Provided by: zsh-common_5.4.2-3ubuntu3.2_all bug

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  significant of these are documented here.  For documentation on
       other contributed 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 provided 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 Functions/Misc, searches for these helpfiles and performs several other tests  to
       produce the most complete help possible for the command.

       Help   files   are   installed   by   default  to  a  subdirectory  of  /usr/share/zsh  or
       /usr/local/share/zsh.

       To create your own help files with helpfiles, choose  or  create  a  directory  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
              perl ~/zsh-5.4.2/Util/helpfiles ~/zsh_help

       The HELPDIR parameter tells run-help where to look for the help files. When unset, it uses
       the  default  installation  path.   To  use  your  own  set of help files, set this to the
       appropriate path in one of your startup files:

              HELPDIR=~/zsh_help

       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

       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 zshparam(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 appropriate 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 arg ... [ -- arg ... ]
              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 status of  zero  (true)
              is  set  if  there  are  files  that  need  to  be re-compiled and non-zero (false)
              otherwise.  The -q option quiets 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 function 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 personal 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 arguments.

   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-5.4.2/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  associative  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 bindkey 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 installation; if it is  not,  copy  Functions/Misc/zkbd  to  an
       appropriate directory.

   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 distribution, 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-5.4.2/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 prefix, even a single
       letter; thus a is the same as aliases, z is the same as zstyles, etc.

   Manipulating Hook Functions
       add-zsh-hook [ -L | -dD ] [ -Uzk ] hook function
              Several functions are special to the shell, as described  in  the  section  SPECIAL
              FUNCTIONS, see zshmisc(1), in that they are automatically called at specific points
              during shell execution.  Each has  an  associated  array  consisting  of  names  of
              functions  to  be  called  at the same point; these are so-called `hook functions'.
              The shell function add-zsh-hook  provides  a  simple  way  of  adding  or  removing
              functions from the array.

              hook  is  one  of  chpwd,  periodic,  precmd,  preexec,  zshaddhistory, zshexit, or
              zsh_directory_name,   the   special   functions    in    question.     Note    that
              zsh_directory_name  is  called in a different way from the other functions, but may
              still be manipulated as a hook.

              function is name of an ordinary shell function.  If no options are given this  will
              be  added to the array of functions to be executed in the given context.  Functions
              are invoked in the order they were added.

              If the option -L is given, the current values for the hook arrays are  listed  with
              typeset.

              If  the  option -d is given, the function is removed from the array of functions to
              be executed.

              If the option -D is given, the function is treated as a pattern  and  any  matching
              names of functions are removed from the array of functions to be executed.

              The  options  -U,  -z and -k are passed as arguments to autoload for function.  For
              functions contributed with zsh, the options -Uz are appropriate.

       add-zle-hook-widget [ -L | -dD ] [ -Uzk ] hook widgetname
              Several widget names are special to the line editor, as described  in  the  section
              Special  Widgets,  see zshzle(1), in that they are automatically called at specific
              points during editing.  Unlike function hooks, these do not use a predefined  array
              of  other  names  to call at the same point; the shell function add-zle-hook-widget
              maintains a similar array and arranges for  the  special  widget  to  invoke  those
              additional widgets.

              hook   is   one   of   isearch-exit,  isearch-update,  line-pre-redraw,  line-init,
              line-finish, history-line-set, or  keymap-select,  corresponding  to  each  of  the
              special  widgets zle-isearch-exit, etc.  The special widget names are also accepted
              as the hook argument.

              widgetname is the name of a ZLE widget.  If no options are given this is  added  to
              the  array of widgets to be invoked in the given hook context.  Widgets are invoked
              in the order they were added, with
                     zle widgetname -Nw -- "$@"

              Note that this means that the `WIDGET' special parameter tracks the widgetname when
              the  widget  function is called, rather than tracking the name of the corresponding
              special hook widget.

              If the option -d is given, the widgetname is removed from the array of  widgets  to
              be executed.

              If  the option -D is given, the widgetname is treated as a pattern and any matching
              names of widgets are removed from the array.

              If widgetname does not name an existing widget when  added  to  the  array,  it  is
              assumed  that  a  shell  function  also  named  widgetname  is meant to provide the
              implementation of the widget.  This name is therefore marked for  autoloading,  and
              the options -U, -z and -k are passed as arguments to autoload as with add-zsh-hook.
              The widget is also created with `zle -N  widgetname'  to  cause  the  corresponding
              function to be loaded the first time the hook is called.

              The  arrays of widgetname are currently maintained in zstyle contexts, one for each
              hook context, with a style of `widgets'.  If the -L option is given,  this  set  of
              styles is listed with `zstyle -L'.  This implementation may change, and the special
              widgets that refer to the styles are created only if add-zle-hook-widget is  called
              to  add  at  least  one widget, so if this function is used for any hooks, then all
              hooks should be managed only via this function.

REMEMBERING RECENT DIRECTORIES

       The function cdr allows you  to  change  the  working  directory  to  a  previous  working
       directory from a list maintained automatically.  It is similar in concept to the directory
       stack controlled by the pushd, popd and dirs builtins, but is more configurable, and as it
       stores  all  entries  in  files  it is maintained across sessions and (by default) between
       terminal emulators in the current session.  Duplicates are automatically removed, so  that
       the list reflects the single most recent use of each directory.

       Note  that  the  pushd  directory stack is not actually modified or used by cdr unless you
       configure it to do so as described in the configuration section below.

   Installation
       The system works by means of a hook function that  is  called  every  time  the  directory
       changes.   To install the system, autoload the required functions and use the add-zsh-hook
       function described above:

              autoload -Uz chpwd_recent_dirs cdr add-zsh-hook
              add-zsh-hook chpwd chpwd_recent_dirs

       Now every time you change directly interactively, no matter which  command  you  use,  the
       directory to which you change will be remembered in most-recent-first order.

   Use
       All direct user interaction is via the cdr function.

       The  argument  to  cdr  is  a  number  N corresponding to the Nth most recently changed-to
       directory.  1 is the immediately preceding directory; the current directory is  remembered
       but  is  not  offered as a destination.  Note that if you have multiple windows open 1 may
       refer to a directory  changed  to  in  another  window;  you  can  avoid  this  by  having
       per-terminal  files  for  storing  directory  as  described for the recent-dirs-file style
       below.

       If you set the recent-dirs-default style described below cdr will behave the same as cd if
       given  a  non-numeric  argument,  or more than one argument.  The recent directory list is
       updated just the same however you change directory.

       If the argument is omitted, 1 is  assumed.   This  is  similar  to  pushd's  behaviour  of
       swapping the two most recent directories on the stack.

       Completion  for  the argument to cdr is available if compinit has been run; menu selection
       is recommended, using:

              zstyle ':completion:*:*:cdr:*:*' menu selection

       to allow you to cycle through recent directories; the order is  preserved,  so  the  first
       choice  is  the  most  recent directory before the current one.  The verbose style is also
       recommended to ensure the directory is shown; this style is on by default so no action  is
       required unless you have changed it.

   Options
       The behaviour of cdr may be modified by the following options.

       -l     lists  the numbers and the corresponding directories in abbreviated form (i.e. with
              ~ substitution reapplied), one per line.  The directories here are not quoted (this
              would  only  be an issue if a directory name contained a newline).  This is used by
              the completion system.

       -r     sets the variable reply to the current set of directories.  Nothing is printed  and
              the directory is not changed.

       -e     allows  you  to edit the list of directories, one per line.  The list can be edited
              to any extent you like; no sanity checking is performed.  Completion is  available.
              No  quoting  is  necessary  (except  for  newlines,  where  I  have  in any case no
              sympathy); directories are in unabbreviated from and contain an absolute path, i.e.
              they  start  with  /.   Usually  the  first  entry  should  be  left as the current
              directory.

       -p 'pattern'
              Prunes any items in the directory list that match the given extended glob  pattern;
              the  pattern  needs to be quoted from immediate expansion on the command line.  The
              pattern is matched against each completely expanded file name in the list; the full
              string must match, so wildcards at the end (e.g. '*removeme*') are needed to remove
              entries with a given substring.

              If output is to a terminal, then the function will print the new list after pruning
              and  prompt for confirmation by the user.  This output and confirmation step can be
              skipped by using -P instead of -p.

   Configuration
       Configuration is by means of the styles mechanism that should be familiar from completion;
       if  not,  see the description of the zstyle command in see zshmodules(1).  The context for
       setting styles should be ':chpwd:*' in case the meaning of  the  context  is  extended  in
       future, for example:

              zstyle ':chpwd:*' recent-dirs-max 0

       sets  the value of the recent-dirs-max style to 0.  In practice the style name is specific
       enough that a context of '*' should be fine.

       An exception is recent-dirs-insert, which is used exclusively by the completion system and
       so  has  the  usual completion system context (':completion:*' if nothing more specific is
       needed), though again '*' should be fine in practice.

       recent-dirs-default
              If true, and the command is expecting a recent directory index, and either there is
              more  than  one  argument  or  the argument is not an integer, then fall through to
              "cd".  This allows the lazy  to  use  only  one  command  for  directory  changing.
              Completion  recognises  this,  too;  see  recent-dirs-insert  for  how  to  control
              completion when this option is in use.

       recent-dirs-file
              The  file  where  the   list   of   directories   is   saved.    The   default   is
              ${ZDOTDIR:-$HOME}/.chpwd-recent-dirs,  i.e.  this  is in your home directory unless
              you have set the variable ZDOTDIR to point somewhere  else.   Directory  names  are
              saved  in  $'...' quoted form, so each line in the file can be supplied directly to
              the shell as an argument.

              The value of this style may be an array.  In this case, the first file in the  list
              will  always  be  used  for  saving  directories  while  any  other  files are left
              untouched.  When reading the recent directory list, if there  are  fewer  than  the
              maximum  number  of  entries  in the first file, the contents of later files in the
              array will be appended with duplicates removed from the list shown.   The  contents
              of  the  two  files are not sorted together, i.e. all the entries in the first file
              are shown first.  The special value + can  appear  in  the  list  to  indicate  the
              default file should be read at that point.  This allows effects like the following:

                     zstyle ':chpwd:*' recent-dirs-file \
                     ~/.chpwd-recent-dirs-${TTY##*/} +

              Recent  directories  are  read  from a file numbered according to the terminal.  If
              there are insufficient entries the list is supplemented from the default file.

              It is possible to use zstyle -e to make the directory configurable at run time:

                     zstyle -e ':chpwd:*' recent-dirs-file pick-recent-dirs-file
                     pick-recent-dirs-file() {
                       if [[ $PWD = ~/text/writing(|/*) ]]; then
                         reply=(~/.chpwd-recent-dirs-writing)
                       else
                         reply=(+)
                       fi
                     }

              In this example, if the current directory is ~/text/writing or  a  directory  under
              it, then use a special file for saving recent directories, else use the default.

       recent-dirs-insert
              Used  by  completion.   If  recent-dirs-default  is true, then setting this to true
              causes the actual directory, rather than its index, to be inserted on  the  command
              line;  this  has  the  same  effect as using the corresponding index, but makes the
              history clearer and the line easier to edit.  With this  setting,  if  part  of  an
              argument  was  already  typed,  normal  directory  completion  rather  than  recent
              directory completion is done;  this  is  because  recent  directory  completion  is
              expected to be done by cycling through entries menu fashion.

              If  the  value  of  the  style  is  always,  then  only  recent directories will be
              completed; in that case, use the  cd  command  when  you  want  to  complete  other
              directories.

              If  the  value  is  fallback,  recent  directories will be tried first, then normal
              directory completion is performed if recent directory completion failed to  find  a
              match.

              Finally,  if  the  value  is  both then both sets of completions are presented; the
              usual tag mechanism can be used to distinguish  results,  with  recent  directories
              tagged  as  recent-dirs.  Note that the recent directories inserted are abbreviated
              with directory names where appropriate.

       recent-dirs-max
              The maximum number of directories to save to the file.  If this is zero or negative
              there is no maximum.  The default is 20.  Note this includes the current directory,
              which isn't offered, so the highest number of directories you will  be  offered  is
              one less than the maximum.

       recent-dirs-prune
              This style is an array determining what directories should (or should not) be added
              to the recent list.  Elements of the array can include:

              parent Prune parents  (more  accurately,  ancestors)  from  the  recent  list.   If
                     present,  changing  directly  down  by  any number of directories causes the
                     current directory to be overwritten.  For example,  changing  from  ~pws  to
                     ~pws/some/other/dir  causes  ~pws  not  to  be  left on the recent directory
                     stack.  This only applies  to  direct  changes  to  descendant  directories;
                     earlier  directories on the list are not pruned.  For example, changing from
                     ~pws/yet/another to ~pws/some/other/dir does not cause ~pws to be pruned.

              pattern:pattern
                     Gives a zsh pattern for directories that should not be added to  the  recent
                     list  (if not already there).  This element can be repeated to add different
                     patterns.  For example, 'pattern:/tmp(|/*)' stops /tmp  or  its  descendants
                     from  being  added.   The EXTENDED_GLOB option is always turned on for these
                     patterns.

       recent-dirs-pushd
              If set to true, cdr will use pushd instead of cd to change the  directory,  so  the
              directory  is  saved  on the directory stack.  As the directory stack is completely
              separate from the list of files saved by the mechanism used in this file  there  is
              no obvious reason to do this.

   Use with dynamic directory naming
       It  is  possible to refer to recent directories using the dynamic directory name syntax by
       using the supplied function zsh_directory_name_cdr a hook:

              autoload -Uz add-zsh-hook
              add-zsh-hook -Uz zsh_directory_name zsh_directory_name_cdr

       When this is done, ~[1] will refer to the most recent directory other than  $PWD,  and  so
       on.  Completion after ~[...  also works.

   Details of directory handling
       This  section  is  for  the  curious  or  confused;  most users will not need to know this
       information.

       Recent directories are saved  to  a  file  immediately  and  hence  are  preserved  across
       sessions.   Note  currently no file locking is applied: the list is updated immediately on
       interactive commands and nowhere else (unlike history), and it is  assumed  you  are  only
       going to change directory in one window at once.  This is not safe on shared accounts, but
       in any case the system has limited utility when someone else is changing  to  a  different
       set of directories behind your back.

       To  make  this  a  little  safer, only directory changes instituted from the command line,
       either directly or indirectly through shell function calls  (but  not  through  subshells,
       evals, traps, completion functions and the like) are saved.  Shell functions should use cd
       -q or pushd -q to avoid side effects if the change to the directory is to be invisible  at
       the command line.  See the contents of the function chpwd_recent_dirs for more details.

ABBREVIATED DYNAMIC REFERENCES TO DIRECTORIES

       The  dynamic  directory  naming  system  is  described  in  the  subsection  Dynamic named
       directories of the section Filename Expansion in expn(1).  In this, a reference to  ~[...]
       is expanded by a function found by the hooks mechanism.

       The contributed function zsh_directory_name_generic provides a system allowing the user to
       refer to directories with only a limited amount of new code.  It supports all three of the
       standard  interfaces  for  directory  naming:  converting  from  a  name  to  a directory,
       converting in the reverse direction to find a short name, and completion of names.

       The main feature of this function  is  a  path-like  syntax,  combining  abbreviations  at
       multiple levels separated by ":".  As an example, ~[g:p:s] might specify:
       g      The  top  level directory for your git area.  This first component has to match, or
              the function will retrun indicating another directory name hook function should  be
              tried.

       p      The name of a project within your git area.

       s      The  source  area  within  that project.  This allows you to collapse references to
              long hierarchies to a very  compact  form,  particularly  if  the  hierarchies  are
              similar across different areas of the disk.

       Name  components  may  be  completed:  if a description is shown at the top of the list of
       completions, it  includes  the  path  to  which  previous  components  expand,  while  the
       description  for  an  individual  completion  shows  the  path  segment  it would add.  No
       additional configuration is needed for this as the  completion  system  is  aware  of  the
       dynamic directory name mechanism.

   Usage
       To use the function, first define a wrapper function for your specific case.  We'll assume
       it's to be autoloaded.  This can have any name but we'll refer  to  it  as  zdn_mywrapper.
       This  wrapper  function will define various variables and then call this function with the
       same arguments that the wrapper function gets.  This configuration is described below.

       Then arrange for the wrapper to be run as a zsh_directory_name hook:

              autoload -Uz add-zsh-hook zsh_diretory_name_generic zdn_mywrapper
              add-zsh-hook -U zsh_directory_name zdn_mywrapper

   Configuration
       The wrapper function should define a local associative array zdn_top.  Alternatively, this
       can  be  set  with a style called mapping.  The context for the style is :zdn:wrapper-name
       where wrapper-name is the function calling zsh_directory_name_generic; for example:

              zstyle :zdn:zdn_mywrapper: mapping zdn_mywrapper_top

       The keys in this associative array correspond to the first component  of  the  name.   The
       values  are  matching directories.  They may have an optional suffix with a slash followed
       by a colon and the name of a variable in the same format to give the next component.  (The
       slash before the colon is to disambiguate the case where a colon is needed in the path for
       a drive.  There is otherwise no syntax for escaping this, so path components  whose  names
       start with a colon are not supported.)  A special component :default: specifies a variable
       in the form /:var (the path section is ignored and so is usually empty) that will be  used
       for the next component if no variable is given for the path.  Variables referred to within
       zdn_top have the same format as zdn_top itself, but contain relative paths.

       For example,

              local -A zdn_top=(
                g   ~/git
                ga  ~/alternate/git
                gs  /scratch/$USER/git/:second2
                :default: /:second1
              )

       This specifies the behaviour of a directory referred  to  as  ~[g:...]   or  ~[ga:...]  or
       ~[gs:...].  Later path components are optional; in that case ~[g] expands to ~/git, and so
       on.  gs expands to /scratch/$USER/git and uses the associative array second2 to match  the
       second  component;  g  and  ga  use  the  associative  array  second1  to match the second
       component.

       When expanding a name to a directory, if the first component is not g or ga or gs,  it  is
       not  an  error;  the function simply returns 1 so that a later hook function can be tried.
       However, matching the first component commits the function, so if a later  component  does
       not  match,  an  error  is printed (though this still does not stop later hooks from being
       executed).

       For components after the first, a relative path is expected, but note that multiple levels
       may still appear.  Here is an example of second1:

              local -A second1=(
                p   myproject
                s   somproject
                os  otherproject/subproject/:third
              )

       The  path as found from zdn_top is extended with the matching directory, so ~[g:p] becomes
       ~/git/myproject.  The slash between is added automatically (it's not possible  to  have  a
       later  component  modify  the  name  of a directory already matched).  Only os specifies a
       variable for a third component, and there's no :default:, so it's an error to use  a  name
       like ~[g:p:x] or ~[ga:s:y] because there's nowhere to look up the x or y.

       The  associative  arrays  need  to  be  visible within this function; the generic function
       therefore uses internal variable names beginning _zdn_ in order to  avoid  clashes.   Note
       that  the  variable  reply needs to be passed back to the shell, so should not be local in
       the calling function.

       The function does not test whether directories assembled by component actually exist; this
       allows  the  system  to  work across automounted file systems.  The error from the command
       trying to use a non-existent directory should be sufficient to indicate the problem.

   Complete example
       Here is a full fictitious but usable  autoloadable  definition  of  the  example  function
       defined      by      the      code      above.       So      ~[gs:p:s]      expands     to
       /scratch/$USER/git/myscratchproject/top/srcdir (with $USER also expanded).

              local -A zdn_top=(
                g   ~/git
                ga  ~/alternate/git
                gs  /scratch/$USER/git/:second2
                :default: /:second1
              )

              local -A second1=(
                p   myproject
                s   somproject
                os  otherproject/subproject/:third
              )

              local -A second2=(
                p   myscratchproject
                s   somescratchproject
              )

              local -A third=(
                s   top/srcdir
                d   top/documentation
              )

              # autoload not needed if you did this at initialisation...
              autoload -Uz zsh_directory_name_generic
              zsh_directory_name_generic "$@

       It is also possible to use global associative arrays, suitably named, and  set  the  style
       for  the  context  of your wrapper function to refer to this.  Then your set up code would
       contain the following:

              typeset -A zdn_mywrapper_top=(...)
              # ... and so on for other associative arrays ...
              zstyle ':zdn:zdn_mywrapper:' mapping zdn_mywrapper_top
              autoload -Uz add-zsh-hook zsh_directory_name_generic zdn_mywrapper
              add-zsh-hook -U zsh_directory_name zdn_mywrapper

       and the function zdn_mywrapper would contain only the following:

              zsh_directory_name_generic "$@"

GATHERING INFORMATION FROM VERSION CONTROL SYSTEMS

       In a lot of cases, it is nice to automatically retrieve information from  version  control
       systems  (VCSs),  such  as  subversion,  CVS or git, to be able to provide it to the user;
       possibly in the user's prompt. So that  you  can  instantly  tell  which  branch  you  are
       currently on, for example.

       In order to do that, you may use the vcs_info function.

       The  following VCSs are supported, showing the abbreviated name by which they are referred
       to within the system:
       Bazaar (bzr)
              http://bazaar.canonical.com/
       Codeville (cdv)
              http://freecode.com/projects/codeville/
       Concurrent Versioning System (cvs)
              http://www.nongnu.org/cvs/
       Darcs (darcs)
              http://darcs.net/
       Fossil (fossil)
              http://fossil-scm.org/
       Git (git)
              http://git-scm.com/
       GNU arch (tla)
              http://www.gnu.org/software/gnu-arch/
       Mercurial (hg)
              http://mercurial.selenic.com/
       Monotone (mtn)
              http://monotone.ca/
       Perforce (p4)
              http://www.perforce.com/
       Subversion (svn)
              http://subversion.apache.org/
       SVK (svk)
              http://svk.bestpractical.com/

       There    is    also    support    for    the     patch     management     system     quilt
       (http://savannah.nongnu.org/projects/quilt). See Quilt Support below for details.

       To load vcs_info:

              autoload -Uz vcs_info

       It  can  be  used  in any existing prompt, because it does not require any specific $psvar
       entries to be available.

   Quickstart
       To get this  feature  working  quickly  (including  colors),  you  can  do  the  following
       (assuming, you loaded vcs_info properly - see above):

              zstyle ':vcs_info:*' actionformats \
                  '%F{5}(%f%s%F{5})%F{3}-%F{5}[%F{2}%b%F{3}|%F{1}%a%F{5}]%f '
              zstyle ':vcs_info:*' formats       \
                  '%F{5}(%f%s%F{5})%F{3}-%F{5}[%F{2}%b%F{5}]%f '
              zstyle ':vcs_info:(sv[nk]|bzr):*' branchformat '%b%F{1}:%F{3}%r'
              precmd () { vcs_info }
              PS1='%F{5}[%F{2}%n%F{5}] %F{3}%3~ ${vcs_info_msg_0_}%f%# '

       Obviously,  the last two lines are there for demonstration. You need to call vcs_info from
       your precmd function. Once that is done you need a single quoted  '${vcs_info_msg_0_}'  in
       your prompt.

       To be able to use '${vcs_info_msg_0_}' directly in your prompt like this, you will need to
       have the PROMPT_SUBST option enabled.

       Now call the vcs_info_printsys utility from the command line:

              % vcs_info_printsys
              ## list of supported version control backends:
              ## disabled systems are prefixed by a hash sign (#)
              bzr
              cdv
              cvs
              darcs
              fossil
              git
              hg
              mtn
              p4
              svk
              svn
              tla
              ## flavours (cannot be used in the enable or disable styles; they
              ## are enabled and disabled with their master [git-svn -> git])
              ## they *can* be used in contexts: ':vcs_info:git-svn:*'.
              git-p4
              git-svn
              hg-git
              hg-hgsubversion
              hg-hgsvn

       You may not want all of these because there is no point in  running  the  code  to  detect
       systems you do not use.  So there is a way to disable some backends altogether:

              zstyle ':vcs_info:*' disable bzr cdv darcs mtn svk tla

       You may also pick a few from that list and enable only those:

              zstyle ':vcs_info:*' enable git cvs svn

       If  you  rerun  vcs_info_printsys  after  one of these commands, you will see the backends
       listed in the disable style (or backends not in the enable  style  -  if  you  used  that)
       marked  as  disabled by a hash sign.  That means the detection of these systems is skipped
       completely. No wasted time there.

   Configuration
       The vcs_info feature can be configured via zstyle.

       First, the context in which we are working:
              :vcs_info:vcs-string:user-context:repo-root-name

       vcs-string
              is one of: git, git-svn, git-p4, hg, hg-git, hg-hgsubversion, hg-hgsvn, darcs, bzr,
              cdv,   mtn,   svn,   cvs,   svk,   tla,   p4   or  fossil.   This  is  followed  by
              `.quilt-quilt-mode'  in  Quilt  mode  (see  Quilt  Support  for  details)  and   by
              `+hook-name' while hooks are active (see Hooks in vcs_info for details).

              Currently, hooks in quilt mode don't add the `.quilt-quilt-mode' information.  This
              may change in the future.

       user-context
              is a freely configurable string, assignable by the user as the  first  argument  to
              vcs_info (see its description below).

       repo-root-name
              is  the  name of a repository in which you want a style to match. So, if you want a
              setting specific to /usr/src/zsh, with that being  a  CVS  checkout,  you  can  set
              repo-root-name to zsh to make it so.

       There  are  three  special  values  for  vcs-string: The first is named -init-, that is in
       effect as long as there was no decision what VCS backend to use. The second is  -preinit-;
       it  is  used  before  vcs_info is run, when initializing the data exporting variables. The
       third special value is formats and is used by the  vcs_info_lastmsg  for  looking  up  its
       styles.

       The  initial  value of repo-root-name is -all- and it is replaced with the actual name, as
       soon as it is known. Only  use  this  part  of  the  context  for  defining  the  formats,
       actionformats  or  branchformat  styles, as it is guaranteed that repo-root-name is set up
       correctly for these only. For all other styles, just use '*' instead.

       There are two pre-defined values for user-context:
       default
              the one used if none is specified
       command
              used by vcs_info_lastmsg to lookup its styles

       You can of course use ':vcs_info:*' to match all VCSs in all user-contexts at once.

       This is a description of all styles that are looked up.

       formats
              A list of formats, used when actionformats is not used (which is most of the time).

       actionformats
              A list of formats, used if there is a special  action  going  on  in  your  current
              repository; like an interactive rebase or a merge conflict.

       branchformat
              Some backends replace %b in the formats and actionformats styles above, not only by
              a branch name but also by a revision number. This style lets you  modify  how  that
              string should look.

       nvcsformats
              These  "formats"  are  set  when  we didn't detect a version control system for the
              current directory or vcs_info was disabled. This is useful if you want vcs_info  to
              completely  take  over  the  generation of your prompt. You would do something like
              PS1='${vcs_info_msg_0_}' to accomplish that.

       hgrevformat
              hg uses both a hash and a revision number to reference a specific  changeset  in  a
              repository.  With  this style you can format the revision string (see branchformat)
              to include either or both. It's only useful when get-revision is  true.  Note,  the
              full  40-character  revision  id is not available (except when using the use-simple
              option) because executing hg more than  once  per  prompt  is  too  slow;  you  may
              customize this behavior using hooks.

       max-exports
              Defines the maximum number of vcs_info_msg_*_ variables vcs_info will set.

       enable A  list  of  backends  you want to use. Checked in the -init- context. If this list
              contains an item called NONE no backend  is  used  at  all  and  vcs_info  will  do
              nothing. If this list contains ALL, vcs_info will use all known backends. Only with
              ALL in enable will the disable style  have  any  effect.  ALL  and  NONE  are  case
              insensitive.

       disable
              A  list  of  VCSs  you don't want vcs_info to test for repositories (checked in the
              -init- context, too). Only used if enable contains ALL.

       disable-patterns
              A list of patterns that are checked against $PWD. If a  pattern  matches,  vcs_info
              will be disabled. This style is checked in the :vcs_info:-init-:*:-all- context.

              Say, ~/.zsh is a directory under version control, in which you do not want vcs_info
              to be active, do:
                     zstyle ':vcs_info:*' disable-patterns "${(b)HOME}/.zsh(|/*)"

       use-quilt
              If enabled, the quilt support code is active in `addon' mode.   See  Quilt  Support
              for details.

       quilt-standalone
              If enabled, `standalone' mode detection is attempted if no VCS is active in a given
              directory. See Quilt Support for details.

       quilt-patch-dir
              Overwrite the value of the $QUILT_PATCHES environment variable. See  Quilt  Support
              for details.

       quiltcommand
              When  quilt  itself  is called in quilt support, the value of this style is used as
              the command name.

       check-for-changes
              If enabled, this style causes the %c and %u format escapes to show when the working
              directory  has  uncommitted  changes. The strings displayed by these escapes can be
              controlled via the  stagedstr  and  unstagedstr  styles.  The  only  backends  that
              currently  support  this  option  are git, hg, and bzr (the latter two only support
              unstaged).

              For this style to be evaluated with the hg backend, the get-revision style needs to
              be  set  and the use-simple style needs to be unset. The latter is the default; the
              former is not.

              With the bzr backend, lightweight checkouts only honor this style if the use-server
              style is set.

              Note,  the  actions taken if this style is enabled are potentially expensive (read:
              they may be slow, depending on how big the current repository is).   Therefore,  it
              is disabled by default.

       check-for-staged-changes
              This  style is like check-for-changes, but it never checks the worktree files, only
              the metadata in the .${vcs} dir.  Therefore, this style  initializes  only  the  %c
              escape  (with  stagedstr)  but  not  the  %u  escape.   This  style  is faster than
              check-for-changes.

              In the git backend, this style checks for changes in the index.  Other backends  do
              not currently implement this style.

              This style is disabled by default.

       stagedstr
              This  string  will  be  used  in  the  %c escape if there are staged changes in the
              repository.

       unstagedstr
              This string will be used in the %u escape if there  are  unstaged  changes  in  the
              repository.

       command
              This  style causes vcs_info to use the supplied string as the command to use as the
              VCS's binary. Note, that setting this in ':vcs_info:*' is not a good idea.

              If the value of this style is empty (which is the default), the used binary name is
              the name of the backend in use (e.g. svn is used in an svn repository).

              The  repo-root-name part in the context is always the default -all- when this style
              is looked up.

              For example, this style can be used to use binaries from  non-default  installation
              directories.  Assume,  git  is  installed in /usr/bin but your sysadmin installed a
              newer version in /usr/local/bin. Instead  of  changing  the  order  of  your  $PATH
              parameter, you can do this:
                     zstyle ':vcs_info:git:*:-all-' command /usr/local/bin/git

       use-server
              This  is  used  by  the  Perforce  backend  (p4) to decide if it should contact the
              Perforce server to find out if a directory is managed by  Perforce.   This  is  the
              only  reliable  way  of doing this, but runs the risk of a delay if the server name
              cannot be found.  If the server (more specifically, the host:port  pair  describing
              the  server)  cannot  be  contacted,  its  name  is  put into the associative array
              vcs_info_p4_dead_servers and is not contacted again during the session until it  is
              removed  by  hand.   If you do not set this style, the p4 backend is only usable if
              you  have  set  the  environment  variable  P4CONFIG  to  a  file  name  and   have
              corresponding  files in the root directories of each Perforce client.  See comments
              in the function VCS_INFO_detect_p4 for more detail.

              The  Bazaar  backend  (bzr)  uses  this  to  permit  contacting  the  server  about
              lightweight checkouts, see the check-for-changes style.

       use-simple
              If  there  are  two  different  ways  of  gathering information, you can select the
              simpler  one  by  setting  this  style  to  true;  the  default  is  to   use   the
              not-that-simple  code, which is potentially a lot slower but might be more accurate
              in all possible cases. This style is used by the bzr and hg backends. In  the  case
              of  hg  it  will  invoke  the external hexdump program to parse the binary dirstate
              cache file; this method will not return the local revision number.

       get-revision
              If set to true, vcs_info goes the extra mile  to  figure  out  the  revision  of  a
              repository's  work  tree (currently for the git and hg backends, where this kind of
              information is not always vital). For git, the hash value of the currently  checked
              out  commit  is  available via the %i expansion. With hg, the local revision number
              and the corresponding global hash are available via %i.

       get-mq If set to true, the  hg  backend  will  look  for  a  Mercurial  Queue  (mq)  patch
              directory. Information will be available via the `%m' replacement.

       get-bookmarks
              If  set  to  true, the hg backend will try to get a list of current bookmarks. They
              will be available via the `%m' replacement.

              The default is to generate a comma-separated list of all bookmark names that  refer
              to  the  currently  checked  out  revision.   If  a bookmark is active, its name is
              suffixed an asterisk and placed first in the list.

       use-prompt-escapes
              Determines if we assume that the assembled string  from  vcs_info  includes  prompt
              escapes. (Used by vcs_info_lastmsg.)

       debug  Enable  debugging  output  to track possible problems. Currently this style is only
              used by vcs_info's hooks system.

       hooks  A list style that defines hook-function names. See  Hooks  in  vcs_info  below  for
              details.

       patch-format
       nopatch-format
              This  pair of styles format the patch information used by the %m expando in formats
              and actionformats for the git and hg backends.  The value  is  subject  to  certain
              %-expansions  described  below.  The expanded value is made available in the global
              backend_misc array as ${backend_misc[patches]} (also if a set-patch-format hook  is
              used).

       get-unapplied
              This  boolean  style  controls whether a backend should attempt to gather a list of
              unapplied patches (for example with Mercurial Queue patches).

              Used by the quilt and hg backends.

       The default values for these styles in all contexts are:

       formats
              " (%s)-[%b]%u%c-"
       actionformats
              " (%s)-[%b|%a]%u%c-"
       branchformat
              "%b:%r" (for bzr, svn, svk and hg)
       nvcsformats
              ""
       hgrevformat
              "%r:%h"
       max-exports
              2
       enable ALL
       disable
              (empty list)
       disable-patterns
              (empty list)
       check-for-changes
              false
       check-for-staged-changes
              false
       stagedstr
              (string: "S")
       unstagedstr
              (string: "U")
       command
              (empty string)
       use-server
              false
       use-simple
              false
       get-revision
              false
       get-mq true
       get-bookmarks
              false
       use-prompt-escapes
              true
       debug  false
       hooks  (empty list)
       use-quilt
              false
       quilt-standalone
              false
       quilt-patch-dir
              empty - use $QUILT_PATCHES
       quiltcommand
              quilt
       patch-format
              backend dependent
       nopatch-format
              backend dependent
       get-unapplied
              false

       In normal formats and actionformats the following replacements are done:

       %s     The VCS in use (git, hg, svn, etc.).
       %b     Information about the current branch.
       %a     An identifier that describes the action. Only makes sense in actionformats.
       %i     The current revision number or identifier. For hg the hgrevformat style may be used
              to customize the output.
       %c     The string from the stagedstr style if there are staged changes in the repository.
       %u     The  string  from  the  unstagedstr  style  if  there  are  unstaged changes in the
              repository.
       %R     The base directory of the repository.
       %r     The repository name. If %R is /foo/bar/repoXY, %r is repoXY.
       %S     A subdirectory within a repository. If $PWD is  /foo/bar/repoXY/beer/tasty,  %S  is
              beer/tasty.
       %m     A  "misc"  replacement.  It is at the discretion of the backend to decide what this
              replacement expands to.

              The hg and git backends use this expando to display patch information.  hg  sources
              patch  information  from  the  mq  extensions;  git  from  in-progress  rebase  and
              cherry-pick  operations  and  from  the  stgit  extension.   The  patch-format  and
              nopatch-format  styles  control  the  generated string.  The former is used when at
              least one patch from the patch queue has been applied, and the latter otherwise.

              The hg backend displays bookmark information in this expando  (in  addition  to  mq
              information).   See  the get-mq and get-bookmarks styles.  Both of these styles may
              be enabled at the same time.  If both are enabled, both resulting strings  will  be
              shown separated by a semicolon (that cannot currently be customized).

              The  quilt  `standalone'  backend  sets  this  expando  to the same value as the %Q
              expando.

       %Q     Quilt series information.  When quilt is used (either  in  `addon'  mode  or  as  a
              `standalone'  backend),  this  expando is set to quilt series' patch-format string.
              The set-patch-format hook and nopatch-format style are honoured.

              See Quilt Support below for details.

       In branchformat these replacements are done:

       %b     The branch name.
       %r     The current revision number or the hgrevformat style for hg.

       In hgrevformat these replacements are done:

       %r     The current local revision number.
       %h     The current global revision identifier.

       In patch-format and nopatch-format these replacements are done:

       %p     The name of the top-most applied patch (applied-string).
       %u     The number of unapplied patches (unapplied-string).
       %n     The number of applied patches.
       %c     The number of unapplied patches.
       %a     The number of all patches.
       %g     The names of active mq guards (hg backend).
       %G     The number of active mq guards (hg backend).

       Not all VCS backends have to support all replacements. For nvcsformats no replacements are
       performed at all, it is just a string.

   Oddities
       If you want to use the %b (bold off) prompt expansion in formats, which expands %b itself,
       use %%b. That will cause the vcs_info expansion to replace %%b  with  %b,  so  that  zsh's
       prompt  expansion  mechanism  can handle it. Similarly, to hand down %b from branchformat,
       use %%%%b. Sorry for this inconvenience, but it cannot be easily avoided.  Luckily  we  do
       not clash with a lot of prompt expansions and this only needs to be done for those.

       When  one  of  the gen-applied-string, gen-unapplied-string, and set-patch-format hooks is
       defined, applying %-escaping (`foo=${foo//'%'/%%}') to the interpolated values for use  in
       the  prompt is the responsibility of those hooks (jointly); when neither of those hooks is
       defined, vcs_info handles escaping by  itself.   We  regret  this  coupling,  but  it  was
       required for backwards compatibility.

   Quilt Support
       Quilt  is not a version control system, therefore this is not implemented as a backend. It
       can help keeping track of a series of patches. People use it to keep a set of changes they
       want  to  use  on  top  of software packages (which is tightly integrated into the package
       build process - the Debian project does this for a large number of  packages).  Quilt  can
       also  help  individual  developers  keep track of their own patches on top of real version
       control systems.

       The vcs_info integration tries to support both ways of using quilt by having two  slightly
       different modes of operation: `addon' mode and `standalone' mode).

       Quilt  integration is off by default; to enable it, set the use-quilt style, and add %Q to
       your formats or actionformats style:
              zstyle ':vcs_info:*' use-quilt true

       Styles looked up from the Quilt support code include `.quilt-quilt-mode' in the vcs-string
       part   of  the  context,  where  quilt-mode  is  either  addon  or  standalone.   Example:
       :vcs_info:git.quilt-addon:default:repo-root-name.

       For `addon' mode to become active vcs_info must  have  already  detected  a  real  version
       control  system  controlling  the  directory.  If that is the case, a directory that holds
       quilt's patches needs to be found. That directory is configurable via the  `QUILT_PATCHES'
       environment  variable.  If  that  variable  exists  its value is used, otherwise the value
       `patches' is  assumed.  The  value  from  $QUILT_PATCHES  can  be  overwritten  using  the
       `quilt-patches'  style.  (Note:  you  can use vcs_info to keep the value of $QUILT_PATCHES
       correct all the time via the post-quilt hook).

       When the directory in question is found, quilt is assumed to be  active.  To  gather  more
       information,  vcs_info  looks  for  a directory called `.pc'; Quilt uses that directory to
       track its current state. If this directory does not exist we know that quilt has not  done
       anything to the working directory (read: no patches have been applied yet).

       If  patches  are  applied,  vcs_info will try to find out which. If you want to know which
       patches of a series are not yet applied, you need to activate the get-unapplied  style  in
       the appropriate context.

       vcs_info  allows  for very detailed control over how the gathered information is presented
       (see the Configuration and Hooks in vcs_info sections), all of which are documented below.
       Note  there  are  a  number  of other patch tracking systems that work on top of a certain
       version control system (like stgit for git, or mq for hg); the configuration  for  systems
       like that are generally configured the same way as the quilt support.

       If  the  quilt  support  is working in `addon' mode, the produced string is available as a
       simple format  replacement  (%Q  to  be  precise),  which  can  be  used  in  formats  and
       actionformats; see below for details).

       If,  on  the  other  hand, the support code is working in `standalone' mode, vcs_info will
       pretend as if quilt were an actual version control system. That  means  that  the  version
       control system identifier (which otherwise would be something like `svn' or `cvs') will be
       set to `-quilt-'. This has implications on the used style context where this identifier is
       the  second  element.  vcs_info  will have filled in a proper value for the "repository's"
       root directory and the string containing the  information  about  quilt's  state  will  be
       available as the `misc' replacement (and %Q for compatibility with `addon' mode).

       What  is  left  to discuss is how `standalone' mode is detected. The detection itself is a
       series of searches for directories. You can have this detection enabled all  the  time  in
       every  directory  that is not otherwise under version control. If you know there is only a
       limited set of trees where  you  would  like  vcs_info  to  try  and  look  for  Quilt  in
       `standalone' mode to minimise the amount of searching on every call to vcs_info, there are
       a number of ways to do that:

       Essentially,   `standalone'   mode   detection   is   controlled   by   a   style   called
       `quilt-standalone'.  It  is  a  string style and its value can have different effects. The
       simplest values are: `always' to run detection every time vcs_info is run, and `never'  to
       turn the detection off entirely.

       If  the value of quilt-standalone is something else, it is interpreted differently. If the
       value is the name of a scalar variable the value of that  variable  is  checked  and  that
       value is used in the same `always'/`never' way as described above.

       If  the  value  of  quilt-standalone  is  an array, the elements of that array are used as
       directory names under which you want the detection to be active.

       If quilt-standalone is an associative array, the keys are taken as directory  names  under
       which  you  want  the  detection  to be active, but only if the corresponding value is the
       string `true'.

       Last, but not least, if the value of quilt-standalone is  the  name  of  a  function,  the
       function is called without arguments and the return value decides whether detection should
       be active. A `0' return value is true; a non-zero return value is interpreted as false.

       Note, if there is both a function and a variable by  the  name  of  quilt-standalone,  the
       function will take precedence.

   Function Descriptions (Public API)
       vcs_info [user-context]
              The   main   function,   that  runs  all  backends  and  assembles  all  data  into
              ${vcs_info_msg_*_}. This is the function you want to call from precmd if  you  want
              to  include up-to-date information in your prompt (see Variable Description below).
              If an argument is given, that string  will  be  used  instead  of  default  in  the
              user-context field of the style context.

       vcs_info_hookadd
              Statically  registers  a  number of functions to a given hook. The hook needs to be
              given as the first argument; what follows is  a  list  of  hook-function  names  to
              register  to  the  hook.  The `+vi-' prefix needs to be left out here. See Hooks in
              vcs_info below for details.

       vcs_info_hookdel
              Remove hook-functions from a given hook. The hook needs to be given  as  the  first
              non-option  argument;  what follows is a list of hook-function names to un-register
              from the hook. If `-a' is used as  the  first  argument,  all  occurrences  of  the
              functions  are  unregistered.  Otherwise  only the last occurrence is removed (if a
              function was registered to a hook more than once). The `+vi-' prefix  needs  to  be
              left out here.  See Hooks in vcs_info below for details.

       vcs_info_lastmsg
              Outputs  the  last  ${vcs_info_msg_*_}  value.  Takes into account the value of the
              use-prompt-escapes style in ':vcs_info:formats:command:-all-'. It also only  prints
              max-exports values.

       vcs_info_printsys [user-context]
              Prints a list of all supported version control systems. Useful to find out possible
              contexts (and which of them are enabled) or values for the disable style.

       vcs_info_setsys
              Initializes vcs_info's internal list of available backends. With this function, you
              can add support for new VCSs without restarting the shell.

       All functions named VCS_INFO_* are for internal use only.

   Variable Description
       ${vcs_info_msg_N_} (Note the trailing underscore)
              Where  N  is an integer, e.g., vcs_info_msg_0_. These variables are the storage for
              the informational message the last vcs_info call has assembled. These are  strongly
              connected  to  the  formats,  actionformats and nvcsformats styles described above.
              Those styles  are  lists.  The  first  member  of  that  list  gets  expanded  into
              ${vcs_info_msg_0_},   the   second   into   ${vcs_info_msg_1_}  and  the  Nth  into
              ${vcs_info_msg_N-1_}. (See the max-exports style above.)

       All variables named VCS_INFO_* are for internal use only.

   Hooks in vcs_info
       Hooks are places in vcs_info where you can run your own code. That  code  can  communicate
       with the code that called it and through that, change the system's behaviour.

       For configuration, hooks change the style context:
              :vcs_info:vcs-string+hook-name:user-context:repo-root-name

       To  register  functions  to  a  hook,  you  need  to  list  them in the hooks style in the
       appropriate context.

       Example:
              zstyle ':vcs_info:*+foo:*' hooks bar baz

       This registers functions to the hook `foo' for all backends. In order to  avoid  namespace
       problems, all registered function names are prepended by a `+vi-', so the actual functions
       called for the `foo' hook are `+vi-bar' and `+vi-baz'.

       If you would like to register a function to a hook regardless of the current context,  you
       may  use the vcs_info_hookadd function. To remove a function that was added like that, the
       vcs_info_hookdel function can be used.

       If something seems weird, you can enable the `debug' boolean style in the  proper  context
       and  the hook-calling code will print what it tried to execute and whether the function in
       question existed.

       When you register more than one function to a hook, all functions are executed  one  after
       another  until  one  function  returns  non-zero  or until all functions have been called.
       Context-sensitive hook functions are executed before statically registered ones (the  ones
       added by vcs_info_hookadd).

       You may pass data between functions via an associative array, user_data.  For example:
              +vi-git-myfirsthook(){
                  user_data[myval]=$myval
              }
              +vi-git-mysecondhook(){
                  # do something with ${user_data[myval]}
              }

       There are a number of variables that are special in hook contexts:

       ret    The return value that the hooks system will return to the caller. The default is an
              integer `zero'. If and how a changed ret value changes the execution of the  caller
              depends on the specific hook. See the hook documentation below for details.

       hook_com
              An  associated  array which is used for bidirectional communication from the caller
              to hook functions. The used keys depend on the specific hook.

       context
              The active context of the hook. Functions that wish to change this variable  should
              make it local scope first.

       vcs    The  current  VCS  after  it was detected. The same values as in the enable/disable
              style are used. Available in all hooks except start-up.

       Finally, the full list of currently available hooks:

       start-up
              Called after starting vcs_info but before the VCS in this directory is  determined.
              It  can be used to deactivate vcs_info temporarily if necessary. When ret is set to
              1, vcs_info aborts and does nothing; when set to 2, vcs_info sets up everything  as
              if no version control were active and exits.

       pre-get-data
              Same as start-up but after the VCS was detected.

       gen-hg-bookmark-string
              Called  in  the  Mercurial  backend  when  a  bookmark  string  is  generated;  the
              get-revision and get-bookmarks styles must be true.

              This hook gets the names of the Mercurial bookmarks that  vcs_info  collected  from
              `hg'.

              If  a  bookmark  is  active,  the key ${hook_com[hg-active-bookmark]} is set to its
              name.  The key is otherwise unset.

              When setting ret to non-zero, the string in ${hook_com[hg-bookmark-string]} will be
              used  in  the  %m  escape in formats and actionformats and will be available in the
              global backend_misc array as ${backend_misc[bookmarks]}.

       gen-applied-string
              Called in the git (with stgit or during rebase or merge), and hg (with mq) backends
              and  in  quilt  support  when the applied-string is generated; the use-quilt zstyle
              must be true for quilt (the mq and stgit backends are active by default).

              This hook gets the names of all applied patches which vcs_info collected so far  in
              the  opposite  order, which means that the first argument is the top-most patch and
              so forth.

              When setting ret to non-zero, the string  in  ${hook_com[applied-string]}  will  be
              available  as  %p  in the patch-format and nopatch-format styles.  This hook is, in
              concert with set-patch-format, responsible for %-escaping that value for use in the
              prompt.  (See the Oddities section.)

       gen-unapplied-string
              Called  in  the  git (with stgit or during rebase), and hg (with mq) backend and in
              quilt support when the unapplied-string is generated; the get-unapplied style  must
              be true.

              This  hook  gets the names of all unapplied patches which vcs_info collected so far
              in the opposite order, which mean that the first argument is the patch next-in-line
              to be applied and so forth.

              When  setting  ret to non-zero, the string in ${hook_com[unapplied-string]} will be
              available as %u in the patch-format and nopatch-format styles.  This  hook  is,  in
              concert with set-patch-format, responsible for %-escaping that value for use in the
              prompt.  (See the Oddities section.)

       gen-mqguards-string
              Called in the hg backend when guards-string is generated; the get-mq style must  be
              true (default).

              This hook gets the names of any active mq guards.

              When setting ret to non-zero, the string in ${hook_com[guards-string]} will be used
              in the %g escape in the patch-format and nopatch-format styles.

       no-vcs This hooks is called when no version control system was detected.

              The `hook_com' parameter is not used.

       post-backend
              Called as soon as the backend has finished collecting information.

              The `hook_com' keys available are as for the set-message hook.

       post-quilt
              Called after the quilt support is done. The  following  information  is  passed  as
              arguments  to the hook: 1. the quilt-support mode (`addon' or `standalone'); 2. the
              directory that contains the patch series;  3.  the  directory  that  holds  quilt's
              status  information  (the `.pc' directory) or the string "-nopc-" if that directory
              wasn't found.

              The `hook_com' parameter is not used.

       set-branch-format
              Called before `branchformat' is set. The only argument to the hook  is  the  format
              that is configured at this point.

              The  `hook_com'  keys  considered are `branch' and `revision'.  They are set to the
              values figured out so far by vcs_info and any change will be used directly when the
              actual replacement is done.

              If  ret  is set to non-zero, the string in ${hook_com[branch-replace]} will be used
              unchanged as the `%b' replacement in the variables set by vcs_info.

       set-hgrev-format
              Called before a `hgrevformat' is set. The only argument to the hook is  the  format
              that is configured at this point.

              The  `hook_com'  keys  considered  are  `hash' and `localrev'.  They are set to the
              values figured out so far by vcs_info and any change will be used directly when the
              actual replacement is done.

              If  ret  is  set  to  non-zero, the string in ${hook_com[rev-replace]} will be used
              unchanged as the `%i' replacement in the variables set by vcs_info.

       pre-addon-quilt
              This hook is used when vcs_info's quilt functionality is  active  in  "addon"  mode
              (quilt  used on top of a real version control system). It is activated right before
              any quilt specific action is taken.

              Setting the `ret' variable in this hook  to  a  non-zero  value  avoids  any  quilt
              specific actions from being run at all.

       set-patch-format
              This  hook  is  used to control some of the possible expansions in patch-format and
              nopatch-format styles with patch queue systems such as quilt, mqueue and the like.

              This hook is used in the git, hg and quilt backends.

              The  hook  allows  the  control   of   the   %p   (${hook_com[applied]})   and   %u
              (${hook_com[unapplied]})  expansion  in  all  backends  that use the hook. With the
              mercurial backend,  the  %g  (${hook_com[guards]})  expansion  is  controllable  in
              addition to that.

              If  ret  is  set to non-zero, the string in ${hook_com[patch-replace]} will be used
              unchanged instead of an expanded format from patch-format or nopatch-format.

              This hook is, in concert with the gen-applied-string or gen-unapplied-string  hooks
              if  they  are  defined, responsible for %-escaping the final patch-format value for
              use in the prompt.  (See the Oddities section.)

       set-message
              Called each  time  before  a  `vcs_info_msg_N_'  message  is  set.   It  takes  two
              arguments;  the first being the `N' in the message variable name, the second is the
              currently configured formats or actionformats.

              There are a number of `hook_com' keys, that  are  used  here:  `action',  `branch',
              `base',  `base-name', `subdir', `staged', `unstaged', `revision', `misc', `vcs' and
              one `miscN' entry for each backend-specific data field (N starting at  zero).  They
              are  set  to  the values figured out so far by vcs_info and any change will be used
              directly when the actual replacement is done.

              Since this hook is triggered multiple times (once for each  configured  formats  or
              actionformats),  each  of the `hook_com' keys mentioned above (except for the miscN
              entries) has an `_orig' counterpart, so even if you changed a value to your  liking
              you  can  still get the original value in the next run. Changing the `_orig' values
              is probably not a good idea.

              If ret is set  to  non-zero,  the  string  in  ${hook_com[message]}  will  be  used
              unchanged as the message by vcs_info.

       If all of this sounds rather confusing, take a look at the Examples section below and also
       in the Misc/vcs_info-examples file in the Zsh source.  They contain some explanatory code.

   Examples
       Don't use vcs_info at all (even though it's in your prompt):
              zstyle ':vcs_info:*' enable NONE

       Disable the backends for bzr and svk:
              zstyle ':vcs_info:*' disable bzr svk

       Disable everything but bzr and svk:
              zstyle ':vcs_info:*' enable bzr svk

       Provide a special formats for git:
              zstyle ':vcs_info:git:*' formats       ' GIT, BABY! [%b]'
              zstyle ':vcs_info:git:*' actionformats ' GIT ACTION! [%b|%a]'

       All %x expansion in all sorts of formats (formats, actionformats, branchformat,  you  name
       it)  are  done using the `zformat' builtin from the `zsh/zutil' module. That means you can
       do everything with these %x items what  zformat  supports.  In  particular,  if  you  want
       something  that  is  really  long  to  have  a  fixed  width,  like  a hash in a mercurial
       branchformat, you can do this: %12.12i. That'll shrink the 40 character  hash  to  its  12
       leading  characters.  The form is actually `%min.maxx'. More is possible.  See the section
       `The zsh/zutil Module' in zshmodules(1) for details.

       Use the quicker bzr backend
              zstyle ':vcs_info:bzr:*' use-simple true

       If you do use use-simple, please report if it does `the-right-thing[tm]'.

       Display the revision number in yellow for bzr and svn:
              zstyle ':vcs_info:(svn|bzr):*' \
                     branchformat '%b%{'${fg[yellow]}'%}:%r'

       If you want colors, make sure you enclose the color codes in %{...%} if you  want  to  use
       the string provided by vcs_info in prompts.

       Here is how to print the VCS information as a command (not in a prompt):
              alias vcsi='vcs_info command; vcs_info_lastmsg'

       This  way,  you  can  even define different formats for output via vcs_info_lastmsg in the
       ':vcs_info:*:command:*' namespace.

       Now as promised, some code that uses hooks: say, you'd like to replace the string `svn' by
       `subversion' in vcs_info's %s formats replacement.

       First, we will tell vcs_info to call a function when populating the message variables with
       the gathered information:
              zstyle ':vcs_info:*+set-message:*' hooks svn2subversion

       Nothing happens. Which is reasonable, since we didn't define the actual function  yet.  To
       see what the hooks subsystem is trying to do, enable the `debug' style:
              zstyle ':vcs_info:*+*:*' debug true

       That  should  give  you  an  idea what is going on. Specifically, the function that we are
       looking for is `+vi-svn2subversion'. Note, the `+vi-' prefix. So, everything is in  order,
       just as documented. When you are done checking out the debugging output, disable it again:
              zstyle ':vcs_info:*+*:*' debug false

       Now, let's define the function:
              function +vi-svn2subversion() {
                  [[ ${hook_com[vcs_orig]} == svn ]] && hook_com[vcs]=subversion
              }

       Simple enough. And it could have even been simpler, if only we had registered our function
       in a less generic context. If we do it only in the `svn' backend's context, we don't  need
       to test which the active backend is:
              zstyle ':vcs_info:svn+set-message:*' hooks svn2subversion
              function +vi-svn2subversion() {
                  hook_com[vcs]=subversion
              }

       And  finally  a  little  more  elaborate  example, that uses a hook to create a customised
       bookmark string for the hg backend.

       Again, we start off by registering a function:
              zstyle ':vcs_info:hg+gen-hg-bookmark-string:*' hooks hgbookmarks

       And then we define the `+vi-hgbookmarks' function:
              function +vi-hgbookmarks() {
                  # The default is to connect all bookmark names by
                  # commas. This mixes things up a little.
                  # Imagine, there's one type of bookmarks that is
                  # special to you. Say, because it's *your* work.
                  # Those bookmarks look always like this: "sh/*"
                  # (because your initials are sh, for example).
                  # This makes the bookmarks string use only those
                  # bookmarks. If there's more than one, it
                  # concatenates them using commas.
                  # The bookmarks returned by `hg' are available in
                  # the function's positional parameters.
                  local s="${(Mj:,:)@:#sh/*}"
                  # Now, the communication with the code that calls
                  # the hook functions is done via the hook_com[]
                  # hash. The key at which the `gen-hg-bookmark-string'
                  # hook looks is `hg-bookmark-string'. So:
                  hook_com[hg-bookmark-string]=$s
                  # And to signal that we want to use the string we
                  # just generated, set the special variable `ret' to
                  # something other than the default zero:
                  ret=1
                  return 0
              }

       Some longer examples and code snippets which might be useful are available in the examples
       file located at Misc/vcs_info-examples in the Zsh source directory.

       This concludes our guided tour through zsh's vcs_info.

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' and `add-zsh-hook' functions
       from Functions/Misc.  All these functions may already be 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 arguments, 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.

   Utility Themes
       prompt off
              The  theme  `off'  sets  all the prompt variables to minimal values with no special
              effects.

       prompt default
              The theme `default'  sets  all  prompt  variables  to  the  same  state  as  if  an
              interactive zsh was started with no initialization files.

       prompt restore
              The  special theme `restore' erases all theme settings and sets prompt variables to
              their state before the first time the `prompt'  function  was  run,  provided  each
              theme has properly defined its cleanup (see below).

              Note that you can undo `prompt off' and `prompt default' with `prompt restore', but
              a second restore does not undo the first.

   Writing Themes
       The first step for adding your own theme is to choose a name for it,  and  create  a  file
       `prompt_name_setup'  in  a  directory in your fpath, such as ~/myfns in the example above.
       The file should at minimum contain assignments for the prompt variables  that  your  theme
       wishes  to modify.  By convention, themes use PS1, PS2, RPS1, etc., rather than the longer
       PROMPT and RPROMPT.

       The file is autoloaded as a function in the current shell context, so it may  contain  any
       necessary  commands  to customize your theme, including defining additional functions.  To
       make some complex tasks easier, your setup function may also do any of the following:

       Assign prompt_opts
              The array prompt_opts may be assigned any of "bang", "cr", "percent", "sp",  and/or
              "subst" as values.  The corresponding setopts (promptbang, etc.) are turned on, all
              other prompt-related options are  turned  off.   The  prompt_opts  array  preserves
              setopts even beyond the scope of localoptions, should your function need that.

       Modify precmd and preexec
              Use of add-zsh-hook is recommended.  The precmd and preexec hooks are automatically
              adjusted if the prompt theme changes or is disabled.

       Declare cleanup
              If your function makes any other changes that should be undone when  the  theme  is
              disabled, your setup function may call
              prompt_cleanup command
       where  command  should  be suitably quoted.  If your theme is ever disabled or replaced by
       another, command is executed with eval.  You may declare more than one such cleanup hook.

       Define preview
              Define or autoload a function prompt_name_preview to display a simulated version of
              your  prompt.   A simple default previewer is defined by promptinit for themes that
              do not define their own.  This preview function is called by `prompt -p'.

       Provide help
              Define or autoload a function prompt_name_help to  display  documentation  or  help
              text for your theme.  This help function is called by `prompt -h'.

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  functions  described  in  the  next  section.   The  following  is
              sufficient:

                     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
       delete-whole-word-match, select-word-match
       select-word-style, match-word-context, match-words-by-style
              The first 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. select-word-match is intended to be used as a text object in vi  mode  but
              with  custom  word styles. For comparison, the widgets described in zshzle(1) under
              Text Objects use fixed definitions of words, compatible with the vim editor.

              The simplest way of configuring the functions is to  use  select-word-style,  which
              can either be called as a normal function 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 first eight -match functions will
              automatically replace the builtin versions, so  they  do  not  need  to  be  loaded
              explicitly.

              The word styles available are as follows.  Only the first character 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'.

              All  but  `default'  can  be  input  as an upper case character, which has the same
              effect but with subword matching turned on.  In this case, words  with  upper  case
              characters are treated specially: each separate run of upper case characters, or an
              upper case character followed by any number of other characters,  is  considered  a
              word.   The  style  subword-range  can supply an alternative character range to the
              default `[:upper:]'; the value of the style is treated as the contents of a `[...]'
              pattern  (note  that  the  outer  brackets  should  not  be  supplied,  only  those
              surrounding named ranges).

              More  control  can  be  obtained  using  the  zstyle  command,  as   described   in
              zshmodules(1).   Each style is looked up in the context :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 appropriate
              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) patterns 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 generating 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 characters `-' and `:'.  Be careful including `]',  `^'  and
              `-' as these are special inside character classes.

              word-style  may  also  have  `-subword'  appended  to  its value to turn on subword
              matching, as described above.

              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 cursor 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 argument 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.   Special  handling  is  done between words: the current
              context is examined and if it contains the string between the  word  is  set  to  a
              single space; else if it is contains the string back, the word before the cursor is
              considered, else the word after cursor  is  considered.  Some  examples  are  given
              below.

              The  style  skip-whitespace-first is only used with the forward-word widget.  If it
              is set to true, then forward-word skips any non-word-characters,  followed  by  any
              non-word-characters:  this  is  similar  to  the behaviour of other word-orientated
              widgets, and also that used by other editors, however it differs from the  standard
              zsh  behaviour.   When  using  select-word-style  the  widget is set in the context
              :zle:* to true if the word style is bash and false otherwise.  It may be overridden
              by setting it in the more specific context :zle:forward-word*.

              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 \
                            "*/*" filename "[[: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  transposed.   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:widget, 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  characters  specified  by  the skip-chars style, (5) the word at or
              following 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.

              If the variable matched_words is defined by the caller to  match-words-by-style  as
              an  associative  array  (local -A matched_words), then the seven values given above
              should  be  retrieved  from  it  as  elements  named   start,   word-before-cursor,
              ws-before-cursor,  ws-after-cursor,  word-after-cursor, ws-after-word, and end.  In
              addition the element is-word-start is 1 if the cursor is on the start of a word  or
              subword, or on white space before it (the cases can be distinguished by testing the
              ws-after-cursor element) and 0 otherwise.  This  form  is  recommended  for  future
              compatibility.

              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
              -r     subword-range

              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.

       bracketed-paste-magic
              The bracketed-paste widget (see  subsection  Miscellaneous  in  zshzle(1))  inserts
              pasted  text  literally  into  the  editor  buffer  rather  than  interpret  it  as
              keystrokes.  This disables some common  usages  where  the  self-insert  widget  is
              replaced  in  order  to  accomplish  some  extra  processing.   An  example  is the
              contributed url-quote-magic widget described below.

              The bracketed-paste-magic widget is meant to replace bracketed-paste with a wrapper
              that  re-enables  these  self-insert  actions,  and  other  actions  as selected by
              zstyles.  Therefore this widget is installed with

                     autoload -Uz bracketed-paste-magic
                     zle -N bracketed-paste bracketed-paste-magic

              Other than enabling  some  widget  processing,  bracketed-paste-magic  attempts  to
              replicate bracketed-paste as faithfully as possible.

              The  following  zstyles  may  be set to control processing of pasted text.  All are
              looked up in the context `:bracketed-paste-magic'.

              active-widgets
                     A list of patterns matching widget names that should be activated during the
                     paste.   All  other  key sequences are processed as self-insert-unmeta.  The
                     default is `self-*' so any user-defined widgets named with that  prefix  are
                     active along with the builtin self-insert.

                     If  this  style is not set (explicitly deleted) or set to an empty value, no
                     widgets are active and the pasted text is inserted literally.  If the  value
                     includes  `undefined-key',  any  unknown  sequences  are  discarded from the
                     pasted text.

              inactive-keys
                     The inverse of active-widgets, a list  of  key  sequences  that  always  use
                     self-insert-unmeta even when bound to an active widget.  Note that this is a
                     list of literal key sequences, not patterns.

              paste-init
                     A list of function names, called in widget context  (but  not  as  widgets).
                     The  functions  are  called  in  order  until one of them returns a non-zero
                     status.  The parameter `PASTED' contains the initial  state  of  the  pasted
                     text.   All  other  ZLE parameters such as `BUFFER' have their normal values
                     and side-effects, and full history is available, so for  example  paste-init
                     functions may move words from BUFFER into PASTED to make those words visible
                     to the active-widgets.

                     A non-zero return from a paste-init function  does  not  prevent  the  paste
                     itself from proceeding.

                     Loading   bracketed-paste-magic   defines  backward-extend-paste,  a  helper
                     function for use in paste-init.

                            zstyle :bracketed-paste-magic paste-init \
                                   backward-extend-paste

                     When a paste would insert into the middle of a word or append text to a word
                     already  on  the  line,  backward-extend-paste moves the prefix from LBUFFER
                     into PASTED so that the active-widgets see the full word so far.   This  may
                     be useful with url-quote-magic.

              paste-finish
                     Another  list  of function names called in order until one returns non-zero.
                     These functions are called after the pasted text has been processed  by  the
                     active-widgets,  but  before  it  is inserted into `BUFFER'.  ZLE parameters
                     have their normal values and side-effects.

                     A non-zero return from a paste-finish function does not  prevent  the  paste
                     itself from proceeding.

                     Loading  bracketed-paste-magic  also  defines quote-paste, a helper function
                     for use in paste-finish.

                            zstyle :bracketed-paste-magic paste-finish \
                                   quote-paste
                            zstyle :bracketed-paste-magic:finish quote-style \
                                   qqq

                     When the pasted  text  is  inserted  into  BUFFER,  it  is  quoted  per  the
                     quote-style value.  To forcibly turn off the built-in numeric prefix quoting
                     of bracketed-paste, use:

                            zstyle :bracketed-paste-magic:finish quote-style \
                                   none

              Important: During active-widgets processing of  the  paste  (after  paste-init  and
              before  paste-finish),  BUFFER  starts  empty  and history is restricted, so cursor
              motions, etc., may not pass outside of the pasted content.  Text assigned to BUFFER
              by the active widgets is copied back into PASTED before paste-finish.

       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 interesting 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.

       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
              argument  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.

       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.

       edit-command-line
              Edit the command line using your visual editor, as in ksh.

                     bindkey -M vicmd v edit-command-line

       expand-absolute-path
              Expand the file name under the cursor  to  an  absolute  path,  resolving  symbolic
              links.   Where  possible, the initial path segment is turned into a named directory
              or reference to a user's home directory.

       history-search-end
              This function  implements  the  widgets  history-beginning-search-backward-end  and
              history-beginning-search-forward-end.   These  commands  work  by first calling the
              corresponding 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   history,   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 distinction between
              forwards and backwards.

              With a numeric 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 numeric 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

       incarg Typing the keystrokes for this widget with the cursor placed on or to the  left  of
              an  integer causes that integer to be incremented by one.  With a numeric argument,
              the number is incremented by the amount of the argument (decremented if the numeric
              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  command  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 keyboard; 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 portable.

              For  best  results zsh should have been built with support for multibyte characters
              (configured with --enable-multibyte); however, 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 Unicode characters
              using their hexadecimal character number.

              The set of accented characters is  reasonably  complete  up  to  Unicode  character
              U+0180,  the  set of special characters less so.  However, it is very sporadic from
              that  point.   Adding  new  characters  is  easy,   however;   see   the   function
              define-composed-chars.  Please send any additions to zsh-workers@zsh.org.

              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 horizontal 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 appropriate sequences.  In addition, a  set
              of  two  letter codes not in RFC 1345 are available for the double-width characters
              corresponding to ASCII characters from !  to ~ (0x21  to  0x7e)  by  preceding  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 alphabet:
              ss     Eszett (scharfes 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 quotations 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 sign, 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

       insert-unicode-char
              When first executed, the  user  inputs  a  set  of  hexadecimal  digits.   This  is
              terminated  with  another  call to insert-unicode-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.

       narrow-to-region [ -p pre ] [ -P post ]
                        [ -S statepm | -R statepm | [ -l lbufvar ] [ -r rbufvar ] ]
                        [ -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
              function.

              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 respectively 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 recursive-edit is performed; the calling
              widget should call this function with the option -S, perform its own editing on the
              command  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 parameter will be local to
              the calling function.

              The  options  -l lbufvar and -r rbufvar may be used to specify parameters where the
              widget will store the resulting text from the  operation.   The  parameter  lbufvar
              will  contain  LBUFFER  and  rbufvar  will  contain  RBUFFER.  Neither of these two
              options may be used with -S or -R.

              narrow-to-region-invisible is a simple widget  which  calls  narrow-to-region  with
              arguments  which  replace any text outside the region with `...'.  It does not take
              any arguments.

              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

       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  completion,  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  position  (usually  the  end  of  the current word, but
              sometimes somewhere in the middle of the word).  And  of  course  as  soon  as  the
              entire  line  is what you want, you can accept with return, without 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  necessary  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 widget, 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 executed-named-cmd and similar functions while
              reading a value.

       replace-argument, replace-argument-edit
              The function replace-argument can be used to replace a command line argument in the
              current  command line or, if the current command line is empty, in the last command
              line executed (the new command line is not executed).  Arguments are  as  delimited
              by standard shell syntax,

              If  a  numeric  argument  is  given, that specifies the argument to be replaced.  0
              means the command name, as in  history  expansion.   A  negative  numeric  argument
              counts backward from the last word.

              If no numeric argument is given, the current argument is replaced; this is the last
              argument if the previous history line is being used.

              The function prompts for a replacement argument.

              If the widget contains the string edit, for example is defined as

                     zle -N replace-argument-edit replace-argument

              then the function presents the current value of the argument for editing, otherwise
              the editing buffer for the replacement is initially empty.

       replace-string, replace-pattern
       replace-string-again, replace-pattern-again
              The  function  replace-string  implements three 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 everywhere 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  matching  is
              performed  using  zsh  patterns.  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 contain 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.

              If the widget instead contains the word `regex' (or `regexp'), then the matching is
              performed  using  regular  expressions,  respecting  the  setting  of  the   option
              RE_MATCH_PCRE  (see  the  description  of  the function regexp-replace below).  The
              special replacement facilities described above for pattern matching are available.

              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  previous  replacement;
              no  prompting  is done.  As with replace-string, if the name of the widget contains
              the word `pattern' or `regex', pattern or regular expression matching is performed,
              else  a  literal string replacement.  Note that the previous source and replacement
              text are the same whether pattern, regular expression or string matching is used.

              In addition, replace-string shows the previous replacement  above  the  prompt,  so
              long  as  there  was one during the current session; if the source string is empty,
              that replacement will be repeated without the widget prompting  for  a  replacement
              string.

              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 replacement
              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 current version is that
              undo will cycle through changes  to  the  replacement  and  source  strings  before
              undoing the replacement itself.

       send-invisible
              This is similar to read-from-minibuffer in that it may be called as a function from
              a widget or as a widget  of  its  own,  and  interactively  reads  input  from  the
              keyboard.   However,  the  input being typed is concealed and a string of asterisks
              (`*') is shown instead.  The value is saved in the parameter $INVISIBLE to which  a
              reference  is inserted into the editing buffer at the restored cursor position.  If
              the read was aborted by a keyboard break (typically  ^G)  or  another  escape  from
              editing  such  as  push-line, $INVISIBLE is set to empty and the original buffer is
              restored unchanged.

              If one argument is supplied to the function it is  taken  as  a  prompt,  otherwise
              `Non-echoed  text:  '  is  used  (as in emacs).  If a second and third argument are
              supplied they are used to begin  and  end  the  reference  to  $INVISIBLE  that  is
              inserted  into  the  buffer.   The  default is to open with ${, then INVISIBLE, and
              close with }, but many other effects are possible.

       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 argument, 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_COMMENTS 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 alphabetic 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 different 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.

       transpose-lines
              Only useful with a multi-line editing buffer; the lines here are lines  within  the
              current on-screen buffer, not history lines.  The effect is similar to the function
              of the same name in Emacs.

              Transpose the current line with the previous line and move the cursor to the  start
              of  the  next  line.   Repeating  this  (which  can be done by providing a positive
              numeric argument) has the effect of moving the line above  the  cursor  down  by  a
              number of lines.

              With  a  negative numeric argument, requires two lines above the cursor.  These two
              lines are transposed and the cursor moved to the start of the previous line.  Using
              a  numeric argument less than -1 has the effect of moving the line above the cursor
              up by minus that number of lines.

       url-quote-magic
              This widget replaces the built-in self-insert to make it easier  to  type  URLs  as
              command  line  arguments.   As you type, the input character is analyzed and, if it
              may need quoting, the current word is checked for a URI scheme.  If  one  is  found
              and  the  current word is not already in quotes, a backslash is inserted before the
              input character.

              Styles to control quoting behavior:

              url-metas
                     This style is looked up  in  the  context  `:url-quote-magic:scheme'  (where
                     scheme  is  that  of  the  current  URL, e.g. "ftp").  The value is a string
                     listing the  characters  to  be  treated  as  globbing  metacharacters  when
                     appearing  in  a  URL  using  that  scheme.  The default is to quote all zsh
                     extended globbing characters, excluding '<' and '>' but including braces (as
                     in brace expansion).  See also url-seps.

              url-seps
                     Like  url-metas,  but  lists  characters  that  should be considered command
                     separators, redirections, history references, etc.  The default is to  quote
                     the  standard set of shell separators, excluding those that overlap with the
                     extended globbing characters, but  including  '<'  and  '>'  and  the  first
                     character of $histchars.

              url-globbers
                     This  style is looked up in the context `:url-quote-magic'.  The values form
                     a list of command names that are expected to do their own  globbing  on  the
                     URL  string.   This  implies  that  they  are  aliased  to  use the `noglob'
                     modifier.  When the first word on the line matches one of the values and the
                     URL  refers  to  a  local  file  (see  url-local-schema),  only the url-seps
                     characters are quoted; the url-metas are left alone, allowing them to affect
                     command-line  parsing,  completion,  etc.   The default values are a literal
                     `noglob' plus (when the zsh/parameter  module  is  available)  any  commands
                     aliased to the helper function `urlglobber' or its alias `globurl'.

              url-local-schema
                     This  style is always looked up in the context `:urlglobber', even though it
                     is used by both url-quote-magic and urlglobber.  The values form a  list  of
                     URI  schema that should be treated as referring to local files by their real
                     local path names, as opposed to files which  are  specified  relative  to  a
                     web-server-defined document root.  The defaults are "ftp" and "file".

              url-other-schema
                     Like  url-local-schema, but lists all other URI schema upon which urlglobber
                     and url-quote-magic should act.  If the URI on the  command  line  does  not
                     have  a  scheme  appearing either in this list or in url-local-schema, it is
                     not magically quoted.  The default values are "http",  "https",  and  "ftp".
                     When  a  scheme  appears  both  here  and  in url-local-schema, it is quoted
                     differently depending on whether the command name appears in url-globbers.

              Loading url-quote-magic also defines a helper  function  `urlglobber'  and  aliases
              `globurl'  to `noglob urlglobber'.  This function takes a local URL apart, attempts
              to pattern-match the local file portion of the URL path, and then puts the  results
              back into URL format again.

       vi-pipe
              This  function  reads  a movement command from the keyboard and then prompts for an
              external command. The part of the buffer covered by the movement is  piped  to  the
              external command and then replaced by the command's output. If the movement command
              is bound to vi-pipe, the current line is used.

              The function serves as an example for reading a vi movement command from  within  a
              user-defined widget.

       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 executed.

              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.

       zcalc-auto-insert
              This function is useful together with the zcalc function described in  the  section
              Mathematical Functions.  It should be bound to a key representing a binary operator
              such as `+', `-', `*' or `/'.  When running in zcalc, if  the  key  occurs  at  the
              start  of the line or immediately following an open parenthesis, the text "ans " is
              inserted before the representation of the key itself.  This allows easy use of  the
              answer  from the previous calculation in the current line.  The text to be inserted
              before   the   symbol   typed   can   be   modified   by   setting   the   variable
              ZCALC_AUTO_INSERT_PREFIX.

              Hence, for example, typing `+12' followed by return adds 12 to the previous result.

              If  zcalc  is  in  RPN mode (-r option) the effect of this binding is automatically
              suppressed as operators alone on a line are meaningful.

              When not in zcalc, the key simply inserts the symbol itself.

   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 finishing 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 | func ]
              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 can 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 evaluated too
              early.

              Alternatively, if the argument does not contain the string ARG, it is assumed to be
              a shell function, to which the current command line argument is passed as the  only
              argument.   The  function  should  set  the variable REPLY to the new value for the
              command line argument.  If the  function  returns  non-zero  status,  so  does  the
              calling function.

              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-argument '${(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-argument '${(qq)${(Q)ARG}}'

              The  following  performs  directory  expansion  on  the  command  line argument and
              replaces it by the absolute path:

                     expand-dir() {
                       REPLY=${~1}
                       REPLY=${REPLY:a}
                     }
                     modify-current-argument expand-dir

              In practice the function expand-dir would probably not be defined within the widget
              where modify-current-argument is called.

   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 character 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 completion 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:incremental'.

              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  pattern  (using  full
              EXTENDED_GLOB syntax) that matches an interesting word.  The context is the name of
              the widget to which smart-insert-last-word  is  bound  (see  above).   The  default
              behavior 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 characters 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 generated 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
                     prefix, 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 function.

       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 situations 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 combination 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 multiple  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 functions.  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.    Otherwise   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 patterns 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  construct  described  in
       zshmisc(1).   This  is  important as only this construct 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  EXCEPTION  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 [ -fv ] [ -l [ suffix ... ] ]
       zsh-mime-handler [ -l ] command argument ...
              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
              systems 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 overwritten.

              For suffixes defined in lower case, upper case variants will also automatically  be
              handled  (e.g.  PDF  is  automatically  handled  if  handling for the suffix pdf is
              defined), but not vice versa.

              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 existing suffix aliases  assigned  to  handlers  other  than
              zsh-mime-handler.

              Calling  zsh-mime-setup  with  the  option  -l  lists the existing mappings without
              altering them.  Suffixes to list (which may contain pattern characters that  should
              be  quoted  from  immediate  interpretation  on  the  command line) may be given as
              additional arguments, otherwise all suffixes are listed.

              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  copiousoutput,  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.

              For files that have multiple suffixes, e.g. .pdf.gz, where the context includes the
              suffix it will be looked up starting with the longest possible suffix until a match
              for the style is found.  For example, if .pdf.gz produces a match for the  handler,
              that will be used; otherwise the handler for .gz will be used.  Note that, owing to
              the way suffix aliases work, it is always required that there be a handler for  the
              shortest  possible suffix, so in this example .pdf.gz can only be handled if .gz is
              also handled (though not necessarily  in  the  same  way).   Alternatively,  if  no
              handling for .gz on its own is needed, simply adding the command

                     alias -s gz=zsh-mime-handler

              to  the  initialisation code is sufficient; .gz will not be handled on its own, but
              may be in combination with other suffixes.

              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.

              disown If  this  boolean  style is true, mailcap handlers started in the background
                     will be disowned, i.e. not subject to job control within the  parent  shell.
                     Such  handlers  nearly  always produce their own windows, so the only likely
                     harmful side effect of setting the style is that it becomes harder  to  kill
                     jobs from within the shell.

              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 nonetheless 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 directories that happen to
                     have MIME suffixes.

              execute-never
                     This style is useful in combination with execute-as-is.  It  is  set  to  an
                     array  of patterns corresponding to full paths to files that should never be
                     treated as executable, even if the file passed to the MIME  handler  matches
                     execute-as-is.   This  is  useful for file systems that don't handle execute
                     permission or that contain executables from another operating  system.   For
                     example, if /mnt/windows is a Windows mount, then

                            zstyle ':mime:*' execute-never '/mnt/windows/*'

                     will ensure that any files found in that area will be executed as MIME types
                     even if they are executable.  As this example shows, the complete file  name
                     is matched against the pattern, regardless of how the file was passed to the
                     handler.  The file is  resolved  to  a  full  path  using  the  :P  modifier
                     described  in  the  subsection  Modifiers  in  zshexpn(1);  this  means that
                     symbolic links are resolved where possible, so that links  into  other  file
                     systems behave in the correct fashion.

              file-path
                     Used if the style find-file-in-path is true for the same context.  Set to an
                     array of directories that are used for searching for the file to be handled;
                     the  default  is  the command path given by the special parameter path.  The
                     shell option PATH_DIRS is respected; if that is set,  the  appropriate  path
                     will be searched even if the name of the file to be handled as it appears on
                     the command line contains a `/'.  The full  context  is  :mime:.suffix:,  as
                     described for the style handler.

              find-file-in-path
                     If  set,  allows  files  whose  names  do  not  contain absolute paths to be
                     searched for in the command path or the  path  specified  by  the  file-path
                     style.   If  the  file  is  not  found in the path, it is looked for locally
                     (whether or not the current directory is in the path); if it  is  not  found
                     locally,  the handler will abort unless the handle-nonexistent style is set.
                     Files found in the path are tested as described for the style execute-as-is.
                     The full context is :mime:.suffix:, as described for the style handler.

              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.  The full context
                     is :mime:.suffix:, as described for the style handler.

              handler
                     Specifies  a  handler  for  a  suffix; the suffix is given by the context as
                     :mime:.suffix:, and the format of the handler 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 needsterminal, 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  context  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
                     mailcap  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 patterns 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  context  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  context  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 mailcap  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
              terminal.

              As  there  are  several  steps  to  dispatching  a command, the following should be
              checked if attempting to execute a  file  by  extension  .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  handler 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

              Running  `zsh-mime-handler  -l  command line' prints the command line that would be
              executed, simplified to remove the effect of any flags,  and  quoted  so  that  the
              output  can  be run as a complete zsh command line.  This is used by the completion
              system to decide how to complete after a file handled by zsh-mime-setup.

       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 may be
              run as either a function or a shell script.  The  status  255  is  returned  if  no
              browser could be started.

              Various styles are available to customize the choice of browsers:

              browser-style
                     The  value  of  the style is an array giving preferences in decreasing order
                     for the type of browser to use.  The values of elements may be

                     running
                            Use a GUI browser that is already running when an X Window display is
                            available.   The browsers listed in the x-browsers style are tried in
                            order until one is found; if it is, the file  will  be  displayed  in
                            that  browser, so the user may need to check whether it has appeared.
                            If no running browser is found, one is not started.   Browsers  other
                            than  Firefox,  Opera  and  Konqueror  are  assumed to understand the
                            Mozilla syntax for opening a URL remotely.

                     x      Start a new GUI browser  when  an  X  Window  display  is  available.
                            Search  for  the  availability  of  one of the browsers listed in the
                            x-browsers style and start the first one that is found.  No check  is
                            made for an already running browser.

                     tty    Start  a  terminal-based browser.  Search for the availability of one
                            of the browsers listed in the tty-browsers style and start the  first
                            one that is found.

                     If the style is not set the default running x tty is used.

              x-browsers
                     An  array  in decreasing order of preference of browsers to use when running
                     under the X Window System.  The array consists 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 firefox

                     specifies that pick-web-browser should first look for a running instance  of
                     Opera,  Konqueror  or  Firefox,  in  that order, and if it fails to find any
                     should attempt to start Opera.  The  default  is  firefox  mozilla  netscape
                     opera konqueror.

              tty-browsers
                     An array similar to x-browsers, except that it gives browsers to use when no
                     X Window display is available.  The default is elinks links lynx.

              command
                     If it is set this style is used to pick the command 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  running  on  the  current  X  display,  where $browser is the value
                     matched in the x-browsers or tty-browsers style.  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,  opera  -newpage  %u  for  Opera, and %b -remote
                     "openUrl(%u)" for all others.

MATHEMATICAL FUNCTIONS

       zcalc [ -erf ] [ expression ... ]
              A reasonably powerful calculator based on  zsh's  arithmetic  evaluation  facility.
              The  syntax  is  similar to that of formulae in most programming languages; see the
              section `Arithmetic Evaluation' in zshmisc(1) for details.

              Non-programmers  should  note  that,  as  in  many  other  programming   languages,
              expressions  involving  only  integers  (whether constants without a `.', variables
              containing such constants as strings, or variables declared to be integers) are  by
              default  evaluated  using  integer  arithmetic,  which  is not how an ordinary desk
              calculator operates.  To force floating point operation, pass the  option  -f;  see
              further notes below.

              If the file ~/.zcalcrc exists it will be sourced inside the function once it is set
              up and about to process the command line.  This can be used, for  example,  to  set
              shell  options; emulate -L zsh and setopt extendedglob are in effect at this point.
              Any failure to source the file if it exists is treated as  fatal.   As  with  other
              initialisation files, the directory $ZDOTDIR is used instead of $HOME if it is set.

              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 trigonometric 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 command
              line editing, including the history of previous  calculations,  is  available;  the
              history is saved in the file ~/.zcalc_history.  To exit, enter a blank line or type
              `:q' on its own (`q' is allowed for historical compatibility).

              A line ending with a single backslash is treated in the same fashion as  it  is  in
              command  line  editing:   the  backslash  is removed, the function prompts for more
              input (the prompt is preceded by  `...'  to  indicate  this),  and  the  lines  are
              combined  into  one  to  get  the  final  result.  In addition, if the input so far
              contains more open than close parentheses zcalc will prompt for more input.

              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 unless the :local special command is used.  The  function  creates  local
              variables  whose names start with _, so users should avoid doing so.  The variables
              ans (the last answer) and stack  (the  stack  in  RPN  mode)  may  be  referred  to
              directly;  stack is an array but elements of it are numeric.  Various other special
              variables are used locally with their standard meaning,  for  example  compcontext,
              match, mbegin, mend, psvar.

              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).

              If  the  option `-e' is set, the function runs non-interactively: the arguments are
              treated as expressions to be evaluated as if entered interactively line by line.

              If the option `-f' is set, all numbers are treated as  floating  point,  hence  for
              example  the expression `3/4' evaluates to 0.75 rather than 0.  Options must appear
              in separate words.

              If the option `-r' is set, RPN (Reverse Polish Notation) mode is entered.  This has
              various additional properties:
              Stack  Evaluated  values  are  maintained in a stack; this is contained in an array
                     named stack with the most recent value in ${stack[1]}.

              Operators and functions
                     If the line entered matches an operator (+, -, *, /, **, ^, |  or  &)  or  a
                     function  supplied  by  the  zsh/mathfunc  library,  the  bottom  element or
                     elements of the stack are popped to use as the argument or  arguments.   The
                     higher  elements of stack (least recent) are used as earlier arguments.  The
                     result is then pushed into ${stack[1]}.

              Expressions
                     Other expressions are evaluated normally, printed, and added to the stack as
                     numeric  values.   The  syntax within expressions on a single line is normal
                     shell arithmetic (not RPN).

              Stack listing
                     If an integer follows the option -r with no space, then on every  evaluation
                     that  many  elements  of  the stack, where available, are printed instead of
                     just the most recent result.  Hence, for example, zcalc -r4 shows  $stack[4]
                     to $stack[1] each time results are printed.

              Duplication: =
                     The  pseudo-operator  =  causes  the  most recent element of the stack to be
                     duplicated onto the stack.

              pop    The pseudo-function pop causes the most recent element of the  stack  to  be
                     popped.  A `>' on its own has the same effect.

              >ident The  expression  > followed (with no space) by a shell identifier causes the
                     most recent element of the stack to be popped and assigned to  the  variable
                     with that name.  The variable is local to the zcalc function.

              <ident The  expression  < followed (with no space) by a shell identifier causes the
                     value of the variable with that name to be pushed onto the stack.  ident may
                     be  an integer, in which case the previous result with that number (as shown
                     before the > in the standard zcalc prompt) is put on the stack.

              Exchange: xy
                     The pseudo-function xy causes the most recent two elements of the  stack  to
                     be exchanged.  `<>' has the same effect.

              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 variable ZCALC_ACTIVE is set within the function and can be  tested  by  nested
              functions; it has the value rpn if RPN mode is active, else 1.

              A  few  special  commands  are  available;  these  are  introduced by a colon.  For
              backward compatibility, the colon may be omitted for certain commands.   Completion
              is available if compinit has been run.

              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 digits.

              :sci digits
                     Scientific  notation,  corresponding to the printf %g output format with the
                     precision given by digits.  This produces either fixed point or  exponential
                     notation depending on the value output.

              :fix digits
                     Fixed  point notation, corresponding to the printf %f output format with the
                     precision given by digits.

              :eng digits
                     Exponential notation, corresponding to the printf %E output format with  the
                     precision given by digits.

              :raw   Raw  output:  this is the default form of the output from a math evaluation.
                     This may show more precision than the number actually possesses.

              Other special commands:
              :!line...
                     Execute line... as a normal shell command line.  Note that it is executed in
                     the  context  of the function, i.e. with local variables.  Space is optional
                     after :!.

              :local arg ...
                     Declare variables local to the function.  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.  :function may
                     be abbreviated to :func or  simply  :f.   The  name  may  contain  the  same
                     characters  as  a  shell  function  name.   The  function  is  defined using
                     zmathfuncdef, see below.

                     Note that zcalc takes care of all quoting.  Hence for example:

                            :f cube $1 * $1 * $1

                     defines a function to cube the sole  argument.   Functions  so  defined,  or
                     indeed  any functions defined directly or indirectly using functions -M, are
                     available to execute by typing only the name on the line in RPN  mode;  this
                     pops  the  appropriate  number  of  arguments  off  the stack to pass to the
                     function, i.e. 1 in the case of the example cube  function.   If  there  are
                     optional arguments only the mandatory arguments are supplied by this means.

              [#base]
                     This  is  not  a  special  command, rather part of normal arithmetic syntax;
                     however, when this form 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.

              $var   Print  out  the value of var literally; does not affect the calculation.  To
                     use the value of var, omit the leading `$'.

              See the comments in the function for a few extra tips.

       min(arg, ...)
       max(arg, ...)
       sum(arg, ...)
       zmathfunc
              The function zmathfunc defines the three mathematical functions min, max, and  sum.
              The  functions min and max take one or more arguments.  The function sum takes zero
              or more arguments.  Arguments can be of different types (ints and floats).

              Not to be confused with the zsh/mathfunc module,  described  in  the  section  `The
              zsh/mathfunc Module' in zshmodules(1).

       zmathfuncdef [ mathfunc [ body ] ]
              A convenient front end to functions -M.

              With two arguments, define a mathematical function named mathfunc 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.  Any existing function of the same  name  is  silently
              replaced.

              With  one  argument, remove the mathematical function mathfunc as well as the shell
              function implementation.

              With no arguments, list all mathfunc functions in a form suitable for restoring the
              definition.  The functions have not necessarily been defined by zmathfuncdef.

USER CONFIGURATION FUNCTIONS

       The  zsh/newuser  module comes with a function to aid in configuring shell options for new
       users.  If the module is installed, this  function  can  also  be  run  by  hand.   It  is
       available  even  if  the module's default behaviour, namely running the function for a new
       user logging in without startup files, is inhibited.

       zsh-newuser-install [ -f ]
              The  function  presents  the  user  with  various  options  for  customizing  their
              initialization  scripts.   Currently  only ~/.zshrc is handled.  $ZDOTDIR/.zshrc is
              used instead if the parameter ZDOTDIR is set; this provides a way for the  user  to
              configure a file without altering an existing .zshrc.

              By  default  the  function  exits immediately if it finds any of the files .zshenv,
              .zprofile, .zshrc, or .zlogin in the  appropriate  directory.   The  option  -f  is
              required  in order to force the function to continue.  Note this may happen even if
              .zshrc itself does not exist.

              As currently configured, the function will exit immediately if the  user  has  root
              privileges; this behaviour cannot be overridden.

              Once activated, the function's behaviour is supposed to be self-explanatory.  Menus
              are present allowing the user  to  alter  the  value  of  options  and  parameters.
              Suggestions for improvements are always welcome.

              When  the  script  exits, the user is given the opportunity to save the new file or
              not; changes are not irreversible until this point.  However, the script is careful
              to  restrict  changes  to  the  file  only  to a group marked by the lines `# Lines
              configured  by  zsh-newuser-install'  and   `#   End   of   lines   configured   by
              zsh-newuser-install'.   In  addition,  the old version of .zshrc is saved to a file
              with the suffix .zni appended.

              If the function edits an existing .zshrc, it is up to the user to ensure  that  the
              changes  made will take effect.  For example, if control usually returns early from
              the existing .zshrc the lines will not be executed; or a later initialization  file
              may  override  options  or  parameters,  and  so  on.  The function itself does not
              attempt to detect any such conflicts.

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 foreground and background.  In addition there
              are seven intensity attributes: bold, faint, standout, underline,  blink,  reverse,
              and conceal.  Finally, there are seven codes used to negate attributes: none (reset
              all attributes to the defaults), normal  (neither  bold  nor  faint),  no-standout,
              no-underline, no-blink, no-reverse, and no-conceal.

              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 integer 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 foreground 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 properties.  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 [ -x num ] name
              Same  as zed -f.  This function does not appear in the zsh distribution, 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.
              Segments  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 function-based completion
              system).    Completion   styles   may   be   set   with    the    context    prefix
              `:completion:nslookup'.

              See also the pager, prompt and rprompt styles below.

       regexp-replace var regexp replace
              Use  regular  expressions  to  perform  a  global search and replace operation on a
              variable.   If  the  option  RE_MATCH_PCRE  is  not  set,  POSIX  extended  regular
              expressions  are  used, else Perl-compatible regular expressions (this requires the
              shell to be linked against the pcre library).

              var is the name of the variable containing the string to be matched.  The  variable
              will  be  modified  directly  by  the function.  The variables MATCH, MBEGIN, MEND,
              match, mbegin, mend should be avoided as these are used by the  regular  expression
              code.

              regexp is the regular expression to match against the string.

              replace  is  the  replacement  text.   This  can  contain  parameter,  command  and
              arithmetic expressions which will be  replaced:   in  particular,  a  reference  to
              $MATCH will be replaced by the text matched by the pattern.

              The return status is 0 if at least one match was performed, else 1.

       run-help cmd
              This function is designed to be invoked by the run-help ZLE widget, in place of the
              default alias.  See `Accessing On-Line Help' above for setup instructions.

              In the discussion which follows, if cmd is a file system path, it is first  reduced
              to its rightmost component (the file name).

              Help  is first sought by looking for a file named cmd in the directory named by the
              HELPDIR parameter.  If no file is found, an assistant function, alias,  or  command
              named run-help-cmd is sought.  If found, the assistant is executed with the rest of
              the current command line (everything after the command name cmd) as its  arguments.
              When neither file nor assistant is found, the external command `man cmd' is run.

              An example assistant for the "ssh" command:

                     run-help-ssh() {
                         emulate -LR zsh
                         local -a args
                         # Delete the "-l username" option
                         zparseopts -D -E -a args l:
                         # Delete other options, leaving: host command
                         args=(${@:#-*})
                         if [[ ${#args} -lt 2 ]]; then
                             man ssh
                         else
                             run-help $args[2]
                         fi
                     }

              Several  of  these  assistants are provided in the Functions/Misc directory.  These
              must be autoloaded, or placed as executable scripts in your search path,  in  order
              to be found and used by run-help.

              run-help-git
              run-help-ip
              run-help-openssl
              run-help-p4
              run-help-sudo
              run-help-svk
              run-help-svn
                     Assistant  functions  for  the  git,  ip,  openssl,  p4, sudo, svk, and svn,
                     commands.

       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.  Whatever 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.

       tetriscurses
              This  is  a  port of the above to zcurses.  The input handling is improved a bit so
              that moving a block sideways doesn't automatically  advance  a  timestep,  and  the
              graphics use unicode block graphics.

              This  version  does not save the game state between invocations, and is not invoked
              as a widget, but rather as:

                     autoload -U tetriscurses
                     tetriscurses

       zargs [ option ... -- ] [ input ... ] [ -- command [ arg ... ] ]
              This function has a similar purpose to GNU xargs.   Instead  of  reading  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 arguments 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 example, 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 circumstances.

              The  options  -i,  -I,  -l,  -L,  and -n differ slightly from their usage in xargs.
              There are no input lines for zargs to count, so -l and -L count through  the  input
              list,  and  -n  counts the number of arguments passed to each execution of command,
              including any arg list.  Also, any time -i or -I is used, each input  is  processed
              separately as if by `-L 1'.

              For  details  of  the other zargs options, see xargs(1) (but note the difference in
              function between zargs and xargs) or run zargs with the --help option.

       zed [ -f [ -x num ] ] 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.  In this case
              the -x option specifies that leading  tabs  indenting  the  function  according  to
              syntax  should  be  converted into the given number of spaces; `-x 2' is consistent
              with the layout of functions distributed with the shell.

              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 bindings 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-normal-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|P} program ] [ -o optstring ]
           srcpat dest
              Move  (usually,  rename)  files  matching the pattern srcpat to corresponding 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.

              In  addition  to  pattern  replacement,  the variable $f can be referrred to in the
              second (replacement) argument.  This makes it possible to use variable substitution
              to alter the argument; see examples below.

              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} references.
              -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 -- oldname newname' where oldname  and  newname
                     are  filenames generated by zmv.  program will be split into words, so might
                     be e.g. the name of an archive tool plus a copy or rename subcommand.
              -P program
                     As -p program, except that  program  does  not  accept  a  following  --  to
                     indicate  the  end  of options.  In this case filenames must already be in a
                     sane form for the program in question.
              -o optstring
                     The optstring is split into words and passed down verbatim to the cp, ln  or
                     mv command called to perform the work.  It should probably begin with a `-'.

              Further examples:

                     zmv -v '(* *)' '${1// /_}'

              For  any file in the current directory with at least one space in the name, replace
              every space by an underscore and display the commands executed.

                     zmv -v '* *' '${f// /_}'

              This does exactly the same by referring to the file name stored in $f.

              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 distribution.

       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 context :foo:bar:baz and style3 with value3 for
              :foo:bar:frob.  Any subcontext may be the empty string to re-use the first  context
              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, respectively.  The usual expansions for the PS1
              and RPS1 parameters may be used (see EXPANSION OF PROMPT SEQUENCES in zshmisc(1)).