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I have the following LISP code

(defun l (x y) (list x y))

when I do (l a a) I get an error that A has no value.

I want this to return (a a). How can I overcome this?

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You can't. Lisp does not work that way. Symbols need to be quoted, otherwise they are evaluated. –  Rainer Joswig Feb 19 '12 at 23:51

2 Answers 2

up vote 5 down vote accepted

I think what you mean is that you want a list of "symbols". When a symbol is bound to a value, then it becomes a variable. You can do this by "quoting" the symbols when you pass it to your l function:

(l 'a 'a)

Recommended reading: http://www.gigamonkeys.com/book/syntax-and-semantics.html

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The point is that I don't want to pass it in that way. And, yes I meant symbols since they aren't bound to anything. I need to call is like (l a a) for some symbol a –  CyberShot Feb 19 '12 at 23:41
If you want to provide a syntax without needing to quote symbols, you'll need to write this as a macro. It might be good to explain what you're trying to do here on a higher level. –  Daniel Dickison Feb 19 '12 at 23:51


You can write a code-walking macro that replaces references to unbound variables with quotations if you have sufficient macroexpansion-time access to the lexical context to determine which variables are lexically unbound. By programming by wishful thinking, the macro could look something like the following:

(defmacro with-ad-hoc-quotations (&body forms &environment outer-env)
   (lambda (var env)
     (if (walk:lexically-bound-p var env)
         `(if (boundp ',var)  ;deal with dynamic bindings
              (symbol-value ',var)
   `(progn ,@forms)

where walk:map-variable-references is assumed to be a function that takes a form and replaces all variable references within the supplied form with the result of applying the supplied function to the variable name and the lexical context; and where walk:lexically-bound-p is assumed to return a generalized boolean that tells you whether a given symbol is lexically bound in a given context.

You will need to discover implementations of the latter functions yourself (and walk:lexically-bound-p might need support from the Lisp implementation), but that's the general idea. Usage of the macro would be as follows:

(with-ad-hoc-quotations (l a a))
;=> (A A)

or, a more interesting example,

(defvar *c* 20)

  (let ((b 10))
    (list a b *c*)))
;=> (A 10 20)

Implementation in SBCL

As a proof of concept, this is an SBCL-specific implementation using sb-walker:

(defmacro with-ad-hoc-quotations (&body forms &environment outer-env)
   `(progn ,@forms)
   (lambda (form ctx env)
     (declare (ignore ctx))
     (typecase form
        (if (sb-walker:var-lexical-p form env)
            `(if (boundp ',form)
                 (symbol-value ',form)

Or, if you prefer the more general version described above, we can implement the two required functions for SBCL as follows:

(defun lexically-bound-p (var env)
  (sb-walker:var-lexical-p var env))

(defun map-variable-references (fn form &optional env)
  (sb-walker:walk-form form
                       (lambda (expr ctx env)
                         (declare (ignore ctx))
                         (typecase expr
                           (symbol (funcall fn expr env))
                           (t      expr)))))

Implementation using hu.dwim.walker

Finally, the following is an implementation based on the portable hu.dwim.walker library (available via Quicklisp). Beware that it does not take the enclosing lexical context into account, so you generally need to call it on the top level for it to work correctly.

(defmacro with-ad-hoc-quotations (&body forms)
    (hu.dwim.walker:walk-form `(progn ,@forms))
    (lambda (parent type form)
      (declare (ignore parent type))
      (typecase form
         (hu.dwim.walker:walk-form `',(hu.dwim.walker:name-of form)))
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