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I'm trying to pass a list to macro, for example:

(defmacro print-lst (lst)
  `(progn
     ,@(mapcar #'(lambda (x) `(print ,x)) lst)))
(let ((lst '(1 2 3)))
      (print-lst lst))

It caught error: "The value LST is not of type LST".

So, my question is, what's wrong with this piece of code and how to pass list to macro?

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2 Answers 2

up vote 6 down vote accepted

I'm not sure why you want to define this as a macro instead of a regular function, but the problem is that macros do not evaluate their arguments. If you give it the name of a lexical variable, all it sees is the name ('LST), not the bound value. It is complaining (correctly) that the symbol 'LST is not a list, and thus not a valid second argument to MAPCAR.

You could call it as (print-lst (1 2 3)), but then you could do without the macro and just do (mapc #'print lst)

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What you're attempting to do with your macro is to expand a literal list.

Macro arguments are not evaluated. So, print-lst is actually receiving the symbol lst, not the list bound to the variable.

You either aknowledge that and give print-lst a literal list, or you may generate code that evaluates the macro argument:

(defmacro print-lst (lst)
  (let ((item (gensym)))
    ;; Macros usually make sure that expanded arguments are
    ;; evaluated only once and in left-to-right order.
    ;; 
    ;; In this case, we only have one argument and we only evaluate it once.
    `(dolist (,item ,lst)
       (print ,item))))

Although, this is obviously not a good example of a macro, it would much better be a function:

(defun print-lst (lst)
  (dolist (item lst)
    (print item)))

If you wish to inline calls to print-lst, you may consult your implementation's documentation to see if it pays attention to (declaim (inline print-lst)).

Another option is to use a compiler macro, in complement to the function, to inline calls where the evaluation of the argument is a known value at compile-time, but again see if your implementation pays any attention to compiler macros:

(define-compiler-macro print-lst (&whole form lst &environment env)
  (declare (ignorable env))
  ;; Some implementations have an eval function that takes an environment.
  ;; Since that's not standard Common Lisp, we don't use it in constantp.
  (if (constantp lst)
      `(progn
         ,@(mapcar #'(lambda (item)
                       `(print ,item))
                   (eval lst)))
      ;; Return the original form to state you didn't transform code.
      form))
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