   the  parameter  can  be  overridden  by  the  style
              word-chars, which works in exactly the same way  as  $WORDCHARS.
              In addition, the style word-class uses character class syntax to
              group characters and takes precedence over  word-chars  if  both
              are  set.  The word-class style does not include the surrounding
              brackets of the character class; for example, `-:[:alnum:]' is a
              valid  word-class  to include all alphanumerics plus the charac-
              ters `-' and `:'.  Be careful including  `]',  `^'  and  `-'  as
              these are special inside character classes.

              The  style  skip-chars  is mostly useful for transpose-words and
              similar functions.  If set,  it  gives  a  count  of  characters
              starting  at  the  cursor  position which will not be considered
              part of the word and are treated as space,  regardless  of  what
              they actually are.  For example, if

                     zstyle ':zle:transpose-words' skip-chars 1

              has  been set, and transpose-words-match is called with the cur-
              sor on the X of fooXbar, where X can be any character, then  the
              resulting expression is barXfoo.

              Finer  grained  control  can  be  obtained  by setting the style
              word-context to an array of pairs  of  entries.   Each  pair  of
              entries consists of a pattern and a subcontext.  The shell argu-
              ment the cursor is on is matched against each  pattern  in  turn
              until  one  matches;  if  it  does, the context is extended by a
              colon and the corresponding subcontext.  Note that the  test  is
              made against the original word on the line, with no stripping of
              quotes.  If the cursor is at the end of the  line  the  test  is
              performed  against  an  empty  string;  if  it  is on whitespace
              between words the test is made against  a  single  space.   Some
              examples are given below.

              Here are some examples of use of the styles, actually taken from
              the simplified interface in select-word-style:

                     zstyle ':zle:*' word-style standard
                     zstyle ':zle:*' word-chars ''

              Implements bash-style word handling for all widgets,  i.e.  only
              alphanumerics  are  word  characters;  equivalent to setting the
              parameter WORDCHARS empty for the given context.

                     style ':zle:*kill*' word-style space

              Uses space-delimited words for widgets with the word  `kill'  in
              the  name.   Neither  of the styles word-chars nor word-class is
              used in this case.

              Here are some examples of  use  of  the  word-context  style  to
              extend the context.

                     zstyle ':zle:*' word-context "*/*" file "[[:space:]]" whitespace
                     zstyle ':zle:transpose-words:whitespace' word-style shell
                     zstyle ':zle:transpose-words:filename' word-style normal
                     zstyle ':zle:transpose-words:filename' word-chars ''

              This  provides  two  different  ways  of  using  transpose-words
              depending on whether the cursor is on whitespace  between  words
              or  on a filename, here any word containing a /.  On whitespace,
              complete arguments as defined by standard shell  rules  will  be
              transposed.   In  a  filename, only alphanumerics will be trans-
              posed.  Elsewhere, words will be transposed  using  the  default
              style for :zle:transpose-words.

              The  word  matching  and  all the handling of zstyle settings is
              actually implemented by the function match-words-by-style.  This
              can  be  used  to  create new user-defined widgets.  The calling
              function should set the local parameter curcontext to  :zle:wid-
              get,   create   the   local  parameter  matched_words  and  call
              match-words-by-style   with   no    arguments.     On    return,
              matched_words will be set to an array with the elements: (1) the
              start of the line  (2)  the  word  before  the  cursor  (3)  any
              non-word  characters  between  that  word and the cursor (4) any
              non-word character at the cursor  position  plus  any  remaining
              non-word  characters before the next word, including all charac-
              ters specified by the skip-chars style, (5) the word at or  fol-
              lowing  the  cursor  (6)  any non-word characters following that
              word (7) the remainder of the line.  Any of the elements may  be
              an  empty  string;  the calling function should test for this to
              decide whether it can perform its function.

              It   is   possible   to   pass   options   with   arguments   to
              match-words-by-style to override the use of styles.  The options
              are:
              -w     word-style
              -s     skip-chars
              -c     word-class
              -C     word-chars

              For example, match-words-by-style -w shell -c 0 may be  used  to
              extract the command argument around the cursor.

              The   word-context   style   is   implemented  by  the  function
              match-word-context.  This should not usually need to  be  called
              directly.

       delete-whole-word-match
              This  is  another function which works like the -match functions
              described immediately above, i.e. using  styles  to  decide  the
              word  boundaries.   However,  it  is  not  a replacement for any
              existing function.

              The basic behaviour is to delete the  word  around  the  cursor.
              There is no numeric prefix handling; only the single word around
              the cursor is considered.  If the  widget  contains  the  string
              kill,  the  removed  text  will  be  placed in the cutbuffer for
              future   yanking.    This   can   be   obtained   by    defining
              kill-whole-word-match as follows:

                     zle -N kill-whole-word-match delete-whole-word-match

              and then binding the widget kill-whole-word-match.

       copy-earlier-word
              This  widget  works  like  a combination of insert-last-word and
              copy-prev-shell-word.   Repeated  invocations  of   the   widget
              retrieve  earlier  words  on  the relevant history line.  With a
              numeric argument N, insert the Nth word from the history line; N
              may be negative to count from the end of the line.

              If insert-last-word has been used to retrieve the last word on a
              previous history line, repeated invocations  will  replace  that
              word with earlier words from the same line.

              Otherwise,  the  widget  applies  to words on the line currently
              being edited.  The widget style  can  be  set  to  the  name  of
              another  widget  that  should be called to retrieve words.  This
              widget must accept the same three arguments as insert-last-word.

       cycle-completion-positions
              After inserting an unambiguous string into the command line, the
              new function based completion system  may  know  about  multiple
              places  in  this  string  where characters are missing or differ
              from at least one of the possible matches.  It will  then  place
              the cursor on the position it considers to be the most interest-
              ing one, i.e. the one where one can disambiguate between as many
              matches as possible with as little typing as possible.

              This  widget  allows  the cursor to be easily moved to the other
              interesting spots.   It  can  be  invoked  repeatedly  to  cycle
              between all positions reported by the completion system.

       edit-command-line
              Edit the command line using your visual editor, as in ksh.

                     bindkey -M vicmd v edit-command-line

       history-search-end
              This    function    implements    the   widgets   history-begin-
              ning-search-backward-end    and    history-beginning-search-for-
              ward-end.   These commands work by first calling the correspond-
              ing builtin widget (see `History Control' in zshzle(1)) and then
              moving  the  cursor to the end of the line.  The original cursor
              position is remembered and restored before calling  the  builtin
              widget  a  second  time,  so that the same search is repeated to
              look farther through the history.

              Although you autoload only one function, the commands to use  it
              are slightly different because it implements two widgets.

                     zle -N history-beginning-search-backward-end \
                            history-search-end
                     zle -N history-beginning-search-forward-end \
                            history-search-end
                     bindkey '\e^P' history-beginning-search-backward-end
                     bindkey '\e^N' history-beginning-search-forward-end

       history-beginning-search-menu
              This  function implements yet another form of history searching.
              The text before the cursor is used to select lines from the his-
              tory,  as  for history-beginning-search-backward except that all
              matches are shown in a numbered menu.   Typing  the  appropriate
              digits  inserts the full history line.  Note that leading zeroes
              must be typed (they are only shown when necessary  for  removing
              ambiguity).   The  entire  history is searched; there is no dis-
              tinction between forwards and backwards.

              With a prefix argument, the search is not anchored to the  start
              of  the line; the string typed by the use may appear anywhere in
              the line in the history.

              If the widget name contains `-end' the cursor is  moved  to  the
              end  of the line inserted.  If the widget name contains `-space'
              any space in the text typed is treated as  a  wildcard  and  can
              match  anything (hence a leading space is equivalent to giving a
              prefix argument).  Both forms can be combined, for example:

                     zle -N history-beginning-search-menu-space-end \
                            history-beginning-search-menu

       history-pattern-search
              The function  history-pattern-search  implements  widgets  which
              prompt  for a pattern with which to search the history backwards
              or forwards.  The pattern is in the usual  zsh  format,  however
              the  first  character may be ^ to anchor the search to the start
              of the line, and the last character  may  be  $  to  anchor  the
              search  to  the end of the line.  If the search was not anchored
              to the end of the line the cursor is positioned just  after  the
              pattern found.

              The  commands to create bindable widgets are similar to those in
              the example immediately above:

                     autoload -U history-pattern-search
                     zle -N history-pattern-search-backward history-pattern-search
                     zle -N history-pattern-search-forward history-pattern-search

       up-line-or-beginning-search, down-line-or-beginning-search
              These   widgets   are   similar   to   the   builtin   functions
              up-line-or-search  and  down-line-or-search:   if in a multiline
              buffer they move up or down within the  buffer,  otherwise  they
              search  for  a  history  line  matching the start of the current
              line.  In this case, however,  they  search  for  a  line  which
              matches  the  current line up to the current cursor position, in
              the manner of  history-beginning-search-backward  and  -forward,
              rather than the first word on the line.

       incarg Typing  the keystrokes for this widget with the cursor placed on
              or to the left of an integer causes that integer  to  be  incre-
              mented  by  one.   With a numeric prefix argument, the number is
              incremented by the amount of the argument  (decremented  if  the
              prefix argument is negative).  The shell parameter incarg may be
              set to change the default increment to something other than one.

                     bindkey '^X+' incarg

       incremental-complete-word
              This  allows  incremental  completion of a word.  After starting
              this command, a list of completion choices can  be  shown  after
              every  character  you type, which you can delete with ^H or DEL.
              Pressing return accepts the completion so far and returns you to
              normal  editing  (that  is,  the command line is not immediately
              executed).  You can hit TAB to do normal completion, ^G to abort
              back  to the state when you started, and ^D to list the matches.

              This works only with the new function based completion system.

                     bindkey '^Xi' incremental-complete-word

       insert-composed-char
              This function allows you to compose characters that don't appear
              on  the keyboard to be inserted into the command line.  The com-
              mand is followed by two keys corresponding to  ASCII  characters
              (there is no prompt).  For accented characters, the two keys are
              a base character followed by a code for the  accent,  while  for
              other  special  characters  the  two  characters together form a
              mnemonic for the character to be  inserted.   The  two-character
              codes  are  a subset of those given by RFC 1345 (see for example
              http://www.faqs.org/rfcs/rfc1345.html).

              The function may optionally be followed by up to two  characters
              which  replace  one or both of the characters read from the key-
              board; if both characters are supplied, no input is  read.   For
              example,  insert-composed-char a: can be used within a widget to
              insert an a with umlaut into the command  line.   This  has  the
              advantages  over use of a literal character that it is more por-
              table.

              For best results zsh should have been  built  with  support  for
              multibyte  characters (configured with --enable-multibyte); how-
              ever, the function works for the  limited  range  of  characters
              available in single-byte character sets such as ISO-8859-1.

              The  character  is  converted  into the local representation and
              inserted into the command line at  the  cursor  position.   (The
              conversion  is  done within the shell, using whatever facilities
              the C library provides.)  With a numeric argument, the character
              and its code are previewed in the status line

              The  function may be run outside zle in which case it prints the
              character (together with a newline) to standard  output.   Input
              is still read from keystrokes.

              See insert-unicode-char for an alternative way of inserting Uni-
              code characters using their hexadecimal character number.

              The set of accented characters is reasonably complete up to Uni-
              code  character  U+0180,  the set of special characters less so.
              However, it it is very sporadic from  that  point.   Adding  new
              characters  is  easy,  however;  see  the  function  define-com-
              posed-chars.  Please  send  any  additions  to  zsh-workers@sun-
              site.dk.

              The codes for the second character when used to accent the first
              are as follows.  Note that not every character  can  take  every
              accent.
              !      Grave.
              '      Acute.
              >      Circumflex.
              ?      Tilde.   (This  is not ~ as RFC 1345 does not assume that
                     character is present on the keyboard.)
              -      Macron.  (A horizonal bar over the base character.)
              (      Breve.  (A shallow dish shape over the base character.)
              .      Dot above the base character, or in the case of i no dot,
                     or in the case of L and l a centered dot.
              :      Diaeresis (Umlaut).
              c      Cedilla.
              _      Underline,  however  there  are  currently  no underlined
                     characters.
              /      Stroke through the base character.
              "      Double acute (only supported on a few letters).
              ;      Ogonek.  (A little forward  facing  hook  at  the  bottom
                     right of the character.)
              <      Caron.  (A little v over the letter.)
              0      Circle over the base character.
              2      Hook over the base character.
              9      Horn over the base character.

              The  most common characters from the Arabic, Cyrillic, Greek and
              Hebrew alphabets are available; consult RFC 1345 for the  appro-
              priate sequences.  In addition, a set of two letter codes not in
              RFC 1345 are available for the  double-width  characters  corre-
              sponding to ASCII characters from !  to ~ (0x21 to 0x7e) by pre-
              ceeding the character with ^, for example ^A for a  double-width
              A.

              The following other two-character sequences are understood.

              ASCII characters
                     These are already present on most keyboards:
              <(     Left square bracket
              //     Backslash (solidus)
              )>     Right square bracket
              (!     Left brace (curly bracket)
              !!     Vertical bar (pipe symbol)
              !)     Right brace (curly bracket)
              '?     Tilde

              Special letters
                     Characters  found in various variants of the Latin alpha-
                     bet:
              ss     Eszett (scafes S)
              D-, d- Eth
              TH, th Thorn
              kk     Kra
              'n     'n
              NG, ng Ng
              OI, oi Oi
              yr     yr
              ED     ezh

              Currency symbols
              Ct     Cent
              Pd     Pound sterling (also lira and others)
              Cu     Currency
              Ye     Yen
              Eu     Euro (N.B. not in RFC 1345)

              Punctuation characters
                     References to "right" quotes indicate the shape (like a 9
                     rather  than  6) rather than their grammatical use.  (For
                     example, a "right" low double quote is used to open  quo-
                     tations in German.)
              !I     Inverted exclamation mark
              BB     Broken vertical bar
              SE     Section
              Co     Copyright
              -a     Spanish feminine ordinal indicator
              <<     Left guillemet
              --     Soft hyphen
              Rg     Registered trade mark
              PI     Pilcrow (paragraph)
              -o     Spanish masculine ordinal indicator
              >>     Right guillemet
              ?I     Inverted question mark
              -1     Hyphen
              -N     En dash
              -M     Em dash
              -3     Horizontal bar
              :3     Vertical ellipsis
              .3     Horizontal midline ellipsis
              !2     Double vertical line
              =2     Double low line
              '6     Left single quote
              '9     Right single quote
              .9     "Right" low quote
              9'     Reversed "right" quote
              "6     Left double quote
              "9     Right double quote
              :9     "Right" low double quote
              9"     Reversed "right" double quote
              /-     Dagger
              /=     Double dagger

              Mathematical symbols
              DG     Degree
              -2, +-, -+
                     - sign, +/- sign, -/+ sign
              2S     Superscript 2
              3S     Superscript 3
              1S     Superscript 1
              My     Micro
              .M     Middle dot
              14     Quarter
              12     Half
              34     Three quarters
              *X     Multiplication
              -:     Division
              %0     Per mille
              FA, TE, /0
                     For all, there exists, empty set
              dP, DE, NB
                     Partial derivative, delta (increment), del (nabla)
              (-, -) Element of, contains
              *P, +Z Product, sum
              *-, Ob, Sb
                     Asterisk, ring, bullet
              RT, 0(, 00
                     Root sign, proportional to, infinity

              Other symbols
              cS, cH, cD, cC
                     Card suits: spades, hearts, diamonds, clubs
              Md, M8, M2, Mb, Mx, MX
                     Musical notation: crotchet (quarter note), quaver (eighth
                     note), semiquavers (sixteenth notes), flag sign,  natural
                     signa, sharp sign
              Fm, Ml Female, male

              Accents on their own
              '>     Circumflex (same as caret, ^)
              '!     Grave (same as backtick, `)
              ',     Cedilla
              ':     Diaeresis (Umlaut)
              'm     Macron
              ''     Acute

       insert-files
              This  function  allows  you  type  a  file  pattern, and see the
              results of the expansion at each step.  When you hit return, all
              expansions are inserted into the command line.

                     bindkey '^Xf' insert-files

       narrow-to-region [ -p pre ] [ -P post ]
           [ -S statepm | -R statepm ] [ -n ] [ start end ])
       narrow-to-region-invisible
              Narrow  the editable portion of the buffer to the region between
              the cursor and the mark, which may  be  in  either  order.   The
              region may not be empty.

              narrow-to-region may be used as a widget or called as a function
              from a user-defined widget; by default,  the  text  outside  the
              editable  area  remains  visible.  A recursive-edit is performed
              and the original widening  status  is  then  restored.   Various
              options and arguments are available when it is called as a func-
              tion.

              The options -p pretext and -P posttext may be  used  to  replace
              the  text  before  and after the display for the duration of the
              function; either or both may be an empty string.

              If the option -n is also given, pretext or posttext will only be
              inserted  if  there  is  text before or after the region respec-
              tively which will be made invisible.

              Two numeric arguments may be given which will be used instead of
              the cursor and mark positions.

              The  option  -S statepm is used to narrow according to the other
              options while saving the original state in  the  parameter  with
              name statepm, while the option -R statepm is used to restore the
              state from the parameter; note in both cases  the  name  of  the
              parameter  is  required.   In the second case, other options and
              arguments are irrelevant.  When this method is used,  no  recur-
              sive-edit  is  performed;  the  calling  widget should call this
              function with the option -S, perform its own editing on the com-
              mand  line or pass control to the user via `zle recursive-edit',
              then call this  function  with  the  option  -R.   The  argument
              statepm  must  be  a  suitable  name  for an ordinary parameter,
              except that parameters  beginning  with  the  prefix  _ntr_  are
              reserved for use within narrow-to-region.  Typically the parame-
              ter will be local to the calling function.

              narrow-to-region-invisible is a simple widget which  calls  nar-
              row-to-region  with arguments which replace any text outside the
              region with `...'.

              The display is restored (and the widget returns)  upon  any  zle
              command  which  would  usually  cause the line to be accepted or
              aborted.  Hence an additional such command is required to accept
              or abort the current line.

              The  return  status  of  both  widgets  is  zero if the line was
              accepted, else non-zero.

              Here is a trivial example of a widget using this feature.
                     local state
                     narrow-to-region -p $'Editing restricted region\n' \
                       -P '' -S state
                     zle recursive-edit
                     narrow-to-region -R state

       insert-unicode-char
              When first executed, the user inputs a set of  hexadecimal  dig-
              its.   This  is  terminated  with  another  call  to insert-uni-
              code-char.  The digits are then turned  into  the  corresponding
              Unicode  character.  For example, if the widget is bound to ^XU,
              the character sequence `^XU 4 c ^XU' inserts L (Unicode U+004c).

              See insert-composed-char for a way of inserting characters using
              a two-character mnemonic.

       predict-on
              This set of functions implements predictive typing using history
              search.   After  predict-on, typing characters causes the editor
              to look backward in the history for  the  first  line  beginning
              with  what  you  have  typed so far.  After predict-off, editing
              returns to normal for the line found.  In fact, you often  don't
              even  need to use predict-off, because if the line doesn't match
              something in the history, adding a key performs standard comple-
              tion,  and  then  inserts  itself  if no completions were found.
              However, editing in the middle of a line is  liable  to  confuse
              prediction; see the toggle style below.

              With  the  function based completion system (which is needed for
              this), you should be able to type TAB at  almost  any  point  to
              advance  the  cursor to the next ``interesting'' character posi-
              tion (usually the end of the current word, but  sometimes  some-
              where  in the middle of the word).  And of course as soon as the
              entire line is what you want, you can accept with return,  with-
              out needing to move the cursor to the end first.

              The first time predict-on is used, it creates several additional
              widget functions:

              delete-backward-and-predict
                     Replaces the backward-delete-char  widget.   You  do  not
                     need to bind this yourself.
              insert-and-predict
                     Implements predictive typing by replacing the self-insert
                     widget.  You do not need to bind this yourself.
              predict-off
                     Turns off predictive typing.

              Although you autoload only the predict-on function, it is neces-
              sary to create a keybinding for predict-off as well.

                     zle -N predict-on
                     zle -N predict-off
                     bindkey '^X^Z' predict-on
                     bindkey '^Z' predict-off

       read-from-minibuffer
              This is most useful when called as a function from inside a wid-
              get, but will work correctly as a widget in its own  right.   It
              prompts  for a value below the current command line; a value may
              be input using all of  the  standard  zle  operations  (and  not
              merely the restricted set available when executing, for example,
              execute-named-cmd).  The value is then returned to  the  calling
              function in the parameter $REPLY and the editing buffer restored
              to its previous state.  If the read was aborted  by  a  keyboard
              break  (typically  ^G), the function returns status 1 and $REPLY
              is not set.

              If one argument is supplied to the function it  is  taken  as  a
              prompt,  otherwise `? ' is used.  If two arguments are supplied,
              they are the prompt and the initial value of $LBUFFER, and if  a
              third  argument  is  given  it is the initial value of $RBUFFER.
              This provides a default value  and  starting  cursor  placement.
              Upon return the entire buffer is the value of $REPLY.

              One  option is available: `-k num' specifies that num characters
              are to be read instead of a whole line.  The line editor is  not
              invoked  recursively  in this case, so depending on the terminal
              settings the input may not be visible, and only the  input  keys
              are  placed  in $REPLY, not the entire buffer.  Note that unlike
              the read builtin num must be given; there is no default.

              The name is a slight  misnomer,  as  in  fact  the  shell's  own
              minibuffer is not used.  Hence it is still possible to call exe-
              cuted-named-cmd and similar functions while reading a value.

       replace-string, replace-pattern
       replace-string-again, replace-pattern-again
              The function replace-string implements two widgets.  If  defined
              under the same name as the function, it prompts for two strings;
              the first (source) string will be replaced by the second  every-
              where it occurs in the line editing buffer.

              If  the  widget name contains the word `pattern', for example by
              defining the widget using the command  `zle  -N  replace-pattern
              replace-string',  then the replacement is done by pattern match-
              ing.  All zsh extended globbing patterns  can  be  used  in  the
              source  string; note that unlike filename generation the pattern
              does not need to match an entire word, nor  do  glob  qualifiers
              have  any  effect.  In addition, the replacement string can con-
              tain parameter or command substitutions.  Furthermore, a `&'  in
              the  replacement string will be replaced with the matched source
              string, and a backquoted digit `\N' will be replaced by the  Nth
              parenthesised  expression  matched.  The form `\{N}' may be used
              to protect the digit from following digits.

              By default the previous source or replacement string will not be
              offered  for editing.  However, this feature can be activated by
              setting the style edit-previous in the context :zle:widget  (for
              example,  :zle:replace-string) to true.  In addition, a positive
              numeric argument forces the previous values  to  be  offered,  a
              negative or zero argument forces them not to be.

              The function replace-string-again can be used to repeat the pre-
              vious   replacement;   no   prompting   is   done.    As    with
              replace-string,  if  the  name  of  the widget contains the word
              `pattern', pattern matching is performed, else a literal  string
              replacement.  Note that the previous source and replacement text
              are the same whether pattern or string matching is used.

              For example, starting from the line:

                     print This line contains fan and fond

              and invoking replace-pattern with the source string `f(?)n'  and
              the replacment string `c\1r' produces the not very useful line:

                     print This line contains car and cord

              The  range of the replacement string can be limited by using the
              narrow-to-region-invisible widget.  One limitation of  the  cur-
              rent  version  is  that  undo  will cycle through changes to the
              replacement and source strings before  undoing  the  replacement
              itself.

       smart-insert-last-word
              This function may replace the insert-last-word widget, like so:

                     zle -N insert-last-word smart-insert-last-word

              With  a numeric prefix, or when passed command line arguments in
              a call from another widget, it  behaves  like  insert-last-word,
              except  that words in comments are ignored when INTERACTIVE_COM-
              MENTS is set.

              Otherwise, the rightmost ``interesting'' word from the  previous
              command  is  found  and  inserted.   The  default  definition of
              ``interesting'' is that the word contains at  least  one  alpha-
              betic  character,  slash,  or backslash.  This definition may be
              overridden by use of the match style.  The context used to  look
              up  the  style  is  the  widget  name, so usually the context is
              :insert-last-word.  However, you can bind this function to  dif-
              ferent widgets to use different patterns:

                     zle -N insert-last-assignment smart-insert-last-word
                     zstyle :insert-last-assignment match '[[:alpha:]][][[:alnum:]]#=*'
                     bindkey '\e=' insert-last-assignment

              If  no  interesting word is found and the auto-previous style is
              set to a true value, the search  continues  upward  through  the
              history.   When  auto-previous  is unset or false (the default),
              the widget must be invoked repeatedly in order to search earlier
              history lines.

       which-command
              This  function  is  a drop-in replacement for the builtin widget
              which-command.  It has enhanced behaviour, in that it  correctly
              detects  whether or not the command word needs to be expanded as
              an alias; if so, it continues tracing the command word from  the
              expanded  alias  until  it reaches the command that will be exe-
              cuted.

              The style whence is available in the context :zle:$WIDGET;  this
              may be set to an array to give the command and options that will
              be used to investigate the command word found.  The  default  is
              whence -c.

   Utility Functions
       These  functions  are  useful  in constructing widgets.  They should be
       loaded with  `autoload  -U  function'  and  called  as  indicated  from
       user-defined widgets.

       split-shell-arguments
              This  function splits the line currently being edited into shell
              arguments and whitespace.  The result is  stored  in  the  array
              reply.   The  array contains all the parts of the line in order,
              starting with any whitespace before the first argument, and fin-
              ishing  with  any whitespace after the last argument.  Hence (so
              long as the option KSH_ARRAYS is not set) whitespace is given by
              odd  indices  in  the array and arguments by even indices.  Note
              that no stripping of quotes is done; joining  together  all  the
              elements of reply in order is guaranteed to produce the original
              line.

              The parameter REPLY is set to the index of  the  word  in  reply
              which  contains  the character after the cursor, where the first
              element has index 1.  The parameter REPLY2 is set to  the  index
              of  the character under the cursor in that word, where the first
              character has index 1.

              Hence reply, REPLY and REPLY2 should all be made  local  to  the
              enclosing function.

              See  the  function modify-current-argument, described below, for
              an example of how to call this function.

       modify-current-argument expr-using-$ARG
              This function provides a simple method of allowing  user-defined
              widgets to modify the command line argument under the cursor (or
              immediately to the left of the cursor if the cursor  is  between
              arguments).   The  argument  should  be an expression which when
              evaluated operates on the shell parameter ARG, which  will  have
              been  set  to  the  command line argument under the cursor.  The
              expression should be suitably quoted to prevent it being  evalu-
              ated too early.

              For example, a user-defined widget containing the following code
              converts the characters in the argument under  the  cursor  into
              all upper case:

                     modify-current-word '${(U)ARG}'

              The  following strips any quoting from the current word (whether
              backslashes or one of the styles of  quotes),  and  replaces  it
              with single quoting throughout:

                     modify-current-word '${(qq)${(Q)ARG}}'

   Styles
       The  behavior  of several of the above widgets can be controlled by the
       use of the zstyle mechanism.  In particular, widgets that interact with
       the  completion system pass along their context to any completions that
       they invoke.

       break-keys
              This style is used by the incremental-complete-word widget.  Its
              value  should  be  a pattern, and all keys matching this pattern
              will cause the widget to stop incremental completion without the
              key  having any further effect. Like all styles used directly by
              incremental-complete-word, this style is  looked  up  using  the
              context `:incremental'.

       completer
              The incremental-complete-word and insert-and-predict widgets set
              up their top-level context name before calling completion.  This
              allows  one  to define different sets of completer functions for
              normal completion and for these widgets.  For  example,  to  use
              completion,  approximation and correction for normal completion,
              completion and correction for incremental  completion  and  only
              completion for prediction one could use:

                     zstyle ':completion:*' completer \
                             _complete _correct _approximate
                     zstyle ':completion:incremental:*' completer \
                             _complete _correct
                     zstyle ':completion:predict:*' completer \
                             _complete

              It is a good idea to restrict the completers used in prediction,
              because they may be automatically  invoked  as  you  type.   The
              _list and _menu completers should never be used with prediction.
              The _approximate, _correct, _expand, and _match  completers  may
              be  used,  but be aware that they may change characters anywhere
              in the word behind the cursor, so you need  to  watch  carefully
              that the result is what you intended.

       cursor The  insert-and-predict  widget  uses this style, in the context
              `:predict', to decide where to place the cursor after completion
              has been tried.  Values are:

              complete
                     The cursor is left where it was when completion finished,
                     but only if it is after a character equal to the one just
                     inserted  by the user.  If it is after another character,
                     this value is the same as `key'.

              key    The cursor is left after the nth occurrence of the  char-
                     acter  just inserted, where n is the number of times that
                     character appeared in  the  word  before  completion  was
                     attempted.   In short, this has the effect of leaving the
                     cursor after the character just typed even if the comple-
                     tion  code  found out that no other characters need to be
                     inserted at that position.

              Any other value for this style unconditionally leaves the cursor
              at the position where the completion code left it.

       list   When using the incremental-complete-word widget, this style says
              if the matches should be listed on every key press (if they  fit
              on  the  screen).  Use the context prefix `:completion:incremen-
              tal'.

              The insert-and-predict widget uses this style to decide  if  the
              completion  should  be  shown even if there is only one possible
              completion.  This is done if the value  of  this  style  is  the
              string  always.   In  this  case  the context is `:predict' (not
              `:completion:predict').

       match  This style is used by smart-insert-last-word to provide  a  pat-
              tern (using full EXTENDED_GLOB syntax) that matches an interest-
              ing word.  The context is  the  name  of  the  widget  to  which
              smart-insert-last-word is bound (see above).  The default behav-
              ior of smart-insert-last-word is equivalent to:

                     zstyle :insert-last-word match '*[[:alpha:]/\\]*'

              However, you might want to include words that contain spaces:

                     zstyle :insert-last-word match '*[[:alpha:][:space:]/\\]*'

              Or include numbers as long as the word is at least  two  charac-
              ters long:

                     zstyle :insert-last-word match '*([[:digit:]]?|[[:alpha:]/\\])*'

              The  above example causes redirections like "2>" to be included.

       prompt The incremental-complete-word widget shows  the  value  of  this
              style  in  the  status  line during incremental completion.  The
              string value may contain any of the following substrings in  the
              manner of the PS1 and other prompt parameters:

              %c     Replaced  by the name of the completer function that gen-
                     erated the matches (without the leading underscore).

              %l     When the list style is set, replaced by `...' if the list
                     of  matches  is too long to fit on the screen and with an
                     empty string otherwise.  If the list style is `false'  or
                     not set, `%l' is always removed.

              %n     Replaced by the number of matches generated.

              %s     Replaced  by  `-no  match-',  `-no  prefix-', or an empty
                     string if there is no completion matching the word on the
                     line, if the matches have no common prefix different from
                     the word on the line, or if there is such a  common  pre-
                     fix, respectively.

              %u     Replaced by the unambiguous part of all matches, if there
                     is any, and if it is different from the word on the line.

              Like `break-keys', this uses the `:incremental' context.

       stop-keys
              This style is used by the incremental-complete-word widget.  Its
              value is treated similarly to the one for the  break-keys  style
              (and  uses  the same context: `:incremental').  However, in this
              case all keys matching the pattern given as its value will  stop
              incremental  completion  and will then execute their usual func-
              tion.

       toggle This boolean style is used by predict-on and its related widgets
              in the context `:predict'.  If set to one of the standard `true'
              values, predictive typing is automatically toggled off in situa-
              tions  where it is unlikely to be useful, such as when editing a
              multi-line buffer or after moving into the middle of a line  and
              then  deleting  a character.  The default is to leave prediction
              turned on until an explicit call to predict-off.

       verbose
              This boolean style is used by predict-on and its related widgets
              in the context `:predict'.  If set to one of the standard `true'
              values, these widgets display a message below  the  prompt  when
              the  predictive state is toggled.  This is most useful in combi-
              nation with the toggle style.   The  default  does  not  display
              these messages.

       widget This style is similar to the command style: For widget functions
              that use zle to call other widgets, this style can sometimes  be
              used  to  override  the widget which is called.  The context for
              this style is the name of the calling widget (not  the  name  of
              the  calling function, because one function may be bound to mul-
              tiple widget names).

                     zstyle :copy-earlier-word widget smart-insert-last-word

              Check the documentation for the calling widget  or  function  to
              determine whether the widget style is used.


EXCEPTION HANDLING

       Two  functions are provided to enable zsh to provide exception handling
       in a form that should be familiar from other languages.

       throw exception
              The function throw throws the named exception.  The name  is  an
              arbitrary  string  and is only used by the throw and catch func-
              tions.  An exception is for the most part treated the same as  a
              shell error, i.e. an unhandled exception will cause the shell to
              abort all processing in a function or script and  to  return  to
              the top level in an interactive shell.

       catch exception-pattern
              The  function  catch  returns  status  zero  if an exception was
              thrown and the pattern exception-pattern matches its name.  Oth-
              erwise  it  returns  status  1.  exception-pattern is a standard
              shell  pattern,  respecting   the   current   setting   of   the
              EXTENDED_GLOB option.  An alias catch is also defined to prevent
              the argument to the function from matching  filenames,  so  pat-
              terns  may  be  used  unquoted.  Note that as exceptions are not
              fundamentally different from other shell errors it  is  possible
              to  catch shell errors by using an empty string as the exception
              name.  The shell variable CAUGHT is set by catch to the name  of
              the exception caught.  It is possible to rethrow an exception by
              calling the throw function again  once  an  exception  has  been
              caught.

       The  functions  are  designed  to be used together with the always con-
       struct described in zshmisc(1).  This is important as  only  this  con-
       struct provides the required support for exceptions.  A typical example
       is as follows.

              {
                # "try" block
                # ... nested code here calls "throw MyExcept"
              } always {
                # "always" block
                if catch MyExcept; then
                  print "Caught exception MyExcept"
                elif catch ''; then
                  print "Caught a shell error.  Propagating..."
                  throw ''
                fi
                # Other exceptions are not handled but may be caught further
                # up the call stack.
              }

       If all exceptions should  be  caught,  the  following  idiom  might  be
       preferable.

              {
                # ... nested code here throws an exception
              } always {
                if catch *; then
                  case $CAUGHT in
                    (MyExcept)
                    print "Caught my own exception"
                    ;;
                    (*)
                    print "Caught some other exception"
                    ;;
                  esac
                fi
              }

       In common with exception handling in other languages, the exception may
       be thrown by code deeply nested inside the `try' block.  However,  note
       that  it  must  be  thrown  inside the current shell, not in a subshell
       forked for a pipeline, parenthesised current-shell construct,  or  some
       form of command or process substitution.

       The  system  internally uses the shell variable EXCEPTION to record the
       name of the exception between throwing and catching.  One  drawback  of
       this scheme is that if the exception is not handled the variable EXCEP-
       TION remains set and may be incorrectly recognised as the  name  of  an
       exception if a shell error subsequently occurs.  Adding unset EXCEPTION
       at the start of the outermost layer of any  code  that  uses  exception
       handling will eliminate this problem.


MIME FUNCTIONS

       Three  functions  are available to provide handling of files recognised
       by extension, for example to dispatch a file text.ps when executed as a
       command to an appropriate viewer.

       zsh-mime-setup [-flv]
       zsh-mime-handler
              These   two   functions   use   the   files   ~/.mime.types  and
              /etc/mime.types, which associate types and extensions,  as  well
              as  ~/.mailcap and /etc/mailcap files, which associate types and
              the programs that handle them.  These are provided on many  sys-
              tems with the Multimedia Internet Mail Extensions.

              To  enable  the  system,  the  function zsh-mime-setup should be
              autoloaded and run.  This allows files  with  extensions  to  be
              treated  as  executable; such files be completed by the function
              completion system.  The  function  zsh-mime-handler  should  not
              need to be called by the user.

              The  system  works by setting up suffix aliases with `alias -s'.
              Suffix aliases already installed by the user will not  be  over-
              written.

              Repeated  calls  to  zsh-mime-setup do not override the existing
              mapping between suffixes and executable files unless the  option
              -f  is given.  Note, however, that this does not override exist-
              ing suffix aliases assigned to handlers other than zsh-mime-han-
              dler.   Calling  zsh-mime-setup  with  the  option  -l lists the
              existing mappings without altering them.  Calling zsh-mime-setup
              with  the option -v causes verbose output to be shown during the
              setup operation.

              The system respects the mailcap flags  needsterminal  and  copi-
              ousoutput, see mailcap(4).

              The  functions  use the following styles, which are defined with
              the zstyle builtin command (see zshmodules(1)).  They should  be
              defined  before  zsh-mime-setup  is  run.  The contexts used all
              start with :mime:, with additional components in some cases.  It
              is  recommended  that a trailing * (suitably quoted) be appended
              to style patterns in case the  system  is  extended  in  future.
              Some examples are given below.
              current-shell
                     If  this  boolean  style is true, the mailcap handler for
                     the context in question is run  using  the  eval  builtin
                     instead  of  by  starting a new sh process.  This is more
                     efficient, but may not work in the occasional cases where
                     the mailcap handler uses strict POSIX syntax.

              execute-as-is
                     This style gives a list of patterns to be matched against
                     files passed for execution with a  handler  program.   If
                     the  file matches the pattern, the entire command line is
                     executed in its current form, with no handler.   This  is
                     useful  for  files which might have suffixes but nonethe-
                     less be executable in their own right.  If the  style  is
                     not  set, the pattern *(*) *(/) is used; hence executable
                     files are executed directly and not passed to a  handler,
                     and  the option AUTO_CD may be used to change to directo-
                     ries that happen to have MIME suffixes.

              flags  Defines flags to go with a handler; the context is as for
                     the  handler style, and the format is as for the flags in
                     mailcap.

              handle-nonexistent
                     By default, arguments that don't correspond to files  are
                     not  passed  to  the  MIME handler in order to prevent it
                     from intercepting commands found in the path that  happen
                     to  have  suffixes.  This style may be set to an array of
                     extended glob patterns for arguments that will be  passed
                     to  the  handler  even if they don't exist.  If it is not
                     explicitly  set  it  defaults  to  [[:alpha:]]#:/*  which
                     allows  URLs to be passed to the MIME handler even though
                     they don't exist in that format in the file system.

              handler
                     Specifies a handler for a suffix; the suffix is given  by
                     the context as :mime:.suffix:, and the format of the han-
                     dler is exactly that in mailcap.  Note in particular  the
                     `.'  and  trailing  colon  to distinguish this use of the
                     context.  This overrides any  handler  specified  by  the
                     mailcap  files.   If the handler requires a terminal, the
                     flags style should be set to include the word needstermi-
                     nal,  or if the output is to be displayed through a pager
                     (but not if the handler is itself  a  pager),  it  should
                     include copiousoutput.

              mailcap
                     A   list  of  files  in  the  format  of  ~/.mailcap  and
                     /etc/mailcap to  be  read  during  setup,  replacing  the
                     default list which consists of those two files.  The con-
                     text is :mime:.  A + in the list will be replaced by  the
                     default files.

              mailcap-priorities
                     This  style  is  used to resolve multiple mailcap entries
                     for the same MIME type.  It consists of an array  of  the
                     following  elements,  in  descending  order  of priority;
                     later entries will be used if earlier entries are  unable
                     to  resolve  the  entries being compared.  If none of the
                     tests resolve the entries, the first entry encountered is
                     retained.

                     files  The  order of files (entries in the mailcap style)
                            read.  Earlier files are  preferred.   (Note  this
                            does not resolve entries in the same file.)

                     priority
                            The  priority  flag  from  the mailcap entry.  The
                            priority is an  integer  from  0  to  9  with  the
                            default value being 5.

                     flags  The test given by the mailcap-prio-flags option is
                            used to resolve entries.

                     place  Later entries are preferred; as  the  entries  are
                            strictly ordered, this test always succeeds.

                     Note that as this style is handled during initialisation,
                     the context is always :mime:, with no  discrimination  by
                     suffix.

              mailcap-prio-flags
                     This  style is used when the keyword flags is encountered
                     in the list of tests specified by the  mailcap-priorities
                     style.   It  should be set to a list of patterns, each of
                     which is tested against the flags specified in the  mail-
                     cap  entry (in other words, the sets of assignments found
                     with some entries in the mailcap file).  Earlier patterns
                     in the list are preferred to later ones, and matched pat-
                     terns are preferred to unmatched ones.

              mime-types
                     A list of  files  in  the  format  of  ~/.mime.types  and
                     /etc/mime.types  to  be  read during setup, replacing the
                     default list which consists of those two files.  The con-
                     text  is :mime:.  A + in the list will be replaced by the
                     default files.

              never-background
                     If this boolean style is set, the handler for  the  given
                     context  is  always  run  in  the foreground, even if the
                     flags provided in the mailcap entry suggest it  need  not
                     be (for example, it doesn't require a terminal).

              pager  If  set, will be used instead of $PAGER or more to handle
                     suffixes where the copiousoutput flag is set.   The  con-
                     text  is as for handler, i.e. :mime:.suffix: for handling
                     a file with the given suffix.

              Examples:

                     zstyle ':mime:*' mailcap ~/.mailcap /usr/local/etc/mailcap
                     zstyle ':mime:.txt:' handler less %s
                     zstyle ':mime:.txt:' flags needsterminal

              When zsh-mime-setup is subsequently run, it will look for  mail-
              cap  entries  in the two files given.  Files of suffix .txt will
              be handled by running `less file.txt'.  The  flag  needsterminal
              is  set  to show that this program must run attached to a termi-
              nal.

              As there are several steps to dispatching a command, the follow-
              ing  should be checked if attempting to execute a file by exten-
              sion .ext does not have the expected effect.

              The command `alias -s ext'  should  show  `ps=zsh-mime-handler'.
              If  it  shows  something  else, another suffix alias was already
              installed and was not overwritten.  If it shows nothing, no han-
              dler  was installed:  this is most likely because no handler was
              found in the .mime.types and mailcap combination for .ext files.
              In   that   case,   appropriate  handling  should  be  added  to
              ~/.mime.types and mailcap.

              If the extension is handled by zsh-mime-handler but the file  is
              not opened correctly, either the handler defined for the type is
              incorrect, or the flags associated with it are  in  appropriate.
              Running  zsh-mime-setup  -l  will show the handler and, if there
              are any, the flags.  A %s in the handler is replaced by the file
              (suitably  quoted if necessary).  Check that the handler program
              listed lists and can be run in the way shown.  Also  check  that
              the  flags needsterminal or copiousoutput are set if the handler
              needs to be run under a terminal; the second flag is used if the
              output  should  be  sent  to  a pager.  An example of a suitable
              mailcap entry for such a program is:

                     text/html; /usr/bin/lynx '%s'; needsterminal

       pick-web-browser
              This function is separate from the two MIME functions  described
              above and can be assigned directly to a suffix:

                     autoload -U pick-web-browser
                     alias -s html=pick-web-browser

              It  is  provided  as  an intelligent front end to dispatch a web
              browser.  It will check if an X Windows  display  is  available,
              and  if  so if there is already a browser running on the display
              which can accept a remote connection.  In that  case,  the  file
              will  be  displayed in that browser; you should check explicitly
              if it has appeared in the running browser's window.   Otherwise,
              it will start a new browser according to a built-in set of pref-
              erences.

              Alternatively, pick-web-browser can be run as a zsh script.

              Two styles are available to customize the  choice  of  browsers:
              x-browsers   when   running  under  the  X  Window  System,  and
              tty-browsers otherwise.  These are arrays in decreasing order of
              preference  consisting  of the command name under which to start
              the browser.  They are looked up in the  context  :mime:  (which
              may  be  extended  in  future, so appending `*' is recommended).
              For example,

                     zstyle ':mime:*' x-browsers opera konqueror netscape

              specifies that pick-web-browser should first look for  a  runing
              instance  of Opera, Konqueror or Netscape, in that order, and if
              it fails to find any should attempt to start Opera.

              In addition, the style command, if set, is used to pick the com-
              mand  used  to  open  a  page  for  a  browser.   The context is
              :mime:browser:new:$browser:  to   start   a   new   browser   or
              :mime:browser:running:$browser:  to  open  a  URL  in  a browser
              already runing on the current X display.  The escape sequence %b
              in  the  style's value will be replaced by the browser, while %u
              will be replaced by the URL.  If  the  style  is  not  set,  the
              default  for  all  new  instances is equivalent to %b %u and the
              defaults for using running browsers are equivalent to the values
              kfmclient  openURL  %u  for  Konqueror,  firefox -new-tab %u for
              Firefox and %b -remote "openUrl(%u)" for all others.


MATHEMATICAL FUNCTIONS

       zcalc [ expression ... ]
              A reasonably powerful calculator based on zsh's arithmetic eval-
              uation  facility.   The syntax is similar to that of formulae in
              most programming languages; see the section `Arithmetic  Evalua-
              tion'  in  zshmisc(1)  for  details.   The  mathematical library
              zsh/mathfunc will be loaded if it is available; see the  section
              `The  zsh/mathfunc  Module'  in zshmodules(1).  The mathematical
              functions correspond to the raw system libraries, so trigonomet-
              ric functions are evaluated using radians, and so on.

              Each line typed is evaluated as an expression.  The prompt shows
              a number, which corresponds to a positional parameter where  the
              result  of  that calculation is stored.  For example, the result
              of the calculation on the line preceded by `4> ' is available as
              $4.   The  last value calculated is available as ans.  Full com-
              mand line editing, including the history  of  previous  calcula-
              tions,   is   available;  the  history  is  saved  in  the  file
              ~/.zcalc_history.  To exit, enter a blank line or  type  `q'  on
              its own.

              If  arguments  are  given to zcalc on start up, they are used to
              prime the first few positional parameters.  A visual  indication
              of this is given when the calculator starts.

              The  constants  PI (3.14159...) and E (2.71828...) are provided.
              Parameter assignment is possible, but note that  all  parameters
              will be put into the global namespace.

              The  output  base  can  be  initialised  by  passing  the option
              `-#base', for example `zcalc -#16'  (the  `#'  may  have  to  be
              quoted, depending on the globbing options set).

              The  prompt is configurable via the parameter ZCALCPROMPT, which
              undergoes standard prompt expansion.  The index of  the  current
              entry is stored locally in the first element of the array psvar,
              which can be referred to in ZCALCPROMPT as `%1v'.   The  default
              prompt is `%1v> '.

              The  output  precision  may be specified within zcalc by special
              commands familiar from many calculators:
              norm   The default output format.  It corresponds to the  printf
                     %g  specification.  Typically this shows six decimal dig-
                     its.

              sci digits
                     Scientific notation, corresponding to the printf %g  out-
                     put format with the precision given by digits.  This pro-
                     duces either fixed point or exponential notation  depend-
                     ing on the value output.

              fix digits
                     Fixed point notation, corresponding to the printf %f out-
                     put format with the precision given by digits.

              eng digits
                     Exponential notation, corresponding to the printf %E out-
                     put format with the precision given by digits.

              Other special commands:
              local arg ...
                     Declare  variables local to the function.  Note that cer-
                     tain variables are used by the function for its own  pur-
                     poses.   Other  variables may be used, too, but they will
                     be taken from or put into the global scope.

              function name [ body ]
                     Define a mathematical function or (with no  body)  delete
                     it.   The  function  is  defined  using zmathfuncdef, see
                     below.

                     Note that zcalc takes care of  all  quoting.   Hence  for
                     example:

                            function cube $1 * $1 * $1

                     defines a function to cube the sole argument.

              [#base]
                     When this syntax appears on a line by itself, the default
                     output radix is set to base.  Use, for  example,  `[#16]'
                     to  display  hexadecimal output preceded by an indication
                     of the base, or `[##16]' just to display the  raw  number
                     in the given base.  Bases themselves are always specified
                     in decimal. `[#]'  restores  the  normal  output  format.
                     Note  that  setting  an  output  base suppresses floating
                     point output; use `[#]' to return to normal operation.

       See the comments in the function for a few extra tips.

       zmathfuncdef mathfunc [ body ]
              A convenient front end to functions -M.

              With two arguments, define a mathematical function  named  math-
              func  which  can  be  used in any form of arithmetic evaluation.
              body is a mathematical expression to implement the function.  It
              may  contain  references  to position parameters $1, $2, ...  to
              refer to mandatory parameters and ${1:-defvalue} ...   to  refer
              to  optional  parameters.   Note that the forms must be strictly
              adhered to for the function to calculate the correct  number  of
              arguments.  The implementation is held in a shell function named
              zsh_math_func_mathfunc; usually the user will not need to  refer
              to the shell function directly.

              With  one argument, remove the mathematical function mathfunc as
              well as the shell function implementation.


OTHER FUNCTIONS

       There are a large number of helpful  functions  in  the  Functions/Misc
       directory  of  the  zsh  distribution.  Most are very simple and do not
       require documentation here, but a few are worthy of special mention.

   Descriptions
       colors This function initializes  several  associative  arrays  to  map
              color names to (and from) the ANSI standard eight-color terminal
              codes.  These are used by the prompt theme system  (see  above).
              You seldom should need to run colors more than once.

              The  eight  base  colors  are:  black, red, green, yellow, blue,
              magenta, cyan, and white.  Each of these  has  codes  for  fore-
              ground  and  background.   In addition there are eight intensity
              attributes: bold, faint, standout,  underline,  blink,  reverse,
              and  conceal.   Finally,  there  are  six  codes  used to negate
              attributes: none (reset all attributes to the defaults),  normal
              (neither  bold  nor faint), no-standout, no-underline, no-blink,
              and no-reverse.

              Some terminals do not support all  combinations  of  colors  and
              intensities.

              The associative arrays are:

              color
              colour Map all the color names to their integer codes, and inte-
                     ger codes to the color names.  The eight base  names  map
                     to  the foreground color codes, as do names prefixed with
                     `fg-', such as `fg-red'.  Names prefixed with `bg-', such
                     as `bg-blue', refer to the background codes.  The reverse
                     mapping from code to color yields  base  name  for  fore-
                     ground codes and the bg- form for backgrounds.

                     Although  it  is  a misnomer to call them `colors', these
                     arrays also map the other fourteen attributes from  names
                     to codes and codes to names.

              fg
              fg_bold
              fg_no_bold
                     Map  the  eight basic color names to ANSI terminal escape
                     sequences that  set  the  corresponding  foreground  text
                     properties.   The  fg  sequences change the color without
                     changing the eight intensity attributes.

              bg
              bg_bold
              bg_no_bold
                     Map the eight basic color names to ANSI  terminal  escape
                     sequences  that  set the corresponding background proper-
                     ties.  The bg sequences change the color without changing
                     the eight intensity attributes.

              In  addition,  the  scalar parameters reset_color and bold_color
              are  set  to  the  ANSI  terminal  escapes  that  turn  off  all
              attributes and turn on bold intensity, respectively.

       fned name
              Same  as  zed -f.  This function does not appear in the zsh dis-
              tribution, but can be created by linking zed to the name fned in
              some directory in your fpath.

       is-at-least needed [ present ]
              Perform  a  greater-than-or-equal-to  comparison  of two strings
              having the format of a zsh version number; that is, a string  of
              numbers  and text with segments separated by dots or dashes.  If
              the present string is not provided, $ZSH_VERSION is used.   Seg-
              ments  are  paired left-to-right in the two strings with leading
              non-number parts ignored.  If one string has fewer segments than
              the other, the missing segments are considered zero.

              This  is  useful in startup files to set options and other state
              that are not available in all versions of zsh.

                     is-at-least 3.1.6-15 && setopt NO_GLOBAL_RCS
                     is-at-least 3.1.0 && setopt HIST_REDUCE_BLANKS
                     is-at-least 2.6-17 || print "You can't use is-at-least here."

       nslookup [ arg ... ]
              This wrapper function for  the  nslookup  command  requires  the
              zsh/zpty  module  (see  zshmodules(1)).  It behaves exactly like
              the standard  nslookup  except  that  it  provides  customizable
              prompts  (including  a  right-side  prompt)  and  completion  of
              nslookup commands, host  names,  etc.  (if  you  use  the  func-
              tion-based  completion  system).   Completion  styles may be set
              with the context prefix `:completion:nslookup'.

              See also the pager, prompt and rprompt styles below.

       run-help
              See `Accessing On-Line Help' above.

       tetris Zsh was once accused of not being as complete as Emacs,  because
              it  lacked  a  Tetris game.  This function was written to refute
              this vicious slander.

              This function must be used as a ZLE widget:

                     autoload -U tetris
                     zle -N tetris
                     bindkey keys tetris

              To start a game, execute the widget by typing the  keys.   What-
              ever  command  line you were editing disappears temporarily, and
              your keymap is also temporarily replaced by the  Tetris  control
              keys.   The  previous editor state is restored when you quit the
              game (by pressing `q') or when you lose.

              If you quit in the middle of a game, the next invocation of  the
              tetris widget will continue where you left off.  If you lost, it
              will start a new game.

       zargs [ option ... -- ] [ input ... ] [ -- command [ arg ... ] ]
              This function works like GNU xargs, except that instead of read-
              ing  lines  of  arguments from the standard input, it takes them
              from the command line.  This is useful because  zsh,  especially
              with  recursive  glob  operators,  often can construct a command
              line for a shell function that is longer than can be accepted by
              an external command.

              The  option list represents options of the zargs command itself,
              which are the same as those of xargs.  The  input  list  is  the
              collection  of  strings (often file names) that become the argu-
              ments of the command, analogous to the standard input of  xargs.
              Finally,  the  arg  list  consists  of  those arguments (usually
              options) that are passed to the command each time it runs.   The
              arg  list precedes the elements from the input list in each run.
              If no command is provided, then no arg list may be provided, and
              in  that event the default command is `print' with arguments `-r
              --'.

              For example, to get a long ls listing of all plain files in  the
              current directory or its subdirectories:

                     autoload -U zargs
                     zargs -- **/*(.) -- ls -l

              Note  that  `--' is used both to mark the end of the option list
              and to mark the end of the input list, so it must  appear  twice
              whenever the input list may be empty.  If there is guaranteed to
              be at least one input and the first input does not begin with  a
              `-', then the first `--' may be omitted.

              In  the event that the string `--' is or may be an input, the -e
              option may be used to change  the  end-of-inputs  marker.   Note
              that  this does not change the end-of-options marker.  For exam-
              ple, to use `..' as the marker:

                     zargs -e.. -- **/*(.) .. ls -l

              This is a good choice in that example because no plain file  can
              be  named  `..',  but the best end-marker depends on the circum-
              stances.

              For details of the other zargs  options,  see  xargs(1)  or  run
              zargs with the --help option.

       zed [ -f ] name
       zed -b This function uses the ZLE editor to edit a file or function.

              Only  one  name argument is allowed.  If the -f option is given,
              the name is taken to be that of a function; if the  function  is
              marked  for  autoloading,  zed  searches for it in the fpath and
              loads it.  Note that functions edited  this  way  are  installed
              into  the  current  shell,  but not written back to the autoload
              file.

              Without -f, name is the path name of the  file  to  edit,  which
              need not exist; it is created on write, if necessary.

              While  editing, the function sets the main keymap to zed and the
              vi command keymap to zed-vicmd.  These will be copied  from  the
              existing  main  and vicmd keymaps if they do not exist the first
              time zed is run.  They can be used to provide special key  bind-
              ings used only in zed.

              If it creates the keymap, zed rebinds the return key to insert a
              line break and `^X^W' to accept the edit in the zed keymap,  and
              binds `ZZ' to accept the edit in the zed-vicmd keymap.

              The  bindings  alone can be installed by running `zed -b'.  This
              is suitable for putting into a  startup  file.   Note  that,  if
              rerun,  this  will  overwrite  the  existing  zed  and zed-vicmd
              keymaps.

              Completion is available, and styles may be set with the  context
              prefix `:completion:zed'.

              A zle widget zed-set-file-name is available.  This can be called
              by name from within zed  using  `\ex  zed-set-file-name'  (note,
              however,  that because of zed's rebindings you will have to type
              ^j at the end instead of the return key), or can be bound  to  a
              key in either of the zed or zed-vicmd keymaps after `zed -b' has
              been run.  When the widget is called, it prompts for a new  name
              for  the  file  being  edited.   When zed exits the file will be
              written under that name and  the  original  file  will  be  left
              alone.  The widget has no effect with `zed -f'.

              While zed-set-file-name is running, zed uses the keymap zed-nor-
              mal-keymap, which is linked from the main keymap  in  effect  at
              the  time  zed  initialised  its bindings.  (This is to make the
              return key operate normally.)  The result is that  if  the  main
              keymap has been changed, the widget won't notice.  This is not a
              concern for most users.

       zcp [ -finqQvwW ] srcpat dest
       zln [ -finqQsvwW ] srcpat dest
              Same as zmv -C and zmv -L, respectively.  These functions do not
              appear  in  the  zsh distribution, but can be created by linking
              zmv to the names zcp and zln in some directory in your fpath.

       zkbd   See `Keyboard Definition' above.

       zmv [ -finqQsvwW ] [ -C | -L | -M | -p program ] [ -o optstring ]  src-
       pat dest
              Move (usually, rename) files matching the pattern srcpat to cor-
              responding  files  having names of the form given by dest, where
              srcpat contains parentheses surrounding patterns which  will  be
              replaced in turn by $1, $2, ... in dest.  For example,

                     zmv '(*).lis' '$1.txt'

              renames    `foo.lis'   to   `foo.txt',   `my.old.stuff.lis'   to
              `my.old.stuff.txt', and so on.

              The pattern is always treated as an EXTENDED_GLOB pattern.   Any
              file  whose  name  is  not changed by the substitution is simply
              ignored.  Any error (a substitution resulted in an empty string,
              two  substitutions  gave the same result, the destination was an
              existing regular file and -f was not given)  causes  the  entire
              function to abort without doing anything.

              Options:

              -f     Force  overwriting  of  destination files.  Not currently
                     passed down to the mv/cp/ln command due  to  vagaries  of
                     implementations (but you can use -o-f to do that).
              -i     Interactive:  show  each  line to be executed and ask the
                     user whether to execute it.  `Y' or `y' will execute  it,
                     anything  else  will skip it.  Note that you just need to
                     type one character.
              -n     No execution: print what would happen, but don't do it.
              -q     Turn bare glob qualifiers off: now assumed by default, so
                     this has no effect.
              -Q     Force bare glob qualifiers on.  Don't turn this on unless
                     you are actually using glob qualifiers in a pattern.
              -s     Symbolic, passed down to ln; only works with -L.
              -v     Verbose: print each command as it's being executed.
              -w     Pick out wildcard parts  of  the  pattern,  as  described
                     above,  and  implicitly  add parentheses for referring to
                     them.
              -W     Just like -w, with the addition of turning  wildcards  in
                     the replacement pattern into sequential ${1} .. ${N} ref-
                     erences.
              -C
              -L
              -M     Force cp, ln or mv, respectively, regardless of the  name
                     of the function.
              -p program
                     Call  program instead of cp, ln or mv.  Whatever it does,
                     it should at least understand the form `program  --  old-
                     name  newname'  where  oldname  and newname are filenames
                     generated by zmv.
              -o optstring
                     The optstring is split into words and passed down  verba-
                     tim  to  the  cp,  ln or mv command called to perform the
                     work.  It should probably begin with a `-'.

              For more complete examples and other implementation details, see
              the  zmv  source file, usually located in one of the directories
              named in your fpath, or in Functions/Misc/zmv in the zsh distri-
              bution.

       zrecompile
              See `Recompiling Functions' above.

       zstyle+ context style value [ + subcontext style value ... ]
              This  makes  defining styles a bit simpler by using a single `+'
              as a special token that allows you to append a context  name  to
              the previously used context name.  Like this:

                     zstyle+ ':foo:bar' style1 value1 \
                           + ':baz'     style2 value2 \
                           + ':frob'    style3 value3

              This  defines `style1' with `value1' for the context :foo:bar as
              usual, but it also defines `style2' with `value2' for  the  con-
              text  :foo:bar:baz and `style3' with `value3' for :foo:bar:frob.
              Any subcontext may be the empty string to re-use the first  con-
              text unchanged.

   Styles
       insert-tab
              The  zed function sets this style in context `:completion:zed:*'
              to turn off completion when TAB is typed at the beginning  of  a
              line.   You may override this by setting your own value for this
              context and style.

       pager  The nslookup  function  looks  up  this  style  in  the  context
              `:nslookup' to determine the program used to display output that
              does not fit on a single screen.

       prompt
       rprompt
              The nslookup  function  looks  up  this  style  in  the  context
              `:nslookup' to set the prompt and the right-side prompt, respec-
              tively.  The usual expansions for the PS1  and  RPS1  parameters
              may be used (see zshmisc(1)).

ZSHALL(1)                                                            ZSHALL(1)


FILES

       $ZDOTDIR/.zshenv
       $ZDOTDIR/.zprofile
       $ZDOTDIR/.zshrc
       $ZDOTDIR/.zlogin
       $ZDOTDIR/.zlogout
       ${TMPPREFIX}*   (default is /tmp/zsh*)
       /etc/zshenv
       /etc/zprofile
       /etc/zshrc
       /etc/zlogin
       /etc/zlogout    (installation-specific - /etc is the default)


SEE ALSO

       sh(1), csh(1), tcsh(1), rc(1), bash(1), ksh(1)

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

zsh 4.3.4                       April 19, 2006                       ZSHALL(1)

Man(1) output converted with man2html