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I don't understand the purpose of the 1st LET in condlet-clause below.

`(,(car cl) (let ,(mapcar #'cdr vars)

Is this necessary since it does not define specific value here? It just declare the local variables instead. Why bother to do this?

(defmacro condlet (clauses &body body)
      (let ((bodfn (gensym))
            (vars (mapcar #'(lambda (v) (cons v (gensym)))
                           (mapcar #'car
                                   (mappend #'cdr clauses))))))
        `(labels ((,bodfn ,(mapcar #'car vars)
            (cond ,@(mapcar #'(lambda (cl)
                                (condlet-clause vars cl bodfn))

(defun condlet-clause (vars cl bodfn)
  `(,(car cl) (let ,(mapcar #'cdr vars)
                 (let ,(condlet-binds vars cl)
                   (,bodfn ,@(mapcar #'cdr vars))))))

(defun condlet-binds (vars cl)
  (mapcar #'(lambda (bindform)
              (if (consp bindform)
                  (cons (cdr (assoc (car bindform) vars))
                        (cdr bindform))))
          (cdr cl))) 
share|improve this question
mappend isn't part of Common Lisp. Is that supposed to be mapcan? – Joshua Taylor Dec 11 '13 at 4:08
Can you show an example of how condlet is supposed to be used so that we can have some good input data to use for macroexpansion? – Joshua Taylor Dec 11 '13 at 4:09
@JoshuaTaylor All the sample code from On Lisp are listed here: – Chris Jester-Young Dec 11 '13 at 4:13
@JoshuaTaylor It also doesn't presume that the function returns mutable lists, unlike mapcan. – Chris Jester-Young Dec 11 '13 at 4:15
@user1461328 Well, yes, we were just discussing about how it differs from mapcan (which uses nconc instead of append). The main difference is that append copies the incoming lists, and nconc mutates the incoming lists. The latter is more performant but can only be used if the lists are linear-update; the former is usable everywhere. – Chris Jester-Young Dec 11 '13 at 9:07
up vote 2 down vote accepted

Based on this implementation of CONDLET, condlet can be used like this:

(condlet (((= 1 2) (x 1) (y 2))
          ((= 1 1) (x 2) (y 1))
          (t (x 3) (z 3)))
  (list x y z))

Notice that there are three variables that appear in the body part, x, y, and z, but each of those clauses only binds two: the first and second bind x and y, and the third binds x and z. By doing

(let (x y z)
  (let <bindings from actual clause>
    (bodyfn x y z)))

the macro guarantees that x, y, and z all have default values of nil. The <bindings from actual clause> will lexically shadow the variables that the actual clause is responsible for binding. That's a bit of a simplification, though. To see what's actually happening, let's look at the macroexpansion of that example:

(pprint (macroexpand-1 '(condlet (((= 1 2) (x 1) (y 2))
                                  ((= 1 1) (x 2) (y 1))
                                  (t (x 3) (z 3)))
                         (list x y z))))
(LABELS ((#:G973 (Y X Z)                   ;  g973 = bodfn
           (LIST X Y Z)))
   ((= 1 2)
    (LET (#:G974 #:G975 #:G976)            ; y(g974) = nil, x(g975) = nil, z(g976) = nil
      (LET ((#:G975 1) (#:G974 2))         ; x = 1, y = 2
        (#:G973 #:G974 #:G975 #:G976))))   ; (bodfn y x z)
   ((= 1 1)
    (LET (#:G974 #:G975 #:G976)            ; y = nil, x = nil, z = nil
      (LET ((#:G975 2) (#:G974 1))         ; x = 2, y = 1
        (#:G973 #:G974 #:G975 #:G976))))   ; (bodfn y x z)
    (LET (#:G974 #:G975 #:G976)            ; y = nil, x = nil, z = nil
      (LET ((#:G975 3) (#:G976 3))         ; x = 3, z = 4
        (#:G973 #:G974 #:G975 #:G976)))))) ; (bodfn y x z)
share|improve this answer
Thank you for the details. Understood. – user1461328 Dec 11 '13 at 6:55

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