This is zsh.info, produced by makeinfo version 4.8 from ./zsh.texi. INFO-DIR-SECTION Utilities START-INFO-DIR-ENTRY * ZSH: (zsh). The Z Shell Manual. END-INFO-DIR-ENTRY  File: zsh.info, Node: History Control, Next: Modifying Text, Prev: Movement, Up: Zle Widgets 18.6.2 History Control ---------------------- beginning-of-buffer-or-history (ESC-<) (gg) (unbound) Move to the beginning of the buffer, or if already there, move to the first event in the history list. beginning-of-line-hist Move to the beginning of the line. If already at the beginning of the buffer, move to the previous history line. beginning-of-history Move to the first event in the history list. down-line-or-history (^N ESC-[B) (j) (ESC-[B) Move down a line in the buffer, or if already at the bottom line, move to the next event in the history list. vi-down-line-or-history (unbound) (+) (unbound) Move down a line in the buffer, or if already at the bottom line, move to the next event in the history list. Then move to the first non-blank character on the line. down-line-or-search Move down a line in the buffer, or if already at the bottom line, search forward in the history for a line beginning with the first word in the buffer. If called from a function by the zle command with arguments, the first argument is taken as the string for which to search, rather than the first word in the buffer. down-history (unbound) (^N) (unbound) Move to the next event in the history list. history-beginning-search-backward Search backward in the history for a line beginning with the current line up to the cursor. This leaves the cursor in its original position. end-of-buffer-or-history (ESC->) (unbound) (unbound) Move to the end of the buffer, or if already there, move to the last event in the history list. end-of-line-hist Move to the end of the line. If already at the end of the buffer, move to the next history line. end-of-history Move to the last event in the history list. vi-fetch-history (unbound) (G) (unbound) Fetch the history line specified by the numeric argument. This defaults to the current history line (i.e. the one that isn't history yet). history-incremental-search-backward (^R ^Xr) (unbound) (unbound) Search backward incrementally for a specified string. The search is case-insensitive if the search string does not have uppercase letters and no numeric argument was given. The string may begin with `^' to anchor the search to the beginning of the line. When called from a user-defined function returns the following statuses: 0, if the search succeeded; 1, if the search failed; 2, if the search term was a bad pattern; 3, if the search was aborted by the send-break command. A restricted set of editing functions is available in the mini-buffer. Keys are looked up in the special isearch keymap, and if not found there in the main keymap (note that by default the isearch keymap is empty). An interrupt signal, as defined by the stty setting, will stop the search and go back to the original line. An undefined key will have the same effect. Note that the following always perform the same task within incremental searches and cannot be replaced by user defined widgets, nor can the set of functions be extended. The supported functions are: accept-and-hold accept-and-infer-next-history accept-line accept-line-and-down-history Perform the usual function after exiting incremental search. The command line displayed is executed. backward-delete-char vi-backward-delete-char Back up one place in the search history. If the search has been repeated this does not immediately erase a character in the minibuffer. accept-search Exit incremental search, retaining the command line but performing no further action. Note that this function is not bound by default and has no effect outside incremental search. backward-delete-word backward-kill-word vi-backward-kill-word Back up one character in the minibuffer; if multiple searches have been performed since the character was inserted the search history is rewound to the point just before the character was entered. Hence this has the effect of repeating backward-delete-char. clear-screen Clear the screen, remaining in incremental search mode. history-incremental-search-backward Find the next occurrence of the contents of the mini-buffer. If the mini-buffer is empty, the most recent previously used search string is reinstated. history-incremental-search-forward Invert the sense of the search. magic-space Inserts a non-magical space. quoted-insert vi-quoted-insert Quote the character to insert into the minibuffer. redisplay Redisplay the command line, remaining in incremental search mode. vi-cmd-mode Select the `vicmd' keymap; the `main' keymap (insert mode) will be selected initially. In addition, the modifications that were made while in vi insert mode are merged to form a single undo event. vi-repeat-search vi-rev-repeat-search Repeat the search. The direction of the search is indicated in the mini-buffer. Any character that is not bound to one of the above functions, or self-insert or self-insert-unmeta, will cause the mode to be exited. The character is then looked up and executed in the keymap in effect at that point. When called from a widget function by the zle command, the incremental search commands can take a string argument. This will be treated as a string of keys, as for arguments to the bindkey command, and used as initial input for the command. Any characters in the string which are unused by the incremental search will be silently ignored. For example, zle history-incremental-search-backward forceps will search backwards for forceps, leaving the minibuffer containing the string `forceps'. history-incremental-search-forward (^S ^Xs) (unbound) (unbound) Search forward incrementally for a specified string. The search is case-insensitive if the search string does not have uppercase letters and no numeric argument was given. The string may begin with `^' to anchor the search to the beginning of the line. The functions available in the mini-buffer are the same as for history-incremental-search-backward. history-incremental-pattern-search-backward history-incremental-pattern-search-forward These widgets behave similarly to the corresponding widgets with no -pattern, but the search string typed by the user is treated as a pattern, respecting the current settings of the various options affecting pattern matching. See *Note Filename Generation:: for a description of patterns. If no numeric argument was given lowercase letters in the search string may match uppercase letters in the history. The string may begin with `^' to anchor the search to the beginning of the line. The prompt changes to indicate an invalid pattern; this may simply indicate the pattern is not yet complete. Note that only non-overlapping matches are reported, so an expression with wildcards may return fewer matches on a line than are visible by inspection. history-search-backward (ESC-P ESC-p) (unbound) (unbound) Search backward in the history for a line beginning with the first word in the buffer. If called from a function by the zle command with arguments, the first argument is taken as the string for which to search, rather than the first word in the buffer. vi-history-search-backward (unbound) (/) (unbound) Search backward in the history for a specified string. The string may begin with `^' to anchor the search to the beginning of the line. A restricted set of editing functions is available in the mini-buffer. An interrupt signal, as defined by the stty setting, will stop the search. The functions available in the mini-buffer are: accept-line, backward-delete-char, vi-backward-delete-char, backward-kill-word, vi-backward-kill-word, clear-screen, redisplay, quoted-insert and vi-quoted-insert. vi-cmd-mode is treated the same as accept-line, and magic-space is treated as a space. Any other character that is not bound to self-insert or self-insert-unmeta will beep and be ignored. If the function is called from vi command mode, the bindings of the current insert mode will be used. If called from a function by the zle command with arguments, the first argument is taken as the string for which to search, rather than the first word in the buffer. history-search-forward (ESC-N ESC-n) (unbound) (unbound) Search forward in the history for a line beginning with the first word in the buffer. If called from a function by the zle command with arguments, the first argument is taken as the string for which to search, rather than the first word in the buffer. vi-history-search-forward (unbound) (?) (unbound) Search forward in the history for a specified string. The string may begin with `^' to anchor the search to the beginning of the line. The functions available in the mini-buffer are the same as for vi-history-search-backward. Argument handling is also the same as for that command. infer-next-history (^X^N) (unbound) (unbound) Search in the history list for a line matching the current one and fetch the event following it. insert-last-word (ESC-_ ESC-.) (unbound) (unbound) Insert the last word from the previous history event at the cursor position. If a positive numeric argument is given, insert that word from the end of the previous history event. If the argument is zero or negative insert that word from the left (zero inserts the previous command word). Repeating this command replaces the word just inserted with the last word from the history event prior to the one just used; numeric arguments can be used in the same way to pick a word from that event. When called from a shell function invoked from a user-defined widget, the command can take one to three arguments. The first argument specifies a history offset which applies to successive calls to this widget: if it is -1, the default behaviour is used, while if it is 1, successive calls will move forwards through the history. The value 0 can be used to indicate that the history line examined by the previous execution of the command will be reexamined. Note that negative numbers should be preceded by a `--' argument to avoid confusing them with options. If two arguments are given, the second specifies the word on the command line in normal array index notation (as a more natural alternative to the numeric argument). Hence 1 is the first word, and -1 (the default) is the last word. If a third argument is given, its value is ignored, but it is used to signify that the history offset is relative to the current history line, rather than the one remembered after the previous invocations of insert-last-word. For example, the default behaviour of the command corresponds to zle insert-last-word -- -1 -1 while the command zle insert-last-word -- -1 1 - always copies the first word of the line in the history immediately before the line being edited. This has the side effect that later invocations of the widget will be relative to that line. vi-repeat-search (unbound) (n) (unbound) Repeat the last vi history search. vi-rev-repeat-search (unbound) (N) (unbound) Repeat the last vi history search, but in reverse. up-line-or-history (^P ESC-[A) (k) (ESC-[A) Move up a line in the buffer, or if already at the top line, move to the previous event in the history list. vi-up-line-or-history (unbound) (-) (unbound) Move up a line in the buffer, or if already at the top line, move to the previous event in the history list. Then move to the first non-blank character on the line. up-line-or-search Move up a line in the buffer, or if already at the top line, search backward in the history for a line beginning with the first word in the buffer. If called from a function by the zle command with arguments, the first argument is taken as the string for which to search, rather than the first word in the buffer. up-history (unbound) (^P) (unbound) Move to the previous event in the history list. history-beginning-search-forward Search forward in the history for a line beginning with the current line up to the cursor. This leaves the cursor in its original position. set-local-history By default, history movement commands visit the imported lines as well as the local lines. This widget lets you toggle this on and off, or set it with the numeric argument. Zero for both local and imported lines and nonzero for only local lines.  File: zsh.info, Node: Modifying Text, Next: Arguments, Prev: History Control, Up: Zle Widgets 18.6.3 Modifying Text --------------------- vi-add-eol (unbound) (A) (unbound) Move to the end of the line and enter insert mode. vi-add-next (unbound) (a) (unbound) Enter insert mode after the current cursor position, without changing lines. backward-delete-char (^H ^?) (unbound) (unbound) Delete the character behind the cursor. vi-backward-delete-char (unbound) (X) (^H) Delete the character behind the cursor, without changing lines. If in insert mode, this won't delete past the point where insert mode was last entered. backward-delete-word Delete the word behind the cursor. backward-kill-line Kill from the beginning of the line to the cursor position. backward-kill-word (^W ESC-^H ESC-^?) (unbound) (unbound) Kill the word behind the cursor. vi-backward-kill-word (unbound) (unbound) (^W) Kill the word behind the cursor, without going past the point where insert mode was last entered. capitalize-word (ESC-C ESC-c) (unbound) (unbound) Capitalize the current word and move past it. vi-change (unbound) (c) (unbound) Read a movement command from the keyboard, and kill from the cursor position to the endpoint of the movement. Then enter insert mode. If the command is vi-change, change the current line. For compatibility with vi, if the command is vi-forward-word or vi-forward-blank-word, the whitespace after the word is not included. If you prefer the more consistent behaviour with the whitespace included use the following key binding: bindkey -a -s cw dwi vi-change-eol (unbound) (C) (unbound) Kill to the end of the line and enter insert mode. vi-change-whole-line (unbound) (S) (unbound) Kill the current line and enter insert mode. copy-region-as-kill (ESC-W ESC-w) (unbound) (unbound) Copy the area from the cursor to the mark to the kill buffer. If called from a ZLE widget function in the form `zle copy-region-as-kill STRING' then STRING will be taken as the text to copy to the kill buffer. The cursor, the mark and the text on the command line are not used in this case. copy-prev-word (ESC-^_) (unbound) (unbound) Duplicate the word to the left of the cursor. copy-prev-shell-word Like copy-prev-word, but the word is found by using shell parsing, whereas copy-prev-word looks for blanks. This makes a difference when the word is quoted and contains spaces. vi-delete (unbound) (d) (unbound) Read a movement command from the keyboard, and kill from the cursor position to the endpoint of the movement. If the command is vi-delete, kill the current line. delete-char Delete the character under the cursor. vi-delete-char (unbound) (x) (unbound) Delete the character under the cursor, without going past the end of the line. delete-word Delete the current word. down-case-word (ESC-L ESC-l) (unbound) (unbound) Convert the current word to all lowercase and move past it. vi-down-case (unbound) (gu) (unbound) Read a movement command from the keyboard, and convert all characters from the cursor position to the endpoint of the movement to lowercase. If the movement command is vi-down-case, swap the case of all characters on the current line. kill-word (ESC-D ESC-d) (unbound) (unbound) Kill the current word. gosmacs-transpose-chars Exchange the two characters behind the cursor. vi-indent (unbound) (>) (unbound) Indent a number of lines. vi-insert (unbound) (i) (unbound) Enter insert mode. vi-insert-bol (unbound) (I) (unbound) Move to the first non-blank character on the line and enter insert mode. vi-join (^X^J) (J) (unbound) Join the current line with the next one. kill-line (^K) (unbound) (unbound) Kill from the cursor to the end of the line. If already on the end of the line, kill the newline character. vi-kill-line (unbound) (unbound) (^U) Kill from the cursor back to wherever insert mode was last entered. vi-kill-eol (unbound) (D) (unbound) Kill from the cursor to the end of the line. kill-region Kill from the cursor to the mark. kill-buffer (^X^K) (unbound) (unbound) Kill the entire buffer. kill-whole-line (^U) (unbound) (unbound) Kill the current line. vi-match-bracket (^X^B) (%) (unbound) Move to the bracket character (one of {}, () or []) that matches the one under the cursor. If the cursor is not on a bracket character, move forward without going past the end of the line to find one, and then go to the matching bracket. vi-open-line-above (unbound) (O) (unbound) Open a line above the cursor and enter insert mode. vi-open-line-below (unbound) (o) (unbound) Open a line below the cursor and enter insert mode. vi-oper-swap-case (unbound) (g~) (unbound) Read a movement command from the keyboard, and swap the case of all characters from the cursor position to the endpoint of the movement. If the movement command is vi-oper-swap-case, swap the case of all characters on the current line. overwrite-mode (^X^O) (unbound) (unbound) Toggle between overwrite mode and insert mode. vi-put-before (unbound) (P) (unbound) Insert the contents of the kill buffer before the cursor. If the kill buffer contains a sequence of lines (as opposed to characters), paste it above the current line. vi-put-after (unbound) (p) (unbound) Insert the contents of the kill buffer after the cursor. If the kill buffer contains a sequence of lines (as opposed to characters), paste it below the current line. put-replace-selection (unbound) (unbound) (unbound) Replace the contents of the current region or selection with the contents of the kill buffer. If the kill buffer contains a sequence of lines (as opposed to characters), the current line will be split by the pasted lines. quoted-insert (^V) (unbound) (unbound) Insert the next character typed into the buffer literally. An interrupt character will not be inserted. vi-quoted-insert (unbound) (unbound) (^Q ^V) Display a `^' at the cursor position, and insert the next character typed into the buffer literally. An interrupt character will not be inserted. quote-line (ESC-') (unbound) (unbound) Quote the current line; that is, put a `'' character at the beginning and the end, and convert all `'' characters to `'\'''. quote-region (ESC-") (unbound) (unbound) Quote the region from the cursor to the mark. vi-replace (unbound) (R) (unbound) Enter overwrite mode. vi-repeat-change (unbound) (.) (unbound) Repeat the last vi mode text modification. If a count was used with the modification, it is remembered. If a count is given to this command, it overrides the remembered count, and is remembered for future uses of this command. The cut buffer specification is similarly remembered. vi-replace-chars (unbound) (r) (unbound) Replace the character under the cursor with a character read from the keyboard. self-insert (printable characters) (unbound) (printable characters and some control characters) Insert a character into the buffer at the cursor position. self-insert-unmeta (ESC-^I ESC-^J ESC-^M) (unbound) (unbound) Insert a character into the buffer after stripping the meta bit and converting ^M to ^J. vi-substitute (unbound) (s) (unbound) Substitute the next character(s). vi-swap-case (unbound) (~) (unbound) Swap the case of the character under the cursor and move past it. transpose-chars (^T) (unbound) (unbound) Exchange the two characters to the left of the cursor if at end of line, else exchange the character under the cursor with the character to the left. transpose-words (ESC-T ESC-t) (unbound) (unbound) Exchange the current word with the one before it. With a positive numeric argument _N_, the word around the cursor, or following it if the cursor is between words, is transposed with the preceding _N_ words. The cursor is put at the end of the resulting group of words. With a negative numeric argument _-N_, the effect is the same as using a positive argument _N_ except that the original cursor position is retained, regardless of how the words are rearranged. vi-unindent (unbound) (<) (unbound) Unindent a number of lines. vi-up-case (unbound) (gU) (unbound) Read a movement command from the keyboard, and convert all characters from the cursor position to the endpoint of the movement to lowercase. If the movement command is vi-up-case, swap the case of all characters on the current line. up-case-word (ESC-U ESC-u) (unbound) (unbound) Convert the current word to all caps and move past it. yank (^Y) (unbound) (unbound) Insert the contents of the kill buffer at the cursor position. yank-pop (ESC-y) (unbound) (unbound) Remove the text just yanked, rotate the kill-ring (the history of previously killed text) and yank the new top. Only works following yank, vi-put-before, vi-put-after or yank-pop. vi-yank (unbound) (y) (unbound) Read a movement command from the keyboard, and copy the region from the cursor position to the endpoint of the movement into the kill buffer. If the command is vi-yank, copy the current line. vi-yank-whole-line (unbound) (Y) (unbound) Copy the current line into the kill buffer. vi-yank-eol Copy the region from the cursor position to the end of the line into the kill buffer. Arguably, this is what Y should do in vi, but it isn't what it actually does.  File: zsh.info, Node: Arguments, Next: Completion, Prev: Modifying Text, Up: Zle Widgets 18.6.4 Arguments ---------------- digit-argument (ESC-0..ESC-9) (1-9) (unbound) Start a new numeric argument, or add to the current one. See also vi-digit-or-beginning-of-line. This only works if bound to a key sequence ending in a decimal digit. Inside a widget function, a call to this function treats the last key of the key sequence which called the widget as the digit. neg-argument (ESC--) (unbound) (unbound) Changes the sign of the following argument. universal-argument Multiply the argument of the next command by 4. Alternatively, if this command is followed by an integer (positive or negative), use that as the argument for the next command. Thus digits cannot be repeated using this command. For example, if this command occurs twice, followed immediately by forward-char, move forward sixteen spaces; if instead it is followed by -2, then forward-char, move backward two spaces. Inside a widget function, if passed an argument, i.e. `zle universal-argument NUM', the numeric argument will be set to NUM; this is equivalent to `NUMERIC=NUM'. argument-base Use the existing numeric argument as a numeric base, which must be in the range 2 to 36 inclusive. Subsequent use of digit-argument and universal-argument will input a new numeric argument in the given base. The usual hexadecimal convention is used: the letter a or A corresponds to 10, and so on. Arguments in bases requiring digits from 10 upwards are more conveniently input with universal-argument, since ESC-a etc. are not usually bound to digit-argument. The function can be used with a command argument inside a user-defined widget. The following code sets the base to 16 and lets the user input a hexadecimal argument until a key out of the digit range is typed: zle argument-base 16 zle universal-argument  File: zsh.info, Node: Completion, Next: Miscellaneous, Prev: Arguments, Up: Zle Widgets 18.6.5 Completion ----------------- accept-and-menu-complete In a menu completion, insert the current completion into the buffer, and advance to the next possible completion. complete-word Attempt completion on the current word. delete-char-or-list (^D) (unbound) (unbound) Delete the character under the cursor. If the cursor is at the end of the line, list possible completions for the current word. expand-cmd-path Expand the current command to its full pathname. expand-or-complete (TAB) (unbound) (TAB) Attempt shell expansion on the current word. If that fails, attempt completion. expand-or-complete-prefix Attempt shell expansion on the current word up to cursor. expand-history (ESC-space ESC-!) (unbound) (unbound) Perform history expansion on the edit buffer. expand-word (^X*) (unbound) (unbound) Attempt shell expansion on the current word. list-choices (ESC-^D) (^D =) (^D) List possible completions for the current word. list-expand (^Xg ^XG) (^G) (^G) List the expansion of the current word. magic-space Perform history expansion and insert a space into the buffer. This is intended to be bound to space. menu-complete Like complete-word, except that menu completion is used. See the MENU_COMPLETE option. menu-expand-or-complete Like expand-or-complete, except that menu completion is used. reverse-menu-complete Perform menu completion, like menu-complete, except that if a menu completion is already in progress, move to the _previous_ completion rather than the next. end-of-list When a previous completion displayed a list below the prompt, this widget can be used to move the prompt below the list.  File: zsh.info, Node: Miscellaneous, Next: Text Objects, Prev: Completion, Up: Zle Widgets 18.6.6 Miscellaneous -------------------- accept-and-hold (ESC-A ESC-a) (unbound) (unbound) Push the contents of the buffer on the buffer stack and execute it. accept-and-infer-next-history Execute the contents of the buffer. Then search the history list for a line matching the current one and push the event following onto the buffer stack. accept-line (^J ^M) (^J ^M) (^J ^M) Finish editing the buffer. Normally this causes the buffer to be executed as a shell command. accept-line-and-down-history (^O) (unbound) (unbound) Execute the current line, and push the next history event on the buffer stack. auto-suffix-remove If the previous action added a suffix (space, slash, etc.) to the word on the command line, remove it. Otherwise do nothing. Removing the suffix ends any active menu completion or menu selection. This widget is intended to be called from user-defined widgets to enforce a desired suffix-removal behavior. auto-suffix-retain If the previous action added a suffix (space, slash, etc.) to the word on the command line, force it to be preserved. Otherwise do nothing. Retaining the suffix ends any active menu completion or menu selection. This widget is intended to be called from user-defined widgets to enforce a desired suffix-preservation behavior. beep Beep, unless the BEEP option is unset. bracketed-paste This widget is invoked when text is pasted to the terminal emulator. It is not intended to be bound to actual keys but instead to the special sequence generated by the terminal emulator when text is pasted. When invoked interactively, the pasted text is inserted to the buffer and placed in the cutbuffer. If a numeric argument is given, shell quoting will be applied to the pasted text before it is inserted. When a named buffer is specified with vi-set-buffer ("x), the pasted text is stored in that named buffer but not inserted. When called from a widget function as `bracketed-paste NAME`, the pasted text is assigned to the variable NAME and no other processing is done. See also the zle_bracketed_paste parameter. vi-cmd-mode (^X^V) (unbound) (^[) Enter command mode; that is, select the `vicmd' keymap. Yes, this is bound by default in emacs mode. vi-caps-lock-panic Hang until any lowercase key is pressed. This is for vi users without the mental capacity to keep track of their caps lock key (like the author). clear-screen (^L ESC-^L) (^L) (^L) Clear the screen and redraw the prompt. deactivate-region Make the current region inactive. This disables vim-style visual selection mode if it is active. describe-key-briefly Reads a key sequence, then prints the function bound to that sequence. exchange-point-and-mark (^X^X) (unbound) (unbound) Exchange the cursor position (point) with the position of the mark. Unless a negative numeric argument is given, the region between point and mark is activated so that it can be highlighted. If a zero numeric argument is given, the region is activated but point and mark are not swapped. execute-named-cmd (ESC-x) (:) (unbound) Read the name of an editor command and execute it. Aliasing this widget with `zle -A' or replacing it with `zle -N' has no effect when interpreting key bindings, but `zle execute-named-cmd' will invoke such an alias or replacement. A restricted set of editing functions is available in the mini-buffer. Keys are looked up in the special command keymap, and if not found there in the main keymap. An interrupt signal, as defined by the stty setting, will abort the function. Note that the following always perform the same task within the executed-named-cmd environment and cannot be replaced by user defined widgets, nor can the set of functions be extended. The allowed functions are: backward-delete-char, vi-backward-delete-char, clear-screen, redisplay, quoted-insert, vi-quoted-insert, backward-kill-word, vi-backward-kill-word, kill-whole-line, vi-kill-line, backward-kill-line, list-choices, delete-char-or-list, complete-word, accept-line, expand-or-complete and expand-or-complete-prefix. kill-region kills the last word, and vi-cmd-mode is treated the same as accept-line. The space and tab characters, if not bound to one of these functions, will complete the name and then list the possibilities if the AUTO_LIST option is set. Any other character that is not bound to self-insert or self-insert-unmeta will beep and be ignored. The bindings of the current insert mode will be used. Currently this command may not be redefined or called by name. execute-last-named-cmd (ESC-z) (unbound) (unbound) Redo the last function executed with execute-named-cmd. Like execute-named-cmd, this command may not be redefined, but it may be called by name. get-line (ESC-G ESC-g) (unbound) (unbound) Pop the top line off the buffer stack and insert it at the cursor position. pound-insert (unbound) (#) (unbound) If there is no # character at the beginning of the buffer, add one to the beginning of each line. If there is one, remove a # from each line that has one. In either case, accept the current line. The INTERACTIVE_COMMENTS option must be set for this to have any usefulness. vi-pound-insert If there is no # character at the beginning of the current line, add one. If there is one, remove it. The INTERACTIVE_COMMENTS option must be set for this to have any usefulness. push-input Push the entire current multiline construct onto the buffer stack and return to the top-level (PS1) prompt. If the current parser construct is only a single line, this is exactly like push-line. Next time the editor starts up or is popped with get-line, the construct will be popped off the top of the buffer stack and loaded into the editing buffer. push-line (^Q ESC-Q ESC-q) (unbound) (unbound) Push the current buffer onto the buffer stack and clear the buffer. Next time the editor starts up, the buffer will be popped off the top of the buffer stack and loaded into the editing buffer. push-line-or-edit At the top-level (PS1) prompt, equivalent to push-line. At a secondary (PS2) prompt, move the entire current multiline construct into the editor buffer. The latter is equivalent to push-input followed by get-line. read-command Only useful from a user-defined widget. A keystroke is read just as in normal operation, but instead of the command being executed the name of the command that would be executed is stored in the shell parameter REPLY. This can be used as the argument of a future zle command. If the key sequence is not bound, status 1 is returned; typically, however, REPLY is set to undefined-key to indicate a useless key sequence. recursive-edit Only useful from a user-defined widget. At this point in the function, the editor regains control until one of the standard widgets which would normally cause zle to exit (typically an accept-line caused by hitting the return key) is executed. Instead, control returns to the user-defined widget. The status returned is non-zero if the return was caused by an error, but the function still continues executing and hence may tidy up. This makes it safe for the user-defined widget to alter the command line or key bindings temporarily. The following widget, caps-lock, serves as an example. self-insert-ucase() { LBUFFER+=${(U)KEYS[-1]} } integer stat zle -N self-insert self-insert-ucase zle -A caps-lock save-caps-lock zle -A accept-line caps-lock zle recursive-edit stat=$? zle -A .self-insert self-insert zle -A save-caps-lock caps-lock zle -D save-caps-lock (( stat )) && zle send-break return $stat This causes typed letters to be inserted capitalised until either accept-line (i.e. typically the return key) is typed or the caps-lock widget is invoked again; the later is handled by saving the old definition of caps-lock as save-caps-lock and then rebinding it to invoke accept-line. Note that an error from the recursive edit is detected as a non-zero return status and propagated by using the send-break widget. redisplay (unbound) (^R) (^R) Redisplays the edit buffer. reset-prompt (unbound) (unbound) (unbound) Force the prompts on both the left and right of the screen to be re-expanded, then redisplay the edit buffer. This reflects changes both to the prompt variables themselves and changes in the expansion of the values (for example, changes in time or directory, or changes to the value of variables referred to by the prompt). Otherwise, the prompt is only expanded each time zle starts, and when the display has been interrupted by output from another part of the shell (such as a job notification) which causes the command line to be reprinted. reset-prompt doesn't alter the special parameter LASTWIDGET. send-break (^G ESC-^G) (unbound) (unbound) Abort the current editor function, e.g. execute-named-command, or the editor itself, e.g. if you are in vared. Otherwise abort the parsing of the current line; in this case the aborted line is available in the shell variable ZLE_LINE_ABORTED. If the editor is aborted from within vared, the variable ZLE_VARED_ABORTED is set. run-help (ESC-H ESC-h) (unbound) (unbound) Push the buffer onto the buffer stack, and execute the command `run-help CMD', where CMD is the current command. run-help is normally aliased to man. vi-set-buffer (unbound) (") (unbound) Specify a buffer to be used in the following command. There are 37 buffers that can be specified: the 26 `named' buffers "a to "z, the `yank' buffer "0, the nine `queued' buffers "1 to "9 and the `black hole' buffer "_. The named buffers can also be specified as "A to "Z. When a buffer is specified for a cut, change or yank command, the text concerned replaces the previous contents of the specified buffer. If a named buffer is specified using a capital, the newly cut text is appended to the buffer instead of overwriting it. When using the "_ buffer, nothing happens. This can be useful for deleting text without affecting any buffers. If no buffer is specified for a cut or change command, "1 is used, and the contents of "1 to "8 are each shifted along one buffer; the contents of "9 is lost. If no buffer is specified for a yank command, "0 is used. Finally, a paste command without a specified buffer will paste the text from the most recent command regardless of any buffer that might have been used with that command. When called from a widget function by the zle command, the buffer can optionally be specified with an argument. For example, zle vi-set-buffer A vi-set-mark (unbound) (m) (unbound) Set the specified mark at the cursor position. set-mark-command (^@) (unbound) (unbound) Set the mark at the cursor position. If called with a negative numeric argument, do not set the mark but deactivate the region so that it is no longer highlighted (it is still usable for other purposes). Otherwise the region is marked as active. spell-word (ESC-$ ESC-S ESC-s) (unbound) (unbound) Attempt spelling correction on the current word. split-undo Breaks the undo sequence at the current change. This is useful in vi mode as changes made in insert mode are coalesced on entering command mode. Similarly, undo will normally revert as one all the changes made by a user-defined widget. undefined-key This command is executed when a key sequence that is not bound to any command is typed. By default it beeps. undo (^_ ^Xu ^X^U) (u) (unbound) Incrementally undo the last text modification. When called from a user-defined widget, takes an optional argument indicating a previous state of the undo history as returned by the UNDO_CHANGE_NO variable; modifications are undone until that state is reached, subject to any limit imposed by the UNDO_LIMIT_NO variable. Note that when invoked from vi command mode, the full prior change made in insert mode is reverted, the changes having been merged when command mode was selected. redo (unbound) (^R) (unbound) Incrementally redo undone text modifications. vi-undo-change (unbound) (unbound) (unbound) Undo the last text modification. If repeated, redo the modification. visual-mode (unbound) (v) (unbound) Toggle vim-style visual selection mode. If line-wise visual mode is currently enabled then it is changed to being character-wise. If used following an operator, it forces the subsequent movement command to be treated as a character-wise movement. visual-line-mode (unbound) (V) (unbound) Toggle vim-style line-wise visual selection mode. If character-wise visual mode is currently enabled then it is changed to being line-wise. If used following an operator, it forces the subsequent movement command to be treated as a line-wise movement. what-cursor-position (^X=) (ga) (unbound) Print the character under the cursor, its code as an octal, decimal and hexadecimal number, the current cursor position within the buffer and the column of the cursor in the current line. where-is Read the name of an editor command and print the listing of key sequences that invoke the specified command. A restricted set of editing functions is available in the mini-buffer. Keys are looked up in the special command keymap, and if not found there in the main keymap. which-command (ESC-?) (unbound) (unbound) Push the buffer onto the buffer stack, and execute the command `which-command CMD'. where CMD is the current command. which-command is normally aliased to whence. vi-digit-or-beginning-of-line (unbound) (0) (unbound) If the last command executed was a digit as part of an argument, continue the argument. Otherwise, execute vi-beginning-of-line.  File: zsh.info, Node: Text Objects, Prev: Miscellaneous, Up: Zle Widgets 18.6.7 Text Objects ------------------- Text objects are commands that can be used to select a block of text according to some criteria. They are a feature of the vim text editor and so are primarily intended for use with vi operators or from visual selection mode. However, they can also be used from vi-insert or emacs mode. Key bindings listed below apply to the viopp and visual keymaps. select-a-blank-word (aW) Select a word including adjacent blanks, where a word is defined as a series of non-blank characters. With a numeric argument, multiple words will be selected. select-a-shell-word (aa) Select the current command argument applying the normal rules for quoting. select-a-word (aw) Select a word including adjacent blanks, using the normal vi-style word definition. With a numeric argument, multiple words will be selected. select-in-blank-word (iW) Select a word, where a word is defined as a series of non-blank characters. With a numeric argument, multiple words will be selected. select-in-shell-word (ia) Select the current command argument applying the normal rules for quoting. If the argument begins and ends with matching quote characters, these are not included in the selection. select-in-word (iw) Select a word, using the normal vi-style word definition. With a numeric argument, multiple words will be selected.  File: zsh.info, Node: Character Highlighting, Prev: Zle Widgets, Up: Zsh Line Editor 18.7 Character Highlighting =========================== The line editor has the ability to highlight characters or regions of the line that have a particular significance. This is controlled by the array parameter zle_highlight, if it has been set by the user. If the parameter contains the single entry none all highlighting is turned off. Note the parameter is still expected to be an array. Otherwise each entry of the array should consist of a word indicating a context for highlighting, then a colon, then a comma-separated list of the types of highlighting to apply in that context. The contexts available for highlighting are the following: default Any text within the command line not affected by any other highlighting. Text outside the editable area of the command line is not affected. isearch When one of the incremental history search widgets is active, the area of the command line matched by the search string or pattern. region The currently selected text. In emacs terminology, this is referred to as the region and is bounded by the cursor (point) and the mark. The region is only highlighted if it is active, which is the case after the mark is modified with set-mark-command or exchange-point-and-mark. Note that whether or not the region is active has no effect on its use within emacs style widgets, it simply determines whether it is highlighted. In vi mode, the region corresponds to selected text in visual mode. special Individual characters that have no direct printable representation but are shown in a special manner by the line editor. These characters are described below. suffix This context is used in completion for characters that are marked as suffixes that will be removed if the completion ends at that point, the most obvious example being a slash (/) after a directory name. Note that suffix removal is configurable; the circumstances under which the suffix will be removed may differ for different completions. paste Following a command to paste text, the characters that were inserted. When region_highlight is set, the contexts that describe a region -- isearch, region, suffix, and paste -- are applied first, then region_highlight is applied, then the remaining zle_highlight contexts are applied. If a particular character is affected by multiple specifications, the last specification wins. zle_highlight may contain additional fields for controlling how terminal sequences to change colours are output. Each of the following is followed by a colon and a string in the same form as for key bindings. This will not be necessary for the vast majority of terminals as the defaults shown in parentheses are widely used. fg_start_code (\e[3) The start of the escape sequence for the foreground colour. This is followed by one to three ASCII digits representing the colour. Only used for palette colors, i.e. not 24-bit colors specified via a color triplet. fg_default_code (9) The number to use instead of the colour to reset the default foreground colour. fg_end_code (m) The end of the escape sequence for the foreground colour. bg_start_code (\e[4) The start of the escape sequence for the background colour. See fg_start_code above. bg_default_code (9) The number to use instead of the colour to reset the default background colour. bg_end_code (m) The end of the escape sequence for the background colour. The available types of highlighting are the following. Note that not all types of highlighting are available on all terminals: none No highlighting is applied to the given context. It is not useful for this to appear with other types of highlighting; it is used to override a default. fg=COLOUR The foreground colour should be set to COLOUR, a decimal integer, the name of one of the eight most widely-supported colours or as a `#' followed by an RGB triplet in hexadecimal format. Not all terminals support this and, of those that do, not all provide facilities to test the support, hence the user should decide based on the terminal type. Most terminals support the colours black, red, green, yellow, blue, magenta, cyan and white, which can be set by name. In addition. default may be used to set the terminal's default foreground colour. Abbreviations are allowed; b or bl selects black. Some terminals may generate additional colours if the bold attribute is also present. On recent terminals and on systems with an up-to-date terminal database the number of colours supported may be tested by the command `echotc Co'; if this succeeds, it indicates a limit on the number of colours which will be enforced by the line editor. The number of colours is in any case limited to 256 (i.e. the range 0 to 255). Some modern terminal emulators have support for 24-bit true colour (16 million colours). In this case, the hex triplet format can be used. This consists of a `#' followed by either a three or six digit hexadecimal number describing the red, green and blue components of the colour. Hex triplets can also be used with 88 and 256 colour terminals via the zsh/nearcolor module (see *Note The zsh/nearcolor Module::). Colour is also known as color. bg=COLOUR The background colour should be set to COLOUR. This works similarly to the foreground colour, except the background is not usually affected by the bold attribute. bold The characters in the given context are shown in a bold font. Not all terminals distinguish bold fonts. standout The characters in the given context are shown in the terminal's standout mode. The actual effect is specific to the terminal; on many terminals it is inverse video. On some such terminals, where the cursor does not blink it appears with standout mode negated, making it less than clear where the cursor actually is. On such terminals one of the other effects may be preferable for highlighting the region and matched search string. underline The characters in the given context are shown underlined. Some terminals show the foreground in a different colour instead; in this case whitespace will not be highlighted. The characters described above as `special' are as follows. The formatting described here is used irrespective of whether the characters are highlighted: ASCII control characters Control characters in the ASCII range are shown as `^' followed by the base character. Unprintable multibyte characters This item applies to control characters not in the ASCII range, plus other characters as follows. If the MULTIBYTE option is in effect, multibyte characters not in the ASCII character set that are reported as having zero width are treated as combining characters when the option COMBINING_CHARS is on. If the option is off, or if a character appears where a combining character is not valid, the character is treated as unprintable. Unprintable multibyte characters are shown as a hexadecimal number between angle brackets. The number is the code point of the character in the wide character set; this may or may not be Unicode, depending on the operating system. Invalid multibyte characters If the MULTIBYTE option is in effect, any sequence of one or more bytes that does not form a valid character in the current character set is treated as a series of bytes each shown as a special character. This case can be distinguished from other unprintable characters as the bytes are represented as two hexadecimal digits between angle brackets, as distinct from the four or eight digits that are used for unprintable characters that are nonetheless valid in the current character set. Not all systems support this: for it to work, the system's representation of wide characters must be code values from the Universal Character Set, as defined by IS0 10646 (also known as Unicode). Wrapped double-width characters When a double-width character appears in the final column of a line, it is instead shown on the next line. The empty space left in the original position is highlighted as a special character. If zle_highlight is not set or no value applies to a particular context, the defaults applied are equivalent to zle_highlight=(region:standout special:standout suffix:bold isearch:underline paste:standout) i.e. both the region and special characters are shown in standout mode. Within widgets, arbitrary regions may be highlighted by setting the special array parameter region_highlight; see *Note Zle Widgets::.  File: zsh.info, Node: Completion Widgets, Next: Completion System, Prev: Zsh Line Editor, Up: Top 19 Completion Widgets ********************* 19.1 Description ================ The shell's programmable completion mechanism can be manipulated in two ways; here the low-level features supporting the newer, function-based mechanism are defined. A complete set of shell functions based on these features is described in the next chapter, *Note Completion System::, and users with no interest in adding to that system (or, potentially, writing their own -- see dictionary entry for `hubris') should skip the current section. The older system based on the compctl builtin command is described in *Note Completion Using compctl::. Completion widgets are defined by the -C option to the zle builtin command provided by the zsh/zle module (see *Note The zsh/zle Module::). For example, zle -C complete expand-or-complete completer defines a widget named `complete'. The second argument is the name of any of the builtin widgets that handle completions: complete-word, expand-or-complete, expand-or-complete-prefix, menu-complete, menu-expand-or-complete, reverse-menu-complete, list-choices, or delete-char-or-list. Note that this will still work even if the widget in question has been re-bound. When this newly defined widget is bound to a key using the bindkey builtin command defined in the zsh/zle module (*Note Zsh Line Editor::), typing that key will call the shell function `completer'. This function is responsible for generating the possible matches using the builtins described below. As with other ZLE widgets, the function is called with its standard input closed. Once the function returns, the completion code takes over control again and treats the matches in the same manner as the specified builtin widget, in this case expand-or-complete. * Menu: * Completion Special Parameters:: * Completion Builtin Commands:: * Completion Condition Codes:: * Completion Matching Control:: * Completion Widget Example::  File: zsh.info, Node: Completion Special Parameters, Next: Completion Builtin Commands, Up: Completion Widgets 19.2 Completion Special Parameters ================================== The parameters ZLE_REMOVE_SUFFIX_CHARS and ZLE_SPACE_SUFFIX_CHARS are used by the completion mechanism, but are not special. See *Note Parameters Used By The Shell::. Inside completion widgets, and any functions called from them, some parameters have special meaning; outside these functions they are not special to the shell in any way. These parameters are used to pass information between the completion code and the completion widget. Some of the builtin commands and the condition codes use or change the current values of these parameters. Any existing values will be hidden during execution of completion widgets; except for compstate, the parameters are reset on each function exit (including nested function calls from within the completion widget) to the values they had when the function was entered. CURRENT This is the number of the current word, i.e. the word the cursor is currently on in the words array. Note that this value is only correct if the ksharrays option is not set. IPREFIX Initially this will be set to the empty string. This parameter functions like PREFIX; it contains a string which precedes the one in PREFIX and is not considered part of the list of matches. Typically, a string is transferred from the beginning of PREFIX to the end of IPREFIX, for example: IPREFIX=${PREFIX%%\=*}= PREFIX=${PREFIX#*=} causes the part of the prefix up to and including the first equal sign not to be treated as part of a matched string. This can be done automatically by the compset builtin, see below. ISUFFIX As IPREFIX, but for a suffix that should not be considered part of the matches; note that the ISUFFIX string follows the SUFFIX string. PREFIX Initially this will be set to the part of the current word from the beginning of the word up to the position of the cursor; it may be altered to give a common prefix for all matches. QIPREFIX This parameter is read-only and contains the quoted string up to the word being completed. E.g. when completing `"foo', this parameter contains the double quote. If the -q option of compset is used (see below), and the original string was `"foo bar' with the cursor on the `bar', this parameter contains `"foo '. QISUFFIX Like QIPREFIX, but containing the suffix. SUFFIX Initially this will be set to the part of the current word from the cursor position to the end; it may be altered to give a common suffix for all matches. It is most useful when the option COMPLETE_IN_WORD is set, as otherwise the whole word on the command line is treated as a prefix. compstate This is an associative array with various keys and values that the completion code uses to exchange information with the completion widget. The keys are: all_quotes The -q option of the compset builtin command (see below) allows a quoted string to be broken into separate words; if the cursor is on one of those words, that word will be completed, possibly invoking `compset -q' recursively. With this key it is possible to test the types of quoted strings which are currently broken into parts in this fashion. Its value contains one character for each quoting level. The characters are a single quote or a double quote for strings quoted with these characters, a dollars sign for strings quoted with $'...' and a backslash for strings not starting with a quote character. The first character in the value always corresponds to the innermost quoting level. context This will be set by the completion code to the overall context in which completion is attempted. Possible values are: array_value when completing inside the value of an array parameter assignment; in this case the words array contains the words inside the parentheses. brace_parameter when completing the name of a parameter in a parameter expansion beginning with ${. This context will also be set when completing parameter flags following ${(; the full command line argument is presented and the handler must test the value to be completed to ascertain that this is the case. assign_parameter when completing the name of a parameter in a parameter assignment. command when completing for a normal command (either in command position or for an argument of the command). condition when completing inside a `[[...]]' conditional expression; in this case the words array contains only the words inside the conditional expression. math when completing in a mathematical environment such as a `((...))' construct. parameter when completing the name of a parameter in a parameter expansion beginning with $ but not ${. redirect when completing after a redirection operator. subscript when completing inside a parameter subscript. value when completing the value of a parameter assignment. exact Controls the behaviour when the REC_EXACT option is set. It will be set to accept if an exact match would be accepted, and will be unset otherwise. If it was set when at least one match equal to the string on the line was generated, the match is accepted. exact_string The string of an exact match if one was found, otherwise unset. ignored The number of words that were ignored because they matched one of the patterns given with the -F option to the compadd builtin command. insert This controls the manner in which a match is inserted into the command line. On entry to the widget function, if it is unset the command line is not to be changed; if set to unambiguous, any prefix common to all matches is to be inserted; if set to automenu-unambiguous, the common prefix is to be inserted and the next invocation of the completion code may start menu completion (due to the AUTO_MENU option being set); if set to menu or automenu menu completion will be started for the matches currently generated (in the latter case this will happen because the AUTO_MENU is set). The value may also contain the string `tab' when the completion code would normally not really do completion, but only insert the TAB character. On exit it may be set to any of the values above (where setting it to the empty string is the same as unsetting it), or to a number, in which case the match whose number is given will be inserted into the command line. Negative numbers count backward from the last match (with `-1' selecting the last match) and out-of-range values are wrapped around, so that a value of zero selects the last match and a value one more than the maximum selects the first. Unless the value of this key ends in a space, the match is inserted as in a menu completion, i.e. without automatically appending a space. Both menu and automenu may also specify the number of the match to insert, given after a colon. For example, `menu:2' says to start menu completion, beginning with the second match. Note that a value containing the substring `tab' makes the matches generated be ignored and only the TAB be inserted. Finally, it may also be set to all, which makes all matches generated be inserted into the line. insert_positions When the completion system inserts an unambiguous string into the line, there may be multiple places where characters are missing or where the character inserted differs from at least one match. The value of this key contains a colon separated list of all these positions, as indexes into the command line. last_prompt If this is set to a non-empty string for every match added, the completion code will move the cursor back to the previous prompt after the list of completions has been displayed. Initially this is set or unset according to the ALWAYS_LAST_PROMPT option. list This controls whether or how the list of matches will be displayed. If it is unset or empty they will never be listed; if its value begins with list, they will always be listed; if it begins with autolist or ambiguous, they will be listed when the AUTO_LIST or LIST_AMBIGUOUS options respectively would normally cause them to be. If the substring force appears in the value, this makes the list be shown even if there is only one match. Normally, the list would be shown only if there are at least two matches. The value contains the substring packed if the LIST_PACKED option is set. If this substring is given for all matches added to a group, this group will show the LIST_PACKED behavior. The same is done for the LIST_ROWS_FIRST option with the substring rows. Finally, if the value contains the string explanations, only the explanation strings, if any, will be listed and if it contains messages, only the messages (added with the -x option of compadd) will be listed. If it contains both explanations and messages both kinds of explanation strings will be listed. It will be set appropriately on entry to a completion widget and may be changed there. list_lines This gives the number of lines that are needed to display the full list of completions. Note that to calculate the total number of lines to display you need to add the number of lines needed for the command line to this value, this is available as the value of the BUFFERLINES special parameter. list_max Initially this is set to the value of the LISTMAX parameter. It may be set to any other value; when the widget exits this value will be used in the same way as the value of LISTMAX. nmatches The number of matches generated and accepted by the completion code so far. old_insert On entry to the widget this will be set to the number of the match of an old list of completions that is currently inserted into the command line. If no match has been inserted, this is unset. As with old_list, the value of this key will only be used if it is the string keep. If it was set to this value by the widget and there was an old match inserted into the command line, this match will be kept and if the value of the insert key specifies that another match should be inserted, this will be inserted after the old one. old_list This is set to yes if there is still a valid list of completions from a previous completion at the time the widget is invoked. This will usually be the case if and only if the previous editing operation was a completion widget or one of the builtin completion functions. If there is a valid list and it is also currently shown on the screen, the value of this key is shown. After the widget has exited the value of this key is only used if it was set to keep. In this case the completion code will continue to use this old list. If the widget generated new matches, they will not be used. parameter The name of the parameter when completing in a subscript or in the value of a parameter assignment. pattern_insert Normally this is set to menu, which specifies that menu completion will be used whenever a set of matches was generated using pattern matching. If it is set to any other non-empty string by the user and menu completion is not selected by other option settings, the code will instead insert any common prefix for the generated matches as with normal completion. pattern_match Locally controls the behaviour given by the GLOB_COMPLETE option. Initially it is set to `*' if and only if the option is set. The completion widget may set it to this value, to an empty string (which has the same effect as unsetting it), or to any other non-empty string. If it is non-empty, unquoted metacharacters on the command line will be treated as patterns; if it is `*', then additionally a wildcard `*' is assumed at the cursor position; if it is empty or unset, metacharacters will be treated literally. Note that the matcher specifications given to the compadd builtin command are not used if this is set to a non-empty string. quote When completing inside quotes, this contains the quotation character (i.e. either a single quote, a double quote, or a backtick). Otherwise it is unset. quoting When completing inside single quotes, this is set to the string single; inside double quotes, the string double; inside backticks, the string backtick. Otherwise it is unset. redirect The redirection operator when completing in a redirection position, i.e. one of <, >, etc. restore This is set to auto before a function is entered, which forces the special parameters mentioned above (words, CURRENT, PREFIX, IPREFIX, SUFFIX, and ISUFFIX) to be restored to their previous values when the function exits. If a function unsets it or sets it to any other string, they will not be restored. to_end Specifies the occasions on which the cursor is moved to the end of a string when a match is inserted. On entry to a widget function, it may be single if this will happen when a single unambiguous match was inserted or match if it will happen any time a match is inserted (for example, by menu completion; this is likely to be the effect of the ALWAYS_TO_END option). On exit, it may be set to single as above. It may also be set to always, or to the empty string or unset; in those cases the cursor will be moved to the end of the string always or never respectively. Any other string is treated as match. unambiguous This key is read-only and will always be set to the common (unambiguous) prefix the completion code has generated for all matches added so far. unambiguous_cursor This gives the position the cursor would be placed at if the common prefix in the unambiguous key were inserted, relative to the value of that key. The cursor would be placed before the character whose index is given by this key. unambiguous_positions This contains all positions where characters in the unambiguous string are missing or where the character inserted differs from at least one of the matches. The positions are given as indexes into the string given by the value of the unambiguous key. vared If completion is called while editing a line using the vared builtin, the value of this key is set to the name of the parameter given as an argument to vared. This key is only set while a vared command is active. words This array contains the words present on the command line currently being edited.  File: zsh.info, Node: Completion Builtin Commands, Next: Completion Condition Codes, Prev: Completion Special Parameters, Up: Completion Widgets 19.3 Completion Builtin Commands ================================ compadd [ -akqQfenUl12C ] [ -F ARRAY ] [-P PREFIX ] [ -S SUFFIX ] [-p HIDDEN-PREFIX ] [ -s HIDDEN-SUFFIX ] [-i IGNORED-PREFIX ] [ -I IGNORED-SUFFIX ] [-W FILE-PREFIX ] [ -d ARRAY ] [-J GROUP-NAME ] [ -X EXPLANATION ] [ -x MESSAGE ] [-V GROUP-NAME ] [ -o [ ORDER ] ] [-r REMOVE-CHARS ] [ -R REMOVE-FUNC ] [-D ARRAY ] [ -O ARRAY ] [ -A ARRAY ] [-E NUMBER ] [-M MATCH-SPEC ] [ -- ] [ WORDS ... ] This builtin command can be used to add matches directly and control all the information the completion code stores with each possible match. The return status is zero if at least one match was added and non-zero if no matches were added. The completion code breaks the string to complete into seven fields in the order: The first field is an ignored prefix taken from the command line, the contents of the IPREFIX parameter plus the string given with the -i option. With the -U option, only the string from the -i option is used. The field is an optional prefix string given with the -P option. The field is a string that is considered part of the match but that should not be shown when listing completions, given with the -p option; for example, functions that do filename generation might specify a common path prefix this way. is the part of the match that should appear in the list of completions, i.e. one of the WORDS given at the end of the compadd command line. The suffixes , and correspond to the prefixes , and and are given by the options -s, -S and -I, respectively. The supported flags are: -P PREFIX This gives a string to be inserted before the given WORDS. The string given is not considered as part of the match and any shell metacharacters in it will not be quoted when the string is inserted. -S SUFFIX Like -P, but gives a string to be inserted after the match. -p HIDDEN-PREFIX This gives a string that should be inserted into the command line before the match but that should not appear in the list of matches. Unless the -U option is given, this string must be matched as part of the string on the command line. -s HIDDEN-SUFFIX Like `-p', but gives a string to insert after the match. -i IGNORED-PREFIX This gives a string to insert into the command line just before any string given with the `-P' option. Without `-P' the string is inserted before the string given with `-p' or directly before the match. -I IGNORED-SUFFIX Like -i, but gives an ignored suffix. -a With this flag the WORDS are taken as names of arrays and the possible matches are their values. If only some elements of the arrays are needed, the WORDS may also contain subscripts, as in `foo[2,-1]'. -k With this flag the WORDS are taken as names of associative arrays and the possible matches are their keys. As for -a, the WORDS may also contain subscripts, as in `foo[(R)*bar*]'. -d ARRAY This adds per-match display strings. The ARRAY should contain one element per WORD given. The completion code will then display the first element instead of the first WORD, and so on. The ARRAY may be given as the name of an array parameter or directly as a space-separated list of words in parentheses. If there are fewer display strings than WORDS, the leftover WORDS will be displayed unchanged and if there are more display strings than WORDS, the leftover display strings will be silently ignored. -l This option only has an effect if used together with the -d option. If it is given, the display strings are listed one per line, not arrayed in columns. -o [ ORDER ] This controls the order in which matches are sorted. ORDER is a comma-separated list comprising the following possible values. These values can be abbreviated to their initial two or three characters. Note that the order forms part of the group name space so matches with different orderings will not be in the same group. match If given, the order of the output is determined by the match strings; otherwise it is determined by the display strings (i.e. the strings given by the -d option). This is the default if `-o' is specified but the ORDER argument is omitted. nosort This specifies that the matches are pre-sorted and their order should be preserved. This value only makes sense alone and cannot be combined with any others. numeric If the matches include numbers, sort them numerically rather than lexicographically. reverse Arrange the matches backwards by reversing the sort ordering. -J GROUP-NAME Gives the name of the group of matches the words should be stored in. -V GROUP-NAME Like -J but naming an unsorted group. This option is identical to the combination of -J and -o nosort. -1 If given together with the -V option, makes only consecutive duplicates in the group be removed. If combined with the -J option, this has no visible effect. Note that groups with and without this flag are in different name spaces. -2 If given together with the -J or -V option, makes all duplicates be kept. Again, groups with and without this flag are in different name spaces. -X EXPLANATION The EXPLANATION string will be printed with the list of matches, above the group currently selected. Within the EXPLANATION, the following sequences may be used to specify output attributes (see *Note Prompt Expansion::): `%B', `%S', `%U', `%F', `%K' and their lower case counterparts, as well as `%{...%}'. `%F', `%K' and `%{...%}' take arguments in the same form as prompt expansion. (Note that the sequence `%G' is not available; an argument to `%{' should be used instead.) The sequence `%%' produces a literal `%'. These sequences are most often employed by users when customising the format style (see *Note Completion System::), but they must also be taken into account when writing completion functions, as passing descriptions with unescaped `%' characters to utility functions such as _arguments and _message may produce unexpected results. If arbitrary text is to be passed in a description, it can be escaped using e.g. ${my_str//\%/%%}. -x MESSAGE Like -X, but the MESSAGE will be printed even if there are no matches in the group. -q The suffix given with -S will be automatically removed if the next character typed is a blank or does not insert anything, or if the suffix consists of only one character and the next character typed is the same character. -r REMOVE-CHARS This is a more versatile form of the -q option. The suffix given with -S or the slash automatically added after completing directories will be automatically removed if the next character typed inserts one of the characters given in the REMOVE-CHARS. This string is parsed as a characters class and understands the backslash sequences used by the print command. For example, `-r "a-z\t"' removes the suffix if the next character typed inserts a lower case character or a TAB, and `-r "^0-9"' removes the suffix if the next character typed inserts anything but a digit. One extra backslash sequence is understood in this string: `\-' stands for all characters that insert nothing. Thus `-S "=" -q' is the same as `-S "=" -r "= \t\n\-"'. This option may also be used without the -S option; then any automatically added space will be removed when one of the characters in the list is typed. -R REMOVE-FUNC This is another form of the -r option. When a suffix has been inserted and the completion accepted, the function REMOVE-FUNC will be called after the next character typed. It is passed the length of the suffix as an argument and can use the special parameters available in ordinary (non-completion) zle widgets (see *Note Zsh Line Editor::) to analyse and modify the command line. -f If this flag is given, all of the matches built from WORDS are marked as being the names of files. They are not required to be actual filenames, but if they are, and the option LIST_TYPES is set, the characters describing the types of the files in the completion lists will be shown. This also forces a slash to be added when the name of a directory is completed. -e This flag can be used to tell the completion code that the matches added are parameter names for a parameter expansion. This will make the AUTO_PARAM_SLASH and AUTO_PARAM_KEYS options be used for the matches. -W FILE-PREFIX This string is a pathname that will be prepended to each of the matches formed by the given WORDS together with any prefix specified by the -p option to form a complete filename for testing. Hence it is only useful if combined with the -f flag, as the tests will not otherwise be performed. -F ARRAY Specifies an array containing patterns. Words matching one of these patterns are ignored, i.e. not considered to be possible matches. The ARRAY may be the name of an array parameter or a list of literal patterns enclosed in parentheses and quoted, as in `-F "(*?.o *?.h)"'. If the name of an array is given, the elements of the array are taken as the patterns. -Q This flag instructs the completion code not to quote any metacharacters in the words when inserting them into the command line. -M MATCH-SPEC This gives local match specifications as described below in *Note Completion Matching Control::. This option may be given more than once. In this case all MATCH-SPECs given are concatenated with spaces between them to form the specification string to use. Note that they will only be used if the -U option is not given. -n Specifies that the words added are to be used as possible matches, but are not to appear in the completion listing. -U If this flag is given, all words given will be accepted and no matching will be done by the completion code. Normally this is used in functions that do the matching themselves. -O ARRAY If this option is given, the WORDS are _not_ added to the set of possible completions. Instead, matching is done as usual and all of the WORDS given as arguments that match the string on the command line will be stored in the array parameter whose name is given as ARRAY. -A ARRAY As the -O option, except that instead of those of the WORDS which match being stored in ARRAY, the strings generated internally by the completion code are stored. For example, with a matching specification of `-M "L:|no="', the string `nof' on the command line and the string `foo' as one of the WORDS, this option stores the string `nofoo' in the array, whereas the -O option stores the `foo' originally given. -D ARRAY As with -O, the WORDS are not added to the set of possible completions. Instead, the completion code tests whether each WORD in turn matches what is on the line. If the Nth WORD does not match, the Nth element of the ARRAY is removed. Elements for which the corresponding WORD is matched are retained. -C This option adds a special match which expands to all other matches when inserted into the line, even those that are added after this option is used. Together with the -d option it is possible to specify a string that should be displayed in the list for this special match. If no string is given, it will be shown as a string containing the strings that would be inserted for the other matches, truncated to the width of the screen. -E NUMBER This option adds NUMBER empty matches after the WORDS have been added. An empty match takes up space in completion listings but will never be inserted in the line and can't be selected with menu completion or menu selection. This makes empty matches only useful to format completion lists and to make explanatory string be shown in completion lists (since empty matches can be given display strings with the -d option). And because all but one empty string would otherwise be removed, this option implies the -V and -2 options (even if an explicit -J option is given). This can be important to note as it affects the name space into which matches are added. - -- This flag ends the list of flags and options. All arguments after it will be taken as the words to use as matches even if they begin with hyphens. Except for the -M flag, if any of these flags is given more than once, the first one (and its argument) will be used. compset -p NUMBER compset -P [ NUMBER ] PATTERN compset -s NUMBER compset -S [ NUMBER ] PATTERN compset -n BEGIN [ END ] compset -N BEG-PAT [ END-PAT ] compset -q This command simplifies modification of the special parameters, while its return status allows tests on them to be carried out. The options are: -p NUMBER If the value of the PREFIX parameter is at least NUMBER characters long, the first NUMBER characters are removed from it and appended to the contents of the IPREFIX parameter. -P [ NUMBER ] PATTERN If the value of the PREFIX parameter begins with anything that matches the PATTERN, the matched portion is removed from PREFIX and appended to IPREFIX. Without the optional NUMBER, the longest match is taken, but if NUMBER is given, anything up to the NUMBERth match is moved. If the NUMBER is negative, the NUMBERth longest match is moved. For example, if PREFIX contains the string `a=b=c', then compset -P '*\=' will move the string `a=b=' into the IPREFIX parameter, but compset -P 1 '*\=' will move only the string `a='. -s NUMBER As -p, but transfer the last NUMBER characters from the value of SUFFIX to the front of the value of ISUFFIX. -S [ NUMBER ] PATTERN As -P, but match the last portion of SUFFIX and transfer the matched portion to the front of the value of ISUFFIX. -n BEGIN [ END ] If the current word position as specified by the parameter CURRENT is greater than or equal to BEGIN, anything up to the BEGINth word is removed from the words array and the value of the parameter CURRENT is decremented by BEGIN. If the optional END is given, the modification is done only if the current word position is also less than or equal to END. In this case, the words from position END onwards are also removed from the words array. Both BEGIN and END may be negative to count backwards from the last element of the words array. -N BEG-PAT [ END-PAT ] If one of the elements of the words array before the one at the index given by the value of the parameter CURRENT matches the pattern BEG-PAT, all elements up to and including the matching one are removed from the words array and the value of CURRENT is changed to point to the same word in the changed array. If the optional pattern END-PAT is also given, and there is an element in the words array matching this pattern, the parameters are modified only if the index of this word is higher than the one given by the CURRENT parameter (so that the matching word has to be after the cursor). In this case, the words starting with the one matching end-pat are also removed from the words array. If words contains no word matching END-PAT, the testing and modification is performed as if it were not given. -q The word currently being completed is split on spaces into separate words, respecting the usual shell quoting conventions. The resulting words are stored in the words array, and CURRENT, PREFIX, SUFFIX, QIPREFIX, and QISUFFIX are modified to reflect the word part that is completed. In all the above cases the return status is zero if the test succeeded and the parameters were modified and non-zero otherwise. This allows one to use this builtin in tests such as: if compset -P '*\='; then ... This forces anything up to and including the last equal sign to be ignored by the completion code. compcall [ -TD ] This allows the use of completions defined with the compctl builtin from within completion widgets. The list of matches will be generated as if one of the non-widget completion functions (complete-word, etc.) had been called, except that only compctls given for specific commands are used. To force the code to try completions defined with the -T option of compctl and/or the default completion (whether defined by compctl -D or the builtin default) in the appropriate places, the -T and/or -D flags can be passed to compcall. The return status can be used to test if a matching compctl definition was found. It is non-zero if a compctl was found and zero otherwise. Note that this builtin is defined by the zsh/compctl module.  File: zsh.info, Node: Completion Condition Codes, Next: Completion Matching Control, Prev: Completion Builtin Commands, Up: Completion Widgets 19.4 Completion Condition Codes =============================== The following additional condition codes for use within the [[ ... ]] construct are available in completion widgets. These work on the special parameters. All of these tests can also be performed by the compset builtin, but in the case of the condition codes the contents of the special parameters are not modified. -prefix [ NUMBER ] PATTERN true if the test for the -P option of compset would succeed. -suffix [ NUMBER ] PATTERN true if the test for the -S option of compset would succeed. -after BEG-PAT true if the test of the -N option with only the BEG-PAT given would succeed. -between BEG-PAT END-PAT true if the test for the -N option with both patterns would succeed.  File: zsh.info, Node: Completion Matching Control, Next: Completion Widget Example, Prev: Completion Condition Codes, Up: Completion Widgets 19.5 Completion Matching Control ================================ It is possible by use of the -M option of the compadd builtin command to specify how the characters in the string to be completed (referred to here as the command line) map onto the characters in the list of matches produced by the completion code (referred to here as the trial completions). Note that this is not used if the command line contains a glob pattern and the GLOB_COMPLETE option is set or the pattern_match of the compstate special association is set to a non-empty string. The MATCH-SPEC given as the argument to the -M option (see *Note Completion Builtin Commands::) consists of one or more matching descriptions separated by whitespace. Each description consists of a letter followed by a colon and then the patterns describing which character sequences on the line match which character sequences in the trial completion. Any sequence of characters not handled in this fashion must match exactly, as usual. The forms of MATCH-SPEC understood are as follows. In each case, the form with an upper case initial character retains the string already typed on the command line as the final result of completion, while with a lower case initial character the string on the command line is changed into the corresponding part of the trial completion. m:LPAT=TPAT M:LPAT=TPAT Here, LPAT is a pattern that matches on the command line, corresponding to TPAT which matches in the trial completion. l:LANCHOR|LPAT=TPAT L:LANCHOR|LPAT=TPAT l:LANCHOR||RANCHOR=TPAT L:LANCHOR||RANCHOR=TPAT b:LPAT=TPAT B:LPAT=TPAT These letters are for patterns that are anchored by another pattern on the left side. Matching for LPAT and TPAT is as for m and M, but the pattern LPAT matched on the command line must be preceded by the pattern LANCHOR. The LANCHOR can be blank to anchor the match to the start of the command line string; otherwise the anchor can occur anywhere, but must match in both the command line and trial completion strings. If no LPAT is given but a RANCHOR is, this matches the gap between substrings matched by LANCHOR and RANCHOR. Unlike LANCHOR, the RANCHOR only needs to match the trial completion string. The b and B forms are similar to l and L with an empty anchor, but need to match only the beginning of the word on the command line or trial completion, respectively. r:LPAT|RANCHOR=TPAT R:LPAT|RANCHOR=TPAT r:LANCHOR||RANCHOR=TPAT R:LANCHOR||RANCHOR=TPAT e:LPAT=TPAT E:LPAT=TPAT As l, L, b and B, with the difference that the command line and trial completion patterns are anchored on the right side. Here an empty RANCHOR and the e and E forms force the match to the end of the command line or trial completion string. x: This form is used to mark the end of matching specifications: subsequent specifications are ignored. In a single standalone list of specifications this has no use but where matching specifications are accumulated, such as from nested function calls, it can allow one function to override another. Each LPAT, TPAT or ANCHOR is either an empty string or consists of a sequence of literal characters (which may be quoted with a backslash), question marks, character classes, and correspondence classes; ordinary shell patterns are not used. Literal characters match only themselves, question marks match any character, and character classes are formed as for globbing and match any character in the given set. Correspondence classes are defined like character classes, but with two differences: they are delimited by a pair of braces, and negated classes are not allowed, so the characters ! and ^ have no special meaning directly after the opening brace. They indicate that a range of characters on the line match a range of characters in the trial completion, but (unlike ordinary character classes) paired according to the corresponding position in the sequence. For example, to make any ASCII lower case letter on the line match the corresponding upper case letter in the trial completion, you can use `m:{a-z}={A-Z}' (however, see below for the recommended form for this). More than one pair of classes can occur, in which case the first class before the = corresponds to the first after it, and so on. If one side has more such classes than the other side, the superfluous classes behave like normal character classes. In anchor patterns correspondence classes also behave like normal character classes. The standard `[:NAME:]' forms described for standard shell patterns (see *Note Filename Generation::) may appear in correspondence classes as well as normal character classes. The only special behaviour in correspondence classes is if the form on the left and the form on the right are each one of [:upper:], [:lower:]. In these cases the character in the word and the character on the line must be the same up to a difference in case. Hence to make any lower case character on the line match the corresponding upper case character in the trial completion you can use `m:{[:lower:]}={[:upper:]}'. Although the matching system does not yet handle multibyte characters, this is likely to be a future extension, at which point this syntax will handle arbitrary alphabets; hence this form, rather than the use of explicit ranges, is the recommended form. In other cases `[:NAME:]' forms are allowed. If the two forms on the left and right are the same, the characters must match exactly. In remaining cases, the corresponding tests are applied to both characters, but they are not otherwise constrained; any matching character in one set goes with any matching character in the other set: this is equivalent to the behaviour of ordinary character classes. The pattern TPAT may also be one or two stars, `*' or `**'. This means that the pattern on the command line can match any number of characters in the trial completion. In this case the pattern must be anchored (on either side); in the case of a single star, the ANCHOR then determines how much of the trial completion is to be included -- only the characters up to the next appearance of the anchor will be matched. With two stars, substrings matched by the anchor can be matched, too. Examples: The keys of the options association defined by the parameter module are the option names in all-lower-case form, without underscores, and without the optional no at the beginning even though the builtins setopt and unsetopt understand option names with upper case letters, underscores, and the optional no. The following alters the matching rules so that the prefix no and any underscore are ignored when trying to match the trial completions generated and upper case letters on the line match the corresponding lower case letters in the words: compadd -M 'L:|[nN][oO]= M:_= M:{[:upper:]}={[:lower:]}' - \ ${(k)options} The first part says that the pattern `[nN][oO]' at the beginning (the empty anchor before the pipe symbol) of the string on the line matches the empty string in the list of words generated by completion, so it will be ignored if present. The second part does the same for an underscore anywhere in the command line string, and the third part uses correspondence classes so that any upper case letter on the line matches the corresponding lower case letter in the word. The use of the upper case forms of the specification characters (L and M) guarantees that what has already been typed on the command line (in particular the prefix no) will not be deleted. Note that the use of L in the first part means that it matches only when at the beginning of both the command line string and the trial completion. I.e., the string `_NO_f' would not be completed to `_NO_foo', nor would `NONO_f' be completed to `NONO_foo' because of the leading underscore or the second `NO' on the line which makes the pattern fail even though they are otherwise ignored. To fix this, one would use `B:[nN][oO]=' instead of the first part. As described above, this matches at the beginning of the trial completion, independent of other characters or substrings at the beginning of the command line word which are ignored by the same or other MATCH-SPECs. The second example makes completion case insensitive. This is just the same as in the option example, except here we wish to retain the characters in the list of completions: compadd -M 'm:{[:lower:]}={[:upper:]}' ... This makes lower case letters match their upper case counterparts. To make upper case letters match the lower case forms as well: compadd -M 'm:{[:lower:][:upper:]}={[:upper:][:lower:]}' ... A nice example for the use of * patterns is partial word completion. Sometimes you would like to make strings like `c.s.u' complete to strings like `comp.source.unix', i.e. the word on the command line consists of multiple parts, separated by a dot in this example, where each part should be completed separately -- note, however, that the case where each part of the word, i.e. `comp', `source' and `unix' in this example, is to be completed from separate sets of matches is a different problem to be solved by the implementation of the completion widget. The example can be handled by: compadd -M 'r:|.=* r:|=*' \ - comp.sources.unix comp.sources.misc ... The first specification says that LPAT is the empty string, while ANCHOR is a dot; TPAT is *, so this can match anything except for the `.' from the anchor in the trial completion word. So in `c.s.u', the matcher sees `c', followed by the empty string, followed by the anchor `.', and likewise for the second dot, and replaces the empty strings before the anchors, giving `c[omp].s[ources].u[nix]', where the last part of the completion is just as normal. With the pattern shown above, the string `c.u' could not be completed to `comp.sources.unix' because the single star means that no dot (matched by the anchor) can be skipped. By using two stars as in `r:|.=**', however, `c.u' could be completed to `comp.sources.unix'. This also shows that in some cases, especially if the anchor is a real pattern, like a character class, the form with two stars may result in more matches than one would like. The second specification is needed to make this work when the cursor is in the middle of the string on the command line and the option COMPLETE_IN_WORD is set. In this case the completion code would normally try to match trial completions that end with the string as typed so far, i.e. it will only insert new characters at the cursor position rather than at the end. However in our example we would like the code to recognise matches which contain extra characters after the string on the line (the `nix' in the example). Hence we say that the empty string at the end of the string on the line matches any characters at the end of the trial completion. More generally, the specification compadd -M 'r:|[.,_-]=* r:|=*' ... allows one to complete words with abbreviations before any of the characters in the square brackets. For example, to complete veryverylongfile.c rather than veryverylongheader.h with the above in effect, you can just type very.c before attempting completion. The specifications with both a left and a right anchor are useful to complete partial words whose parts are not separated by some special character. For example, in some places strings have to be completed that are formed `LikeThis' (i.e. the separate parts are determined by a leading upper case letter) or maybe one has to complete strings with trailing numbers. Here one could use the simple form with only one anchor as in: compadd -M 'r:|[[:upper:]0-9]=* r:|=*' LikeTHIS FooHoo 5foo123 5bar234 But with this, the string `H' would neither complete to `FooHoo' nor to `LikeTHIS' because in each case there is an upper case letter before the `H' and that is matched by the anchor. Likewise, a `2' would not be completed. In both cases this could be changed by using `r:|[[:upper:]0-9]=**', but then `H' completes to both `LikeTHIS' and `FooHoo' and a `2' matches the other strings because characters can be inserted before every upper case letter and digit. To avoid this one would use: compadd -M 'r:[^[:upper:]0-9]||[[:upper:]0-9]=** r:|=*' \ LikeTHIS FooHoo foo123 bar234 By using these two anchors, a `H' matches only upper case `H's that are immediately preceded by something matching the left anchor `[^[:upper:]0-9]'. The effect is, of course, that `H' matches only the string `FooHoo', a `2' matches only `bar234' and so on. When using the completion system (see *Note Completion System::), users can define match specifications that are to be used for specific contexts by using the matcher and matcher-list styles. The values for the latter will be used everywhere.  File: zsh.info, Node: Completion Widget Example, Prev: Completion Matching Control, Up: Completion Widgets 19.6 Completion Widget Example ============================== The first step is to define the widget: zle -C complete complete-word complete-files Then the widget can be bound to a key using the bindkey builtin command: bindkey '^X\t' complete After that the shell function complete-files will be invoked after typing control-X and TAB. The function should then generate the matches, e.g.: complete-files () { compadd - * } This function will complete files in the current directory matching the current word.  File: zsh.info, Node: Completion System, Next: Completion Using compctl, Prev: Completion Widgets, Up: Top 20 Completion System ******************** 20.1 Description ================ This describes the shell code for the `new' completion system, referred to as compsys. It is written in shell functions based on the features described in the previous chapter, *Note Completion Widgets::. The features are contextual, sensitive to the point at which completion is started. Many completions are already provided. For this reason, a user can perform a great many tasks without knowing any details beyond how to initialize the system, which is described in *Note Initialization::. The context that decides what completion is to be performed may be * an argument or option position: these describe the position on the command line at which completion is requested. For example `first argument to rmdir, the word being completed names a directory'; * a special context, denoting an element in the shell's syntax. For example `a word in command position' or `an array subscript'. A full context specification contains other elements, as we shall describe. Besides commands names and contexts, the system employs two more concepts, _styles_ and _tags_. These provide ways for the user to configure the system's behaviour. Tags play a dual role. They serve as a classification system for the matches, typically indicating a class of object that the user may need to distinguish. For example, when completing arguments of the ls command the user may prefer to try files before directories, so both of these are tags. They also appear as the rightmost element in a context specification. Styles modify various operations of the completion system, such as output formatting, but also what kinds of completers are used (and in what order), or which tags are examined. Styles may accept arguments and are manipulated using the zstyle command described in *Note The zsh/zutil Module::. In summary, tags describe _what_ the completion objects are, and style how they are to be completed. At various points of execution, the completion system checks what styles and/or tags are defined for the current context, and uses that to modify its behavior. The full description of context handling, which determines how tags and other elements of the context influence the behaviour of styles, is described in *Note Completion System Configuration::. When a completion is requested, a dispatcher function is called; see the description of _main_complete in the list of control functions below. This dispatcher decides which function should be called to produce the completions, and calls it. The result is passed to one or more _completers_, functions that implement individual completion strategies: simple completion, error correction, completion with error correction, menu selection, etc. More generally, the shell functions contained in the completion system are of two types: * those beginning `comp' are to be called directly; there are only a few of these; * those beginning `_' are called by the completion code. The shell functions of this set, which implement completion behaviour and may be bound to keystrokes, are referred to as `widgets'. These proliferate as new completions are required. * Menu: * Initialization:: * Completion System Configuration:: * Control Functions:: * Bindable Commands:: * Completion Functions:: * Completion Directories:: * Completion System Variables::  File: zsh.info, Node: Initialization, Next: Completion System Configuration, Up: Completion System 20.2 Initialization =================== If the system was installed completely, it should be enough to call the shell function compinit from your initialization file; see the next section. However, the function compinstall can be run by a user to configure various aspects of the completion system. Usually, compinstall will insert code into .zshrc, although if that is not writable it will save it in another file and tell you that file's location. Note that it is up to you to make sure that the lines added to .zshrc are actually run; you may, for example, need to move them to an earlier place in the file if .zshrc usually returns early. So long as you keep them all together (including the comment lines at the start and finish), you can rerun compinstall and it will correctly locate and modify these lines. Note, however, that any code you add to this section by hand is likely to be lost if you rerun compinstall, although lines using the command `zstyle' should be gracefully handled. The new code will take effect next time you start the shell, or run .zshrc by hand; there is also an option to make them take effect immediately. However, if compinstall has removed definitions, you will need to restart the shell to see the changes. To run compinstall you will need to make sure it is in a directory mentioned in your fpath parameter, which should already be the case if zsh was properly configured as long as your startup files do not remove the appropriate directories from fpath. Then it must be autoloaded (`autoload -U compinstall' is recommended). You can abort the installation any time you are being prompted for information, and your .zshrc will not be altered at all; changes only take place right at the end, where you are specifically asked for confirmation. 20.2.1 Use of compinit ---------------------- This section describes the use of compinit to initialize completion for the current session when called directly; if you have run compinstall it will be called automatically from your .zshrc. To initialize the system, the function compinit should be in a directory mentioned in the fpath parameter, and should be autoloaded (`autoload -U compinit' is recommended), and then run simply as `compinit'. This will define a few utility functions, arrange for all the necessary shell functions to be autoloaded, and will then re-define all widgets that do completion to use the new system. If you use the menu-select widget, which is part of the zsh/complist module, you should make sure that that module is loaded before the call to compinit so that that widget is also re-defined. If completion styles (see below) are set up to perform expansion as well as completion by default, and the TAB key is bound to expand-or-complete, compinit will rebind it to complete-word; this is necessary to use the correct form of expansion. Should you need to use the original completion commands, you can still bind keys to the old widgets by putting a `.' in front of the widget name, e.g. `.expand-or-complete'. To speed up the running of compinit, it can be made to produce a dumped configuration that will be read in on future invocations; this is the default, but can be turned off by calling compinit with the option -D. The dumped file is .zcompdump in the same directory as the startup files (i.e. $ZDOTDIR or $HOME); alternatively, an explicit file name can be given by `compinit -d DUMPFILE'. The next invocation of compinit will read the dumped file instead of performing a full initialization. If the number of completion files changes, compinit will recognise this and produce a new dump file. However, if the name of a function or the arguments in the first line of a #compdef function (as described below) change, it is easiest to delete the dump file by hand so that compinit will re-create it the next time it is run. The check performed to see if there are new functions can be omitted by giving the option -C. In this case the dump file will only be created if there isn't one already. The dumping is actually done by another function, compdump, but you will only need to run this yourself if you change the configuration (e.g. using compdef) and then want to dump the new one. The name of the old dumped file will be remembered for this purpose. If the parameter _compdir is set, compinit uses it as a directory where completion functions can be found; this is only necessary if they are not already in the function search path. For security reasons compinit also checks if the completion system would use files not owned by root or by the current user, or files in directories that are world- or group-writable or that are not owned by root or by the current user. If such files or directories are found, compinit will ask if the completion system should really be used. To avoid these tests and make all files found be used without asking, use the option -u, and to make compinit silently ignore all insecure files and directories use the option -i. This security check is skipped entirely when the -C option is given. The security check can be retried at any time by running the function compaudit. This is the same check used by compinit, but when it is executed directly any changes to fpath are made local to the function so they do not persist. The directories to be checked may be passed as arguments; if none are given, compaudit uses fpath and _compdir to find completion system directories, adding missing ones to fpath as necessary. To force a check of exactly the directories currently named in fpath, set _compdir to an empty string before calling compaudit or compinit. The function bashcompinit provides compatibility with bash's programmable completion system. When run it will define the functions, compgen and complete which correspond to the bash builtins with the same names. It will then be possible to use completion specifications and functions written for bash. 20.2.2 Autoloaded files ----------------------- The convention for autoloaded functions used in completion is that they start with an underscore; as already mentioned, the fpath/FPATH parameter must contain the directory in which they are stored. If zsh was properly installed on your system, then fpath/FPATH automatically contains the required directories for the standard functions. For incomplete installations, if compinit does not find enough files beginning with an underscore (fewer than twenty) in the search path, it will try to find more by adding the directory _compdir to the search path. If that directory has a subdirectory named Base, all subdirectories will be added to the path. Furthermore, if the subdirectory Base has a subdirectory named Core, compinit will add all subdirectories of the subdirectories to the path: this allows the functions to be in the same format as in the zsh source distribution. When compinit is run, it searches all such files accessible via fpath/FPATH and reads the first line of each of them. This line should contain one of the tags described below. Files whose first line does not start with one of these tags are not considered to be part of the completion system and will not be treated specially. The tags are: #compdef NAME ... [ -{p|P} PATTERN ... [ -N NAME ... ] ] The file will be made autoloadable and the function defined in it will be called when completing NAMEs, each of which is either the name of a command whose arguments are to be completed or one of a number of special contexts in the form -CONTEXT- described below. Each NAME may also be of the form `CMD=SERVICE'. When completing the command CMD, the function typically behaves as if the command (or special context) SERVICE was being completed instead. This provides a way of altering the behaviour of functions that can perform many different completions. It is implemented by setting the parameter $service when calling the function; the function may choose to interpret this how it wishes, and simpler functions will probably ignore it. If the #compdef line contains one of the options -p or -P, the words following are taken to be patterns. The function will be called when completion is attempted for a command or context that matches one of the patterns. The options -p and -P are used to specify patterns to be tried before or after other completions respectively. Hence -P may be used to specify default actions. The option -N is used after a list following -p or -P; it specifies that remaining words no longer define patterns. It is possible to toggle between the three options as many times as necessary. #compdef -k STYLE KEY-SEQUENCE ... This option creates a widget behaving like the builtin widget STYLE and binds it to the given KEY-SEQUENCEs, if any. The STYLE must be one of the builtin widgets that perform completion, namely complete-word, delete-char-or-list, expand-or-complete, expand-or-complete-prefix, list-choices, menu-complete, menu-expand-or-complete, or reverse-menu-complete. If the zsh/complist module is loaded (see *Note The zsh/complist Module::) the widget menu-select is also available. When one of the KEY-SEQUENCEs is typed, the function in the file will be invoked to generate the matches. Note that a key will not be re-bound if it already was (that is, was bound to something other than undefined-key). The widget created has the same name as the file and can be bound to any other keys using bindkey as usual. #compdef -K WIDGET-NAME STYLE KEY-SEQUENCE [ NAME STYLE SEQ ... ] This is similar to -k except that only one KEY-SEQUENCE argument may be given for each WIDGET-NAME STYLE pair. However, the entire set of three arguments may be repeated with a different set of arguments. Note in particular that the WIDGET-NAME must be distinct in each set. If it does not begin with `_' this will be added. The WIDGET-NAME should not clash with the name of any existing widget: names based on the name of the function are most useful. For example, #compdef -K _foo_complete complete-word "^X^C" \ _foo_list list-choices "^X^D" (all on one line) defines a widget _foo_complete for completion, bound to `^X^C', and a widget _foo_list for listing, bound to `^X^D'. #autoload [ OPTIONS ] Functions with the #autoload tag are marked for autoloading but are not otherwise treated specially. Typically they are to be called from within one of the completion functions. Any OPTIONS supplied will be passed to the autoload builtin; a typical use is +X to force the function to be loaded immediately. Note that the -U and -z flags are always added implicitly. The # is part of the tag name and no white space is allowed after it. The #compdef tags use the compdef function described below; the main difference is that the name of the function is supplied implicitly. The special contexts for which completion functions can be defined are: -array-value- The right hand side of an array-assignment (`NAME=(...)') -brace-parameter- The name of a parameter expansion within braces (`${...}') -assign-parameter- The name of a parameter in an assignment, i.e. on the left hand side of an `=' -command- A word in command position -condition- A word inside a condition (`[[...]]') -default- Any word for which no other completion is defined -equal- A word beginning with an equals sign -first- This is tried before any other completion function. The function called may set the _compskip parameter to one of various values: all: no further completion is attempted; a string containing the substring patterns: no pattern completion functions will be called; a string containing default: the function for the `-default-' context will not be called, but functions defined for commands will be. -math- Inside mathematical contexts, such as `((...))' -parameter- The name of a parameter expansion (`$...') -redirect- The word after a redirection operator. -subscript- The contents of a parameter subscript. -tilde- After an initial tilde (`~'), but before the first slash in the word. -value- On the right hand side of an assignment. Default implementations are supplied for each of these contexts. In most cases the context -CONTEXT- is implemented by a corresponding function _CONTEXT, for example the context `-tilde-' and the function `_tilde'). The contexts -redirect- and -value- allow extra context-specific information. (Internally, this is handled by the functions for each context calling the function _dispatch.) The extra information is added separated by commas. For the -redirect- context, the extra information is in the form `-redirect-,OP,COMMAND', where OP is the redirection operator and COMMAND is the name of the command on the line. If there is no command on the line yet, the COMMAND field will be empty. For the -value- context, the form is `-value-,NAME,COMMAND', where NAME is the name of the parameter on the left hand side of the assignment. In the case of elements of an associative array, for example `assoc=(key ', NAME is expanded to `NAME-KEY'. In certain special contexts, such as completing after `make CFLAGS=', the COMMAND part gives the name of the command, here make; otherwise it is empty. It is not necessary to define fully specific completions as the functions provided will try to generate completions by progressively replacing the elements with `-default-'. For example, when completing after `foo=', _value will try the names `-value-,foo,' (note the empty COMMAND part), `-value-,foo,-default-' and`-value-,-default-,-default-', in that order, until it finds a function to handle the context. As an example: compdef '_files -g "*.log"' '-redirect-,2>,-default-' completes files matching `*.log' after `2> ' for any command with no more specific handler defined. Also: compdef _foo -value-,-default-,-default- specifies that _foo provides completions for the values of parameters for which no special function has been defined. This is usually handled by the function _value itself. The same lookup rules are used when looking up styles (as described below); for example zstyle ':completion:*:*:-redirect-,2>,*:*' file-patterns '*.log' is another way to make completion after `2> ' complete files matching `*.log'. 20.2.3 Functions ---------------- The following function is defined by compinit and may be called directly. compdef [ -ane ] FUNCTION NAME ... [ -{p|P} PATTERN ... [ -N NAME ...]] compdef -d NAME ... compdef -k [ -an ] FUNCTION STYLE KEY-SEQUENCE [ KEY-SEQUENCE ... ] compdef -K [ -an ] FUNCTION NAME STYLE KEY-SEQ [ NAME STYLE SEQ ... ] The first form defines the FUNCTION to call for completion in the given contexts as described for the #compdef tag above. Alternatively, all the arguments may have the form `CMD=SERVICE'. Here SERVICE should already have been defined by `CMD1=SERVICE' lines in #compdef files, as described above. The argument for CMD will be completed in the same way as SERVICE. The FUNCTION argument may alternatively be a string containing almost any shell code. If the string contains an equal sign, the above will take precedence. The option -e may be used to specify the first argument is to be evaluated as shell code even if it contains an equal sign. The string will be executed using the eval builtin command to generate completions. This provides a way of avoiding having to define a new completion function. For example, to complete files ending in `.h' as arguments to the command foo: compdef '_files -g "*.h"' foo The option -n prevents any completions already defined for the command or context from being overwritten. The option -d deletes any completion defined for the command or contexts listed. The NAMEs may also contain -p, -P and -N options as described for the #compdef tag. The effect on the argument list is identical, switching between definitions of patterns tried initially, patterns tried finally, and normal commands and contexts. The parameter $_compskip may be set by any function defined for a pattern context. If it is set to a value containing the substring `patterns' none of the pattern-functions will be called; if it is set to a value containing the substring `all', no other function will be called. Setting $_compskip in this manner is of particular utility when using the -p option, as otherwise the dispatcher will move on to additional functions (likely the default one) after calling the pattern-context one, which can mangle the display of completion possibilities if not handled properly. The form with -k defines a widget with the same name as the FUNCTION that will be called for each of the KEY-SEQUENCEs; this is like the #compdef -k tag. The function should generate the completions needed and will otherwise behave like the builtin widget whose name is given as the STYLE argument. The widgets usable for this are: complete-word, delete-char-or-list, expand-or-complete, expand-or-complete-prefix, list-choices, menu-complete, menu-expand-or-complete, and reverse-menu-complete, as well as menu-select if the zsh/complist module is loaded. The option -n prevents the key being bound if it is already to bound to something other than undefined-key. The form with -K is similar and defines multiple widgets based on the same FUNCTION, each of which requires the set of three arguments NAME, STYLE and KEY-SEQuence, where the latter two are as for -k and the first must be a unique widget name beginning with an underscore. Wherever applicable, the -a option makes the FUNCTION autoloadable, equivalent to autoload -U FUNCTION. The function compdef can be used to associate existing completion functions with new commands. For example, compdef _pids foo uses the function _pids to complete process IDs for the command foo. Note also the _gnu_generic function described below, which can be used to complete options for commands that understand the `--help' option.  File: zsh.info, Node: Completion System Configuration, Next: Control Functions, Prev: Initialization, Up: Completion System 20.3 Completion System Configuration ==================================== This section gives a short overview of how the completion system works, and then more detail on how users can configure how and when matches are generated. 20.3.1 Overview --------------- When completion is attempted somewhere on the command line the completion system begins building the context. The context represents everything that the shell knows about the meaning of the command line and the significance of the cursor position. This takes account of a number of things including the command word (such as `grep' or `zsh') and options to which the current word may be an argument (such as the `-o' option to zsh which takes a shell option as an argument). The context starts out very generic ("we are beginning a completion") and becomes more specific as more is learned ("the current word is in a position that is usually a command name" or "the current word might be a variable name" and so on). Therefore the context will vary during the same call to the completion system. This context information is condensed into a string consisting of multiple fields separated by colons, referred to simply as `the context' in the remainder of the documentation. Note that a user of the completion system rarely needs to compose a context string, unless for example a new function is being written to perform completion for a new command. What a user may need to do is compose a _style_ pattern, which is matched against a context when needed to look up context-sensitive options that configure the completion system. The next few paragraphs explain how a context is composed within the completion function suite. Following that is discussion of how _styles_ are defined. Styles determine such things as how the matches are generated, similarly to shell options but with much more control. They are defined with the zstyle builtin command (*Note The zsh/zutil Module::). The context string always consists of a fixed set of fields, separated by colons and with a leading colon before the first. Fields which are not yet known are left empty, but the surrounding colons appear anyway. The fields are always in the order :completion:FUNCTION:COMPLETER:COMMAND:ARGUMENT:TAG. These have the following meaning: * The literal string completion, saying that this style is used by the completion system. This distinguishes the context from those used by, for example, zle widgets and ZFTP functions. * The FUNCTION, if completion is called from a named widget rather than through the normal completion system. Typically this is blank, but it is set by special widgets such as predict-on and the various functions in the Widget directory of the distribution to the name of that function, often in an abbreviated form. * The COMPLETER currently active, the name of the function without the leading underscore and with other underscores converted to hyphens. A `completer' is in overall control of how completion is to be performed; `complete' is the simplest, but other completers exist to perform related tasks such as correction, or to modify the behaviour of a later completer. See *Note Control Functions:: for more information. * The COMMAND or a special -CONTEXT-, just at it appears following the #compdef tag or the compdef function. Completion functions for commands that have sub-commands usually modify this field to contain the name of the command followed by a minus sign and the sub-command. For example, the completion function for the cvs command sets this field to cvs-add when completing arguments to the add subcommand. * The ARGUMENT; this indicates which command line or option argument we are completing. For command arguments this generally takes the form argument-N, where N is the number of the argument, and for arguments to options the form option-OPT-N where N is the number of the argument to option OPT. However, this is only the case if the command line is parsed with standard UNIX-style options and arguments, so many completions do not set this. * The TAG. As described previously, tags are used to discriminate between the types of matches a completion function can generate in a certain context. Any completion function may use any tag name it likes, but a list of the more common ones is given below. The context is gradually put together as the functions are executed, starting with the main entry point, which adds :completion: and the FUNCTION element if necessary. The completer then adds the COMPLETER element. The contextual completion adds the COMMAND and ARGUMENT options. Finally, the TAG is added when the types of completion are known. For example, the context name :completion::complete:dvips:option-o-1:files says that normal completion was attempted as the first argument to the option -o of the command dvips: dvips -o ... and the completion function will generate filenames. Usually completion will be tried for all possible tags in an order given by the completion function. However, this can be altered by using the tag-order style. Completion is then restricted to the list of given tags in the given order. The _complete_help bindable command shows all the contexts and tags available for completion at a particular point. This provides an easy way of finding information for tag-order and other styles. It is described in *Note Bindable Commands::. When looking up styles the completion system uses full context names, including the tag. Looking up the value of a style therefore consists of two things: the context, which is matched to the most specific (best fitting) style pattern, and the name of the style itself, which must be matched exactly. The following examples demonstrate that style patterns may be loosely defined for styles that apply broadly, or as tightly defined as desired for styles that apply in narrower circumstances. For example, many completion functions can generate matches in a simple and a verbose form and use the verbose style to decide which form should be used. To make all such functions use the verbose form, put zstyle ':completion:*' verbose yes in a startup file (probably .zshrc). This gives the verbose style the value yes in every context inside the completion system, unless that context has a more specific definition. It is best to avoid giving the context as `*' in case the style has some meaning outside the completion system. Many such general purpose styles can be configured simply by using the compinstall function. A more specific example of the use of the verbose style is by the completion for the kill builtin. If the style is set, the builtin lists full job texts and process command lines; otherwise it shows the bare job numbers and PIDs. To turn the style off for this use only: zstyle ':completion:*:*:kill:*:*' verbose no For even more control, the style can use one of the tags `jobs' or `processes'. To turn off verbose display only for jobs: zstyle ':completion:*:*:kill:*:jobs' verbose no The -e option to zstyle even allows completion function code to appear as the argument to a style; this requires some understanding of the internals of completion functions (see *Note Completion Widgets::)). For example, zstyle -e ':completion:*' hosts 'reply=($myhosts)' This forces the value of the hosts style to be read from the variable myhosts each time a host name is needed; this is useful if the value of myhosts can change dynamically. For another useful example, see the example in the description of the file-list style below. This form can be slow and should be avoided for commonly examined styles such as menu and list-rows-first. Note that the order in which styles are _defined_ does not matter; the style mechanism uses the most specific possible match for a particular style to determine the set of values. More precisely, strings are preferred over patterns (for example, `:completion::complete:::foo' is more specific than `:completion::complete:::*'), and longer patterns are preferred over shorter patterns. A good rule of thumb is that any completion style pattern that needs to include more than one wildcard (*) and that does not end in a tag name, should include all six colons (:), possibly surrounding additional wildcards. Style names like those of tags are arbitrary and depend on the completion function. However, the following two sections list some of the most common tags and styles. 20.3.2 Standard Tags -------------------- Some of the following are only used when looking up particular styles and do not refer to a type of match. accounts used to look up the users-hosts style all-expansions used by the _expand completer when adding the single string containing all possible expansions all-files for the names of all files (as distinct from a particular subset, see the globbed-files tag). arguments for arguments to a command arrays for names of array parameters association-keys for keys of associative arrays; used when completing inside a subscript to a parameter of this type bookmarks when completing bookmarks (e.g. for URLs and the zftp function suite) builtins for names of builtin commands characters for single characters in arguments of commands such as stty. Also used when completing character classes after an opening bracket colormapids for X colormap ids colors for color names commands for names of external commands. Also used by complex commands such as cvs when completing names subcommands. contexts for contexts in arguments to the zstyle builtin command corrections used by the _approximate and _correct completers for possible corrections cursors for cursor names used by X programs default used in some contexts to provide a way of supplying a default when more specific tags are also valid. Note that this tag is used when only the FUNCTION field of the context name is set descriptions used when looking up the value of the format style to generate descriptions for types of matches devices for names of device special files directories for names of directories -- local-directories is used instead when completing arguments of cd and related builtin commands when the cdpath array is set directory-stack for entries in the directory stack displays for X display names domains for network domains email-PLUGIN for email addresses from the `_email-PLUGIN' backend of _email_addresses expansions used by the _expand completer for individual words (as opposed to the complete set of expansions) resulting from the expansion of a word on the command line extensions for X server extensions file-descriptors for numbers of open file descriptors files the generic file-matching tag used by functions completing filenames fonts for X font names fstypes for file system types (e.g. for the mount command) functions names of functions -- normally shell functions, although certain commands may understand other kinds of function globbed-files for filenames when the name has been generated by pattern matching groups for names of user groups history-words for words from the history hosts for hostnames indexes for array indexes jobs for jobs (as listed by the `jobs' builtin) interfaces for network interfaces keymaps for names of zsh keymaps keysyms for names of X keysyms libraries for names of system libraries limits for system limits local-directories for names of directories that are subdirectories of the current working directory when completing arguments of cd and related builtin commands (compare path-directories) -- when the cdpath array is unset, directories is used instead manuals for names of manual pages mailboxes for e-mail folders maps for map names (e.g. NIS maps) messages used to look up the format style for messages modifiers for names of X modifiers modules for modules (e.g. zsh modules) my-accounts used to look up the users-hosts style named-directories for named directories (you wouldn't have guessed that, would you?) names for all kinds of names newsgroups for USENET groups nicknames for nicknames of NIS maps options for command options original used by the _approximate, _correct and _expand completers when offering the original string as a match other-accounts used to look up the users-hosts style other-files for the names of any non-directory files. This is used instead of all-files when the list-dirs-first style is in effect. packages for packages (e.g. rpm or installed Debian packages) parameters for names of parameters path-directories for names of directories found by searching the cdpath array when completing arguments of cd and related builtin commands (compare local-directories) paths used to look up the values of the expand, ambiguous and special-dirs styles pods for perl pods (documentation files) ports for communication ports prefixes for prefixes (like those of a URL) printers for print queue names processes for process identifiers processes-names used to look up the command style when generating the names of processes for killall sequences for sequences (e.g. mh sequences) sessions for sessions in the zftp function suite signals for signal names strings for strings (e.g. the replacement strings for the cd builtin command) styles for styles used by the zstyle builtin command suffixes for filename extensions tags for tags (e.g. rpm tags) targets for makefile targets time-zones for time zones (e.g. when setting the TZ parameter) types for types of whatever (e.g. address types for the xhost command) urls used to look up the urls and local styles when completing URLs users for usernames values for one of a set of values in certain lists variant used by _pick_variant to look up the command to run when determining what program is installed for a particular command name. visuals for X visuals warnings used to look up the format style for warnings widgets for zsh widget names windows for IDs of X windows zsh-options for shell options 20.3.3 Standard Styles ---------------------- Note that the values of several of these styles represent boolean values. Any of the strings `true', `on', `yes', and `1' can be used for the value `true' and any of the strings `false', `off', `no', and `0' for the value `false'. The behavior for any other value is undefined except where explicitly mentioned. The default value may be either `true' or `false' if the style is not set. Some of these styles are tested first for every possible tag corresponding to a type of match, and if no style was found, for the default tag. The most notable styles of this type are menu, list-colors and styles controlling completion listing such as list-packed and last-prompt. When tested for the default tag, only the FUNCTION field of the context will be set so that a style using the default tag will normally be defined along the lines of: zstyle ':completion:*:default' menu ... accept-exact This is tested for the default tag in addition to the tags valid for the current context. If it is set to `true' and any of the trial matches is the same as the string on the command line, this match will immediately be accepted (even if it would otherwise be considered ambiguous). When completing pathnames (where the tag used is `paths') this style accepts any number of patterns as the value in addition to the boolean values. Pathnames matching one of these patterns will be accepted immediately even if the command line contains some more partially typed pathname components and these match no file under the directory accepted. This style is also used by the _expand completer to decide if words beginning with a tilde or parameter expansion should be expanded. For example, if there are parameters foo and foobar, the string `$foo' will only be expanded if accept-exact is set to `true'; otherwise the completion system will be allowed to complete $foo to $foobar. If the style is set to `continue', _expand will add the expansion as a match and the completion system will also be allowed to continue. accept-exact-dirs This is used by filename completion. Unlike accept-exact it is a boolean. By default, filename completion examines all components of a path to see if there are completions of that component, even if the component matches an existing directory. For example, when completion after /usr/bin/, the function examines possible completions to /usr. When this style is `true', any prefix of a path that matches an existing directory is accepted without any attempt to complete it further. Hence, in the given example, the path /usr/bin/ is accepted immediately and completion tried in that directory. This style is also useful when completing after directories that magically appear when referenced, such as ZFS .zfs directories or NetApp .snapshot directories. When the style is set the shell does not check for the existence of the directory within the parent directory. If you wish to inhibit this behaviour entirely, set the path-completion style (see below) to `false'. add-space This style is used by the _expand completer. If it is `true' (the default), a space will be inserted after all words resulting from the expansion, or a slash in the case of directory names. If the value is `file', the completer will only add a space to names of existing files. Either a boolean `true' or the value `file' may be combined with `subst', in which case the completer will not add a space to words generated from the expansion of a substitution of the form `$(...)' or `${...}'. The _prefix completer uses this style as a simple boolean value to decide if a space should be inserted before the suffix. ambiguous This applies when completing non-final components of filename paths, in other words those with a trailing slash. If it is set, the cursor is left after the first ambiguous component, even if menu completion is in use. The style is always tested with the paths tag. assign-list When completing after an equals sign that is being treated as an assignment, the completion system normally completes only one filename. In some cases the value may be a list of filenames separated by colons, as with PATH and similar parameters. This style can be set to a list of patterns matching the names of such parameters. The default is to complete lists when the word on the line already contains a colon. auto-description If set, this style's value will be used as the description for options that are not described by the completion functions, but that have exactly one argument. The sequence `%d' in the value will be replaced by the description for this argument. Depending on personal preferences, it may be useful to set this style to something like `specify: %d'. Note that this may not work for some commands. avoid-completer This is used by the _all_matches completer to decide if the string consisting of all matches should be added to the list currently being generated. Its value is a list of names of completers. If any of these is the name of the completer that generated the matches in this completion, the string will not be added. The default value for this style is `_expand _old_list _correct _approximate', i.e. it contains the completers for which a string with all matches will almost never be wanted. cache-path This style defines the path where any cache files containing dumped completion data are stored. It defaults to `$ZDOTDIR/.zcompcache', or `$HOME/.zcompcache' if $ZDOTDIR is not defined. The completion cache will not be used unless the use-cache style is set. cache-policy This style defines the function that will be used to determine whether a cache needs rebuilding. See the section on the _cache_invalid function below. call-command This style is used in the function for commands such as make and ant where calling the command directly to generate matches suffers problems such as being slow or, as in the case of make can potentially cause actions in the makefile to be executed. If it is set to `true' the command is called to generate matches. The default value of this style is `false'. command In many places, completion functions need to call external commands to generate the list of completions. This style can be used to override the command that is called in some such cases. The elements of the value are joined with spaces to form a command line to execute. The value can also start with a hyphen, in which case the usual command will be added to the end; this is most useful for putting `builtin' or `command' in front to make sure the appropriate version of a command is called, for example to avoid calling a shell function with the same name as an external command. As an example, the completion function for process IDs uses this style with the processes tag to generate the IDs to complete and the list of processes to display (if the verbose style is `true'). The list produced by the command should look like the output of the ps command. The first line is not displayed, but is searched for the string `PID' (or `pid') to find the position of the process IDs in the following lines. If the line does not contain `PID', the first numbers in each of the other lines are taken as the process IDs to complete. Note that the completion function generally has to call the specified command for each attempt to generate the completion list. Hence care should be taken to specify only commands that take a short time to run, and in particular to avoid any that may never terminate. command-path This is a list of directories to search for commands to complete. The default for this style is the value of the special parameter path. commands This is used by the function completing sub-commands for the system initialisation scripts (residing in /etc/init.d or somewhere not too far away from that). Its values give the default commands to complete for those commands for which the completion function isn't able to find them out automatically. The default for this style are the two strings `start' and `stop'. complete This is used by the _expand_alias function when invoked as a bindable command. If set to `true' and the word on the command line is not the name of an alias, matching alias names will be completed. complete-options This is used by the completer for cd, chdir and pushd. For these commands a - is used to introduce a directory stack entry and completion of these is far more common than completing options. Hence unless the value of this style is `true' options will not be completed, even after an initial -. If it is `true', options will be completed after an initial - unless there is a preceding -- on the command line. completer The strings given as the value of this style provide the names of the completer functions to use. The available completer functions are described in *Note Control Functions::. Each string may be either the name of a completer function or a string of the form `FUNCTION:NAME'. In the first case the COMPLETER field of the context will contain the name of the completer without the leading underscore and with all other underscores replaced by hyphens. In the second case the FUNCTION is the name of the completer to call, but the context will contain the user-defined NAME in the COMPLETER field of the context. If the NAME starts with a hyphen, the string for the context will be build from the name of the completer function as in the first case with the NAME appended to it. For example: zstyle ':completion:*' completer _complete _complete:-foo Here, completion will call the _complete completer twice, once using `complete' and once using `complete-foo' in the COMPLETER field of the context. Normally, using the same completer more than once only makes sense when used with the `FUNCTIONS:NAME' form, because otherwise the context name will be the same in all calls to the completer; possible exceptions to this rule are the _ignored and _prefix completers. The default value for this style is `_complete _ignored': only completion will be done, first using the ignored-patterns style and the $fignore array and then without ignoring matches. condition This style is used by the _list completer function to decide if insertion of matches should be delayed unconditionally. The default is `true'. delimiters This style is used when adding a delimiter for use with history modifiers or glob qualifiers that have delimited arguments. It is an array of preferred delimiters to add. Non-special characters are preferred as the completion system may otherwise become confused. The default list is :, +, /, -, %. The list may be empty to force a delimiter to be typed. disabled If this is set to `true', the _expand_alias completer and bindable command will try to expand disabled aliases, too. The default is `false'. domains A list of names of network domains for completion. If this is not set, domain names will be taken from the file /etc/resolv.conf. environ The environ style is used when completing for `sudo'. It is set to an array of `VAR=VALUE' assignments to be exported into the local environment before the completion for the target command is invoked. zstyle ':completion:*:sudo::' environ \ PATH="/sbin:/usr/sbin:$PATH" HOME="/root" expand This style is used when completing strings consisting of multiple parts, such as path names. If one of its values is the string `prefix', the partially typed word from the line will be expanded as far as possible even if trailing parts cannot be completed. If one of its values is the string `suffix', matching names for components after the first ambiguous one will also be added. This means that the resulting string is the longest unambiguous string possible. However, menu completion can be used to cycle through all matches. fake This style may be set for any completion context. It specifies additional strings that will always be completed in that context. The form of each string is `VALUE:DESCRIPTION'; the colon and description may be omitted, but any literal colons in VALUE must be quoted with a backslash. Any DESCRIPTION provided is shown alongside the value in completion listings. It is important to use a sufficiently restrictive context when specifying fake strings. Note that the styles fake-files and fake-parameters provide additional features when completing files or parameters. fake-always This works identically to the fake style except that the ignored-patterns style is not applied to it. This makes it possible to override a set of matches completely by setting the ignored patterns to `*'. The following shows a way of supplementing any tag with arbitrary data, but having it behave for display purposes like a separate tag. In this example we use the features of the tag-order style to divide the named-directories tag into two when performing completion with the standard completer complete for arguments of cd. The tag named-directories-normal behaves as normal, but the tag named-directories-mine contains a fixed set of directories. This has the effect of adding the match group `extra directories' with the given completions. zstyle ':completion::complete:cd:*' tag-order \ 'named-directories:-mine:extra\ directories named-directories:-normal:named\ directories *' zstyle ':completion::complete:cd:*:named-directories-mine' \ fake-always mydir1 mydir2 zstyle ':completion::complete:cd:*:named-directories-mine' \ ignored-patterns '*' fake-files This style is used when completing files and looked up without a tag. Its values are of the form `DIR:NAMES...'. This will add the NAMES (strings separated by spaces) as possible matches when completing in the directory DIR, even if no such files really exist. The dir may be a pattern; pattern characters or colons in DIR should be quoted with a backslash to be treated literally. This can be useful on systems that support special file systems whose top-level pathnames can not be listed or generated with glob patterns (but see accept-exact-dirs for a more general way of dealing with this problem). It can also be used for directories for which one does not have read permission. The pattern form can be used to add a certain `magic' entry to all directories on a particular file system. fake-parameters This is used by the completion function for parameter names. Its values are names of parameters that might not yet be set but should be completed nonetheless. Each name may also be followed by a colon and a string specifying the type of the parameter (like `scalar', `array' or `integer'). If the type is given, the name will only be completed if parameters of that type are required in the particular context. Names for which no type is specified will always be completed. file-list This style controls whether files completed using the standard builtin mechanism are to be listed with a long list similar to ls -l. Note that this feature uses the shell module zsh/stat for file information; this loads the builtin stat which will replace any external stat executable. To avoid this the following code can be included in an initialization file: zmodload -i zsh/stat disable stat The style may either be set to a `true' value (or `all'), or one of the values `insert' or `list', indicating that files are to be listed in long format in all circumstances, or when attempting to insert a file name, or when listing file names without attempting to insert one. More generally, the value may be an array of any of the above values, optionally followed by =NUM. If NUM is present it gives the maximum number of matches for which long listing style will be used. For example, zstyle ':completion:*' file-list list=20 insert=10 specifies that long format will be used when listing up to 20 files or inserting a file with up to 10 matches (assuming a listing is to be shown at all, for example on an ambiguous completion), else short format will be used. zstyle -e ':completion:*' file-list \ '(( ${+NUMERIC} )) && reply=(true)' specifies that long format will be used any time a numeric argument is supplied, else short format. file-patterns This is used by the standard function for completing filenames, _files. If the style is unset up to three tags are offered, `globbed-files',`directories' and `all-files', depending on the types of files expected by the caller of _files. The first two (`globbed-files' and `directories') are normally offered together to make it easier to complete files in sub-directories. The file-patterns style provides alternatives to the default tags, which are not used. Its value consists of elements of the form `PATTERN:TAG'; each string may contain any number of such specifications separated by spaces. The PATTERN is a pattern that is to be used to generate filenames. Any occurrence of the sequence `%p' is replaced by any pattern(s) passed by the function calling _files. Colons in the pattern must be preceded by a backslash to make them distinguishable from the colon before the TAG. If more than one pattern is needed, the patterns can be given inside braces, separated by commas. The TAGs of all strings in the value will be offered by _files and used when looking up other styles. Any TAGs in the same word will be offered at the same time and before later words. If no `:TAG' is given the `files' tag will be used. The TAG may also be followed by an optional second colon and a description, which will be used for the `%d' in the value of the format style (if that is set) instead of the default description supplied by the completion function. If the description given here contains itself a `%d', that is replaced with the description supplied by the completion function. For example, to make the rm command first complete only names of object files and then the names of all files if there is no matching object file: zstyle ':completion:*:*:rm:*:*' file-patterns \ '*.o:object-files' '%p:all-files' To alter the default behaviour of file completion -- offer files matching a pattern and directories on the first attempt, then all files -- to offer only matching files on the first attempt, then directories, and finally all files: zstyle ':completion:*' file-patterns \ '%p:globbed-files' '*(-/):directories' '*:all-files' This works even where there is no special pattern: _files matches all files using the pattern `*' at the first step and stops when it sees this pattern. Note also it will never try a pattern more than once for a single completion attempt. During the execution of completion functions, the EXTENDED_GLOB option is in effect, so the characters `#', `~' and `^' have special meanings in the patterns. file-sort The standard filename completion function uses this style without a tag to determine in which order the names should be listed; menu completion will cycle through them in the same order. The possible values are: `size' to sort by the size of the file; `links' to sort by the number of links to the file; `modification' (or `time' or `date') to sort by the last modification time; `access' to sort by the last access time; and `inode' (or `change') to sort by the last inode change time. If the style is set to any other value, or is unset, files will be sorted alphabetically by name. If the value contains the string `reverse', sorting is done in the opposite order. If the value contains the string `follow', timestamps are associated with the targets of symbolic links; the default is to use the timestamps of the links themselves. file-split-chars A set of characters that will cause _all_ file completions for the given context to be split at the point where any of the characters occurs. A typical use is to set the style to :; then everything up to and including the last : in the string so far is ignored when completing files. As this is quite heavy-handed, it is usually preferable to update completion functions for contexts where this behaviour is useful. filter The ldap plugin of email address completion (see _email_addresses) uses this style to specify the attributes to match against when filtering entries. So for example, if the style is set to `sn', matching is done against surnames. Standard LDAP filtering is used so normal completion matching is bypassed. If this style is not set, the LDAP plugin is skipped. You may also need to set the command style to specify how to connect to your LDAP server. force-list This forces a list of completions to be shown at any point where listing is done, even in cases where the list would usually be suppressed. For example, normally the list is only shown if there are at least two different matches. By setting this style to `always', the list will always be shown, even if there is only a single match that will immediately be accepted. The style may also be set to a number. In this case the list will be shown if there are at least that many matches, even if they would all insert the same string. This style is tested for the default tag as well as for each tag valid for the current completion. Hence the listing can be forced only for certain types of match. format If this is set for the descriptions tag, its value is used as a string to display above matches in completion lists. The sequence `%d' in this string will be replaced with a short description of what these matches are. This string may also contain the output attribute sequences understood by compadd -X (see *Note Completion Widgets::). The style is tested with each tag valid for the current completion before it is tested for the descriptions tag. Hence different format strings can be defined for different types of match. Note also that some completer functions define additional `%'-sequences. These are described for the completer functions that make use of them. Some completion functions display messages that may be customised by setting this style for the messages tag. Here, the `%d' is replaced with a message given by the completion function. Finally, the format string is looked up with the warnings tag, for use when no matches could be generated at all. In this case the `%d' is replaced with the descriptions for the matches that were expected separated by spaces. The sequence `%D' is replaced with the same descriptions separated by newlines. It is possible to use printf-style field width specifiers with `%d' and similar escape sequences. This is handled by the zformat builtin command from the zsh/zutil module, see *Note The zsh/zutil Module::. glob This is used by the _expand completer. If it is set to `true' (the default), globbing will be attempted on the words resulting from a previous substitution (see the substitute style) or else the original string from the line. global If this is set to `true' (the default), the _expand_alias completer and bindable command will try to expand global aliases. group-name The completion system can group different types of matches, which appear in separate lists. This style can be used to give the names of groups for particular tags. For example, in command position the completion system generates names of builtin and external commands, names of aliases, shell functions and parameters and reserved words as possible completions. To have the external commands and shell functions listed separately: zstyle ':completion:*:*:-command-:*:commands' \ group-name commands zstyle ':completion:*:*:-command-:*:functions' \ group-name functions As a consequence, any match with the same tag will be displayed in the same group. If the name given is the empty string the name of the tag for the matches will be used as the name of the group. So, to have all different types of matches displayed separately, one can just set: zstyle ':completion:*' group-name '' All matches for which no group name is defined will be put in a group named -default-. group-order This style is additional to the group-name style to specify the order for display of the groups defined by that style (compare tag-order, which determines which completions appear at all). The groups named are shown in the given order; any other groups are shown in the order defined by the completion function. For example, to have names of builtin commands, shell functions and external commands appear in that order when completing in command position: zstyle ':completion:*:*:-command-:*:*' group-order \ builtins functions commands groups A list of names of UNIX groups. If this is not set, group names are taken from the YP database or the file `/etc/group'. hidden If this is set to `true', matches for the given context will not be listed, although any description for the matches set with the format style will be shown. If it is set to `all', not even the description will be displayed. Note that the matches will still be completed; they are just not shown in the list. To avoid having matches considered as possible completions at all, the tag-order style can be modified as described below. hosts A list of names of hosts that should be completed. If this is not set, hostnames are taken from the file `/etc/hosts'. hosts-ports This style is used by commands that need or accept hostnames and network ports. The strings in the value should be of the form `HOST:PORT'. Valid ports are determined by the presence of hostnames; multiple ports for the same host may appear. ignore-line This is tested for each tag valid for the current completion. If it is set to `true', none of the words that are already on the line will be considered as possible completions. If it is set to `current', the word the cursor is on will not be considered as a possible completion. The value `current-shown' is similar but only applies if the list of completions is currently shown on the screen. Finally, if the style is set to `other', all words on the line except for the current one will be excluded from the possible completions. The values `current' and `current-shown' are a bit like the opposite of the accept-exact style: only strings with missing characters will be completed. Note that you almost certainly don't want to set this to `true' or `other' for a general context such as `:completion:*'. This is because it would disallow completion of, for example, options multiple times even if the command in question accepts the option more than once. ignore-parents The style is tested without a tag by the function completing pathnames in order to determine whether to ignore the names of directories already mentioned in the current word, or the name of the current working directory. The value must include one or both of the following strings: parent The name of any directory whose path is already contained in the word on the line is ignored. For example, when completing after foo/../, the directory foo will not be considered a valid completion. pwd The name of the current working directory will not be completed; hence, for example, completion after ../ will not use the name of the current directory. In addition, the value may include one or both of: .. Ignore the specified directories only when the word on the line contains the substring `../'. directory Ignore the specified directories only when names of directories are completed, not when completing names of files. Excluded values act in a similar fashion to values of the ignored-patterns style, so they can be restored to consideration by the _ignored completer. extra-verbose If set, the completion listing is more verbose at the cost of a probable decrease in completion speed. Completion performance will suffer if this style is set to `true'. ignored-patterns A list of patterns; any trial completion matching one of the patterns will be excluded from consideration. The _ignored completer can appear in the list of completers to restore the ignored matches. This is a more configurable version of the shell parameter $fignore. Note that the EXTENDED_GLOB option is set during the execution of completion functions, so the characters `#', `~' and `^' have special meanings in the patterns. insert This style is used by the _all_matches completer to decide whether to insert the list of all matches unconditionally instead of adding the list as another match. insert-ids When completing process IDs, for example as arguments to the kill and wait builtins the name of a command may be converted to the appropriate process ID. A problem arises when the process name typed is not unique. By default (or if this style is set explicitly to `menu') the name will be converted immediately to a set of possible IDs, and menu completion will be started to cycle through them. If the value of the style is `single', the shell will wait until the user has typed enough to make the command unique before converting the name to an ID; attempts at completion will be unsuccessful until that point. If the value is any other string, menu completion will be started when the string typed by the user is longer than the common prefix to the corresponding IDs. insert-tab If this is set to `true', the completion system will insert a TAB character (assuming that was used to start completion) instead of performing completion when there is no non-blank character to the left of the cursor. If it is set to `false', completion will be done even there. The value may also contain the substrings `pending' or `pending=VAL'. In this case, the typed character will be inserted instead of starting completion when there is unprocessed input pending. If a VAL is given, completion will not be done if there are at least that many characters of unprocessed input. This is often useful when pasting characters into a terminal. Note however, that it relies on the $PENDING special parameter from the zsh/zle module being set properly which is not guaranteed on all platforms. The default value of this style is `true' except for completion within vared builtin command where it is `false'. insert-unambiguous This is used by the _match and _approximate completers. These completers are often used with menu completion since the word typed may bear little resemblance to the final completion. However, if this style is `true', the completer will start menu completion only if it could find no unambiguous initial string at least as long as the original string typed by the user. In the case of the _approximate completer, the completer field in the context will already have been set to one of correct-NUM or approximate-NUM, where NUM is the number of errors that were accepted. In the case of the _match completer, the style may also be set to the string `pattern'. Then the pattern on the line is left unchanged if it does not match unambiguously. gain-privileges If set to true, this style enables the use of commands like sudo or doas to gain extra privileges when retrieving information for completion. This is only done when a command such as sudo appears on the command-line. To force the use of, e.g. sudo or to override any prefix that might be added due to gain-privileges, the command style can be used with a value that begins with a hyphen. keep-prefix This style is used by the _expand completer. If it is `true', the completer will try to keep a prefix containing a tilde or parameter expansion. Hence, for example, the string `~/f*' would be expanded to `~/foo' instead of `/home/user/foo'. If the style is set to `changed' (the default), the prefix will only be left unchanged if there were other changes between the expanded words and the original word from the command line. Any other value forces the prefix to be expanded unconditionally. The behaviour of _expand when this style is `true' is to cause _expand to give up when a single expansion with the restored prefix is the same as the original; hence any remaining completers may be called. last-prompt This is a more flexible form of the ALWAYS_LAST_PROMPT option. If it is `true', the completion system will try to return the cursor to the previous command line after displaying a completion list. It is tested for all tags valid for the current completion, then the default tag. The cursor will be moved back to the previous line if this style is `true' for all types of match. Note that unlike the ALWAYS_LAST_PROMPT option this is independent of the numeric argument. known-hosts-files This style should contain a list of files to search for host names and (if the use-ip style is set) IP addresses in a format compatible with ssh known_hosts files. If it is not set, the files /etc/ssh/ssh_known_hosts and ~/.ssh/known_hosts are used. list This style is used by the _history_complete_word bindable command. If it is set to `true' it has no effect. If it is set to `false' matches will not be listed. This overrides the setting of the options controlling listing behaviour, in particular AUTO_LIST. The context always starts with `:completion:history-words'. list-colors If the zsh/complist module is loaded, this style can be used to set color specifications. This mechanism replaces the use of the ZLS_COLORS and ZLS_COLOURS parameters described in *Note The zsh/complist Module::, but the syntax is the same. If this style is set for the default tag, the strings in the value are taken as specifications that are to be used everywhere. If it is set for other tags, the specifications are used only for matches of the type described by the tag. For this to work best, the group-name style must be set to an empty string. In addition to setting styles for specific tags, it is also possible to use group names specified explicitly by the group-name tag together with the `(group)' syntax allowed by the ZLS_COLORS and ZLS_COLOURS parameters and simply using the default tag. It is possible to use any color specifications already set up for the GNU version of the ls command: zstyle ':completion:*:default' list-colors \ ${(s.:.)LS_COLORS} The default colors are the same as for the GNU ls command and can be obtained by setting the style to an empty string (i.e. ''). list-dirs-first This is used by file completion. If set, directories to be completed are listed separately from and before completion for other files, regardless of tag ordering. In addition, the tag other-files is used in place of all-files for the remaining files, to indicate that no directories are presented with that tag. list-grouped If this style is `true' (the default), the completion system will try to make certain completion listings more compact by grouping matches. For example, options for commands that have the same description (shown when the verbose style is set to `true') will appear as a single entry. However, menu selection can be used to cycle through all the matches. list-packed This is tested for each tag valid in the current context as well as the default tag. If it is set to `true', the corresponding matches appear in listings as if the LIST_PACKED option were set. If it is set to `false', they are listed normally. list-prompt If this style is set for the default tag, completion lists that don't fit on the screen can be scrolled (see *Note The zsh/complist Module::). The value, if not the empty string, will be displayed after every screenful and the shell will prompt for a key press; if the style is set to the empty string, a default prompt will be used. The value may contain the escape sequences: `%l' or `%L', which will be replaced by the number of the last line displayed and the total number of lines; `%m' or `%M', the number of the last match shown and the total number of matches; and `%p' and `%P', `Top' when at the beginning of the list, `Bottom' when at the end and the position shown as a percentage of the total length otherwise. In each case the form with the uppercase letter will be replaced by a string of fixed width, padded to the right with spaces, while the lowercase form will be replaced by a variable width string. As in other prompt strings, the escape sequences `%S', `%s', `%B', `%b', `%U', `%u' for entering and leaving the display modes standout, bold and underline, and `%F', `%f', `%K', `%k' for changing the foreground background colour, are also available, as is the form `%{...%}' for enclosing escape sequences which display with zero (or, with a numeric argument, some other) width. After deleting this prompt the variable LISTPROMPT should be unset for the removal to take effect. list-rows-first This style is tested in the same way as the list-packed style and determines whether matches are to be listed in a rows-first fashion as if the LIST_ROWS_FIRST option were set. list-suffixes This style is used by the function that completes filenames. If it is `true', and completion is attempted on a string containing multiple partially typed pathname components, all ambiguous components will be shown. Otherwise, completion stops at the first ambiguous component. list-separator The value of this style is used in completion listing to separate the string to complete from a description when possible (e.g. when completing options). It defaults to `--' (two hyphens). local This is for use with functions that complete URLs for which the corresponding files are available directly from the file system. Its value should consist of three strings: a hostname, the path to the default web pages for the server, and the directory name used by a user placing web pages within their home area. For example: zstyle ':completion:*' local toast \ /var/http/public/toast public_html Completion after `http://toast/stuff/' will look for files in the directory /var/http/public/toast/stuff, while completion after `http://toast/~yousir/' will look for files in the directory ~yousir/public_html. mail-directory If set, zsh will assume that mailbox files can be found in the directory specified. It defaults to `~/Mail'. match-original This is used by the _match completer. If it is set to only, _match will try to generate matches without inserting a `*' at the cursor position. If set to any other non-empty value, it will first try to generate matches without inserting the `*' and if that yields no matches, it will try again with the `*' inserted. If it is unset or set to the empty string, matching will only be performed with the `*' inserted. matcher This style is tested separately for each tag valid in the current context. Its value is placed before any match specifications given by the matcher-list style so can override them via the use of an x: specification. The value should be in the form described in *Note Completion Matching Control::. For examples of this, see the description of the tag-order style. For notes comparing the use of this and the matcher-list style, see under the description of the tag-order style. matcher-list This style can be set to a list of match specifications that are to be applied everywhere. Match specifications are described in *Note Completion Matching Control::. The completion system will try them one after another for each completer selected. For example, to try first simple completion and, if that generates no matches, case-insensitive completion: zstyle ':completion:*' matcher-list '' 'm:{a-zA-Z}={A-Za-z}' By default each specification replaces the previous one; however, if a specification is prefixed with +, it is added to the existing list. Hence it is possible to create increasingly general specifications without repetition: zstyle ':completion:*' matcher-list \ '' '+m:{a-z}={A-Z}' '+m:{A-Z}={a-z}' It is possible to create match specifications valid for particular completers by using the third field of the context. This applies only to completers that override the global matcher-list, which as of this writing includes only _prefix and _ignored. For example, to use the completers _complete and _prefix but allow case-insensitive completion only with _complete: zstyle ':completion:*' completer _complete _prefix zstyle ':completion:*:complete:*:*:*' matcher-list \ '' 'm:{a-zA-Z}={A-Za-z}' User-defined names, as explained for the completer style, are available. This makes it possible to try the same completer more than once with different match specifications each time. For example, to try normal completion without a match specification, then normal completion with case-insensitive matching, then correction, and finally partial-word completion: zstyle ':completion:*' completer \ _complete _correct _complete:foo zstyle ':completion:*:complete:*:*:*' matcher-list \ '' 'm:{a-zA-Z}={A-Za-z}' zstyle ':completion:*:foo:*:*:*' matcher-list \ 'm:{a-zA-Z}={A-Za-z} r:|[-_./]=* r:|=*' If the style is unset in any context no match specification is applied. Note also that some completers such as _correct and _approximate do not use the match specifications at all, though these completers will only ever be called once even if the matcher-list contains more than one element. Where multiple specifications are useful, note that the _entire_ completion is done for each element of matcher-list, which can quickly reduce the shell's performance. As a rough rule of thumb, one to three strings will give acceptable performance. On the other hand, putting multiple space-separated values into the same string does not have an appreciable impact on performance. If there is no current matcher or it is empty, and the option NO_CASE_GLOB is in effect, the matching for files is performed case-insensitively in any case. However, any matcher must explicitly specify case-insensitive matching if that is required. For notes comparing the use of this and the matcher style, see under the description of the tag-order style. max-errors This is used by the _approximate and _correct completer functions to determine the maximum number of errors to allow. The completer will try to generate completions by first allowing one error, then two errors, and so on, until either a match or matches were found or the maximum number of errors given by this style has been reached. If the value for this style contains the string `numeric', the completer function will take any numeric argument as the maximum number of errors allowed. For example, with zstyle ':completion:*:approximate:::' max-errors 2 numeric two errors are allowed if no numeric argument is given, but with a numeric argument of six (as in `ESC-6 TAB'), up to six errors are accepted. Hence with a value of `0 numeric', no correcting completion will be attempted unless a numeric argument is given. If the value contains the string `not-numeric', the completer will _not_ try to generate corrected completions when given a numeric argument, so in this case the number given should be greater than zero. For example, `2 not-numeric' specifies that correcting completion with two errors will usually be performed, but if a numeric argument is given, correcting completion will not be performed. The default value for this style is `2 numeric'. max-matches-width This style is used to determine the trade off between the width of the display used for matches and the width used for their descriptions when the verbose style is in effect. The value gives the number of display columns to reserve for the matches. The default is half the width of the screen. This has the most impact when several matches have the same description and so will be grouped together. Increasing the style will allow more matches to be grouped together; decreasing it will allow more of the description to be visible. menu If this is `true' in the context of any of the tags defined for the current completion menu completion will be used. The value for a specific tag will take precedence over that for the `default' tag. If none of the values found in this way is `true' but at least one is set to `auto', the shell behaves as if the AUTO_MENU option is set. If one of the values is explicitly set to `false', menu completion will be explicitly turned off, overriding the MENU_COMPLETE option and other settings. In the form `yes=NUM', where `yes' may be any of the `true' values (`yes', `true', `on' and `1'), menu completion will be turned on if there are at least NUM matches. In the form `yes=long', menu completion will be turned on if the list does not fit on the screen. This does not activate menu completion if the widget normally only lists completions, but menu completion can be activated in that case with the value `yes=long-list' (Typically, the value `select=long-list' described later is more useful as it provides control over scrolling.) Similarly, with any of the `false' values (as in `no=10'), menu completion will _not_ be used if there are NUM or more matches. The value of this widget also controls menu selection, as implemented by the zsh/complist module. The following values may appear either alongside or instead of the values above. If the value contains the string `select', menu selection will be started unconditionally. In the form `select=NUM', menu selection will only be started if there are at least NUM matches. If the values for more than one tag provide a number, the smallest number is taken. Menu selection can be turned off explicitly by defining a value containing the string`no-select'. It is also possible to start menu selection only if the list of matches does not fit on the screen by using the value `select=long'. To start menu selection even if the current widget only performs listing, use the value `select=long-list'. To turn on menu completion or menu selection when there are a certain number of matches _or_ the list of matches does not fit on the screen, both of `yes=' and `select=' may be given twice, once with a number and once with `long' or `long-list'. Finally, it is possible to activate two special modes of menu selection. The word `interactive' in the value causes interactive mode to be entered immediately when menu selection is started; see *Note The zsh/complist Module:: for a description of interactive mode. Including the string `search' does the same for incremental search mode. To select backward incremental search, include the string `search-backward'. muttrc If set, gives the location of the mutt configuration file. It defaults to `~/.muttrc'. numbers This is used with the jobs tag. If it is `true', the shell will complete job numbers instead of the shortest unambiguous prefix of the job command text. If the value is a number, job numbers will only be used if that many words from the job descriptions are required to resolve ambiguities. For example, if the value is `1', strings will only be used if all jobs differ in the first word on their command lines. old-list This is used by the _oldlist completer. If it is set to `always', then standard widgets which perform listing will retain the current list of matches, however they were generated; this can be turned off explicitly with the value `never', giving the behaviour without the _oldlist completer. If the style is unset, or any other value, then the existing list of completions is displayed if it is not already; otherwise, the standard completion list is generated; this is the default behaviour of _oldlist. However, if there is an old list and this style contains the name of the completer function that generated the list, then the old list will be used even if it was generated by a widget which does not do listing. For example, suppose you type ^Xc to use the _correct_word widget, which generates a list of corrections for the word under the cursor. Usually, typing ^D would generate a standard list of completions for the word on the command line, and show that. With _oldlist, it will instead show the list of corrections already generated. As another example consider the _match completer: with the insert-unambiguous style set to `true' it inserts only a common prefix string, if there is any. However, this may remove parts of the original pattern, so that further completion could produce more matches than on the first attempt. By using the _oldlist completer and setting this style to _match, the list of matches generated on the first attempt will be used again. old-matches This is used by the _all_matches completer to decide if an old list of matches should be used if one exists. This is selected by one of the `true' values or by the string `only'. If the value is `only', _all_matches will only use an old list and won't have any effect on the list of matches currently being generated. If this style is set it is generally unwise to call the _all_matches completer unconditionally. One possible use is for either this style or the completer style to be defined with the -e option to zstyle to make the style conditional. old-menu This is used by the _oldlist completer. It controls how menu completion behaves when a completion has already been inserted and the user types a standard completion key such as TAB. The default behaviour of _oldlist is that menu completion always continues with the existing list of completions. If this style is set to `false', however, a new completion is started if the old list was generated by a different completion command; this is the behaviour without the _oldlist completer. For example, suppose you type ^Xc to generate a list of corrections, and menu completion is started in one of the usual ways. Usually, or with this style set to `false', typing TAB at this point would start trying to complete the line as it now appears. With _oldlist, it instead continues to cycle through the list of corrections. original This is used by the _approximate and _correct completers to decide if the original string should be added as a possible completion. Normally, this is done only if there are at least two possible corrections, but if this style is set to `true', it is always added. Note that the style will be examined with the completer field in the context name set to correct-NUM or approximate-NUM, where NUM is the number of errors that were accepted. packageset This style is used when completing arguments of the Debian `dpkg' program. It contains an override for the default package set for a given context. For example, zstyle ':completion:*:complete:dpkg:option--status-1:*' \ packageset avail causes available packages, rather than only installed packages, to be completed for `dpkg --status'. path The function that completes color names uses this style with the colors tag. The value should be the pathname of a file containing color names in the format of an X11 rgb.txt file. If the style is not set but this file is found in one of various standard locations it will be used as the default. path-completion This is used by filename completion. By default, filename completion examines all components of a path to see if there are completions of that component. For example, /u/b/z can be completed to /usr/bin/zsh. Explicitly setting this style to `false' inhibits this behaviour for path components up to the / before the cursor; this overrides the setting of accept-exact-dirs. Even with the style set to `false', it is still possible to complete multiple paths by setting the option COMPLETE_IN_WORD and moving the cursor back to the first component in the path to be completed. For example, /u/b/z can be completed to /usr/bin/zsh if the cursor is after the /u. pine-directory If set, specifies the directory containing PINE mailbox files. There is no default, since recursively searching this directory is inconvenient for anyone who doesn't use PINE. ports A list of Internet service names (network ports) to complete. If this is not set, service names are taken from the file `/etc/services'. prefix-hidden This is used for certain completions which share a common prefix, for example command options beginning with dashes. If it is `true', the prefix will not be shown in the list of matches. The default value for this style is `false'. prefix-needed This style is also relevant for matches with a common prefix. If it is set to `true' this common prefix must be typed by the user to generate the matches. The style is applicable to the options, signals, jobs, functions, and parameters completion tags. For command options, this means that the initial `-', `+', or `--' must be typed explicitly before option names will be completed. For signals, an initial `-' is required before signal names will be completed. For jobs, an initial `%' is required before job names will be completed. For function and parameter names, an initial `_' or `.' is required before function or parameter names starting with those characters will be completed. The default value for this style is `false' for function and parameter completions, and `true' otherwise. preserve-prefix This style is used when completing path names. Its value should be a pattern matching an initial prefix of the word to complete that should be left unchanged under all circumstances. For example, on some Unices an initial `//' (double slash) has a special meaning; setting this style to the string `//' will preserve it. As another example, setting this style to `?:/' under Cygwin would allow completion after `a:/...' and so on. range This is used by the _history completer and the _history_complete_word bindable command to decide which words should be completed. If it is a single number, only the last N words from the history will be completed. If it is a range of the form `MAX:SLICE', the last SLICE words will be completed; then if that yields no matches, the SLICE words before those will be tried and so on. This process stops either when at least one match has been found, or MAX words have been tried. The default is to complete all words from the history at once. recursive-files If this style is set, its value is an array of patterns to be tested against `$PWD/': note the trailing slash, which allows directories in the pattern to be delimited unambiguously by including slashes on both sides. If an ordinary file completion fails and the word on the command line does not yet have a directory part to its name, the style is retrieved using the same tag as for the completion just attempted, then the elements tested against $PWD/ in turn. If one matches, then the shell reattempts completion by prepending the word on the command line with each directory in the expansion of **/*(/) in turn. Typically the elements of the style will be set to restrict the number of directories beneath the current one to a manageable number, for example `*/.git/*'. For example, zstyle ':completion:*' recursive-files '*/zsh/*' If the current directory is /home/pws/zsh/Src, then zle_tr_TAB_ can be completed to Zle/zle_tricky.c. regular This style is used by the _expand_alias completer and bindable command. If set to `true' (the default), regular aliases will be expanded but only in command position. If it is set to `false', regular aliases will never be expanded. If it is set to `always', regular aliases will be expanded even if not in command position. rehash If this is set when completing external commands, the internal list (hash) of commands will be updated for each search by issuing the rehash command. There is a speed penalty for this which is only likely to be noticeable when directories in the path have slow file access. remote-access If set to `false', certain commands will be prevented from making Internet connections to retrieve remote information. This includes the completion for the CVS command. It is not always possible to know if connections are in fact to a remote site, so some may be prevented unnecessarily. remove-all-dups The _history_complete_word bindable command and the _history completer use this to decide if all duplicate matches should be removed, rather than just consecutive duplicates. select-prompt If this is set for the default tag, its value will be displayed during menu selection (see the menu style above) when the completion list does not fit on the screen as a whole. The same escapes as for the list-prompt style are understood, except that the numbers refer to the match or line the mark is on. A default prompt is used when the value is the empty string. select-scroll This style is tested for the default tag and determines how a completion list is scrolled during a menu selection (see the menu style above) when the completion list does not fit on the screen as a whole. If the value is `0' (zero), the list is scrolled by half-screenfuls; if it is a positive integer, the list is scrolled by the given number of lines; if it is a negative number, the list is scrolled by a screenful minus the absolute value of the given number of lines. The default is to scroll by single lines. separate-sections This style is used with the manuals tag when completing names of manual pages. If it is `true', entries for different sections are added separately using tag names of the form `manual.X', where X is the section number. When the group-name style is also in effect, pages from different sections will appear separately. This style is also used similarly with the words style when completing words for the dict command. It allows words from different dictionary databases to be added separately. The default for this style is `false'. show-ambiguity If the zsh/complist module is loaded, this style can be used to highlight the first ambiguous character in completion lists. The value is either a color indication such as those supported by the list-colors style or, with a value of `true', a default of underlining is selected. The highlighting is only applied if the completion display strings correspond to the actual matches. show-completer Tested whenever a new completer is tried. If it is `true', the completion system outputs a progress message in the listing area showing what completer is being tried. The message will be overwritten by any output when completions are found and is removed after completion is finished. single-ignored This is used by the _ignored completer when there is only one match. If its value is `show', the single match will be displayed but not inserted. If the value is `menu', then the single match and the original string are both added as matches and menu completion is started, making it easy to select either of them. sort This allows the standard ordering of matches to be overridden. If its value is `true' or `false', sorting is enabled or disabled. Additionally the values associated with the `-o' option to compadd can also be listed: match, nosort, numeric, reverse. If it is not set for the context, the standard behaviour of the calling widget is used. The style is tested first against the full context including the tag, and if that fails to produce a value against the context without the tag. In many cases where a calling widget explicitly selects a particular ordering in lieu of the default, a value of `true' is not honoured. An example of where this is not the case is for command history where the default of sorting matches chronologically may be overridden by setting the style to `true'. In the _expand completer, if it is set to `true', the expansions generated will always be sorted. If it is set to `menu', then the expansions are only sorted when they are offered as single strings but not in the string containing all possible expansions. special-dirs Normally, the completion code will not produce the directory names `.' and `..' as possible completions. If this style is set to `true', it will add both `.' and `..' as possible completions; if it is set to `..', only `..' will be added. The following example sets special-dirs to `..' when the current prefix is empty, is a single `.', or consists only of a path beginning with `../'. Otherwise the value is `false'. zstyle -e ':completion:*' special-dirs \ '[[ $PREFIX = (../)#(|.|..) ]] && reply=(..)' squeeze-slashes If set to `true', sequences of slashes in filename paths (for example in `foo//bar') will be treated as a single slash. This is the usual behaviour of UNIX paths. However, by default the file completion function behaves as if there were a `*' between the slashes. stop If set to `true', the _history_complete_word bindable command will stop once when reaching the beginning or end of the history. Invoking _history_complete_word will then wrap around to the opposite end of the history. If this style is set to `false' (the default), _history_complete_word will loop immediately as in a menu completion. strip-comments If set to `true', this style causes non-essential comment text to be removed from completion matches. Currently it is only used when completing e-mail addresses where it removes any display name from the addresses, cutting them down to plain USER@HOST form. subst-globs-only This is used by the _expand completer. If it is set to `true', the expansion will only be used if it resulted from globbing; hence, if expansions resulted from the use of the substitute style described below, but these were not further changed by globbing, the expansions will be rejected. The default for this style is `false'. substitute This boolean style controls whether the _expand completer will first try to expand all substitutions in the string (such as `$(...)' and `${...}'). The default is `true'. suffix This is used by the _expand completer if the word starts with a tilde or contains a parameter expansion. If it is set to `true', the word will only be expanded if it doesn't have a suffix, i.e. if it is something like `~foo' or `$foo' rather than `~foo/' or `$foo/bar', unless that suffix itself contains characters eligible for expansion. The default for this style is `true'. tag-order This provides a mechanism for sorting how the tags available in a particular context will be used. The values for the style are sets of space-separated lists of tags. The tags in each value will be tried at the same time; if no match is found, the next value is used. (See the file-patterns style for an exception to this behavior.) For example: zstyle ':completion:*:complete:-command-:*:*' tag-order \ 'commands functions' specifies that completion in command position first offers external commands and shell functions. Remaining tags will be tried if no completions are found. In addition to tag names, each string in the value may take one of the following forms: - If any value consists of only a hyphen, then _only_ the tags specified in the other values are generated. Normally all tags not explicitly selected are tried last if the specified tags fail to generate any matches. This means that a single value consisting only of a single hyphen turns off completion. ! TAGS... A string starting with an exclamation mark specifies names of tags that are _not_ to be used. The effect is the same as if all other possible tags for the context had been listed. TAG:LABEL ... Here, TAG is one of the standard tags and LABEL is an arbitrary name. Matches are generated as normal but the name LABEL is used in contexts instead of TAG. This is not useful in words starting with !. If the LABEL starts with a hyphen, the TAG is prepended to the LABEL to form the name used for lookup. This can be used to make the completion system try a certain tag more than once, supplying different style settings for each attempt; see below for an example. TAG:LABEL:DESCRIPTION As before, but description will replace the `%d' in the value of the format style instead of the default description supplied by the completion function. Spaces in the description must be quoted with a backslash. A `%d' appearing in DESCRIPTION is replaced with the description given by the completion function. In any of the forms above the tag may be a pattern or several patterns in the form `{PAT1,PAT2...}'. In this case all matching tags will be used except for any given explicitly in the same string. One use of these features is to try one tag more than once, setting other styles differently on each attempt, but still to use all the other tags without having to repeat them all. For example, to make completion of function names in command position ignore all the completion functions starting with an underscore the first time completion is tried: zstyle ':completion:*:*:-command-:*:*' tag-order \ 'functions:-non-comp *' functions zstyle ':completion:*:functions-non-comp' \ ignored-patterns '_*' On the first attempt, all tags will be offered but the functions tag will be replaced by functions-non-comp. The ignored-patterns style is set for this tag to exclude functions starting with an underscore. If there are no matches, the second value of the tag-order style is used which completes functions using the default tag, this time presumably including all function names. The matches for one tag can be split into different groups. For example: zstyle ':completion:*' tag-order \ 'options:-long:long\ options options:-short:short\ options options:-single-letter:single\ letter\ options' zstyle ':completion:*:options-long' \ ignored-patterns '[-+](|-|[^-]*)' zstyle ':completion:*:options-short' \ ignored-patterns '--*' '[-+]?' zstyle ':completion:*:options-single-letter' \ ignored-patterns '???*' With the group-names style set, options beginning with `--', options beginning with a single `-' or `+' but containing multiple characters, and single-letter options will be displayed in separate groups with different descriptions. Another use of patterns is to try multiple match specifications one after another. The matcher-list style offers something similar, but it is tested very early in the completion system and hence can't be set for single commands nor for more specific contexts. Here is how to try normal completion without any match specification and, if that generates no matches, try again with case-insensitive matching, restricting the effect to arguments of the command foo: zstyle ':completion:*:*:foo:*:*' tag-order '*' '*:-case' zstyle ':completion:*-case' matcher 'm:{a-z}={A-Z}' First, all the tags offered when completing after foo are tried using the normal tag name. If that generates no matches, the second value of tag-order is used, which tries all tags again except that this time each has -case appended to its name for lookup of styles. Hence this time the value for the matcher style from the second call to zstyle in the example is used to make completion case-insensitive. It is possible to use the -e option of the zstyle builtin command to specify conditions for the use of particular tags. For example: zstyle -e '*:-command-:*' tag-order ' if [[ -n $PREFIX$SUFFIX ]]; then reply=( ) else reply=( - ) fi' Completion in command position will be attempted only if the string typed so far is not empty. This is tested using the PREFIX special parameter; see *Note Completion Widgets:: for a description of parameters which are special inside completion widgets. Setting reply to an empty array provides the default behaviour of trying all tags at once; setting it to an array containing only a hyphen disables the use of all tags and hence of all completions. If no tag-order style has been defined for a context, the strings `(|*-)argument-* (|*-)option-* values' and `options' plus all tags offered by the completion function will be used to provide a sensible default behavior that causes arguments (whether normal command arguments or arguments of options) to be completed before option names for most commands. urls This is used together with the urls tag by functions completing URLs. If the value consists of more than one string, or if the only string does not name a file or directory, the strings are used as the URLs to complete. If the value contains only one string which is the name of a normal file the URLs are taken from that file (where the URLs may be separated by white space or newlines). Finally, if the only string in the value names a directory, the directory hierarchy rooted at this directory gives the completions. The top level directory should be the file access method, such as `http', `ftp', `bookmark' and so on. In many cases the next level of directories will be a filename. The directory hierarchy can descend as deep as necessary. For example, zstyle ':completion:*' urls ~/.urls mkdir -p ~/.urls/ftp/ftp.zsh.org/pub allows completion of all the components of the URL ftp://ftp.zsh.org/pub after suitable commands such as `netscape' or `lynx'. Note, however, that access methods and files are completed separately, so if the hosts style is set hosts can be completed without reference to the urls style. See the description in the function _urls itself for more information (e.g. `more $^fpath/_urls(N)'). use-cache If this is set, the completion caching layer is activated for any completions which use it (via the _store_cache, _retrieve_cache, and _cache_invalid functions). The directory containing the cache files can be changed with the cache-path style. use-compctl If this style is set to a string _not_ equal to false, 0, no, and off, the completion system may use any completion specifications defined with the compctl builtin command. If the style is unset, this is done only if the zsh/compctl module is loaded. The string may also contain the substring `first' to use completions defined with `compctl -T', and the substring `default' to use the completion defined with `compctl -D'. Note that this is only intended to smooth the transition from compctl to the new completion system and may disappear in the future. Note also that the definitions from compctl will only be used if there is no specific completion function for the command in question. For example, if there is a function _foo to complete arguments to the command foo, compctl will never be invoked for foo. However, the compctl version will be tried if foo only uses default completion. use-ip By default, the function _hosts that completes host names strips IP addresses from entries read from host databases such as NIS and ssh files. If this style is `true', the corresponding IP addresses can be completed as well. This style is not use in any context where the hosts style is set; note also it must be set before the cache of host names is generated (typically the first completion attempt). users This may be set to a list of usernames to be completed. If it is not set all usernames will be completed. Note that if it is set only that list of users will be completed; this is because on some systems querying all users can take a prohibitive amount of time. users-hosts The values of this style should be of the form `USER@HOST' or `USER:HOST'. It is used for commands that need pairs of user- and hostnames. These commands will complete usernames from this style (only), and will restrict subsequent hostname completion to hosts paired with that user in one of the values of the style. It is possible to group values for sets of commands which allow a remote login, such as rlogin and ssh, by using the my-accounts tag. Similarly, values for sets of commands which usually refer to the accounts of other people, such as talk and finger, can be grouped by using the other-accounts tag. More ambivalent commands may use the accounts tag. users-hosts-ports Like users-hosts but used for commands like telnet and containing strings of the form `USER@HOST:PORT'. verbose If set, as it is by default, the completion listing is more verbose. In particular many commands show descriptions for options if this style is `true'. word This is used by the _list completer, which prevents the insertion of completions until a second completion attempt when the line has not changed. The normal way of finding out if the line has changed is to compare its entire contents between the two occasions. If this style is `true', the comparison is instead performed only on the current word. Hence if completion is performed on another word with the same contents, completion will not be delayed.  File: zsh.info, Node: Control Functions, Next: Bindable Commands, Prev: Completion System Configuration, Up: Completion System 20.4 Control Functions ====================== The initialization script compinit redefines all the widgets which perform completion to call the supplied widget function _main_complete. This function acts as a wrapper calling the so-called `completer' functions that generate matches. If _main_complete is called with arguments, these are taken as the names of completer functions to be called in the order given. If no arguments are given, the set of functions to try is taken from the completer style. For example, to use normal completion and correction if that doesn't generate any matches: zstyle ':completion:*' completer _complete _correct after calling compinit. The default value for this style is `_complete _ignored', i.e. normally only ordinary completion is tried, first with the effect of the ignored-patterns style and then without it. The _main_complete function uses the return status of the completer functions to decide if other completers should be called. If the return status is zero, no other completers are tried and the _main_complete function returns. If the first argument to _main_complete is a single hyphen, the arguments will not be taken as names of completers. Instead, the second argument gives a name to use in the COMPLETER field of the context and the other arguments give a command name and arguments to call to generate the matches. The following completer functions are contained in the distribution, although users may write their own. Note that in contexts the leading underscore is stripped, for example basic completion is performed in the context `:completion::complete:...'. _all_matches This completer can be used to add a string consisting of all other matches. As it influences later completers it must appear as the first completer in the list. The list of all matches is affected by the avoid-completer and old-matches styles described above. It may be useful to use the _generic function described below to bind _all_matches to its own keystroke, for example: zle -C all-matches complete-word _generic bindkey '^Xa' all-matches zstyle ':completion:all-matches:*' old-matches only zstyle ':completion:all-matches::::' completer _all_matches Note that this does not generate completions by itself: first use any of the standard ways of generating a list of completions, then use ^Xa to show all matches. It is possible instead to add a standard completer to the list and request that the list of all matches should be directly inserted: zstyle ':completion:all-matches::::' completer \ _all_matches _complete zstyle ':completion:all-matches:*' insert true In this case the old-matches style should not be set. _approximate This is similar to the basic _complete completer but allows the completions to undergo corrections. The maximum number of errors can be specified by the max-errors style; see the description of approximate matching in *Note Filename Generation:: for how errors are counted. Normally this completer will only be tried after the normal _complete completer: zstyle ':completion:*' completer _complete _approximate This will give correcting completion if and only if normal completion yields no possible completions. When corrected completions are found, the completer will normally start menu completion allowing you to cycle through these strings. This completer uses the tags corrections and original when generating the possible corrections and the original string. The format style for the former may contain the additional sequences `%e' and `%o' which will be replaced by the number of errors accepted to generate the corrections and the original string, respectively. The completer progressively increases the number of errors allowed up to the limit by the max-errors style, hence if a completion is found with one error, no completions with two errors will be shown, and so on. It modifies the completer name in the context to indicate the number of errors being tried: on the first try the completer field contains `approximate-1', on the second try `approximate-2', and so on. When _approximate is called from another function, the number of errors to accept may be passed with the -a option. The argument is in the same format as the max-errors style, all in one string. Note that this completer (and the _correct completer mentioned below) can be quite expensive to call, especially when a large number of errors are allowed. One way to avoid this is to set up the completer style using the -e option to zstyle so that some completers are only used when completion is attempted a second time on the same string, e.g.: zstyle -e ':completion:*' completer ' if [[ $_last_try != "$HISTNO$BUFFER$CURSOR" ]]; then _last_try="$HISTNO$BUFFER$CURSOR" reply=(_complete _match _prefix) else reply=(_ignored _correct _approximate) fi' This uses the HISTNO parameter and the BUFFER and CURSOR special parameters that are available inside zle and completion widgets to find out if the command line hasn't changed since the last time completion was tried. Only then are the _ignored, _correct and _approximate completers called. _canonical_paths [ -A VAR ] [ -N ] [ -MJV12nfX ] TAG DESCR [ PATHS ... ] This completion function completes all paths given to it, and also tries to offer completions which point to the same file as one of the paths given (relative path when an absolute path is given, and vice versa; when ..'s are present in the word to be completed; and some paths got from symlinks). -A, if specified, takes the paths from the array variable specified. Paths can also be specified on the command line as shown above. -N, if specified, prevents canonicalizing the paths given before using them for completion, in case they are already so. The options -M, -J, -V, -1, -2, -n, -F, -X are passed to compadd. See _description for a description of TAG and DESCR. _cmdambivalent Completes the remaining positional arguments as an external command. The external command and its arguments are completed as separate arguments (in a manner appropriate for completing /usr/bin/env) if there are two or more remaining positional arguments on the command line, and as a quoted command string (in the manner of system(...)) otherwise. See also _cmdstring and _precommand. This function takes no arguments. _cmdstring Completes an external command as a single argument, as for system(...). _complete This completer generates all possible completions in a context-sensitive manner, i.e. using the settings defined with the compdef function explained above and the current settings of all special parameters. This gives the normal completion behaviour. To complete arguments of commands, _complete uses the utility function _normal, which is in turn responsible for finding the particular function; it is described below. Various contexts of the form -CONTEXT- are handled specifically. These are all mentioned above as possible arguments to the #compdef tag. Before trying to find a function for a specific context, _complete checks if the parameter `compcontext' is set. Setting `compcontext' allows the usual completion dispatching to be overridden which is useful in places such as a function that uses vared for input. If it is set to an array, the elements are taken to be the possible matches which will be completed using the tag `values' and the description `value'. If it is set to an associative array, the keys are used as the possible completions and the values (if non-empty) are used as descriptions for the matches. If `compcontext' is set to a string containing colons, it should be of the form `TAG:DESCR:ACTION'. In this case the TAG and DESCR give the tag and description to use and the ACTION indicates what should be completed in one of the forms accepted by the _arguments utility function described below. Finally, if `compcontext' is set to a string without colons, the value is taken as the name of the context to use and the function defined for that context will be called. For this purpose, there is a special context named -command-line- that completes whole command lines (commands and their arguments). This is not used by the completion system itself but is nonetheless handled when explicitly called. _correct Generate corrections, but not completions, for the current word; this is similar to _approximate but will not allow any number of extra characters at the cursor as that completer does. The effect is similar to spell-checking. It is based on _approximate, but the completer field in the context name is correct. For example, with: zstyle ':completion:::::' completer \ _complete _correct _approximate zstyle ':completion:*:correct:::' max-errors 2 not-numeric zstyle ':completion:*:approximate:::' max-errors 3 numeric correction will accept up to two errors. If a numeric argument is given, correction will not be performed, but correcting completion will be, and will accept as many errors as given by the numeric argument. Without a numeric argument, first correction and then correcting completion will be tried, with the first one accepting two errors and the second one accepting three errors. When _correct is called as a function, the number of errors to accept may be given following the -a option. The argument is in the same form a values to the accept style, all in one string. This completer function is intended to be used without the _approximate completer or, as in the example, just before it. Using it after the _approximate completer is useless since _approximate will at least generate the corrected strings generated by the _correct completer -- and probably more. _expand This completer function does not really perform completion, but instead checks if the word on the command line is eligible for expansion and, if it is, gives detailed control over how this expansion is done. For this to happen, the completion system needs to be invoked with complete-word, not expand-or-complete (the default binding for TAB), as otherwise the string will be expanded by the shell's internal mechanism before the completion system is started. Note also this completer should be called before the _complete completer function. The tags used when generating expansions are all-expansions for the string containing all possible expansions, expansions when adding the possible expansions as single matches and original when adding the original string from the line. The order in which these strings are generated, if at all, can be controlled by the group-order and tag-order styles, as usual. The format string for all-expansions and for expansions may contain the sequence `%o' which will be replaced by the original string from the line. The kind of expansion to be tried is controlled by the substitute, glob and subst-globs-only styles. It is also possible to call _expand as a function, in which case the different modes may be selected with options: -s for substitute, -g for glob and -o for subst-globs-only. _expand_alias If the word the cursor is on is an alias, it is expanded and no other completers are called. The types of aliases which are to be expanded can be controlled with the styles regular, global and disabled. This function is also a bindable command, see *Note Bindable Commands::. _extensions If the cursor follows the string `*.', filename extensions are completed. The extensions are taken from files in current directory or a directory specified at the beginning of the current word. For exact matches, completion continues to allow other completers such as _expand to expand the pattern. The standard add-space and prefix-hidden styles are observed. _external_pwds Completes current directories of other zsh processes belonging to the current user. This is intended to be used via _generic, bound to a custom key combination. Note that pattern matching is enabled so matching is performed similar to how it works with the _match completer. _history Complete words from the shell's command history. This completer can be controlled by the remove-all-dups, and sort styles as for the _history_complete_word bindable command, see *Note Bindable Commands:: and *Note Completion System Configuration::. _ignored The ignored-patterns style can be set to a list of patterns which are compared against possible completions; matching ones are removed. With this completer those matches can be reinstated, as if no ignored-patterns style were set. The completer actually generates its own list of matches; which completers are invoked is determined in the same way as for the _prefix completer. The single-ignored style is also available as described above. _list This completer allows the insertion of matches to be delayed until completion is attempted a second time without the word on the line being changed. On the first attempt, only the list of matches will be shown. It is affected by the styles condition and word, see *Note Completion System Configuration::. _match This completer is intended to be used after the _complete completer. It behaves similarly but the string on the command line may be a pattern to match against trial completions. This gives the effect of the GLOB_COMPLETE option. Normally completion will be performed by taking the pattern from the line, inserting a `*' at the cursor position and comparing the resulting pattern with the possible completions generated. This can be modified with the match-original style described above. The generated matches will be offered in a menu completion unless the insert-unambiguous style is set to `true'; see the description above for other options for this style. Note that matcher specifications defined globally or used by the completion functions (the styles matcher-list and matcher) will not be used. _menu This completer was written as simple example function to show how menu completion can be enabled in shell code. However, it has the notable effect of disabling menu selection which can be useful with _generic based widgets. It should be used as the first completer in the list. Note that this is independent of the setting of the MENU_COMPLETE option and does not work with the other menu completion widgets such as reverse-menu-complete, or accept-and-menu-complete. _oldlist This completer controls how the standard completion widgets behave when there is an existing list of completions which may have been generated by a special completion (i.e. a separately-bound completion command). It allows the ordinary completion keys to continue to use the list of completions thus generated, instead of producing a new list of ordinary contextual completions. It should appear in the list of completers before any of the widgets which generate matches. It uses two styles: old-list and old-menu, see *Note Completion System Configuration::. _precommand Complete an external command in word-separated arguments, as for exec and /usr/bin/env. _prefix This completer can be used to try completion with the suffix (everything after the cursor) ignored. In other words, the suffix will not be considered to be part of the word to complete. The effect is similar to the expand-or-complete-prefix command. The completer style is used to decide which other completers are to be called to generate matches. If this style is unset, the list of completers set for the current context is used -- except, of course, the _prefix completer itself. Furthermore, if this completer appears more than once in the list of completers only those completers not already tried by the last invocation of _prefix will be called. For example, consider this global completer style: zstyle ':completion:*' completer \ _complete _prefix _correct _prefix:foo Here, the _prefix completer tries normal completion but ignoring the suffix. If that doesn't generate any matches, and neither does the call to the _correct completer after it, _prefix will be called a second time and, now only trying correction with the suffix ignored. On the second invocation the completer part of the context appears as `foo'. To use _prefix as the last resort and try only normal completion when it is invoked: zstyle ':completion:*' completer _complete ... _prefix zstyle ':completion::prefix:*' completer _complete The add-space style is also respected. If it is set to `true' then _prefix will insert a space between the matches generated (if any) and the suffix. Note that this completer is only useful if the COMPLETE_IN_WORD option is set; otherwise, the cursor will be moved to the end of the current word before the completion code is called and hence there will be no suffix. _user_expand This completer behaves similarly to the _expand completer but instead performs expansions defined by users. The styles add-space and sort styles specific to the _expand completer are usable with _user_expand in addition to other styles handled more generally by the completion system. The tag all-expansions is also available. The expansion depends on the array style user-expand being defined for the current context; remember that the context for completers is less specific than that for contextual completion as the full context has not yet been determined. Elements of the array may have one of the following forms: $HASH HASH is the name of an associative array. Note this is not a full parameter expression, merely a $, suitably quoted to prevent immediate expansion, followed by the name of an associative array. If the trial expansion word matches a key in HASH, the resulting expansion is the corresponding value. _FUNC _FUNC is the name of a shell function whose name must begin with _ but is not otherwise special to the completion system. The function is called with the trial word as an argument. If the word is to be expanded, the function should set the array reply to a list of expansions. Optionally, it can set REPLY to a word that will be used as a description for the set of expansions. The return status of the function is irrelevant.  File: zsh.info, Node: Bindable Commands, Next: Completion Functions, Prev: Control Functions, Up: Completion System 20.5 Bindable Commands ====================== In addition to the context-dependent completions provided, which are expected to work in an intuitively obvious way, there are a few widgets implementing special behaviour which can be bound separately to keys. The following is a list of these and their default bindings. _bash_completions This function is used by two widgets, _bash_complete-word and _bash_list-choices. It exists to provide compatibility with completion bindings in bash. The last character of the binding determines what is completed: `!', command names; `$', environment variables; `@', host names; `/', file names; `~' user names. In bash, the binding preceded by `\e' gives completion, and preceded by `^X' lists options. As some of these bindings clash with standard zsh bindings, only `\e~' and `^X~' are bound by default. To add the rest, the following should be added to .zshrc after compinit has been run: for key in '!' '$' '@' '/' '~'; do bindkey "\e$key" _bash_complete-word bindkey "^X$key" _bash_list-choices done This includes the bindings for `~' in case they were already bound to something else; the completion code does not override user bindings. _correct_filename (^XC) Correct the filename path at the cursor position. Allows up to six errors in the name. Can also be called with an argument to correct a filename path, independently of zle; the correction is printed on standard output. _correct_word (^Xc) Performs correction of the current argument using the usual contextual completions as possible choices. This stores the string `correct-word' in the FUNCTION field of the context name and then calls the _correct completer. _expand_alias (^Xa) This function can be used as a completer and as a bindable command. It expands the word the cursor is on if it is an alias. The types of alias expanded can be controlled with the styles regular, global and disabled. When used as a bindable command there is one additional feature that can be selected by setting the complete style to `true'. In this case, if the word is not the name of an alias, _expand_alias tries to complete the word to a full alias name without expanding it. It leaves the cursor directly after the completed word so that invoking _expand_alias once more will expand the now-complete alias name. _expand_word (^Xe) Performs expansion on the current word: equivalent to the standard expand-word command, but using the _expand completer. Before calling it, the FUNCTION field of the context is set to `expand-word'. _generic This function is not defined as a widget and not bound by default. However, it can be used to define a widget and will then store the name of the widget in the FUNCTION field of the context and call the completion system. This allows custom completion widgets with their own set of style settings to be defined easily. For example, to define a widget that performs normal completion and starts menu selection: zle -C foo complete-word _generic bindkey '...' foo zstyle ':completion:foo:*' menu yes select=1 Note in particular that the completer style may be set for the context in order to change the set of functions used to generate possible matches. If _generic is called with arguments, those are passed through to _main_complete as the list of completers in place of those defined by the completer style. _history_complete_word (\e/) Complete words from the shell's command history. This uses the list, remove-all-dups, sort, and stop styles. _most_recent_file (^Xm) Complete the name of the most recently modified file matching the pattern on the command line (which may be blank). If given a numeric argument N, complete the Nth most recently modified file. Note the completion, if any, is always unique. _next_tags (^Xn) This command alters the set of matches used to that for the next tag, or set of tags, either as given by the tag-order style or as set by default; these matches would otherwise not be available. Successive invocations of the command cycle through all possible sets of tags. _read_comp (^X^R) Prompt the user for a string, and use that to perform completion on the current word. There are two possibilities for the string. First, it can be a set of words beginning `_', for example `_files -/', in which case the function with any arguments will be called to generate the completions. Unambiguous parts of the function name will be completed automatically (normal completion is not available at this point) until a space is typed. Second, any other string will be passed as a set of arguments to compadd and should hence be an expression specifying what should be completed. A very restricted set of editing commands is available when reading the string: `DEL' and `^H' delete the last character; `^U' deletes the line, and `^C' and `^G' abort the function, while `RET' accepts the completion. Note the string is used verbatim as a command line, so arguments must be quoted in accordance with standard shell rules. Once a string has been read, the next call to _read_comp will use the existing string instead of reading a new one. To force a new string to be read, call _read_comp with a numeric argument. _complete_debug (^X?) This widget performs ordinary completion, but captures in a temporary file a trace of the shell commands executed by the completion system. Each completion attempt gets its own file. A command to view each of these files is pushed onto the editor buffer stack. _complete_help (^Xh) This widget displays information about the context names, the tags, and the completion functions used when completing at the current cursor position. If given a numeric argument other than 1 (as in `ESC-2 ^Xh'), then the styles used and the contexts for which they are used will be shown, too. Note that the information about styles may be incomplete; it depends on the information available from the completion functions called, which in turn is determined by the user's own styles and other settings. _complete_help_generic Unlike other commands listed here, this must be created as a normal ZLE widget rather than a completion widget (i.e. with zle -N). It is used for generating help with a widget bound to the _generic widget that is described above. If this widget is created using the name of the function, as it is by default, then when executed it will read a key sequence. This is expected to be bound to a call to a completion function that uses the _generic widget. That widget will be executed, and information provided in the same format that the _complete_help widget displays for contextual completion. If the widget's name contains debug, for example if it is created as `zle -N _complete_debug_generic _complete_help_generic', it will read and execute the keystring for a generic widget as before, but then generate debugging information as done by _complete_debug for contextual completion. If the widget's name contains noread, it will not read a keystring but instead arrange that the next use of a generic widget run in the same shell will have the effect as described above. The widget works by setting the shell parameter ZSH_TRACE_GENERIC_WIDGET which is read by _generic. Unsetting the parameter cancels any pending effect of the noread form. For example, after executing the following: zle -N _complete_debug_generic _complete_help_generic bindkey '^x:' _complete_debug_generic typing `C-x :' followed by the key sequence for a generic widget will cause trace output for that widget to be saved to a file. _complete_tag (^Xt) This widget completes symbol tags created by the etags or ctags programmes (note there is no connection with the completion system's tags) stored in a file TAGS, in the format used by etags, or tags, in the format created by ctags. It will look back up the path hierarchy for the first occurrence of either file; if both exist, the file TAGS is preferred. You can specify the full path to a TAGS or tags file by setting the parameter $TAGSFILE or $tagsfile respectively. The corresponding completion tags used are etags and vtags, after emacs and vi respectively.