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The problem with flet is that the functions bound therein must be defined inline. In other words, there's no way to do this:

(new-flet ((a (lambda (f x)
                (funcall f (* x 2))))
           (b (function-generator)))
    (a #'b 10))

I considered defining such a macro myself, but the problem is that flet seems to be the only way to set local function values. symbol-function always gets the global definition only, and function can't be used with setf. Anyone have an idea how this can be done fairly cleanly, if at all?

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I think you are forgetting about labels. –  sds Aug 21 '13 at 16:42
    
Thank you. I fixed it. –  nbtrap Aug 21 '13 at 16:42
    
I haven't forgotten about labels. My questions doesn't have anything to do with mutually recursive function bindings. The same problem here applies to flet and labels. –  nbtrap Aug 21 '13 at 16:44
    
Sorry, I'm just too used to Scheme I guess. –  nbtrap Aug 21 '13 at 16:57
    
I don't understand what your question is. Do you want to be able to override function calls inside of a function outside that function scope without using flet? Is Let and funcall what you are looking for? –  PuercoPop Aug 21 '13 at 18:21
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4 Answers

up vote 5 down vote accepted

You can easily build a trampoline

(defun function-generator (x)
  (lambda (y) (* x y)))

(let ((fg (function-generator 42)))
  (flet ((a (f x) (funcall f (* x 2)))
         (b (x) (funcall fg x)))
    (a #'b 10)))

A macro implementation of new-flet with this approach is

(defmacro new-flet (bindings &body body)
  (let ((let-bindings (list))
        (flet-bindings (list))
        (args (gensym)))
    (dolist (binding bindings)
      (let ((name (gensym)))
        (push `(,name ,(second binding))
              let-bindings)
        (push `(,(first binding) (&rest ,args)
                 (apply ,name ,args))
              flet-bindings)))
    `(let ,(nreverse let-bindings)
       (flet ,(nreverse flet-bindings)
         ,@body))))

that expands in your example case as

(macroexpand-1 '(new-flet ((a (lambda (f x) (funcall f (* x 2))))
                           (b (function-generator)))
                  (a #'b 10)))

==> (LET ((#:G605 (LAMBDA (F X)
                    (FUNCALL F (* X 2))))
          (#:G606 (FUNCTION-GENERATOR)))
      (FLET ((A (&REST #:G604)
               (APPLY #:G605 #:G604))
             (B (&REST #:G604)
               (APPLY #:G606 #:G604)))
        (A #'B 10)))
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MAKE-sYMBOL might be preferable. Depends. Also here one might also declare dynamic-extent for the new &rest variable. Lisp might be able to exploit that. –  Rainer Joswig Aug 21 '13 at 18:03
    
Awesome. I was afraid this would be impossible because I thought the macro would have to transform every instance of (a ...) into (funcall a ...) (which wouldn't work cleanly when, e.g., (a ...) is itself part of another special syntactical form to be transformed later). I didn't think to just wrap the function in another. –  nbtrap Aug 21 '13 at 18:04
    
@RainerJoswig What are the advantages/disadvantages to using make-symbol vs. gensym? –  nbtrap Aug 22 '13 at 16:03
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Is

(let* ((a (lambda (f x) (funcall f (* x 2))))
       (b (function-generator)))
    (funcall a b 10))

a fairly clean solution to your problem?

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1  
Obviously, that's not the same as flet, which binds the given identifiers in the function namespace. :-( –  Chris Jester-Young Aug 21 '13 at 16:28
    
@ChrisJester-Young No, it is not the same as flet, but it is a minor rewrite that makes the code in the question work. Thus the question if it could be regarded as a fairly clean solution. –  Terje D. Aug 21 '13 at 19:40
    
Your solution is actually a macro-expansion of the solution I was looking for. I didn't want to have to write funcall all over the place--just once, in the macro definition. –  nbtrap Aug 24 '13 at 15:40
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How about binding the variables with let, so that they're setfable, and then using an flet as the body of the let so that they're funcallable and (function …)-able, too. E.g., where I've given a silly little function instead of (generate-function):

(let ((a (lambda (f x)
           (funcall f (* x 2))))
      (b (lambda (&rest args)
           (print (list* 'print-from-b args)))))
  (flet ((a (&rest args)
           (apply a args))
         (b (&rest args)
           (apply b args)))
    (a #'b 10)))

We can wrap this up in a macro relatively easily:

(defmacro let/flet (bindings &body body)
  (let ((args (gensym (string '#:args-))))
    `(let ,bindings
       (flet ,(loop :for (name nil) :in bindings
                 :collect `(,name (&rest ,args) (apply ,name ,args)))
         ,@body))))

Now

(let/flet ((a (lambda (f x)
                (funcall f (* x 2))))
           (b (lambda (&rest args)
                (print (list* 'print-from-b args)))))
  (a #'b 10))

expands into the first block of code. Note that you can also use (a b 10) in the body as well, since the binding of b is the same as the value of #'b. You can use setf on the variable as well:

(let/flet ((a (lambda (x)
                (print (list 'from-a x)))))
  (a 23)
  (setf a (lambda (x)
            (print (list 'from-new-a x x))))
  (a 23))

prints

(FROM-A 23) 
(FROM-NEW-A 23 23) 
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The let/flet combination here is the same as the one in 6502's answer (which I didn't read carefully enough before writing this one), except that here the variable bindings are preserved, so that setf works on them, which was one of the requirements in the question. I think that the macro code is a bit easier to read, too. –  Joshua Taylor Aug 21 '13 at 17:23
    
This is good, but I think 6502's answer is slightly better, since his doesn't pollute the variable namespace. Nice work nonetheless. –  nbtrap Aug 21 '13 at 17:45
    
@nbtrap Does that mean you don't need to be able to setf the functions after all? –  Joshua Taylor Aug 21 '13 at 17:57
    
Being able to setf the local function slot would have enabled me to write a clean macro that I was envisioning (without messing with the variable namespace). But the solution you and 6502 provided make that unnecessary. I was thinking too shallowly. –  nbtrap Aug 21 '13 at 18:08
    
@nbtrap Ah, then yes, 6502's is nice for not polluting the variable namespace. I'll leave this here in case someone does want to be able to update the bindings (and, while it may just be personal taste, I still think this macro code (which can be easily modified not to pollute the value namespace) is a bit easier to follow. –  Joshua Taylor Aug 21 '13 at 18:30
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If anyone's interested in a labels equivalent, here it is:

(defmacro my-labels ((&rest definitions) &rest body)
  (let ((gensyms (loop for d in definitions collect (gensym)))
        (names (loop for d in definitions collect (car d)))
        (fdefs (loop for f in definitions collect (cadr f)))
        (args (gensym)))
    `(let (,@(loop for g in gensyms collect (list g)))
       (labels (,@(loop for g in gensyms for n in names
                     collect `(,n (&rest ,args) (apply ,g ,args))))
         ,@(loop for g in gensyms for f in fdefs
                collect `(setf ,g ,f))
         ,@body))))

This is sort of like Scheme's letrec.

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