Doing this right seems to be a little more complicated. For instance, the code for
push in SBCL 1.0.58 is:
(defmacro-mundanely push (obj place &environment env)
"Takes an object and a location holding a list. Conses the object onto
the list, returning the modified list. OBJ is evaluated before PLACE."
(multiple-value-bind (dummies vals newval setter getter)
(sb!xc:get-setf-expansion place env)
(let ((g (gensym)))
`(let* ((,g ,obj)
,@(mapcar #'list dummies vals)
(,(car newval) (cons ,g ,getter))
So reading the documentation on get-setf-expansion seems to be useful.
For the record, the generated code looks quite nice:
Pushing into a symbol:
(push 1 symbol)
(LET* ((#:G906 1) (#:NEW905 (CONS #:G906 SYMBOL)))
(SETQ SYMBOL #:NEW905))
Pushing into a SETF-able function (assuming
symbol points to a list of lists):
(push 1 (first symbol))
(LET* ((#:G909 1)
(#:NEW907 (CONS #:G909 (FIRST #:SYMBOL908))))
(SB-KERNEL:%RPLACA #:SYMBOL908 #:NEW907))
So unless you take some time to study
setf, setf expansions and company, this looks rather arcane (it may still look so even after studying them). The 'Generalized Variables' chapter in OnLisp may be useful too.
Hint: if you compile your own SBCL (not that hard), pass the
--fancy argument to
make.sh. This way you'll be able to quickly see the definitions of functions/macros inside SBCL (for instance, with M-. inside Emacs+SLIME). Obviously, don't delete those sources (you can run
install.sh, to save 90% of the space).