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zshcontrib(1)





NAME

       zshcontrib - user contributions to zsh


DESCRIPTION

       The  Zsh  source distribution includes a number of items contributed by
       the user community.  These are not inherently a part of the shell,  and
       some may not be available in every zsh installation.  The most signifi-
       cant of these are documented here.  For documentation on other contrib-
       uted  items  such as shell functions, look for comments in the function
       source files.


UTILITIES

   Accessing On-Line Help
       The key sequence ESC h is normally bound by ZLE to execute the run-help
       widget  (see  zshzle(1)).   This  invokes the run-help command with the
       command word from the current input line as its argument.  By  default,
       run-help  is an alias for the man command, so this often fails when the
       command word is  a  shell  builtin  or  a  user-defined  function.   By
       redefining  the  run-help  alias, one can improve the on-line help pro-
       vided by the shell.

       The helpfiles utility, found in the Util directory of the distribution,
       is a Perl program that can be used to process the zsh manual to produce
       a separate help file for each shell builtin and for  many  other  shell
       features  as  well.  The autoloadable run-help function, found in Func-
       tions/Misc, searches for these helpfiles  and  performs  several  other
       tests to produce the most complete help possible for the command.

       There  may already be a directory of help files on your system; look in
       /usr/share/zsh or /usr/local/share/zsh and subdirectories below  those,
       or ask your system administrator.

       To create your own help files with helpfiles, choose or create a direc-
       tory where the individual command help files will reside.  For example,
       you  might  choose ~/zsh_help.  If you unpacked the zsh distribution in
       your home directory, you would use the commands:

              mkdir ~/zsh_help
              cd ~/zsh_help
              man zshall | colcrt - | \
              perl ~/zsh-4.3.4/Util/helpfiles

       Next, to use the run-help function, you need  to  add  lines  something
       like the following to your .zshrc or equivalent startup file:

              unalias run-help
              autoload run-help
              HELPDIR=~/zsh_help

       The  HELPDIR parameter tells run-help where to look for the help files.
       If your system already has a help file directory installed, set HELPDIR
       to the path of that directory instead.

       Note  that  in order for `autoload run-help' to work, the run-help file
       must be in one of the directories named in your fpath array  (see  zsh-
       param(1)).   This should already be the case if you have a standard zsh
       installation; if it is not, copy Functions/Misc/run-help to  an  appro-
       priate directory.

   Recompiling Functions
       If  you frequently edit your zsh functions, or periodically update your
       zsh installation to track the latest developments, you  may  find  that
       function  digests compiled with the zcompile builtin are frequently out
       of date with respect to the function source files.  This is not usually
       a  problem, because zsh always looks for the newest file when loading a
       function, but it may cause slower shell startup and  function  loading.
       Also,  if  a digest file is explicitly used as an element of fpath, zsh
       won't check whether any of its source files has changed.

       The zrecompile autoloadable function, found in Functions/Misc,  can  be
       used to keep function digests up to date.

       zrecompile [ -qt ] [ name ... ]
       zrecompile [ -qt ] -p args [ -- args ... ]
              This tries to find *.zwc files and automatically re-compile them
              if at least one of the original files is newer than the compiled
              file.  This works only if the names stored in the compiled files
              are full paths or are relative to the  directory  that  contains
              the .zwc file.

              In the first form, each name is the name of a compiled file or a
              directory containing *.zwc files that should be checked.  If  no
              arguments  are  given,  the directories and *.zwc files in fpath
              are used.

              When -t is given, no compilation is performed, but a return sta-
              tus  of  zero  (true)  is set if there are files that need to be
              re-compiled and non-zero (false) otherwise.  The -q option  qui-
              ets the chatty output that describes what zrecompile is doing.

              Without  the  -t  option, the return status is zero if all files
              that needed re-compilation could be  compiled  and  non-zero  if
              compilation for at least one of the files failed.

              If  the  -p  option is given, the args are interpreted as one or
              more sets of arguments for zcompile,  separated  by  `--'.   For
              example:

                     zrecompile -p \
                                -R ~/.zshrc -- \
                                -M ~/.zcompdump -- \
                                ~/zsh/comp.zwc ~/zsh/Completion/*/_*

              This  compiles  ~/.zshrc into ~/.zshrc.zwc if that doesn't exist
              or if it is older than  ~/.zshrc.  The  compiled  file  will  be
              marked  for  reading  instead  of  mapping. The same is done for
              ~/.zcompdump and ~/.zcompdump.zwc, but  this  compiled  file  is
              marked   for   mapping.   The  last  line  re-creates  the  file
              ~/zsh/comp.zwc if any of the files matching the given pattern is
              newer than it.

              Without  the  -p  option,  zrecompile  does  not create function
              digests that do not already exist, nor does it add new functions
              to the digest.

       The  following  shell loop is an example of a method for creating func-
       tion digests for all functions in your fpath, assuming  that  you  have
       write permission to the directories:

              for ((i=1; i <= $#fpath; ++i)); do
                dir=$fpath[i]
                zwc=${dir:t}.zwc
                if [[ $dir == (.|..) || $dir == (.|..)/* ]]; then
                  continue
                fi
                files=($dir/*(N-.))
                if [[ -w $dir:h && -n $files ]]; then
                  files=(${${(M)files%/*/*}#/})
                  if ( cd $dir:h &&
                       zrecompile -p -U -z $zwc $files ); then
                    fpath[i]=$fpath[i].zwc
                  fi
                fi
              done

       The  -U and -z options are appropriate for functions in the default zsh
       installation fpath; you may need to use different options for your per-
       sonal function directories.

       Once  the digests have been created and your fpath modified to refer to
       them, you can keep them up to date by running zrecompile with no  argu-
       ments.

   Keyboard Definition
       The  large  number of possible combinations of keyboards, workstations,
       terminals, emulators, and window systems makes it impossible for zsh to
       have  built-in  key  bindings  for  every situation.  The zkbd utility,
       found in Functions/Misc, can help you quickly create key  bindings  for
       your configuration.

       Run zkbd either as an autoloaded function, or as a shell script:

              zsh -f ~/zsh-4.3.4/Functions/Misc/zkbd

       When  you  run  zkbd, it first asks you to enter your terminal type; if
       the default it offers is correct, just press return.  It then asks  you
       to  press  a  number  of different keys to determine characteristics of
       your keyboard and terminal; zkbd warns you if it finds anything out  of
       the ordinary, such as a Delete key that sends neither ^H nor ^?.

       The  keystrokes  read by zkbd are recorded as a definition for an asso-
       ciative array named key, written to a file in  the  subdirectory  .zkbd
       within  either your HOME or ZDOTDIR directory.  The name of the file is
       composed from  the  TERM,  VENDOR  and  OSTYPE  parameters,  joined  by
       hyphens.

       You  may  read  this file into your .zshrc or another startup file with
       the "source" or "." commands, then reference the key parameter in bind-
       key commands, like this:

              source ${ZDOTDIR:-$HOME}/.zkbd/$TERM-$VENDOR-$OSTYPE
              [[ -n ${key[Left]} ]] && bindkey "${key[Left]}" backward-char
              [[ -n ${key[Right]} ]] && bindkey "${key[Right]}" forward-char
              # etc.

       Note  that  in order for `autoload zkbd' to work, the zkdb file must be
       in one of the directories named in your fpath array (see  zshparam(1)).
       This  should  already  be the case if you have a standard zsh installa-
       tion; if it is not, copy Functions/Misc/zkbd to an  appropriate  direc-
       tory.

   Dumping Shell State
       Occasionally  you  may encounter what appears to be a bug in the shell,
       particularly if you are using a beta version of zsh  or  a  development
       release.  Usually it is sufficient to send a description of the problem
       to one of the zsh mailing lists (see zsh(1)), but sometimes one of  the
       zsh developers will need to recreate your environment in order to track
       the problem down.

       The script named reporter, found in the Util directory of the distribu-
       tion,  is  provided for this purpose.  (It is also possible to autoload
       reporter, but reporter is not installed in  fpath  by  default.)   This
       script  outputs  a  detailed  dump  of  the shell state, in the form of
       another script that can be read with `zsh -f' to recreate that state.

       To use reporter, read the script into your shell with the  `.'  command
       and redirect the output into a file:

              . ~/zsh-4.3.4/Util/reporter > zsh.report

       You should check the zsh.report file for any sensitive information such
       as passwords and delete them by hand before sending the script  to  the
       developers.   Also,  as the output can be voluminous, it's best to wait
       for the developers to ask for this information before sending it.

       You can also use reporter to dump only a subset  of  the  shell  state.
       This is sometimes useful for creating startup files for the first time.
       Most of the output from reporter is far more detailed than  usually  is
       necessary  for  a  startup  file, but the aliases, options, and zstyles
       states may be  useful  because  they  include  only  changes  from  the
       defaults.   The bindings state may be useful if you have created any of
       your own keymaps, because reporter arranges to dump the keymap creation
       commands as well as the bindings for every keymap.

       As  is  usual  with  automated tools, if you create a startup file with
       reporter, you should edit the results to remove  unnecessary  commands.
       Note  that  if  you're  using the new completion system, you should not
       dump the functions state to your startup files with reporter;  use  the
       compdump function instead (see zshcompsys(1)).

       reporter [ state ... ]
              Print  to  standard  output  the indicated subset of the current
              shell state.  The state arguments may be one or more of:

              all    Output everything listed below.
              aliases
                     Output alias definitions.
              bindings
                     Output ZLE key maps and bindings.
              completion
                     Output old-style compctl  commands.   New  completion  is
                     covered by functions and zstyles.
              functions
                     Output autoloads and function definitions.
              limits Output limit commands.
              options
                     Output setopt commands.
              styles Same as zstyles.
              variables
                     Output  shell parameter assignments, plus export commands
                     for any environment variables.
              zstyles
                     Output zstyle commands.

              If the state is omitted, all is assumed.

       With the exception of `all', every state can be abbreviated by any pre-
       fix, even a single letter; thus a is the same as aliases, z is the same
       as zstyles, etc.


PROMPT THEMES

   Installation
       You should make sure  all  the  functions  from  the  Functions/Prompts
       directory of the source distribution are available; they all begin with
       the string `prompt_' except for the special function`promptinit'.   You
       also  need  the  `colors'  function  from Functions/Misc.  All of these
       functions may already have been installed on your system; if  not,  you
       will  need  to find them and copy them.  The directory should appear as
       one of the elements of the fpath array (this should already be the case
       if they were installed), and at least the function promptinit should be
       autoloaded; it will autoload the rest.  Finally, to initialize the  use
       of  the system you need to call the promptinit function.  The following
       code in your .zshrc will arrange for this;  assume  the  functions  are
       stored in the directory ~/myfns:

              fpath=(~/myfns $fpath)
              autoload -U promptinit
              promptinit

   Theme Selection
       Use  the  prompt  command to select your preferred theme.  This command
       may be added to your .zshrc following the call to promptinit  in  order
       to start zsh with a theme already selected.

       prompt [ -c | -l ]
       prompt [ -p | -h ] [ theme ... ]
       prompt [ -s ] theme [ arg ... ]
              Set  or  examine  the prompt theme.  With no options and a theme
              argument, the theme with that name is set as the current  theme.
              The  available  themes  are  determined  at run time; use the -l
              option to see a list.  The special  theme  `random'  selects  at
              random one of the available themes and sets your prompt to that.

              In some cases the theme may be modified by  one  or  more  argu-
              ments, which should be given after the theme name.  See the help
              for each theme for descriptions of these arguments.

              Options are:

              -c     Show the currently selected theme and its parameters,  if
                     any.
              -l     List all available prompt themes.
              -p     Preview  the  theme  named  by theme, or all themes if no
                     theme is given.
              -h     Show help for the theme named by theme, or for the prompt
                     function if no theme is given.
              -s     Set theme as the current theme and save state.

       prompt_theme_setup
              Each available theme has a setup function which is called by the
              prompt function to install that theme.  This function may define
              other  functions  as necessary to maintain the prompt, including
              functions used to preview the prompt or  provide  help  for  its
              use.   You  should  not  normally  call a theme's setup function
              directly.


ZLE FUNCTIONS

   Widgets
       These functions all implement user-defined ZLE widgets (see  zshzle(1))
       which  can  be bound to keystrokes in interactive shells.  To use them,
       your .zshrc should contain lines of the form

              autoload function
              zle -N function

       followed by an appropriate bindkey command to  associate  the  function
       with a key sequence.  Suggested bindings are described below.

       bash-style word functions
              If  you  are  looking for functions to implement moving over and
              editing words in the manner of  bash,  where  only  alphanumeric
              characters are considered word characters, you can use the func-
              tions described in the next section.  The  following  is  suffi-
              cient:

                     autoload -U select-word-style
                     select-word-style bash

       forward-word-match, backward-word-match
       kill-word-match, backward-kill-word-match
       transpose-words-match, capitalize-word-match
       up-case-word-match, down-case-word-match
       select-word-style, match-word-context, match-words-by-style
              The  eight  `-match'  functions are drop-in replacements for the
              builtin widgets without the suffix.  By default they behave in a
              similar  way.   However,  by  the use of styles and the function
              select-word-style, the way words are matched can be altered.

              The  simplest  way  of  configuring  the  functions  is  to  use
              select-word-style,  which can either be called as a normal func-
              tion with the appropriate argument, or invoked as a user-defined
              widget  that  will  prompt  for  the first character of the word
              style to be used.  The first  time  it  is  invoked,  the  eight
              -match  functions  will  automatically  replace the builtin ver-
              sions, so they do not need to be loaded explicitly.

              The word styles available are as follows.  Only the first  char-
              acter is examined.

              bash   Word characters are alphanumeric characters only.

              normal As  in  normal  shell  operation:   word  characters  are
                     alphanumeric characters plus any  characters  present  in
                     the string given by the parameter $WORDCHARS.

              shell  Words  are  complete  shell  command  arguments, possibly
                     including complete quoted strings, or any tokens  special
                     to the shell.

              whitespace
                     Words  are any set of characters delimited by whitespace.

              default
                     Restore the default settings; this is usually the same as
                     `normal'.

              More  control  can  be  obtained  using  the  zstyle command, as
              described in zshmodules(1).  Each style is looked up in the con-
              text  :zle:widget  where  widget is the name of the user-defined
              widget, not the name of the function implementing it, so in  the
              case of the definitions supplied by select-word-style the appro-
              priate contexts are :zle:forward-word, and so on.  The  function
              select-word-style  itself  always defines styles for the context
              `:zle:*' which can be overridden by more specific (longer)  pat-
              terns as well as explicit contexts.

              The  style word-style specifies the rules to use.  This may have
              the following values.

              normal Use the standard  shell  rules,  i.e.  alphanumerics  and
                     $WORDCHARS, unless overridden by the styles word-chars or
                     word-class.

              specified
                     Similar to normal, but only the specified characters, and
                     not also alphanumerics, are considered word characters.

              unspecified
                     The  negation  of  specified.   The  given characters are
                     those which will not be considered part of a word.

              shell  Words are obtained by using the syntactic rules for  gen-
                     erating  shell  command  arguments.  In addition, special
                     tokens which are never command arguments such as `()' are
                     also treated as words.

              whitespace
                     Words are whitespace-delimited strings of characters.

              The  first  three of those rules usually use $WORDCHARS, but the
              value  in  the  parameter  can  be  overridden  by   the   style
              word-chars,  which  works in exactly the same way as $WORDCHARS.
              In addition, the style word-class uses character class syntax to
              group  characters  and  takes precedence over word-chars if both
              are set.  The word-class style does not include the  surrounding
              brackets of the character class; for example, `-:[:alnum:]' is a
              valid word-class to include all alphanumerics plus  the  charac-
              ters  `-'  and  `:'.   Be  careful including `]', `^' and `-' as
              these are special inside character classes.

              The style skip-chars is mostly useful  for  transpose-words  and
              similar  functions.   If  set,  it  gives  a count of characters
              starting at the cursor position which  will  not  be  considered
              part  of  the  word and are treated as space, regardless of what
              they actually are.  For example, if

                     zstyle ':zle:transpose-words' skip-chars 1

              has been set, and transpose-words-match is called with the  cur-
              sor  on the X of fooXbar, where X can be any character, then the
              resulting expression is barXfoo.

              Finer grained control can  be  obtained  by  setting  the  style
              word-context  to  an  array  of  pairs of entries.  Each pair of
              entries consists of a pattern and a subcontext.  The shell argu-
              ment  the  cursor  is on is matched against each pattern in turn
              until one matches; if it does, the  context  is  extended  by  a
              colon  and  the corresponding subcontext.  Note that the test is
              made against the original word on the line, with no stripping of
              quotes.   If  the  cursor  is at the end of the line the test is
              performed against an  empty  string;  if  it  is  on  whitespace
              between  words  the  test  is made against a single space.  Some
              examples are given below.

              Here are some examples of use of the styles, actually taken from
              the simplified interface in select-word-style:

                     zstyle ':zle:*' word-style standard
                     zstyle ':zle:*' word-chars ''

              Implements  bash-style  word handling for all widgets, i.e. only
              alphanumerics are word characters;  equivalent  to  setting  the
              parameter WORDCHARS empty for the given context.

                     style ':zle:*kill*' word-style space

              Uses  space-delimited  words for widgets with the word `kill' in
              the name.  Neither of the styles word-chars  nor  word-class  is
              used in this case.

              Here  are  some  examples  of  use  of the word-context style to
              extend the context.

                     zstyle ':zle:*' word-context "*/*" file "[[:space:]]" whitespace
                     zstyle ':zle:transpose-words:whitespace' word-style shell
                     zstyle ':zle:transpose-words:filename' word-style normal
                     zstyle ':zle:transpose-words:filename' word-chars ''

              This  provides  two  different  ways  of  using  transpose-words
              depending  on  whether the cursor is on whitespace between words
              or on a filename, here any word containing a /.  On  whitespace,
              complete  arguments  as  defined by standard shell rules will be
              transposed.  In a filename, only alphanumerics  will  be  trans-
              posed.   Elsewhere,  words  will be transposed using the default
              style for :zle:transpose-words.

              The word matching and all the handling  of  zstyle  settings  is
              actually implemented by the function match-words-by-style.  This
              can be used to create new  user-defined  widgets.   The  calling
              function  should set the local parameter curcontext to :zle:wid-
              get,  create  the  local  parameter   matched_words   and   call
              match-words-by-style    with    no    arguments.    On   return,
              matched_words will be set to an array with the elements: (1) the
              start  of  the  line  (2)  the  word  before  the cursor (3) any
              non-word characters between that word and  the  cursor  (4)  any
              non-word  character  at  the  cursor position plus any remaining
              non-word characters before the next word, including all  charac-
              ters  specified by the skip-chars style, (5) the word at or fol-
              lowing the cursor (6) any  non-word  characters  following  that
              word  (7) the remainder of the line.  Any of the elements may be
              an empty string; the calling function should test  for  this  to
              decide whether it can perform its function.

              It   is   possible   to   pass   options   with   arguments   to
              match-words-by-style to override the use of styles.  The options
              are:
              -w     word-style
              -s     skip-chars
              -c     word-class
              -C     word-chars

              For  example,  match-words-by-style -w shell -c 0 may be used to
              extract the command argument around the cursor.

              The  word-context  style  is   implemented   by   the   function
              match-word-context.   This  should not usually need to be called
              directly.

       delete-whole-word-match
              This is another function which works like the  -match  functions
              described  immediately  above,  i.e.  using styles to decide the
              word boundaries.  However, it  is  not  a  replacement  for  any
              existing function.

              The  basic  behaviour  is  to delete the word around the cursor.
              There is no numeric prefix handling; only the single word around
              the  cursor  is  considered.   If the widget contains the string
              kill, the removed text will  be  placed  in  the  cutbuffer  for
              future    yanking.    This   can   be   obtained   by   defining
              kill-whole-word-match as follows:

                     zle -N kill-whole-word-match delete-whole-word-match

              and then binding the widget kill-whole-word-match.

       copy-earlier-word
              This widget works like a  combination  of  insert-last-word  and
              copy-prev-shell-word.    Repeated   invocations  of  the  widget
              retrieve earlier words on the relevant  history  line.   With  a
              numeric argument N, insert the Nth word from the history line; N
              may be negative to count from the end of the line.

              If insert-last-word has been used to retrieve the last word on a
              previous  history  line,  repeated invocations will replace that
              word with earlier words from the same line.

              Otherwise, the widget applies to words  on  the  line  currently
              being  edited.   The  widget  style  can  be  set to the name of
              another widget that should be called to  retrieve  words.   This
              widget must accept the same three arguments as insert-last-word.

       cycle-completion-positions
              After inserting an unambiguous string into the command line, the
              new  function  based  completion  system may know about multiple
              places in this string where characters  are  missing  or  differ
              from  at  least one of the possible matches.  It will then place
              the cursor on the position it considers to be the most interest-
              ing one, i.e. the one where one can disambiguate between as many
              matches as possible with as little typing as possible.

              This widget allows the cursor to be easily moved  to  the  other
              interesting  spots.   It  can  be  invoked  repeatedly  to cycle
              between all positions reported by the completion system.

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

                     bindkey -M vicmd v edit-command-line

       history-search-end
              This   function   implements    the    widgets    history-begin-
              ning-search-backward-end    and    history-beginning-search-for-
              ward-end.  These commands work by first calling the  correspond-
              ing builtin widget (see `History Control' in zshzle(1)) and then
              moving the cursor to the end of the line.  The  original  cursor
              position  is  remembered and restored before calling the builtin
              widget a second time, so that the same  search  is  repeated  to
              look farther through the history.

              Although  you autoload only one function, the commands to use it
              are slightly different because it implements two widgets.

                     zle -N history-beginning-search-backward-end \
                            history-search-end
                     zle -N history-beginning-search-forward-end \
                            history-search-end
                     bindkey '\e^P' history-beginning-search-backward-end
                     bindkey '\e^N' history-beginning-search-forward-end

       history-beginning-search-menu
              This function implements yet another form of history  searching.
              The text before the cursor is used to select lines from the his-
              tory, as for history-beginning-search-backward except  that  all
              matches  are  shown  in a numbered menu.  Typing the appropriate
              digits inserts the full history line.  Note that leading  zeroes
              must  be  typed (they are only shown when necessary for removing
              ambiguity).  The entire history is searched; there  is  no  dis-
              tinction between forwards and backwards.

              With  a prefix argument, the search is not anchored to the start
              of the line; the string typed by the use may appear anywhere  in
              the line in the history.

              If  the  widget  name contains `-end' the cursor is moved to the
              end of the line inserted.  If the widget name contains  `-space'
              any  space  in  the  text typed is treated as a wildcard and can
              match anything (hence a leading space is equivalent to giving  a
              prefix argument).  Both forms can be combined, for example:

                     zle -N history-beginning-search-menu-space-end \
                            history-beginning-search-menu

       history-pattern-search
              The  function  history-pattern-search  implements  widgets which
              prompt for a pattern with which to search the history  backwards
              or  forwards.   The  pattern is in the usual zsh format, however
              the first character may be ^ to anchor the search to  the  start
              of  the  line,  and  the  last  character may be $ to anchor the
              search to the end of the line.  If the search was  not  anchored
              to  the  end of the line the cursor is positioned just after the
              pattern found.

              The commands to create bindable widgets are similar to those  in
              the example immediately above:

                     autoload -U history-pattern-search
                     zle -N history-pattern-search-backward history-pattern-search
                     zle -N history-pattern-search-forward history-pattern-search

       up-line-or-beginning-search, down-line-or-beginning-search
              These   widgets   are   similar   to   the   builtin   functions
              up-line-or-search and down-line-or-search:  if  in  a  multiline
              buffer  they  move  up or down within the buffer, otherwise they
              search for a history line matching  the  start  of  the  current
              line.   In  this  case,  however,  they  search for a line which
              matches the current line up to the current cursor  position,  in
              the  manner  of  history-beginning-search-backward and -forward,
              rather than the first word on the line.

       incarg Typing the keystrokes for this widget with the cursor placed  on
              or  to  the  left of an integer causes that integer to be incre-
              mented by one.  With a numeric prefix argument,  the  number  is
              incremented  by  the  amount of the argument (decremented if the
              prefix argument is negative).  The shell parameter incarg may be
              set to change the default increment to something other than one.

                     bindkey '^X+' incarg

       incremental-complete-word
              This allows incremental completion of a  word.   After  starting
              this  command,  a  list of completion choices can be shown after
              every character you type, which you can delete with ^H  or  DEL.
              Pressing return accepts the completion so far and returns you to
              normal editing (that is, the command  line  is  not  immediately
              executed).  You can hit TAB to do normal completion, ^G to abort
              back to the state when you started, and ^D to list the  matches.

              This works only with the new function based completion system.

                     bindkey '^Xi' incremental-complete-word

       insert-composed-char
              This function allows you to compose characters that don't appear
              on the keyboard to be inserted into the command line.  The  com-
              mand  is  followed by two keys corresponding to ASCII characters
              (there is no prompt).  For accented characters, the two keys are
              a  base  character  followed by a code for the accent, while for
              other special characters the  two  characters  together  form  a
              mnemonic  for  the  character to be inserted.  The two-character
              codes are a subset of those given by RFC 1345 (see  for  example
              http://www.faqs.org/rfcs/rfc1345.html).

              The  function may optionally be followed by up to two characters
              which replace one or both of the characters read from  the  key-
              board;  if  both characters are supplied, no input is read.  For
              example, insert-composed-char a: can be used within a widget  to
              insert  an  a  with  umlaut into the command line.  This has the
              advantages over use of a literal character that it is more  por-
              table.

              For  best  results  zsh  should have been built with support for
              multibyte characters (configured with --enable-multibyte);  how-
              ever,  the  function  works  for the limited range of characters
              available in single-byte character sets such as ISO-8859-1.

              The character is converted into  the  local  representation  and
              inserted  into  the  command  line at the cursor position.  (The
              conversion is done within the shell, using  whatever  facilities
              the C library provides.)  With a numeric argument, the character
              and its code are previewed in the status line

              The function may be run outside zle in which case it prints  the
              character  (together  with a newline) to standard output.  Input
              is still read from keystrokes.

              See insert-unicode-char for an alternative way of inserting Uni-
              code characters using their hexadecimal character number.

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

              The codes for the second character when used to accent the first
              are  as  follows.   Note that not every character can take every
              accent.
              !      Grave.
              '      Acute.
              >      Circumflex.
              ?      Tilde.  (This is not ~ as RFC 1345 does not  assume  that
                     character is present on the keyboard.)
              -      Macron.  (A horizonal bar over the base character.)
              (      Breve.  (A shallow dish shape over the base character.)
              .      Dot above the base character, or in the case of i no dot,
                     or in the case of L and l a centered dot.
              :      Diaeresis (Umlaut).
              c      Cedilla.
              _      Underline, however  there  are  currently  no  underlined
                     characters.
              /      Stroke through the base character.
              "      Double acute (only supported on a few letters).
              ;      Ogonek.   (A  little  forward  facing  hook at the bottom
                     right of the character.)
              <      Caron.  (A little v over the letter.)
              0      Circle over the base character.
              2      Hook over the base character.
              9      Horn over the base character.

              The most common characters from the Arabic, Cyrillic, Greek  and
              Hebrew  alphabets are available; consult RFC 1345 for the appro-
              priate sequences.  In addition, a set of two letter codes not in
              RFC  1345  are  available for the double-width characters corre-
              sponding to ASCII characters from !  to ~ (0x21 to 0x7e) by pre-
              ceeding  the character with ^, for example ^A for a double-width
              A.

              The following other two-character sequences are understood.

              ASCII characters
                     These are already present on most keyboards:
              <(     Left square bracket
              //     Backslash (solidus)
              )>     Right square bracket
              (!     Left brace (curly bracket)
              !!     Vertical bar (pipe symbol)
              !)     Right brace (curly bracket)
              '?     Tilde

              Special letters
                     Characters found in various variants of the Latin  alpha-
                     bet:
              ss     Eszett (scafes S)
              D-, d- Eth
              TH, th Thorn
              kk     Kra
              'n     'n
              NG, ng Ng
              OI, oi Oi
              yr     yr
              ED     ezh

              Currency symbols
              Ct     Cent
              Pd     Pound sterling (also lira and others)
              Cu     Currency
              Ye     Yen
              Eu     Euro (N.B. not in RFC 1345)

              Punctuation characters
                     References to "right" quotes indicate the shape (like a 9
                     rather than 6) rather than their grammatical  use.   (For
                     example,  a "right" low double quote is used to open quo-
                     tations in German.)
              !I     Inverted exclamation mark
              BB     Broken vertical bar
              SE     Section
              Co     Copyright
              -a     Spanish feminine ordinal indicator
              <<     Left guillemet
              --     Soft hyphen
              Rg     Registered trade mark
              PI     Pilcrow (paragraph)
              -o     Spanish masculine ordinal indicator
              >>     Right guillemet
              ?I     Inverted question mark
              -1     Hyphen
              -N     En dash
              -M     Em dash
              -3     Horizontal bar
              :3     Vertical ellipsis
              .3     Horizontal midline ellipsis
              !2     Double vertical line
              =2     Double low line
              '6     Left single quote
              '9     Right single quote
              .9     "Right" low quote
              9'     Reversed "right" quote
              "6     Left double quote
              "9     Right double quote
              :9     "Right" low double quote
              9"     Reversed "right" double quote
              /-     Dagger
              /=     Double dagger

              Mathematical symbols
              DG     Degree
              -2, +-, -+
                     - sign, +/- sign, -/+ sign
              2S     Superscript 2
              3S     Superscript 3
              1S     Superscript 1
              My     Micro
              .M     Middle dot
              14     Quarter
              12     Half
              34     Three quarters
              *X     Multiplication
              -:     Division
              %0     Per mille
              FA, TE, /0
                     For all, there exists, empty set
              dP, DE, NB
                     Partial derivative, delta (increment), del (nabla)
              (-, -) Element of, contains
              *P, +Z Product, sum
              *-, Ob, Sb
                     Asterisk, ring, bullet
              RT, 0(, 00
                     Root sign, proportional to, infinity

              Other symbols
              cS, cH, cD, cC
                     Card suits: spades, hearts, diamonds, clubs
              Md, M8, M2, Mb, Mx, MX
                     Musical notation: crotchet (quarter note), quaver (eighth
                     note),  semiquavers (sixteenth notes), flag sign, natural
                     signa, sharp sign
              Fm, Ml Female, male

              Accents on their own
              '>     Circumflex (same as caret, ^)
              '!     Grave (same as backtick, `)
              ',     Cedilla
              ':     Diaeresis (Umlaut)
              'm     Macron
              ''     Acute

       insert-files
              This function allows you  type  a  file  pattern,  and  see  the
              results of the expansion at each step.  When you hit return, all
              expansions are inserted into the command line.

                     bindkey '^Xf' insert-files

       narrow-to-region [ -p pre ] [ -P post ]
           [ -S statepm | -R statepm ] [ -n ] [ start end ])
       narrow-to-region-invisible
              Narrow the editable portion of the buffer to the region  between
              the  cursor  and  the  mark,  which may be in either order.  The
              region may not be empty.

              narrow-to-region may be used as a widget or called as a function
              from  a  user-defined  widget;  by default, the text outside the
              editable area remains visible.  A  recursive-edit  is  performed
              and  the  original  widening  status  is then restored.  Various
              options and arguments are available when it is called as a func-
              tion.

              The  options  -p  pretext and -P posttext may be used to replace
              the text before and after the display for the  duration  of  the
              function; either or both may be an empty string.

              If the option -n is also given, pretext or posttext will only be
              inserted if there is text before or  after  the  region  respec-
              tively which will be made invisible.

              Two numeric arguments may be given which will be used instead of
              the cursor and mark positions.

              The option -S statepm is used to narrow according to  the  other
              options  while  saving  the original state in the parameter with
              name statepm, while the option -R statepm is used to restore the
              state  from  the  parameter;  note in both cases the name of the
              parameter is required.  In the second case,  other  options  and
              arguments  are  irrelevant.  When this method is used, no recur-
              sive-edit is performed; the  calling  widget  should  call  this
              function with the option -S, perform its own editing on the com-
              mand line or pass control to the user via `zle  recursive-edit',
              then  call  this  function  with  the  option  -R.  The argument
              statepm must be a  suitable  name  for  an  ordinary  parameter,
              except  that  parameters  beginning  with  the  prefix _ntr_ are
              reserved for use within narrow-to-region.  Typically the parame-
              ter will be local to the calling function.

              narrow-to-region-invisible  is  a simple widget which calls nar-
              row-to-region with arguments which replace any text outside  the
              region with `...'.

              The  display  is  restored (and the widget returns) upon any zle
              command which would usually cause the line  to  be  accepted  or
              aborted.  Hence an additional such command is required to accept
              or abort the current line.

              The return status of both  widgets  is  zero  if  the  line  was
              accepted, else non-zero.

              Here is a trivial example of a widget using this feature.
                     local state
                     narrow-to-region -p $'Editing restricted region\n' \
                       -P '' -S state
                     zle recursive-edit
                     narrow-to-region -R state

       insert-unicode-char
              When  first  executed, the user inputs a set of hexadecimal dig-
              its.  This  is  terminated  with  another  call  to  insert-uni-
              code-char.   The  digits  are then turned into the corresponding
              Unicode character.  For example, if the widget is bound to  ^XU,
              the character sequence `^XU 4 c ^XU' inserts L (Unicode U+004c).

              See insert-composed-char for a way of inserting characters using
              a two-character mnemonic.

       predict-on
              This set of functions implements predictive typing using history
              search.  After predict-on, typing characters causes  the  editor
              to  look  backward  in  the history for the first line beginning
              with what you have typed so  far.   After  predict-off,  editing
              returns  to normal for the line found.  In fact, you often don't
              even need to use predict-off, because if the line doesn't  match
              something in the history, adding a key performs standard comple-
              tion, and then inserts itself  if  no  completions  were  found.
              However,  editing  in  the middle of a line is liable to confuse
              prediction; see the toggle style below.

              With the function based completion system (which is  needed  for
              this),  you  should  be  able to type TAB at almost any point to
              advance the cursor to the next ``interesting''  character  posi-
              tion  (usually  the end of the current word, but sometimes some-
              where in the middle of the word).  And of course as soon as  the
              entire  line is what you want, you can accept with return, with-
              out needing to move the cursor to the end first.

              The first time predict-on is used, it creates several additional
              widget functions:

              delete-backward-and-predict
                     Replaces  the  backward-delete-char  widget.   You do not
                     need to bind this yourself.
              insert-and-predict
                     Implements predictive typing by replacing the self-insert
                     widget.  You do not need to bind this yourself.
              predict-off
                     Turns off predictive typing.

              Although you autoload only the predict-on function, it is neces-
              sary to create a keybinding for predict-off as well.

                     zle -N predict-on
                     zle -N predict-off
                     bindkey '^X^Z' predict-on
                     bindkey '^Z' predict-off

       read-from-minibuffer
              This is most useful when called as a function from inside a wid-
              get,  but  will work correctly as a widget in its own right.  It
              prompts for a value below the current command line; a value  may
              be  input  using  all  of  the  standard zle operations (and not
              merely the restricted set available when executing, for example,
              execute-named-cmd).   The  value is then returned to the calling
              function in the parameter $REPLY and the editing buffer restored
              to  its  previous  state.  If the read was aborted by a keyboard
              break (typically ^G), the function returns status 1  and  $REPLY
              is not set.

              If  one  argument  is  supplied to the function it is taken as a
              prompt, otherwise `? ' is used.  If two arguments are  supplied,
              they  are the prompt and the initial value of $LBUFFER, and if a
              third argument is given it is the  initial  value  of  $RBUFFER.
              This  provides  a  default  value and starting cursor placement.
              Upon return the entire buffer is the value of $REPLY.

              One option is available: `-k num' specifies that num  characters
              are  to be read instead of a whole line.  The line editor is not
              invoked recursively in this case, so depending on  the  terminal
              settings  the  input may not be visible, and only the input keys
              are placed in $REPLY, not the entire buffer.  Note  that  unlike
              the read builtin num must be given; there is no default.

              The  name  is  a  slight  misnomer,  as  in fact the shell's own
              minibuffer is not used.  Hence it is still possible to call exe-
              cuted-named-cmd and similar functions while reading a value.

       replace-string, replace-pattern
       replace-string-again, replace-pattern-again
              The  function replace-string implements two widgets.  If defined
              under the same name as the function, it prompts for two strings;
              the  first (source) string will be replaced by the second every-
              where it occurs in the line editing buffer.

              If the widget name contains the word `pattern', for  example  by
              defining  the  widget  using the command `zle -N replace-pattern
              replace-string', then the replacement is done by pattern  match-
              ing.   All  zsh  extended  globbing  patterns can be used in the
              source string; note that unlike filename generation the  pattern
              does  not  need  to match an entire word, nor do glob qualifiers
              have any effect.  In addition, the replacement string  can  con-
              tain  parameter or command substitutions.  Furthermore, a `&' in
              the replacement string will be replaced with the matched  source
              string,  and a backquoted digit `\N' will be replaced by the Nth
              parenthesised expression matched.  The form `\{N}' may  be  used
              to protect the digit from following digits.

              By default the previous source or replacement string will not be
              offered for editing.  However, this feature can be activated  by
              setting  the style edit-previous in the context :zle:widget (for
              example, :zle:replace-string) to true.  In addition, a  positive
              numeric  argument  forces  the  previous values to be offered, a
              negative or zero argument forces them not to be.

              The function replace-string-again can be used to repeat the pre-
              vious    replacement;   no   prompting   is   done.    As   with
              replace-string, if the name of  the  widget  contains  the  word
              `pattern',  pattern matching is performed, else a literal string
              replacement.  Note that the previous source and replacement text
              are the same whether pattern or string matching is used.

              For example, starting from the line:

                     print This line contains fan and fond

              and  invoking replace-pattern with the source string `f(?)n' and
              the replacment string `c\1r' produces the not very useful line:

                     print This line contains car and cord

              The range of the replacement string can be limited by using  the
              narrow-to-region-invisible  widget.   One limitation of the cur-
              rent version is that undo will  cycle  through  changes  to  the
              replacement  and  source  strings before undoing the replacement
              itself.

       smart-insert-last-word
              This function may replace the insert-last-word widget, like so:

                     zle -N insert-last-word smart-insert-last-word

              With a numeric prefix, or when passed command line arguments  in
              a  call  from  another widget, it behaves like insert-last-word,
              except that words in comments are ignored when  INTERACTIVE_COM-
              MENTS is set.

              Otherwise,  the rightmost ``interesting'' word from the previous
              command is  found  and  inserted.   The  default  definition  of
              ``interesting''  is  that  the word contains at least one alpha-
              betic character, slash, or backslash.  This  definition  may  be
              overridden  by use of the match style.  The context used to look
              up the style is the widget  name,  so  usually  the  context  is
              :insert-last-word.   However, you can bind this function to dif-
              ferent widgets to use different patterns:

                     zle -N insert-last-assignment smart-insert-last-word
                     zstyle :insert-last-assignment match '[[:alpha:]][][[:alnum:]]#=*'
                     bindkey '\e=' insert-last-assignment

              If no interesting word is found and the auto-previous  style  is
              set  to  a  true  value, the search continues upward through the
              history.  When auto-previous is unset or  false  (the  default),
              the widget must be invoked repeatedly in order to search earlier
              history lines.

       which-command
              This function is a drop-in replacement for  the  builtin  widget
              which-command.   It has enhanced behaviour, in that it correctly
              detects whether or not the command word needs to be expanded  as
              an  alias; if so, it continues tracing the command word from the
              expanded alias until it reaches the command that  will  be  exe-
              cuted.

              The  style whence is available in the context :zle:$WIDGET; this
              may be set to an array to give the command and options that will
              be  used  to investigate the command word found.  The default is
              whence -c.

   Utility Functions
       These functions are useful in constructing  widgets.   They  should  be
       loaded  with  `autoload  -U  function'  and  called  as  indicated from
       user-defined widgets.

       split-shell-arguments
              This function splits the line currently being edited into  shell
              arguments  and  whitespace.   The  result is stored in the array
              reply.  The array contains all the parts of the line  in  order,
              starting with any whitespace before the first argument, and fin-
              ishing with any whitespace after the last argument.   Hence  (so
              long as the option KSH_ARRAYS is not set) whitespace is given by
              odd indices in the array and arguments by  even  indices.   Note
              that  no  stripping  of quotes is done; joining together all the
              elements of reply in order is guaranteed to produce the original
              line.

              The  parameter  REPLY  is  set to the index of the word in reply
              which contains the character after the cursor, where  the  first
              element  has  index 1.  The parameter REPLY2 is set to the index
              of the character under the cursor in that word, where the  first
              character has index 1.

              Hence  reply,  REPLY  and REPLY2 should all be made local to the
              enclosing function.

              See the function modify-current-argument, described  below,  for
              an example of how to call this function.

       modify-current-argument expr-using-$ARG
              This  function provides a simple method of allowing user-defined
              widgets to modify the command line argument under the cursor (or
              immediately  to  the left of the cursor if the cursor is between
              arguments).  The argument should be  an  expression  which  when
              evaluated  operates  on the shell parameter ARG, which will have
              been set to the command line argument  under  the  cursor.   The
              expression  should be suitably quoted to prevent it being evalu-
              ated too early.

              For example, a user-defined widget containing the following code
              converts  the  characters  in the argument under the cursor into
              all upper case:

                     modify-current-word '${(U)ARG}'

              The following strips any quoting from the current word  (whether
              backslashes  or  one  of  the styles of quotes), and replaces it
              with single quoting throughout:

                     modify-current-word '${(qq)${(Q)ARG}}'

   Styles
       The behavior of several of the above widgets can be controlled  by  the
       use of the zstyle mechanism.  In particular, widgets that interact with
       the completion system pass along their context to any completions  that
       they invoke.

       break-keys
              This  style is used by the incremental-complete-word widget. Its
              value should be a pattern, and all keys  matching  this  pattern
              will cause the widget to stop incremental completion without the
              key having any further effect. Like all styles used directly  by
              incremental-complete-word,  this  style  is  looked up using the
              context `:incremental'.

       completer
              The incremental-complete-word and insert-and-predict widgets set
              up their top-level context name before calling completion.  This
              allows one to define different sets of completer  functions  for
              normal  completion  and  for these widgets.  For example, to use
              completion, approximation and correction for normal  completion,
              completion  and  correction  for incremental completion and only
              completion for prediction one could use:

                     zstyle ':completion:*' completer \
                             _complete _correct _approximate
                     zstyle ':completion:incremental:*' completer \
                             _complete _correct
                     zstyle ':completion:predict:*' completer \
                             _complete

              It is a good idea to restrict the completers used in prediction,
              because  they  may  be  automatically  invoked as you type.  The
              _list and _menu completers should never be used with prediction.
              The  _approximate,  _correct, _expand, and _match completers may
              be used, but be aware that they may change  characters  anywhere
              in  the  word  behind the cursor, so you need to watch carefully
              that the result is what you intended.

       cursor The insert-and-predict widget uses this style,  in  the  context
              `:predict', to decide where to place the cursor after completion
              has been tried.  Values are:

              complete
                     The cursor is left where it was when completion finished,
                     but only if it is after a character equal to the one just
                     inserted by the user.  If it is after another  character,
                     this value is the same as `key'.

              key    The  cursor is left after the nth occurrence of the char-
                     acter just inserted, where n is the number of times  that
                     character  appeared  in  the  word  before completion was
                     attempted.  In short, this has the effect of leaving  the
                     cursor after the character just typed even if the comple-
                     tion code found out that no other characters need  to  be
                     inserted at that position.

              Any other value for this style unconditionally leaves the cursor
              at the position where the completion code left it.

       list   When using the incremental-complete-word widget, this style says
              if  the matches should be listed on every key press (if they fit
              on the screen).  Use the context  prefix  `:completion:incremen-
              tal'.

              The  insert-and-predict  widget uses this style to decide if the
              completion should be shown even if there is  only  one  possible
              completion.   This  is  done  if  the value of this style is the
              string always.  In this case  the  context  is  `:predict'  (not
              `:completion:predict').

       match  This  style  is used by smart-insert-last-word to provide a pat-
              tern (using full EXTENDED_GLOB syntax) that matches an interest-
              ing  word.   The  context  is  the  name  of the widget to which
              smart-insert-last-word is bound (see above).  The default behav-
              ior of smart-insert-last-word is equivalent to:

                     zstyle :insert-last-word match '*[[:alpha:]/\\]*'

              However, you might want to include words that contain spaces:

                     zstyle :insert-last-word match '*[[:alpha:][:space:]/\\]*'

              Or  include  numbers as long as the word is at least two charac-
              ters long:

                     zstyle :insert-last-word match '*([[:digit:]]?|[[:alpha:]/\\])*'

              The above example causes redirections like "2>" to be  included.

       prompt The  incremental-complete-word  widget  shows  the value of this
              style in the status line  during  incremental  completion.   The
              string  value may contain any of the following substrings in the
              manner of the PS1 and other prompt parameters:

              %c     Replaced by the name of the completer function that  gen-
                     erated the matches (without the leading underscore).

              %l     When the list style is set, replaced by `...' if the list
                     of matches is too long to fit on the screen and  with  an
                     empty  string otherwise.  If the list style is `false' or
                     not set, `%l' is always removed.

              %n     Replaced by the number of matches generated.

              %s     Replaced by `-no match-',  `-no  prefix-',  or  an  empty
                     string if there is no completion matching the word on the
                     line, if the matches have no common prefix different from
                     the  word  on the line, or if there is such a common pre-
                     fix, respectively.

              %u     Replaced by the unambiguous part of all matches, if there
                     is any, and if it is different from the word on the line.

              Like `break-keys', this uses the `:incremental' context.

       stop-keys
              This style is used by the incremental-complete-word widget.  Its
              value  is  treated similarly to the one for the break-keys style
              (and uses the same context: `:incremental').  However,  in  this
              case  all keys matching the pattern given as its value will stop
              incremental completion and will then execute their  usual  func-
              tion.

       toggle This boolean style is used by predict-on and its related widgets
              in the context `:predict'.  If set to one of the standard `true'
              values, predictive typing is automatically toggled off in situa-
              tions where it is unlikely to be useful, such as when editing  a
              multi-line  buffer or after moving into the middle of a line and
              then deleting a character.  The default is to  leave  prediction
              turned on until an explicit call to predict-off.

       verbose
              This boolean style is used by predict-on and its related widgets
              in the context `:predict'.  If set to one of the standard `true'
              values,  these  widgets  display a message below the prompt when
              the predictive state is toggled.  This is most useful in  combi-
              nation  with  the  toggle  style.   The default does not display
              these messages.

       widget This style is similar to the command style: For widget functions
              that  use zle to call other widgets, this style can sometimes be
              used to override the widget which is called.   The  context  for
              this  style  is  the name of the calling widget (not the name of
              the calling function, because one function may be bound to  mul-
              tiple widget names).

                     zstyle :copy-earlier-word widget smart-insert-last-word

              Check  the  documentation  for the calling widget or function to
              determine whether the widget style is used.


EXCEPTION HANDLING

       Two functions are provided to enable zsh to provide exception  handling
       in a form that should be familiar from other languages.

       throw exception
              The  function  throw throws the named exception.  The name is an
              arbitrary string and is only used by the throw and  catch  func-
              tions.   An exception is for the most part treated the same as a
              shell error, i.e. an unhandled exception will cause the shell to
              abort  all  processing  in a function or script and to return to
              the top level in an interactive shell.

       catch exception-pattern
              The function catch returns  status  zero  if  an  exception  was
              thrown and the pattern exception-pattern matches its name.  Oth-
              erwise it returns status 1.   exception-pattern  is  a  standard
              shell   pattern,   respecting   the   current   setting  of  the
              EXTENDED_GLOB option.  An alias catch is also defined to prevent
              the  argument  to  the function from matching filenames, so pat-
              terns may be used unquoted.  Note that  as  exceptions  are  not
              fundamentally  different  from other shell errors it is possible
              to catch shell errors by using an empty string as the  exception
              name.   The shell variable CAUGHT is set by catch to the name of
              the exception caught.  It is possible to rethrow an exception by
              calling  the  throw  function  again  once an exception has been
              caught.

       The functions are designed to be used together  with  the  always  con-
       struct  described  in  zshmisc(1).  This is important as only this con-
       struct provides the required support for exceptions.  A typical example
       is as follows.

              {
                # "try" block
                # ... nested code here calls "throw MyExcept"
              } always {
                # "always" block
                if catch MyExcept; then
                  print "Caught exception MyExcept"
                elif catch ''; then
                  print "Caught a shell error.  Propagating..."
                  throw ''
                fi
                # Other exceptions are not handled but may be caught further
                # up the call stack.
              }

       If  all  exceptions  should  be  caught,  the  following idiom might be
       preferable.

              {
                # ... nested code here throws an exception
              } always {
                if catch *; then
                  case $CAUGHT in
                    (MyExcept)
                    print "Caught my own exception"
                    ;;
                    (*)
                    print "Caught some other exception"
                    ;;
                  esac
                fi
              }

       In common with exception handling in other languages, the exception may
       be  thrown by code deeply nested inside the `try' block.  However, note
       that it must be thrown inside the current  shell,  not  in  a  subshell
       forked  for  a pipeline, parenthesised current-shell construct, or some
       form of command or process substitution.

       The system internally uses the shell variable EXCEPTION to  record  the
       name  of  the exception between throwing and catching.  One drawback of
       this scheme is that if the exception is not handled the variable EXCEP-
       TION  remains  set  and may be incorrectly recognised as the name of an
       exception if a shell error subsequently occurs.  Adding unset EXCEPTION
       at  the  start  of  the outermost layer of any code that uses exception
       handling will eliminate this problem.


MIME FUNCTIONS

       Three functions are available to provide handling of  files  recognised
       by extension, for example to dispatch a file text.ps when executed as a
       command to an appropriate viewer.

       zsh-mime-setup [-flv]
       zsh-mime-handler
              These  two   functions   use   the   files   ~/.mime.types   and
              /etc/mime.types,  which  associate types and extensions, as well
              as ~/.mailcap and /etc/mailcap files, which associate types  and
              the  programs that handle them.  These are provided on many sys-
              tems with the Multimedia Internet Mail Extensions.

              To enable the system,  the  function  zsh-mime-setup  should  be
              autoloaded  and  run.   This  allows files with extensions to be
              treated as executable; such files be completed by  the  function
              completion  system.   The  function  zsh-mime-handler should not
              need to be called by the user.

              The system works by setting up suffix aliases with  `alias  -s'.
              Suffix  aliases  already installed by the user will not be over-
              written.

              Repeated calls to zsh-mime-setup do not  override  the  existing
              mapping  between suffixes and executable files unless the option
              -f is given.  Note, however, that this does not override  exist-
              ing suffix aliases assigned to handlers other than zsh-mime-han-
              dler.  Calling zsh-mime-setup  with  the  option  -l  lists  the
              existing mappings without altering them.  Calling zsh-mime-setup
              with the option -v causes verbose output to be shown during  the
              setup operation.

              The  system  respects  the mailcap flags needsterminal and copi-
              ousoutput, see mailcap(4).

              The functions use the following styles, which are  defined  with
              the  zstyle builtin command (see zshmodules(1)).  They should be
              defined before zsh-mime-setup is run.   The  contexts  used  all
              start with :mime:, with additional components in some cases.  It
              is recommended that a trailing * (suitably quoted)  be  appended
              to  style  patterns  in  case  the system is extended in future.
              Some examples are given below.
              current-shell
                     If this boolean style is true, the  mailcap  handler  for
                     the  context  in  question  is run using the eval builtin
                     instead of by starting a new sh process.   This  is  more
                     efficient, but may not work in the occasional cases where
                     the mailcap handler uses strict POSIX syntax.

              execute-as-is
                     This style gives a list of patterns to be matched against
                     files  passed  for  execution with a handler program.  If
                     the file matches the pattern, the entire command line  is
                     executed  in  its current form, with no handler.  This is
                     useful for files which might have suffixes  but  nonethe-
                     less  be  executable in their own right.  If the style is
                     not set, the pattern *(*) *(/) is used; hence  executable
                     files  are executed directly and not passed to a handler,
                     and the option AUTO_CD may be used to change to  directo-
                     ries that happen to have MIME suffixes.

              flags  Defines flags to go with a handler; the context is as for
                     the handler style, and the format is as for the flags  in
                     mailcap.

              handle-nonexistent
                     By  default, arguments that don't correspond to files are
                     not passed to the MIME handler in  order  to  prevent  it
                     from  intercepting commands found in the path that happen
                     to have suffixes.  This style may be set to an  array  of
                     extended  glob patterns for arguments that will be passed
                     to the handler even if they don't exist.  If  it  is  not
                     explicitly  set  it  defaults  to  [[:alpha:]]#:/*  which
                     allows URLs to be passed to the MIME handler even  though
                     they don't exist in that format in the file system.

              handler
                     Specifies  a handler for a suffix; the suffix is given by
                     the context as :mime:.suffix:, and the format of the han-
                     dler  is exactly that in mailcap.  Note in particular the
                     `.' and trailing colon to distinguish  this  use  of  the
                     context.   This  overrides  any  handler specified by the
                     mailcap files.  If the handler requires a  terminal,  the
                     flags style should be set to include the word needstermi-
                     nal, or if the output is to be displayed through a  pager
                     (but  not  if  the  handler is itself a pager), it should
                     include copiousoutput.

              mailcap
                     A  list  of  files  in  the  format  of  ~/.mailcap   and
                     /etc/mailcap  to  be  read  during  setup,  replacing the
                     default list which consists of those two files.  The con-
                     text  is :mime:.  A + in the list will be replaced by the
                     default files.

              mailcap-priorities
                     This style is used to resolve  multiple  mailcap  entries
                     for  the  same MIME type.  It consists of an array of the
                     following elements,  in  descending  order  of  priority;
                     later  entries will be used if earlier entries are unable
                     to resolve the entries being compared.  If  none  of  the
                     tests resolve the entries, the first entry encountered is
                     retained.

                     files  The order of files (entries in the mailcap  style)
                            read.   Earlier  files  are preferred.  (Note this
                            does not resolve entries in the same file.)

                     priority
                            The priority flag from  the  mailcap  entry.   The
                            priority  is  an  integer  from  0  to  9 with the
                            default value being 5.

                     flags  The test given by the mailcap-prio-flags option is
                            used to resolve entries.

                     place  Later  entries  are  preferred; as the entries are
                            strictly ordered, this test always succeeds.

                     Note that as this style is handled during initialisation,
                     the  context  is always :mime:, with no discrimination by
                     suffix.

              mailcap-prio-flags
                     This style is used when the keyword flags is  encountered
                     in  the list of tests specified by the mailcap-priorities
                     style.  It should be set to a list of patterns,  each  of
                     which  is tested against the flags specified in the mail-
                     cap entry (in other words, the sets of assignments  found
                     with some entries in the mailcap file).  Earlier patterns
                     in the list are preferred to later ones, and matched pat-
                     terns are preferred to unmatched ones.

              mime-types
                     A  list  of  files  in  the  format  of ~/.mime.types and
                     /etc/mime.types to be read during  setup,  replacing  the
                     default list which consists of those two files.  The con-
                     text is :mime:.  A + in the list will be replaced by  the
                     default files.

              never-background
                     If  this  boolean style is set, the handler for the given
                     context is always run in  the  foreground,  even  if  the
                     flags  provided  in the mailcap entry suggest it need not
                     be (for example, it doesn't require a terminal).

              pager  If set, will be used instead of $PAGER or more to  handle
                     suffixes  where  the copiousoutput flag is set.  The con-
                     text is as for handler, i.e. :mime:.suffix: for  handling
                     a file with the given suffix.

              Examples:

                     zstyle ':mime:*' mailcap ~/.mailcap /usr/local/etc/mailcap
                     zstyle ':mime:.txt:' handler less %s
                     zstyle ':mime:.txt:' flags needsterminal

              When  zsh-mime-setup is subsequently run, it will look for mail-
              cap entries in the two files given.  Files of suffix  .txt  will
              be  handled  by running `less file.txt'.  The flag needsterminal
              is set to show that this program must run attached to  a  termi-
              nal.

              As there are several steps to dispatching a command, the follow-
              ing should be checked if attempting to execute a file by  exten-
              sion .ext does not have the expected effect.

              The  command  `alias  -s ext' should show `ps=zsh-mime-handler'.
              If it shows something else, another  suffix  alias  was  already
              installed and was not overwritten.  If it shows nothing, no han-
              dler was installed:  this is most likely because no handler  was
              found in the .mime.types and mailcap combination for .ext files.
              In  that  case,  appropriate  handling  should   be   added   to
              ~/.mime.types and mailcap.

              If  the extension is handled by zsh-mime-handler but the file is
              not opened correctly, either the handler defined for the type is
              incorrect,  or  the flags associated with it are in appropriate.
              Running zsh-mime-setup -l will show the handler  and,  if  there
              are any, the flags.  A %s in the handler is replaced by the file
              (suitably quoted if necessary).  Check that the handler  program
              listed  lists  and can be run in the way shown.  Also check that
              the flags needsterminal or copiousoutput are set if the  handler
              needs to be run under a terminal; the second flag is used if the
              output should be sent to a pager.   An  example  of  a  suitable
              mailcap entry for such a program is:

                     text/html; /usr/bin/lynx '%s'; needsterminal

       pick-web-browser
              This  function is separate from the two MIME functions described
              above and can be assigned directly to a suffix:

                     autoload -U pick-web-browser
                     alias -s html=pick-web-browser

              It is provided as an intelligent front end  to  dispatch  a  web
              browser.   It  will  check if an X Windows display is available,
              and if so if there is already a browser running on  the  display
              which  can  accept  a remote connection.  In that case, the file
              will be displayed in that browser; you should  check  explicitly
              if  it has appeared in the running browser's window.  Otherwise,
              it will start a new browser according to a built-in set of pref-
              erences.

              Alternatively, pick-web-browser can be run as a zsh script.

              Two  styles  are  available to customize the choice of browsers:
              x-browsers  when  running  under  the  X  Window   System,   and
              tty-browsers otherwise.  These are arrays in decreasing order of
              preference consisting of the command name under which  to  start
              the  browser.   They  are looked up in the context :mime: (which
              may be extended in future, so  appending  `*'  is  recommended).
              For example,

                     zstyle ':mime:*' x-browsers opera konqueror netscape

              specifies  that  pick-web-browser should first look for a runing
              instance of Opera, Konqueror or Netscape, in that order, and  if
              it fails to find any should attempt to start Opera.

              In addition, the style command, if set, is used to pick the com-
              mand used to  open  a  page  for  a  browser.   The  context  is
              :mime:browser:new:$browser:   to   start   a   new   browser  or
              :mime:browser:running:$browser: to  open  a  URL  in  a  browser
              already runing on the current X display.  The escape sequence %b
              in the style's value will be replaced by the browser,  while  %u
              will  be  replaced  by  the  URL.   If the style is not set, the
              default for all new instances is equivalent to  %b  %u  and  the
              defaults for using running browsers are equivalent to the values
              kfmclient openURL %u for  Konqueror,  firefox  -new-tab  %u  for
              Firefox and %b -remote "openUrl(%u)" for all others.


MATHEMATICAL FUNCTIONS

       zcalc [ expression ... ]
              A reasonably powerful calculator based on zsh's arithmetic eval-
              uation facility.  The syntax is similar to that of  formulae  in
              most  programming languages; see the section `Arithmetic Evalua-
              tion' in  zshmisc(1)  for  details.   The  mathematical  library
              zsh/mathfunc  will be loaded if it is available; see the section
              `The zsh/mathfunc Module' in  zshmodules(1).   The  mathematical
              functions correspond to the raw system libraries, so trigonomet-
              ric functions are evaluated using radians, and so on.

              Each line typed is evaluated as an expression.  The prompt shows
              a  number, which corresponds to a positional parameter where the
              result of that calculation is stored.  For example,  the  result
              of the calculation on the line preceded by `4> ' is available as
              $4.  The last value calculated is available as ans.   Full  com-
              mand  line  editing,  including the history of previous calcula-
              tions,  is  available;  the  history  is  saved  in   the   file
              ~/.zcalc_history.   To  exit,  enter a blank line or type `q' on
              its own.

              If arguments are given to zcalc on start up, they  are  used  to
              prime  the first few positional parameters.  A visual indication
              of this is given when the calculator starts.

              The constants PI (3.14159...) and E (2.71828...)  are  provided.
              Parameter  assignment  is possible, but note that all parameters
              will be put into the global namespace.

              The output  base  can  be  initialised  by  passing  the  option
              `-#base',  for  example  `zcalc  -#16'  (the  `#' may have to be
              quoted, depending on the globbing options set).

              The prompt is configurable via the parameter ZCALCPROMPT,  which
              undergoes  standard  prompt expansion.  The index of the current
              entry is stored locally in the first element of the array psvar,
              which  can  be referred to in ZCALCPROMPT as `%1v'.  The default
              prompt is `%1v> '.

              The output precision may be specified within  zcalc  by  special
              commands familiar from many calculators:
              norm   The  default output format.  It corresponds to the printf
                     %g specification.  Typically this shows six decimal  dig-
                     its.

              sci digits
                     Scientific  notation, corresponding to the printf %g out-
                     put format with the precision given by digits.  This pro-
                     duces  either fixed point or exponential notation depend-
                     ing on the value output.

              fix digits
                     Fixed point notation, corresponding to the printf %f out-
                     put format with the precision given by digits.

              eng digits
                     Exponential notation, corresponding to the printf %E out-
                     put format with the precision given by digits.

              Other special commands:
              local arg ...
                     Declare variables local to the function.  Note that  cer-
                     tain  variables are used by the function for its own pur-
                     poses.  Other variables may be used, too, but  they  will
                     be taken from or put into the global scope.

              function name [ body ]
                     Define  a  mathematical function or (with no body) delete
                     it.  The function  is  defined  using  zmathfuncdef,  see
                     below.

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

                            function cube $1 * $1 * $1

                     defines a function to cube the sole argument.

              [#base]
                     When this syntax appears on a line by itself, the default
                     output  radix  is set to base.  Use, for example, `[#16]'
                     to display hexadecimal output preceded by  an  indication
                     of  the  base, or `[##16]' just to display the raw number
                     in the given base.  Bases themselves are always specified
                     in  decimal.  `[#]'  restores  the  normal output format.
                     Note that setting  an  output  base  suppresses  floating
                     point output; use `[#]' to return to normal operation.

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

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

              With  two  arguments, define a mathematical function named math-
              func which can be used in any  form  of  arithmetic  evaluation.
              body is a mathematical expression to implement the function.  It
              may contain references to position parameters $1,  $2,  ...   to
              refer  to  mandatory parameters and ${1:-defvalue} ...  to refer
              to optional parameters.  Note that the forms  must  be  strictly
              adhered  to  for the function to calculate the correct number of
              arguments.  The implementation is held in a shell function named
              zsh_math_func_mathfunc;  usually the user will not need to refer
              to the shell function directly.

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


OTHER FUNCTIONS

       There  are  a  large  number of helpful functions in the Functions/Misc
       directory of the zsh distribution.  Most are very  simple  and  do  not
       require documentation here, but a few are worthy of special mention.

   Descriptions
       colors This  function  initializes  several  associative  arrays to map
              color names to (and from) the ANSI standard eight-color terminal
              codes.   These  are used by the prompt theme system (see above).
              You seldom should need to run colors more than once.

              The eight base colors are:  black,  red,  green,  yellow,  blue,
              magenta,  cyan,  and  white.   Each of these has codes for fore-
              ground and background.  In addition there  are  eight  intensity
              attributes:  bold,  faint,  standout, underline, blink, reverse,
              and conceal.  Finally,  there  are  six  codes  used  to  negate
              attributes:  none (reset all attributes to the defaults), normal
              (neither bold nor faint), no-standout,  no-underline,  no-blink,
              and no-reverse.

              Some  terminals  do  not  support all combinations of colors and
              intensities.

              The associative arrays are:

              color
              colour Map all the color names to their integer codes, and inte-
                     ger  codes  to the color names.  The eight base names map
                     to the foreground color codes, as do names prefixed  with
                     `fg-', such as `fg-red'.  Names prefixed with `bg-', such
                     as `bg-blue', refer to the background codes.  The reverse
                     mapping  from  code  to  color yields base name for fore-
                     ground codes and the bg- form for backgrounds.

                     Although it is a misnomer to call  them  `colors',  these
                     arrays  also map the other fourteen attributes from names
                     to codes and codes to names.

              fg
              fg_bold
              fg_no_bold
                     Map the eight basic color names to ANSI  terminal  escape
                     sequences  that  set  the  corresponding  foreground text
                     properties.  The fg sequences change  the  color  without
                     changing the eight intensity attributes.

              bg
              bg_bold
              bg_no_bold
                     Map  the  eight basic color names to ANSI terminal escape
                     sequences that set the corresponding  background  proper-
                     ties.  The bg sequences change the color without changing
                     the eight intensity attributes.

              In addition, the scalar parameters  reset_color  and  bold_color
              are  set  to  the  ANSI  terminal  escapes  that  turn  off  all
              attributes and turn on bold intensity, respectively.

       fned name
              Same as zed -f.  This function does not appear in the  zsh  dis-
              tribution, but can be created by linking zed to the name fned in
              some directory in your fpath.

       is-at-least needed [ present ]
              Perform a greater-than-or-equal-to  comparison  of  two  strings
              having  the format of a zsh version number; that is, a string of
              numbers and text with segments separated by dots or dashes.   If
              the  present string is not provided, $ZSH_VERSION is used.  Seg-
              ments are paired left-to-right in the two strings  with  leading
              non-number parts ignored.  If one string has fewer segments than
              the other, the missing segments are considered zero.

              This is useful in startup files to set options and  other  state
              that are not available in all versions of zsh.

                     is-at-least 3.1.6-15 && setopt NO_GLOBAL_RCS
                     is-at-least 3.1.0 && setopt HIST_REDUCE_BLANKS
                     is-at-least 2.6-17 || print "You can't use is-at-least here."

       nslookup [ arg ... ]
              This  wrapper  function  for  the  nslookup command requires the
              zsh/zpty module (see zshmodules(1)).  It  behaves  exactly  like
              the  standard  nslookup  except  that  it  provides customizable
              prompts  (including  a  right-side  prompt)  and  completion  of
              nslookup  commands,  host  names,  etc.  (if  you  use the func-
              tion-based completion system).  Completion  styles  may  be  set
              with the context prefix `:completion:nslookup'.

              See also the pager, prompt and rprompt styles below.

       run-help
              See `Accessing On-Line Help' above.

       tetris Zsh  was once accused of not being as complete as Emacs, because
              it lacked a Tetris game.  This function was  written  to  refute
              this vicious slander.

              This function must be used as a ZLE widget:

                     autoload -U tetris
                     zle -N tetris
                     bindkey keys tetris

              To  start  a game, execute the widget by typing the keys.  What-
              ever command line you were editing disappears  temporarily,  and
              your  keymap  is also temporarily replaced by the Tetris control
              keys.  The previous editor state is restored when you  quit  the
              game (by pressing `q') or when you lose.

              If  you quit in the middle of a game, the next invocation of the
              tetris widget will continue where you left off.  If you lost, it
              will start a new game.

       zargs [ option ... -- ] [ input ... ] [ -- command [ arg ... ] ]
              This function works like GNU xargs, except that instead of read-
              ing lines of arguments from the standard input,  it  takes  them
              from  the  command line.  This is useful because zsh, especially
              with recursive glob operators, often  can  construct  a  command
              line for a shell function that is longer than can be accepted by
              an external command.

              The option list represents options of the zargs command  itself,
              which  are  the  same  as those of xargs.  The input list is the
              collection of strings (often file names) that become  the  argu-
              ments  of the command, analogous to the standard input of xargs.
              Finally, the arg  list  consists  of  those  arguments  (usually
              options)  that are passed to the command each time it runs.  The
              arg list precedes the elements from the input list in each  run.
              If no command is provided, then no arg list may be provided, and
              in that event the default command is `print' with arguments  `-r
              --'.

              For  example, to get a long ls listing of all plain files in the
              current directory or its subdirectories:

                     autoload -U zargs
                     zargs -- **/*(.) -- ls -l

              Note that `--' is used both to mark the end of the  option  list
              and  to  mark the end of the input list, so it must appear twice
              whenever the input list may be empty.  If there is guaranteed to
              be  at least one input and the first input does not begin with a
              `-', then the first `--' may be omitted.

              In the event that the string `--' is or may be an input, the  -e
              option  may  be  used  to change the end-of-inputs marker.  Note
              that this does not change the end-of-options marker.  For  exam-
              ple, to use `..' as the marker:

                     zargs -e.. -- **/*(.) .. ls -l

              This  is a good choice in that example because no plain file can
              be named `..', but the best end-marker depends  on  the  circum-
              stances.

              For  details  of  the  other  zargs options, see xargs(1) or run
              zargs with the --help option.

       zed [ -f ] name
       zed -b This function uses the ZLE editor to edit a file or function.

              Only one name argument is allowed.  If the -f option  is  given,
              the  name  is taken to be that of a function; if the function is
              marked for autoloading, zed searches for it  in  the  fpath  and
              loads  it.   Note  that  functions edited this way are installed
              into the current shell, but not written  back  to  the  autoload
              file.

              Without  -f,  name  is  the path name of the file to edit, which
              need not exist; it is created on write, if necessary.

              While editing, the function sets the main keymap to zed and  the
              vi  command  keymap to zed-vicmd.  These will be copied from the
              existing main and vicmd keymaps if they do not exist  the  first
              time  zed is run.  They can be used to provide special key bind-
              ings used only in zed.

              If it creates the keymap, zed rebinds the return key to insert a
              line  break and `^X^W' to accept the edit in the zed keymap, and
              binds `ZZ' to accept the edit in the zed-vicmd keymap.

              The bindings alone can be installed by running `zed  -b'.   This
              is  suitable  for  putting  into  a startup file.  Note that, if
              rerun, this  will  overwrite  the  existing  zed  and  zed-vicmd
              keymaps.

              Completion  is available, and styles may be set with the context
              prefix `:completion:zed'.

              A zle widget zed-set-file-name is available.  This can be called
              by  name  from  within  zed using `\ex zed-set-file-name' (note,
              however, that because of zed's rebindings you will have to  type
              ^j  at  the end instead of the return key), or can be bound to a
              key in either of the zed or zed-vicmd keymaps after `zed -b' has
              been  run.  When the widget is called, it prompts for a new name
              for the file being edited.  When zed  exits  the  file  will  be
              written  under  that  name  and  the  original file will be left
              alone.  The widget has no effect with `zed -f'.

              While zed-set-file-name is running, zed uses the keymap zed-nor-
              mal-keymap,  which  is  linked from the main keymap in effect at
              the time zed initialised its bindings.  (This  is  to  make  the
              return  key  operate  normally.)  The result is that if the main
              keymap has been changed, the widget won't notice.  This is not a
              concern for most users.

       zcp [ -finqQvwW ] srcpat dest
       zln [ -finqQsvwW ] srcpat dest
              Same as zmv -C and zmv -L, respectively.  These functions do not
              appear in the zsh distribution, but can be  created  by  linking
              zmv to the names zcp and zln in some directory in your fpath.

       zkbd   See `Keyboard Definition' above.

       zmv  [ -finqQsvwW ] [ -C | -L | -M | -p program ] [ -o optstring ] src-
       pat dest
              Move (usually, rename) files matching the pattern srcpat to cor-
              responding files having names of the form given by  dest,  where
              srcpat  contains  parentheses surrounding patterns which will be
              replaced in turn by $1, $2, ... in dest.  For example,

                     zmv '(*).lis' '$1.txt'

              renames   `foo.lis'   to   `foo.txt',   `my.old.stuff.lis'    to
              `my.old.stuff.txt', and so on.

              The  pattern is always treated as an EXTENDED_GLOB pattern.  Any
              file whose name is not changed by  the  substitution  is  simply
              ignored.  Any error (a substitution resulted in an empty string,
              two substitutions gave the same result, the destination  was  an
              existing  regular  file  and -f was not given) causes the entire
              function to abort without doing anything.

              Options:

              -f     Force overwriting of destination  files.   Not  currently
                     passed  down  to  the mv/cp/ln command due to vagaries of
                     implementations (but you can use -o-f to do that).
              -i     Interactive: show each line to be executed  and  ask  the
                     user  whether to execute it.  `Y' or `y' will execute it,
                     anything else will skip it.  Note that you just  need  to
                     type one character.
              -n     No execution: print what would happen, but don't do it.
              -q     Turn bare glob qualifiers off: now assumed by default, so
                     this has no effect.
              -Q     Force bare glob qualifiers on.  Don't turn this on unless
                     you are actually using glob qualifiers in a pattern.
              -s     Symbolic, passed down to ln; only works with -L.
              -v     Verbose: print each command as it's being executed.
              -w     Pick  out  wildcard  parts  of  the pattern, as described
                     above, and implicitly add parentheses  for  referring  to
                     them.
              -W     Just  like  -w, with the addition of turning wildcards in
                     the replacement pattern into sequential ${1} .. ${N} ref-
                     erences.
              -C
              -L
              -M     Force  cp, ln or mv, respectively, regardless of the name
                     of the function.
              -p program
                     Call program instead of cp, ln or mv.  Whatever it  does,
                     it  should  at least understand the form `program -- old-
                     name newname' where oldname  and  newname  are  filenames
                     generated by zmv.
              -o optstring
                     The  optstring is split into words and passed down verba-
                     tim to the cp, ln or mv command  called  to  perform  the
                     work.  It should probably begin with a `-'.

              For more complete examples and other implementation details, see
              the zmv source file, usually located in one of  the  directories
              named in your fpath, or in Functions/Misc/zmv in the zsh distri-
              bution.

       zrecompile
              See `Recompiling Functions' above.

       zstyle+ context style value [ + subcontext style value ... ]
              This makes defining styles a bit simpler by using a  single  `+'
              as  a  special token that allows you to append a context name to
              the previously used context name.  Like this:

                     zstyle+ ':foo:bar' style1 value1 \
                           + ':baz'     style2 value2 \
                           + ':frob'    style3 value3

              This defines `style1' with `value1' for the context :foo:bar  as
              usual,  but  it also defines `style2' with `value2' for the con-
              text :foo:bar:baz and `style3' with `value3' for  :foo:bar:frob.
              Any  subcontext may be the empty string to re-use the first con-
              text unchanged.

   Styles
       insert-tab
              The zed function sets this style in context  `:completion:zed:*'
              to  turn  off completion when TAB is typed at the beginning of a
              line.  You may override this by setting your own value for  this
              context and style.

       pager  The  nslookup  function  looks  up  this  style  in  the context
              `:nslookup' to determine the program used to display output that
              does not fit on a single screen.

       prompt
       rprompt
              The  nslookup  function  looks  up  this  style  in  the context
              `:nslookup' to set the prompt and the right-side prompt, respec-
              tively.   The  usual  expansions for the PS1 and RPS1 parameters
              may be used (see zshmisc(1)).

zsh 4.3.4                       April 19, 2006                   ZSHCONTRIB(1)

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