Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

From reading a Lisp book I remember they showed an example of an OOP-style method dispatcher based on closures:

(defun create-object ()
  (let ((val 0)
        (get (lambda () val))
        (set (lambda (new-val) (setq val new-val)))
        (inc (lambda () (setq val (+ 1 val)))))
    (lambda (method)
      (cond ((eq method 'get)
            ((eq method 'set)
            ((eq method 'inc)

(let ((obj (create-object)))
  (funcall (obj 'set) 1)
  (funcall (obj 'inc))
  (funcall (obj 'get))) ;; 2

Since it's just a function with a string symbol argument, I guess code intel won't be of much help here, not completing the method names or their signatures. (Compare with a similar JavaScript object.)

Is this problem generally solved? How do you program an object system in Scheme so that an editor (like Emacs) can be more intelligent with your code?

P.S. The example may be not a valid Scheme code, but you should get the idea.

share|improve this question
you could have a special function like in python __dir__ which will return all the possible keys that can be used on the object. – Loïc Faure-Lacroix Nov 19 '13 at 14:27
Just because OOP can be implemented that way doesn't mean that it usually is. But even here, using eq on strings typically isn't a good idea, so it'd be more common to compare symbols (e.g., (eq method 'get)) and doing completion based on the symbols that the reader has seen is straightforward. – Joshua Taylor Nov 19 '13 at 15:22
up vote 3 down vote accepted

I've made some starting code for you. It's for Emacs Lisp, but it's should be very easily portable to Scheme.

Here's your usage example:

(defun create-object ()
  (lexical-let* ((val 0)
                 (get (lambda() val))
                 (set (lambda(x) (setq val x))))
    (generate-dispatch-table get set)))

(setq obj (create-object))
(funcall (funcall obj 'get))
;; => 0
(funcall (funcall obj 'set) 1)
;; => 1
(funcall (funcall obj 'get))
;; => 1
(scheme-completions obj)
;; => (get set)

And here's how it's implemented:

(defmacro generate-dispatch-table (&rest members)
  `(lambda (method)
     (cond ,@(mapcar
               (lambda (x) `((eq method ',x) ,x)) members))))

(defun collect (pred x)
  (when (and x (listp x))
    (let ((y (funcall pred x))
          (z (append
              (collect pred (car x))
              (collect pred (cdr x)))))
      (if y
          (append (list y) z)

(defun scheme-completions (obj)
   (lambda(x) (and (eq (car x) 'eq)
              (eq (cadr x) 'method)
              (eq (caaddr x) 'quote)
              (cadr (caddr x))))

And here's a simple visual interface for completions:

(require 'helm)
(defun scheme-completions-helm ()
  (let ((y (and
               (looking-back "(funcall \\([^ ]*\\) +")
               (intern-soft (match-string 1)))))
    (when y
      (helm :sources
            `((name . "members")
              (candidates . ,(scheme-completions (eval y)))
              (action . (lambda(x) (insert "'" x)))))))) 
share|improve this answer
I'm accepting this answer because it gives a concrete example of how an object system can make an editor aware of the system. If I may summarize, 1) an object should have a distinct signature for accessing members and 2) an interface to list all its members. – katspaugh Dec 6 '13 at 7:44

I'm not a Emacs user, but use DrRacket and it does have an object system and do what an IDE should do, but I know Emacs is very customizable since it uses elisp so you can make support for your own syntax both in syntax highlighting and tab-completion. So you do:

  1. Make your own object system
  2. Edit your Emacs editor to do what you want

Many of my colleagues use it and they fix their Emacs in such ways.

Another thing, this question makes me think about the resources at on the subject where the different approaches are mentioned and even a similar code to the one you posted is posted as example. It's a good read.

share|improve this answer
Thanks for the link, it's interesting indeed! Particularly the page about advanced object systems. – katspaugh Nov 29 '13 at 14:08

I would avoid double notion of symbols in create-object via an obarray. Furthermore, the interface of the object are all functions. Therefore, use fset and avoid the double funcall.

(defun create-object ()
  (lexical-let (val
        (_oa (make-vector 11 0)))
    (fset (intern "get" _oa) (lambda () val))
    (fset (intern "inc" _oa) (lambda () (incf val)))
    (fset (intern "set" _oa) (lambda (new-val) (setq val new-val)))
    (lambda (method &rest args)
      (apply 'funcall (intern (symbol-name method) _oa) args))))

(fset 'obj1 (create-object))
(fset 'obj2 (create-object))

(obj1 'set 1)
(obj2 'set 2)

(obj1 'inc)
(obj2 'inc)
(obj2 'inc)

(obj2 'get)
(obj1 'get)

Example for inheritance:

(defun create-object ()
  (lexical-let (val
        (_oa (make-vector 11 0)))
    (fset (intern "get" _oa) (lambda () val))
    (fset (intern "inc" _oa) (lambda () (incf val)))
    (fset (intern "set" _oa) (lambda (new-val) (setq val new-val)))
    (lambda (method &rest args)
      (apply 'funcall (or (intern-soft (symbol-name method) _oa)
              (error "Undefined function: %s" method))

(defun create-object-add10 ()
  (lexical-let ((base (create-object))
        (_oa (make-vector 11 0)))
    (fset (intern "inc" _oa) (lambda () (funcall base 'set (+ (funcall base 'get) 10))))
    (lambda (method &rest args)
      (let ((call (intern-soft (symbol-name method) _oa)))
    (if call
        (apply 'funcall call args)
      (apply 'funcall base method args))))))

(fset 'obj1 (create-object))
(fset 'obj2 (create-object-add10))

(obj1 'set 1)
(obj2 'set 2)

(obj1 'inc)
(obj2 'inc)
(obj2 'inc)

(obj2 'get)
(obj1 'get)

The definition of create-object-like methods should additionally be supported through macros. That is not done here.

For more features, note, there is a CLOS-compatible object oriented system in emacs:

share|improve this answer
Thanks, that's nice! I can see how an obarray may be likened to a JavaScript object and make completion function (like in @abo-abo's answer) easier to write. – katspaugh Nov 30 '13 at 9:57
Yes and the obarray changes the linear time access to constant time access. It gets close to the internal look-up method. This may matter for large objects. – Tobias Nov 30 '13 at 18:16
I think closures are not the best way to implement objects. Lists of obarrays are better since they allow inheritance. – Tobias Nov 30 '13 at 18:31
You mean, the data obarray (val in the example) should be in the same list as the methods obarray? – katspaugh Dec 1 '13 at 7:44
I have to apologize. I thought of representing classes as lists of obarrays. But, that turned out to be cumbersome because copy-tree and copy-sequence do not copy the vectors so the objects would share the data which is just wrong or one would have to write one's own copy. As a compensation I added an example for inheritance with the old concept. The inc-function is overwritten in the derived class created with create-object-add10. Actually, I did not really want to write that code because one has many examples in the link from Sylwester's answer. – Tobias Dec 1 '13 at 11:46

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.