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;;;; quasiquote-2.0.lisp
(in-package #:quasiquote-2.0)
(defparameter *env* nil)
(defmacro nonsense-error (str)
`(error ,(concatenate 'string
str
" appears as a bare, non DIG-enclosed form. "
"For now I don't know how to make sense of this.")))
(defmacro define-nonsense-when-bare (name)
`(defmacro ,name (n-or-form &optional form)
(declare (ignore n-or-form form))
(nonsense-error ,(string name))))
(define-nonsense-when-bare inject)
(define-nonsense-when-bare oinject)
(define-nonsense-when-bare splice)
(define-nonsense-when-bare osplice)
(define-nonsense-when-bare macro-inject)
(defparameter *depth* 0)
(defparameter *injectors* nil)
;; (defmacro with-injector-parsed (form)
;; `(let ((kwd (intern (string
(defun reset-injectors ()
(setf *injectors* nil))
(defparameter *known-injectors* '(inject splice oinject osplice
macro-inject omacro-inject
macro-splice omacro-splice
macro-inject-all omacro-inject-all
macro-splice-all omacro-splice-all))
(defun injector-form-p (form)
(and (consp form)
(find (car form) *known-injectors* :test #'eq)))
(defun injector-level (form)
(if (equal 2 (length form))
1
(cadr form)))
(defun injector-subform (form)
(if (equal 2 (length form))
(values (cdr form) '(cdr))
(values (cddr form) '(cddr))))
(defparameter *opaque-injectors* '(odig oinject osplice omacro-inject))
(defun transparent-p (form)
(not (find (car form) *opaque-injectors* :test #'eq)))
(defun look-into-injector (form path)
(let ((*depth* (- *depth* (injector-level form))))
(multiple-value-bind (subform subpath) (injector-subform form)
(search-all-active-sites subform (append subpath path) nil))))
(defparameter *known-diggers* '(dig odig))
(defun dig-form-p (form)
(and (consp form)
(find (car form) *known-diggers* :test #'eq)))
(defun look-into-dig (form path)
(let ((*depth* (+ *depth* (injector-level form))))
(multiple-value-bind (subform subpath) (injector-subform form)
(search-all-active-sites subform (append subpath path) nil))))
(defun handle-macro-1 (form)
(if (atom form)
(error "Sorry, symbol-macros are not implemented for now")
(let ((fun (macro-function (car form) *env*)))
(if (not fun)
(error "The subform of MACRO-1 injector is supposed to be macro, perhaps, something went wrong..."))
(macroexpand-1 form *env*))))
(defun handle-macro-all (form)
(if (atom form)
(error "Sorry, symbol-macros are not implemented for now")
(macroexpand form *env*)))
(defparameter *macro-handlers* `((macro-inject . ,#'handle-macro-1)
(omacro-inject . ,#'handle-macro-1)
(macro-splice . ,#'handle-macro-1)
(omacro-splice . ,#'handle-macro-1)
(macro-inject-all . ,#'handle-macro-all)
(omacro-inject-all . ,#'handle-macro-all)
(macro-splice-all . ,#'handle-macro-all)
(omacro-splice-all . ,#'handle-macro-all)))
(defun get-macro-handler (sym)
(or (cdr (assoc sym *macro-handlers*))
(error "Don't know how to handle this macro injector: ~a" sym)))
(defun macroexpand-macroinjector (place)
(if (not (splicing-injector (car place)))
(progn (setf (car place) (funcall (get-macro-handler (caar place))
(car (injector-subform (car place)))))
nil)
(let ((new-forms (funcall (get-macro-handler (caar place))
(car (injector-subform (car place))))))
(cond ((not new-forms)
(setf *void-filter-needed* t
(car place) *void-elt*))
((atom new-forms) (error "We need to splice the macroexpansion, but got atom: ~a" new-forms))
(t (setf (car place) (car new-forms))
(let ((tail (cdr place)))
(setf (cdr place) (cdr new-forms)
(cdr (last new-forms)) tail))))
t)))
(defun search-all-active-sites (form path toplevel-p)
;; (format t "SEARCH-ALL-ACTIVE-SITES: got form ~a~%" form)
(if (not form)
nil
(if toplevel-p
(cond ((atom (car form)) :just-quote-it!)
((injector-form-p (car form)) (if (equal *depth* (injector-level (car form)))
:just-form-it!
(if (transparent-p (car form))
(look-into-injector (car form) (cons 'car path)))))
((dig-form-p (car form))
;; (format t "Got dig form ~a~%" form)
(if (transparent-p (car form))
(look-into-dig (car form) (cons 'car path))))
(t (search-all-active-sites (car form) (cons 'car path) nil)
(search-all-active-sites (cdr form) (cons 'cdr path) nil)))
(when (consp form)
(cond ((dig-form-p (car form))
;; (format t "Got dig form ~a~%" form)
(if (transparent-p (car form))
(look-into-dig (car form) (cons 'car path))))
((injector-form-p (car form))
;; (format t "Got injector form ~a ~a ~a~%" form *depth* (injector-level (car form)))
(if (equal *depth* (injector-level (car form)))
(if (macro-injector-p (car form))
(progn (macroexpand-macroinjector form)
(return-from search-all-active-sites
(search-all-active-sites form path nil)))
(progn (push (cons form (cons 'car path)) *injectors*)
nil))
(if (transparent-p (car form))
(look-into-injector (car form) (cons 'car path)))))
(t (search-all-active-sites (car form) (cons 'car path) nil)))
(search-all-active-sites (cdr form) (cons 'cdr path) nil)))))
(defun codewalk-dig-form (form)
(reset-injectors)
(let ((it (search-all-active-sites form nil t)))
(values (nreverse *injectors*) it)))
(defun %codewalk-dig-form (form)
(if (not (dig-form-p form))
(error "Supposed to be called on dig form")
(let ((*depth* (+ (injector-level form) *depth*)))
(codewalk-dig-form (injector-subform form)))))
(defun path->setfable (path var)
(let ((res var))
;; First element is artifact of extra CAR-ing
(dolist (spec (cdr (reverse path)))
(setf res (list spec res)))
res))
(defun tree->cons-code (tree)
(if (atom tree)
`(quote ,tree)
`(cons ,(tree->cons-code (car tree))
,(tree->cons-code (cdr tree)))))
(defparameter *known-splicers* '(splice osplice
macro-splice omacro-splice
macro-splice-all omacro-splice-all))
(defun splicing-injector (form)
(and (consp form)
(find (car form) *known-splicers* :test #'eq)))
(defparameter *known-macro-injectors* '(macro-inject omacro-inject
macro-splice omacro-splice
macro-inject-all omacro-inject-all
macro-splice-all omacro-splice-all
))
(defun macro-injector-p (form)
(and (consp form)
(find (car form) *known-macro-injectors* :test #'eq)))
(defparameter *void-elt* nil)
(defparameter *void-filter-needed* nil)
(defun filter-out-voids (lst void-sym)
(let (caars cadrs cdars cddrs)
;; search for all occurences of VOID
(labels ((rec (x)
(if (consp x)
(progn (cond ((consp (car x))
(cond ((eq void-sym (caar x)) (push x caars))
((eq void-sym (cdar x)) (push x cdars))))
((consp (cdr x))
(cond ((eq void-sym (cadr x)) (push x cadrs))
((eq void-sym (cddr x)) (push x cddrs)))))
(rec (car x))
(rec (cdr x))))))
(rec lst))
(if (or cdars cddrs)
(error "Void sym found on CDR position, which should not have happened"))
;; destructively transform LST
(dolist (elt caars)
(setf (car elt) (cdar elt)))
(dolist (elt cadrs)
(setf (cdr elt) (cddr elt)))
;; check that we indeed filtered-out all VOIDs
(labels ((rec (x)
(if (not (atom x))
(progn (rec (car x))
(rec (cdr x)))
(if (eq void-sym x)
(error "Not all VOIDs were filtered")))))
(rec lst))
lst))
(defun transform-dig-form (form)
(let ((the-form (copy-tree form)))
(let ((*void-filter-needed* nil)
(*void-elt* (gensym "VOID")))
(multiple-value-bind (site-paths cmd) (%codewalk-dig-form the-form)
(cond ((eq cmd :just-quote-it!)
`(quote ,(car (injector-subform the-form))))
((eq cmd :just-form-it!)
(car (injector-subform (car (injector-subform the-form)))))
(t (let ((cons-code (if (not site-paths)
(tree->cons-code (car (injector-subform the-form)))
(really-transform-dig-form the-form site-paths))))
(if (not *void-filter-needed*)
cons-code
`(filter-out-voids ,cons-code ',*void-elt*)))))))))
(defmacro make-list-form (o!-n form)
(let ((g!-n (gensym "N"))
(g!-i (gensym "I"))
(g!-res (gensym "RES")))
`(let ((,g!-n ,o!-n)
(,g!-res nil))
(dotimes (,g!-i ,g!-n)
(push ,form ,g!-res))
(nreverse ,g!-res))))
(defun mk-splicing-injector-let (x)
`(let ((it ,(car (injector-subform x))))
(assert (listp it))
(copy-list it)))
(defun mk-splicing-injector-setf (path g!-list g!-splicee)
(assert (eq 'car (car path)))
(let ((g!-rest (gensym "REST")))
`(let ((,g!-rest ,(path->setfable (cons 'cdr (cdr path)) g!-list)))
(assert (or (not ,g!-rest) (consp ,g!-rest)))
(if (not ,g!-splicee)
(setf ,(path->setfable (cdr path) g!-list)
,g!-rest)
(progn (setf ,(path->setfable (cdr path) g!-list) ,g!-splicee)
(setf (cdr (last ,g!-splicee)) ,g!-rest))))))
(defun really-transform-dig-form (the-form site-paths)
(let ((gensyms (make-list-form (length site-paths) (gensym "INJECTEE"))))
(let ((g!-list (gensym "LIST")))
(let ((lets nil)
(splicing-setfs nil)
(setfs nil))
(do ((site-path site-paths (cdr site-path))
(gensym gensyms (cdr gensym)))
((not site-path))
(destructuring-bind (site . path) (car site-path)
(push `(,(car gensym) ,(if (not (splicing-injector (car site)))
(car (injector-subform (car site)))
(mk-splicing-injector-let (car site))))
lets)
(if (not (splicing-injector (car site)))
(push `(setf ,(path->setfable path g!-list) ,(car gensym)) setfs)
(push (mk-splicing-injector-setf path g!-list (car gensym)) splicing-setfs))
(setf (car site) nil)))
`(let ,(nreverse lets)
(let ((,g!-list ,(tree->cons-code (car (injector-subform the-form)))))
,@(nreverse setfs)
;; we apply splicing setf in reverse order for them not to bork the paths of each other
,@splicing-setfs
,g!-list))))))
;; There are few types of recursive injection that may happen:
;; * compile-time injection:
;; (dig (inject (dig (inject a)))) -- this type will be handled automatically by subsequent macroexpansions
;; * run-time injection:
;; (dig (dig (inject 2 a)))
;; and A is '(dig (inject 3 'foo)) -- this one we guard against ? (probably, first we just ignore it
;; -- do not warn about it, and then it wont really happen.
;; * macroexpanded compile-time injection:
;; (dig (inject (my-macro a b c))),
;; where MY-MACRO expands into, say (splice (list 'a 'b 'c))
;; This is *not* handled automatically, and therefore we must do it by hand.
;; OK, now how to implement splicing ?
;; (dig (a (splice (list b c)) d))
;; should transform into code that yields
;; (a b c d)
;; what this code is?
;; (let ((#:a (copy-list (list b c))))
;; (let ((#:res (cons 'a nil 'd)))
;; ;; all non-splicing injects go here, as they do not spoil the path-structure
;; (setf (cdr #:res) #:a)
;; (setf (cdr (last #:a)) (cdr (cdr #:res)))
;; #:res)))
;; How this macroexpansion should work in general?
;; * We go over the cons-tree, keeping track of the depth level, which is
;; controlled by DIG's
;; * Once we find the INJECT with matching level, we remember the place, where
;; this happens
;; * We have two special cases:
;; * cons-tree is an atom
;; * cons-tree is just a single INJECT
|