I'm trying to write a custom tab completion implementation which tries a bunch of different completions depending on where the point is. However, if none of the conditions for completions are met I would like tab to do what ever the current mode originally intended it to do.

Something like this:

(defun my-custom-tab-completion ()
    (do-whatever-tab-is-supposed-to-do-in-the-current-mode))) ;; How do I do this?

Currently I'm checking for specific modes and doing the right thing for that mode, but I really would like a solution that just does the right thing without me having to explicitly add a condition for that specific mode.

Any ideas of how to do this?

Thanks! /Erik

  • 1
    See the documentation for define-key and local-set-key. This is typically done by modifying mode-specific key-map. – Miserable Variable Apr 18 '13 at 20:03

You could use functions such as key-binding (or its more specific variants global-key-binding, minor-mode-key-binding and local-key-binding) to probe active keymaps for bindings.

For example:

(call-interactively (key-binding (kbd "TAB")))
;; in an emacs-lisp-mode buffer:
;;    --> indent-for-tab-command
;; in a c++-mode buffer with yas/minor-mode:
;;    --> yas/expand

One way to avoid infinite loops if your command is bound to TAB could be to put your binding in a minor mode, and temporarily disable its keymap while looking for the TAB binding:

(define-minor-mode my-complete-mode
  "Smart completion"
  :keymap (let ((map (make-sparse-keymap)))
            (define-key map (kbd "TAB") 'my-complete)

(defun my-complete ()
  (if (my-condition)
      (message "my-complete")
    (let ((my-complete-mode nil))
      (call-interactively (key-binding (kbd "TAB"))))))
  • Thanks for your answer! The problem here is that I would like to bind the command to tab, so key-binding would actually return the function itself, and hence cause an infinite loop. Could I look up the binding in the "original" key map for the mode somehow? – Erik Öjebo Apr 18 '13 at 19:06
  • You're right, this is not easily done. See my edit for a possible workaround. – François Févotte Apr 18 '13 at 19:34
  • For a minor mode, you don't need to remove the entry from minor-mode-map-alist: you can just let-bind the minor-mode variable (aka my-complete-mode) around the call to key-binding. – Stefan Apr 19 '13 at 17:30
  • @Stefan Could you post a code snippet showing what the let binding could look like to avoid having to remove the entry? – Erik Öjebo Apr 19 '13 at 17:48
  • @Stefan nice idea, thanks. I edited my answer to take this into account. – François Févotte Apr 19 '13 at 18:05

BTW, here is another solution:

(define-key <map> <key>
  `(menu-item "" <my-cmd> :filter ,(lambda (cmd) (if <my-predicate> cmd))))
  • Can you give an example of how to use this? What should <map> be for instance? And what is menu-item / why is it necessary here? – ShreevatsaR Apr 24 '18 at 0:04
  • @ShreevatsaR: <map> should be whichever map where you want to add that (conditional) key-binding. E.g. your major mode's map. menu-item is just a special symbol that needs to be where I put it for this to work. This "menu-item + :filter" was originally added in order to be able to dynamically build particular (sub)menus (e.g. the menu containing the list of buffers and frames), hence the name; but since menus are implemented using keymaps it happens to work for non-menu elements as well. – Stefan Apr 24 '18 at 0:16
  • Thank you! That helped, and almost works for me. I did something like: (add-hook 'gfm-mode-hook '(lambda () (progn (define-key gfm-mode-map (kbd "`") `(menu-item "" markdown-insert-code :filter ,(lambda (cmd) (if mark-active cmd))))))) The problem I see is that with this, the meaning of the key, when the predicate is not true, seems to be picking up the global keybinding (self-insert-command in this case), rather than the mode-specific one. – ShreevatsaR Apr 24 '18 at 0:49
  • @ShreevatsaR: [ Please don't quote your lambdas! ] Indeed what you did is override the mode-specific binding with a conditional binding, to use this technique, you'd need to add the conditional binding to some other map. But in your case, it's probably not the technique I'd recommend. – Stefan Apr 24 '18 at 1:28
  • What would you recommend? (As far as I can tell, my situation is exactly a special case of this question: I'd like to learn a general technique to, in a given mode, bind a key to either a custom function (if a certain predicate is true), or else the mode's default keybinding. Unfortunately I'm having trouble figuring out the solution you're trying to explain :-) Should one add the key-binding to the mode's map or not, for instance?) – ShreevatsaR Apr 24 '18 at 2:12

Here is a macro I wrote based on Emacs key binding fallback to define a keybinding conditionally. It adds the keybinding to the specified minor mode but if the condition is not true, the previously assigned action is executed:

(defmacro define-key-with-fallback (keymap key def condition &optional mode)
  "Define key with fallback. Binds KEY to definition DEF in keymap KEYMAP, 
   the binding is active when the CONDITION is true. Otherwise turns MODE off 
   and re-enables previous definition for KEY. If MODE is nil, tries to recover 
   it by stripping off \"-map\" from KEYMAP name."
  `(define-key ,keymap ,key
     (lambda () (interactive)
        (if ,condition ,def
          (let* ((,(if mode mode
                     (let* ((keymap-str (symbol-name keymap))
                            (mode-name-end (- (string-width keymap-str) 4)))
                       (if (string= "-map" (substring keymap-str mode-name-end))
                           (intern (substring keymap-str 0 mode-name-end))
                         (error "Could not deduce mode name from keymap name (\"-map\" missing?)")))) 
                 (original-func (key-binding ,key)))
            (call-interactively original-func))))))

Then I can do things like the following to use the special binding for TAB only when I am on a header in outline-minor-mode. Otherwise my default action (I have both indent and yasnippets) is executed:

(define-key-with-fallback outline-minor-mode-map (kbd "TAB") 
  (outline-cycle 1) (outline-on-heading-p))

It's possible that you could achieve this without any special workarounds at all. In most modes TAB just does indentation by default, but if you set the global variable tab-always-indent to 'complete it will try to do completion first, and indent if no completion is possible. This usually works really well, although if TAB is bound to another command in one of your major modes you might be out of luck.

If that works in the modes you need, you'll just need to add your custom completion function to the front of the list completion-at-point-functions in all applicable buffers (maybe using a mode hook). The completion-at-point command calls each function listed in completion-at-point-functions until one of them returns non-nil, so all you need to do to have your custom completion function "fall through" to the existing behavior is return nil from it.

This isn't a 100% answer to the question, but if the major modes you're working with are written according to the normal guidelines it might be the cleanest way.

  • That's a very good point, but a lot of minor modes could rebind the TAB key, like YASnippet or auto-complete for example. Do you know if such minor modes honor (setq tab-always-indent 'complete)? – François Févotte Apr 19 '13 at 7:32
  • If you want to override those minor modes, then do so. You can still use indent-for-tab-command for that. BTW, if the complete value of tab-always-indent doesn't work with yasnippet, you might like to report this as a bug (in yasnippet). – Stefan Apr 19 '13 at 17:27

define-key can accept quoted string or interactive lambdas like in this example.

(define-key evil-normal-state-mapr "m" 'evil-motion-state)
(define-key evil-normal-state-map "m" 
  (lambda () (interactive) (message "%s" major-mode)))

Lambda's can be replaced with named functions like my-tab-completion and used more effectively.

From define-key's docstring (Emacs 25)

DEF is anything that can be a key's definition:
 nil (means key is undefined in this keymap),
 a command (a Lisp function suitable for interactive calling),
 a string (treated as a keyboard macro),
 a keymap (to define a prefix key),
 a symbol (when the key is looked up, the symbol will stand for its
    function definition, which should at that time be one of the above,
    or another symbol whose function definition is used, etc.),
 a cons (STRING . DEFN), meaning that DEFN is the definition
    (DEFN should be a valid definition in its own right),
 or a cons (MAP . CHAR), meaning use definition of CHAR in keymap MAP,
 or an extended menu item definition.
 (See info node `(elisp)Extended Menu Items'.)

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