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I would like to be able to say (defvar x y) and have it bind to the symbol bound to x instead of x, but defvar will only bind it to the symbol x, which is too bad. How can I do this without defaulting to adding it a a property of the symbol?

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2 Answers 2

up vote 2 down vote accepted

You can use the symbol-value accessor:

CL-USER> (defvar *sym* 'abc)
CL-USER> (setf (symbol-value *sym*) 100)
CL-USER> abc    ;non-ANSI-portable, since ABC is undeclared

Note that this sets the symbol's value cell, which is the same as its dynamic binding, so in order to portably access it, you either need to use symbol-value all the time or (either locally or globally) declare the variable special. You can do this locally like this:

CL-USER> (locally (declare (special abc))
           (+ abc 3))

or globally by using defvar (which isn't recommended for non-earmuffed symbols):

CL-USER> (defvar abc)

(I know of no CL implementation that actually requires this, though. You're usually safe assuming that undeclared variables are assumed special by default.)

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In addition to Matthias' answer:

You could also use set

T1> (defparameter *symbol* 'foo)
T1> (set *symbol* 100)

since (set symbol value) == (setf (symbol-value symbol) value), i.e. in contrast to setq and setf, set evaluates its first argument. (setq could be read as "set quoted") set is marked deprecated in the Hyperspec, but since I don't really expect the next CL standard anytime soon, it should be safe to use.

Also, I don't think you'd have to use symbol-value or any special declarations in order to portably access it -- At least for all practical purposes. (While one could maybe argue that, technically, since one cannot rely on the modified symbol even being locally special, maybe the variable wouldn't be evaluated via symbol-value, but see the referenced Naggum post below, and Matthias' last sentence.)

It is true, that setq, setf, set et al. are only guaranteed to modify bindings for conforming implementations. When used at toplevel, the symbol-value will be modified, but you can't rely on any global special declaration (or anything else) taking place (cf. Naggum). But usually, implementations will at least make evaluating the new variable use the symbol-value slot. This doesn't mean that one has to use symbol-value or local/global special declarations in order to access the symbol-value, but it does mean, that a new binding of the same symbol won't be automatically special, as it would be the case with variables introduced via defparameter and friends.

So, while usually, with global special variables:

T1> (let ((*symbol* 'bar))
      (symbol-value '*symbol*))

A new binding to a non global special will itself not be special:

T1> (let ((foo 101))       ; this new binding is lexical
      (symbol-value 'foo)) ; so symbol-value refers to the outer special
T1> (let ((foo 101))
      foo)                 ; evaluation of foo's new lexical binding
101                        ; doesn't look at the `symbol-value`. lexical
                           ; bindings are mere addresses at runtime.

And that's also where the local special declaration could be used in order to reference the outer, (not globally) special binding of foo:

T1> (let ((foo 101))
      foo)              ; our new lexical binding
T1> (let ((foo 101))
      (locally (declare (special foo))
        foo))           ; the outer special binding
T1> (let ((foo 101))
      (setq foo 102)    ; modify the new lexical binding
T1> foo                 ; doesn't modify the outer special binding
T1> (let ((foo 101))
      (locally (declare (special foo))
        (setq foo 102)  ; modify the outer special binding
T1> foo

As far as I understand, the undefined part, or at least the one where you should expect portability problems, is whether such toplevel modifications might declare something (globally) special or not. The behavior I would expect is what I have shown here, but if the variable will be declared globally special or not (or maybe even introduce a toplevel lexical variable?) as long as it is at least made locally special, one won't need local declarations or symbol-value to access it.

Also, you should consider if you really need what you've asked for. It's likely that what you want to do could be solved in a more idiomatic (at least for modern Lispers) way, and relying on undefined behavior would not be considered good style by most for anything but REPL use.

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CMU CL does in fact globally declare a variable created by setq special. (This is, of course, not true for (setf symbol-value). Maybe you meant that; I just wanted to clarify.) – Matthias Benkard Oct 4 '11 at 18:42
Matthias: I meant, that I'd expect a toplevel setq either to be globally special or locally at toplevel (I think the latter is more common). In both cases, one wouldn't have to use symbol-value. But (and that's how I understand your answer) not even that is guaranteed, so theoretically, one must use symbol-value to be absolutely portable. (But thats what I wouldn't expect.) Maybe the second part of my answer isn't as clear as it could be, but the examples might still be helpful. The main point was that one can use set, and usually, there's no need for symbol-value. – danlei Oct 4 '11 at 21:10
(The "usually, there's no need for symbol-value" refers to this question only. Of course there are situations where it is used.) – danlei Oct 4 '11 at 21:23
I was talking about these sentences: “setq, setf, set et al. only modify bindings. When used at toplevel, the symbol-value will be modified, but no global special declaration takes place.” I agree with everything else. :) – Matthias Benkard Oct 5 '11 at 9:58
Ok, I see. I'll edit the answer. Thanks! – danlei Oct 5 '11 at 10:50

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