The Context

I've found in my limited experience with Common Lisp, it's not uncommon to have some code like this

(setf (gethash key table)
      (my-transformation (gethash key table)))

where you read from a setfable place, perform some computation on the value stored there, then write to the same place. The thing I don't like about this is that the place will be computed twice, but the place will (hopefully!) be the same both times. If the place computation is expensive, we're doing as much as twice as much work as we need to.

The Question

Is it possible to eliminate the need for the double computation? That is, is it possible (desirable?) to write a macro setf-inplace:

(setf-inplace (gethash key table) #'my-transformation)

conceptually equivalent (ignoring for the moment multiple-values weirdness) to but potentially much faster than the original code, preferably without relying on implementation details?

I know I may be putting the cart in front of the horse in this particular case, since SBCL caches the lookup for gethash, but it seems to me that other setfable places, like (assoc key my-alist), may not be so easy to cache—except, of course, via some mechanism like the setf-inplace above.

1 Answer 1

(setf (gethash key table)
      (my-transformation (gethash key table)))

Let's say the transformation is 1+. Then above is

(setf (gethash key table)
      (1+ (gethash key table)))

Which in Common Lisp has a macro:

(incf (gethash key table))

Clozure CL expands this to:

(LET* ((#:G69020 KEY)
       (#:G69021 TABLE)
       (#:G69022 1)
       (#:G69019 (+ (GETHASH #:G69020 #:G69021) #:G69022)))
  (DECLARE (TYPE BIT #:G69022) (TYPE T #:G69019))
  (CCL::PUTHASH #:G69020 #:G69021 #:G69019))

Now remember that the setter for a place is found at compile time and that the setter operation of a place is different from the getter. Not only does the setter something different by updating something, but it also may do arbitrary other things like setting up a transaction, acquiring a lock, ... Thus getting and setting are not the same/similar operation twice.

Common Lisp has no physical data structure which represents a place. A place is an abstract idea which combines a setter with a given getter. The setter can be arbitrary complex code.

So, in above code - which calculations are redundant?

Still you say what about optimizing access for the primitive case:

(incf (car (very-long-access-chain data)))

You would have to write by hand:

(let ((cons-cell (very-long-access-chain data)))
  (incf (car cons-cell))

Which is basically what Lisp does anyway. See: CLHS Evaluation of Subforms to Places

  • 1
    I don't see anything gained by moving the very-long-access-chain out of the incf into a let in the last example, it seems to me (and my macroexpander) that the only difference between the two forms is an extra lexical binding. Am I missing the point?
    – m-n
    Commented Feb 25, 2014 at 9:35
  • That makes sense; I hadn't realized that the getter and setter were possibly unrelated computations. In fact, looking at SBCL's SB!IMPL:GETHASH et al., there's not much if any code shared between the implementations. Still, it seems to me that it should be possible, for example, to define a setf-expander that caches the "place" in its temporary variables. In that case, such a macro as setf-inplace should be workable. I don't know if it would be possible, though, to write it to do anything sensible with non-caching setf-expanders. Commented Feb 25, 2014 at 9:35
  • @Stuart Olsen: you can't catch a place. It does not exist. A place is not a pointer or a data-structure you can store. That's the problem. Commented Feb 25, 2014 at 9:52
  • 1
    @Stuart Olsen: a pair is not a structure which necessary stores a reference. (cons 3 nil). The three is not a reference. (let ((foo some-object)) (list (cons foo nil) (cons foo nil))). If some-object is a fixnum, it will be stored inline. If some-object is an array, a reference will be stored and both references will point to the same object. A cons can also not point into a hash-table, a complex number, a vector, a string, nor into an abstract object, ... Commented Feb 25, 2014 at 11:54
  • 2
    The setf mechanism is cool, but I don't think it can do what the OP desires. Consider (incf (getf :key place 0)). As far as I know, it is not possible to write your setf method for getf such that you avoid seaching the property list in value twice. Meanwhile setf isn't thread safe, so while that's interesting it's a distraction.
    – Ben Hyde
    Commented Feb 25, 2014 at 14:14

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