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In other words, is it possible to locally define a function in a way similar to how flet or labels does it? My final goal is to have a macro similar to labels which instead of regular functions uses instances of funcallable-standard-class and not having to use funcall. A use-case might look like the one below:

(funcallable-let ((foo func-class :initargs ...))
  (foo ...))

symbol-macrolet seems to only expand when not in the head position. If I try (setf (symbol-function 'foo) (make-instance 'some-funcallable-class)) this sets it globally for this symbol an not for the scope of the enclosing let.


Here's what I could get so far (but it doesn't work because macrolet wouldn't expand in this scenario...)

(defclass func ()
  ((state :initarg :state :accessor state-of))
  (:metaclass sb-mop:funcallable-standard-class))

(defmethod initialize-instance :after ((this func) &rest initargs)
  (declare (ignore initargs))
  (sb-mop:set-funcallable-instance-function
   this (lambda ()
          (format t "~&I am: ~s, my state is: ~s" this (state-of this)))))

(defmacro funcallable-let (bindings &body body)
  (loop :for binding :in bindings
     :for name := (car binding)
     :for class := (cadr binding)
     :for init-args := (cddr binding)
     :collect `(,name (make-instance ',class ,.init-args)) :into classes
     :collect `(,name (&rest args) (list 'apply '',name args)) :into macrolets
     :collect name :into ignorables
     :finally
     (return
       `(let ,classes
          (declare (ignorable ,@ignorables))
          (macrolet ,macrolets
            ,@body)))))

(defun test-funcallable-let ()
  (funcallable-let ((f func :state :f-state)
                    (g func :state :g-state))
    (f) (funcall 'g)))

This is somewhat modified Lars' Brinkoff macro:

(defmacro funcallable-let (bindings &body body)
  (loop
     :for binding :in bindings
     :for symbol := (gensym)
     :for name := (car binding)
     :for class := (cadr binding)
     :for init-args := (cddr binding)
     :collect `(,symbol (make-instance ',class ,.init-args)) :into lets
     :collect `(,name (&rest args) (apply ',symbol args)) :into flets
     :collect symbol :into ignorables
     :finally
     (return
       `(let ,lets
          (declare (ignorable ,@ignorables))
          (flet ,flets ,@body)))))

Which wouldn't work either.

share|improve this question
    
symbol-macrolet only expands when the symbol is used as a variable name. The head position is a function name, not a variable name, so it doesn't expand there. If you want it to expand in the function position, use macrolet. –  Barmar Nov 12 '13 at 11:48
    
@Barmar with macrolet there's the exact opposite problem - I wouldn't be able to use the symbol with funcall or reduce or what have you... (or at least I can't see how'd I do it). –  user797257 Nov 12 '13 at 11:56
    
I'm not really sure what you're trying to accomplish that flet and labels don't provide. Maybe if you showed a use-case. –  Barmar Nov 12 '13 at 11:57
    
If macrolet works for one case, and symbol-macrolet works for the other, why not write a macro that expands into both so that you get something that works for both cases? –  Joshua Taylor Nov 12 '13 at 13:25
    
@JoshuaTaylor I hoped for there to be a cheaper way :) –  user797257 Nov 12 '13 at 13:32

3 Answers 3

up vote 4 down vote accepted

So, we want the value of f to be the funcallable object, so that things like (setf (state-of f) new-state) work, but also a macro definition for f, so that (f 1 2 3) expands to (funcall f 1 2 3). Let's write some direct code first. First, your func definition, but with a slightly different funcallable instance function, so that we can pass some arguments in and see what they are:

(defclass func ()
  ((state :initarg :state :accessor state-of))
  (:metaclass sb-mop:funcallable-standard-class))

(defmethod initialize-instance :after ((this func) &rest initargs)
  (declare (ignore initargs))
  (sb-mop:set-funcallable-instance-function
   this (lambda (&rest args)
          (format t "~&I am: ~s, my state is: ~s, my args were ~s" this (state-of this) args))))

Then, we can write the code that we'd want the funcallable-let to expand into. As the output shows, f in a head position ends up being a call to the funcallable instance, but f in a non head position is a variable that has the funcallable instance as a value, so you can, e.g., (setf (state-of f) new-state):

(let ((f (make-instance 'func :state 34)))
  (macrolet ((f (&rest args)
               `(funcall f ,@args)))
    (f 1 2 3)
    (setf (state-of f) 89)
    (f 4 5 6)))

; I am: #<FUNC {1002A0B329}>, my state is: 34, my args were (1 2 3)
; I am: #<FUNC {1002A0B329}>, my state is: 89, my args were (4 5 6)

That seems good. Now we just need to macroify it:

(defmacro funcallable-let (bindings &body body)
  `(let (,@(loop :for (name . initargs) :in bindings
             :collect `(,name (make-instance 'func ,@initargs))))
     (macrolet (,@(loop :for (name . initargs) :in bindings
                    :collect `(,name (&rest args)
                                     `(funcall ,',name ,@args))))
       ,@body)))

The macroexpansion looks right:

CL-USER> (pprint (macroexpand '(funcallable-let ((f :state 34))
                                (f 1 2 3))))

(LET ((F (MAKE-INSTANCE 'FUNC :STATE 34)))
  (MACROLET ((F (&REST ARGS)
               `(FUNCALL F ,@ARGS)))
    (F 1 2 3)))

And the behavior seems right (you can call with (f ...) or with (funcall f ...), and you can (setf (state-of f) ...):

CL-USER> (funcallable-let ((f :state 34))
           (f 1 2 3)
           (setf (state-of f) 89)
           (f 4 5 6)
           (setf (state-of f) 62)
           (funcall f 7 8 9))
I am: #<FUNC {1002BEC389}>, my state is: 34, my args were (1 2 3)
I am: #<FUNC {1002BEC389}>, my state is: 89, my args were (4 5 6)
I am: #<FUNC {1002BEC389}>, my state is: 62, my args were (7 8 9)
NIL
share|improve this answer
    
OK, this worked, except that inside the body (funcall 'f ...) doesn't expand as expected, but (funcall f ...) does (the left-over from let). My variant generates very similar code, expect where you have \`(funcall ,',name ,@args) I have (list 'apply ',name 'args) I thought these should be identical... –  user797257 Nov 12 '13 at 16:54
1  
@wvxvw The macro expansion code isn't so important, as long as the code that it generates is the same. You won't be able to make (funcall 'f ...) work. funcall takes a function designator which, if it's a symbol, denotes "the function named by that symbol in the global environment". (i) You're working with a funcallable, not a function. (ii) You're not working in the global environment. Even (flet ((f ...)) (funcall 'f ...) calls the global, not the local. –  Joshua Taylor Nov 12 '13 at 17:00
    
Ahhh... ok, now I see, I thought that I could funcall a symbol which is the name defined in labels, but I actually have to pass it a function reference, not a symbol. OK, thanks for explanation. –  user797257 Nov 12 '13 at 17:02

I'm not sure what you are trying to do, but maybe this?

(defmacro funcallable-let (bindings &body body)
  (let ((gensyms (loop repeat (length bindings) collect (gensym))))
    `(let ,(loop for (name value) in bindings and g in gensyms
                 collect `(,g ,value))
       (flet ,(loop for (name value) in bindings and g in gensyms
                    collect `(,name (&rest args) (apply ,g args)))
         ,@body))))

Sample usage:

(funcallable-let ((foo (make-instance 'some-funcallable-class :initargs ...)))
  (foo ...))
share|improve this answer
    
Nope, this won't do because it creates a bunch of wrapper functions around the funcallable objects, which defies the purpose of using funcallable objects (you won't be able to specialize methods on them / perform other useful things like changing slot values etc.) –  user797257 Nov 12 '13 at 13:31
    
@wvxvw I'm now reading the other answers a bit more closely, and mine is similar to this, except that I've used a macrolet instead of flet. –  Joshua Taylor Nov 12 '13 at 16:49

For a similar problem see GENERIC-FLET and GENERIC-LABELS of CLtL2 and why it was removed in ANSI Common Lisp.

http://www.lispworks.com/documentation/HyperSpec/Issues/iss181_w.htm

share|improve this answer
    
Thanks, this is interesting, I didn't know these macros ever existed. However in what I'm trying to do the class definition is outside the macro, so I can reuse the code that handles functions of the extended type in a uniform way across multiple functions. Technically, nothing stops me from doing it even now, the only thing that bothers me is the overly verbose syntax (i.e. I've to write (funcall 'foo ...) instead of just (foo ...). –  user797257 Nov 12 '13 at 16:36

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