`(,@(nreverse special-forms) ,@(macroexp-unprogn body))))
funcbody)))
+(defun cconv--lifted-arg (var env)
+ "The argument to use for VAR in λ-lifted calls according to ENV.
+This is used when VAR is being shadowed; we may still need its value for
+such calls."
+ (let ((mapping (cdr (assq var env))))
+ (pcase-exhaustive mapping
+ (`(internal-get-closed-var . ,_)
+ ;; The variable is captured.
+ mapping)
+ (`(car-safe (internal-get-closed-var . ,_))
+ ;; The variable is mutably captured; skip
+ ;; the indirection step because the variable is
+ ;; passed "by reference" to the λ-lifted function.
+ (cadr mapping))
+ ((or '() `(car-safe ,(pred symbolp)))
+ ;; The variable is not captured; use the (shadowed) variable value.
+ ;; (If the mapping is `(car-safe SYMBOL)', SYMBOL is always VAR.
+ var))))
+
(defun cconv-convert (form env extend)
;; This function actually rewrites the tree.
"Return FORM with all its lambdas changed so they are closed.
;; One of the lambda-lifted vars is shadowed, so add
;; a reference to the outside binding and arrange to use
;; that reference.
- (let ((closedsym (make-symbol (format "closed-%s" var))))
+ (let ((var-def (cconv--lifted-arg var env))
+ (closedsym (make-symbol (format "closed-%s" var))))
(setq new-env (cconv--remap-llv new-env var closedsym))
(setq new-extend (cons closedsym (remq var new-extend)))
- (push `(,closedsym ,var) binders-new)))
+ (push `(,closedsym ,var-def) binders-new)))
;; We push the element after redefined free variables are
;; processed. This is important to avoid the bug when free
;; before we know that the var will be in `new-extend' (bug#24171).
(dolist (binder binders-new)
(when (memq (car-safe binder) new-extend)
- ;; One of the lambda-lifted vars is shadowed, so add
- ;; a reference to the outside binding and arrange to use
- ;; that reference.
+ ;; One of the lambda-lifted vars is shadowed.
(let* ((var (car-safe binder))
+ (var-def (cconv--lifted-arg var env))
(closedsym (make-symbol (format "closed-%s" var))))
(setq new-env (cconv--remap-llv new-env var closedsym))
(setq new-extend (cons closedsym (remq var new-extend)))
- (push `(,closedsym ,var) binders-new)))))
+ (push `(,closedsym ,var-def) binders-new)))))
`(,letsym ,(nreverse binders-new)
. ,(mapcar (lambda (form)
(cond)
(mapcar (lambda (x) (cond ((= x 0)))) '(0 1))
+
+ ;; These expressions give different results in lexbind and dynbind modes,
+ ;; but in each the compiler and interpreter should agree!
+ ;; (They look much the same but come in pairs exercising both the
+ ;; `let' and `let*' paths.)
+ (let ((f (lambda (x)
+ (lambda ()
+ (let ((g (lambda () x)))
+ (let ((x 'a))
+ (list x (funcall g))))))))
+ (funcall (funcall f 'b)))
+ (let ((f (lambda (x)
+ (lambda ()
+ (let ((g (lambda () x)))
+ (let* ((x 'a))
+ (list x (funcall g))))))))
+ (funcall (funcall f 'b)))
+ (let ((f (lambda (x)
+ (lambda ()
+ (let ((g (lambda () x)))
+ (setq x (list x x))
+ (let ((x 'a))
+ (list x (funcall g))))))))
+ (funcall (funcall f 'b)))
+ (let ((f (lambda (x)
+ (lambda ()
+ (let ((g (lambda () x)))
+ (setq x (list x x))
+ (let* ((x 'a))
+ (list x (funcall g))))))))
+ (funcall (funcall f 'b)))
+ (let ((f (lambda (x)
+ (let ((g (lambda () x))
+ (h (lambda () (setq x (list x x)))))
+ (let ((x 'a))
+ (list x (funcall g) (funcall h)))))))
+ (funcall (funcall f 'b)))
+ (let ((f (lambda (x)
+ (let ((g (lambda () x))
+ (h (lambda () (setq x (list x x)))))
+ (let* ((x 'a))
+ (list x (funcall g) (funcall h)))))))
+ (funcall (funcall f 'b)))
)
"List of expressions for cross-testing interpreted and compiled code.")
nil 99)
42)))
+(defun cconv-tests--intern-all (x)
+ "Intern all symbols in X."
+ (cond ((symbolp x) (intern (symbol-name x)))
+ ((consp x) (cons (cconv-tests--intern-all (car x))
+ (cconv-tests--intern-all (cdr x))))
+ ;; Assume we don't need to deal with vectors etc.
+ (t x)))
+
+(ert-deftest cconv-closure-convert-remap-var ()
+ ;; Verify that we correctly remap shadowed lambda-lifted variables.
+
+ ;; We intern all symbols for ease of comparison; this works because
+ ;; the `cconv-closure-convert' result should contain no pair of
+ ;; distinct symbols having the same name.
+
+ ;; Sanity check: captured variable, no lambda-lifting or shadowing:
+ (should (equal (cconv-tests--intern-all
+ (cconv-closure-convert
+ '#'(lambda (x)
+ #'(lambda () x))))
+ '#'(lambda (x)
+ (internal-make-closure
+ nil (x) nil
+ (internal-get-closed-var 0)))))
+
+ ;; Basic case:
+ (should (equal (cconv-tests--intern-all
+ (cconv-closure-convert
+ '#'(lambda (x)
+ (let ((f #'(lambda () x)))
+ (let ((x 'b))
+ (list x (funcall f)))))))
+ '#'(lambda (x)
+ (let ((f #'(lambda (x) x)))
+ (let ((x 'b)
+ (closed-x x))
+ (list x (funcall f closed-x)))))))
+ (should (equal (cconv-tests--intern-all
+ (cconv-closure-convert
+ '#'(lambda (x)
+ (let ((f #'(lambda () x)))
+ (let* ((x 'b))
+ (list x (funcall f)))))))
+ '#'(lambda (x)
+ (let ((f #'(lambda (x) x)))
+ (let* ((closed-x x)
+ (x 'b))
+ (list x (funcall f closed-x)))))))
+
+ ;; With the lambda-lifted shadowed variable also being captured:
+ (should (equal
+ (cconv-tests--intern-all
+ (cconv-closure-convert
+ '#'(lambda (x)
+ #'(lambda ()
+ (let ((f #'(lambda () x)))
+ (let ((x 'a))
+ (list x (funcall f))))))))
+ '#'(lambda (x)
+ (internal-make-closure
+ nil (x) nil
+ (let ((f #'(lambda (x) x)))
+ (let ((x 'a)
+ (closed-x (internal-get-closed-var 0)))
+ (list x (funcall f closed-x))))))))
+ (should (equal
+ (cconv-tests--intern-all
+ (cconv-closure-convert
+ '#'(lambda (x)
+ #'(lambda ()
+ (let ((f #'(lambda () x)))
+ (let* ((x 'a))
+ (list x (funcall f))))))))
+ '#'(lambda (x)
+ (internal-make-closure
+ nil (x) nil
+ (let ((f #'(lambda (x) x)))
+ (let* ((closed-x (internal-get-closed-var 0))
+ (x 'a))
+ (list x (funcall f closed-x))))))))
+ ;; With lambda-lifted shadowed variable also being mutably captured:
+ (should (equal
+ (cconv-tests--intern-all
+ (cconv-closure-convert
+ '#'(lambda (x)
+ #'(lambda ()
+ (let ((f #'(lambda () x)))
+ (setq x x)
+ (let ((x 'a))
+ (list x (funcall f))))))))
+ '#'(lambda (x)
+ (let ((x (list x)))
+ (internal-make-closure
+ nil (x) nil
+ (let ((f #'(lambda (x) (car-safe x))))
+ (setcar (internal-get-closed-var 0)
+ (car-safe (internal-get-closed-var 0)))
+ (let ((x 'a)
+ (closed-x (internal-get-closed-var 0)))
+ (list x (funcall f closed-x)))))))))
+ (should (equal
+ (cconv-tests--intern-all
+ (cconv-closure-convert
+ '#'(lambda (x)
+ #'(lambda ()
+ (let ((f #'(lambda () x)))
+ (setq x x)
+ (let* ((x 'a))
+ (list x (funcall f))))))))
+ '#'(lambda (x)
+ (let ((x (list x)))
+ (internal-make-closure
+ nil (x) nil
+ (let ((f #'(lambda (x) (car-safe x))))
+ (setcar (internal-get-closed-var 0)
+ (car-safe (internal-get-closed-var 0)))
+ (let* ((closed-x (internal-get-closed-var 0))
+ (x 'a))
+ (list x (funcall f closed-x)))))))))
+ ;; Lambda-lifted variable that isn't actually captured where it is shadowed:
+ (should (equal
+ (cconv-tests--intern-all
+ (cconv-closure-convert
+ '#'(lambda (x)
+ (let ((g #'(lambda () x))
+ (h #'(lambda () (setq x x))))
+ (let ((x 'b))
+ (list x (funcall g) (funcall h)))))))
+ '#'(lambda (x)
+ (let ((x (list x)))
+ (let ((g #'(lambda (x) (car-safe x)))
+ (h #'(lambda (x) (setcar x (car-safe x)))))
+ (let ((x 'b)
+ (closed-x x))
+ (list x (funcall g closed-x) (funcall h closed-x))))))))
+ (should (equal
+ (cconv-tests--intern-all
+ (cconv-closure-convert
+ '#'(lambda (x)
+ (let ((g #'(lambda () x))
+ (h #'(lambda () (setq x x))))
+ (let* ((x 'b))
+ (list x (funcall g) (funcall h)))))))
+ '#'(lambda (x)
+ (let ((x (list x)))
+ (let ((g #'(lambda (x) (car-safe x)))
+ (h #'(lambda (x) (setcar x (car-safe x)))))
+ (let* ((closed-x x)
+ (x 'b))
+ (list x (funcall g closed-x) (funcall h closed-x))))))))
+ )
+
(provide 'cconv-tests)
;;; cconv-tests.el ends here