(defun-with-dx dx-value-cell (x)
;; Not implemented everywhere, yet.
- #+(or x86 x86-64 mips)
+ #+(or x86 x86-64 mips hppa)
(let ((cell x))
(declare (sb-int:truly-dynamic-extent cell))
(flet ((f ()
(true v)
nil))
+(defun force-make-array-on-stack (n)
+ (declare (optimize safety))
+ (let ((v (make-array (min n 1))))
+ (declare (sb-int:truly-dynamic-extent v))
+ (true v)
+ nil))
+
;;; MAKE-STRUCTURE
(declaim (inline make-fp-struct-1))
(setf (car x) nil))
nil))
+(defparameter *bar* nil)
+(declaim (inline make-nested-bad make-nested-good))
+(defstruct (nested (:constructor make-nested-bad (&key bar &aux (bar (setf *bar* bar))))
+ (:constructor make-nested-good (&key bar)))
+ bar)
+
+(defun-with-dx nested-good (y)
+ (let ((x (list (list (make-nested-good :bar (list (list (make-nested-good :bar (list y)))))))))
+ (declare (dynamic-extent x))
+ (true x)))
+
+(defun-with-dx nested-bad (y)
+ (let ((x (list (list (make-nested-bad :bar (list (list (make-nested-bad :bar (list y)))))))))
+ (declare (dynamic-extent x))
+ (unless (equalp (caar x) (make-nested-good :bar *bar*))
+ (error "got ~S, wanted ~S" (caar x) (make-nested-good :bar *bar*)))
+ (caar x)))
+
+(with-test (:name :conservative-nested-dx)
+ ;; NESTED-BAD should not stack-allocate :BAR due to the SETF.
+ (assert (equalp (nested-bad 42) (make-nested-good :bar *bar*)))
+ (assert (equalp *bar* (list (list (make-nested-bad :bar (list 42)))))))
+
;;; multiple uses for dx lvar
(defun-with-dx multiple-dx-uses ()
(defvar *a-cons* (cons nil nil))
-#+(or x86 x86-64 alpha ppc sparc mips)
+#+(or x86 x86-64 alpha ppc sparc mips hppa)
(progn
(assert-no-consing (dxclosure 42))
(assert-no-consing (dxlength 1 2 3))
(assert-no-consing (dx-value-cell 13))
(assert-no-consing (cons-on-stack 42))
(assert-no-consing (make-array-on-stack))
+ (assert-no-consing (force-make-array-on-stack 128))
(assert-no-consing (make-foo1-on-stack 123))
+ (assert-no-consing (nested-good 42))
(#+raw-instance-init-vops assert-no-consing
#-raw-instance-init-vops progn
(make-foo2-on-stack 1.24 1.23d0))
(assert (every (lambda (x) (eql x 0)) a))))
(assert-no-consing (bdowning-2005-iv-16))
-
(defun-with-dx let-converted-vars-dx-allocated-bug (x y z)
(let* ((a (list x y z))
(b (list x y z))
(c (list a b)))
(declare (dynamic-extent c))
(values (first c) (second c))))
-(multiple-value-bind (i j) (let-converted-vars-dx-allocated-bug 1 2 3)
- (assert (and (equal i j)
- (equal i (list 1 2 3)))))
+
+(with-test (:name :let-converted-vars-dx-allocated-bug)
+ (multiple-value-bind (i j) (let-converted-vars-dx-allocated-bug 1 2 3)
+ (assert (and (equal i j)
+ (equal i (list 1 2 3))))))
;;; workaround for bug 419 -- real issue remains, but check that the
;;; bandaid holds.
14)
))))
(assert (equal '((0 4) (3 ((1 2 3 5) 14))) (test-update-uvl-live-sets #() 4 5)))
+
+(with-test (:name :regression-1.0.23.38)
+ (compile nil '(lambda ()
+ (flet ((make (x y)
+ (let ((res (cons x x)))
+ (setf (cdr res) y)
+ res)))
+ (declaim (inline make))
+ (let ((z (make 1 2)))
+ (declare (dynamic-extent z))
+ (print z)
+ t))))
+ (compile nil '(lambda ()
+ (flet ((make (x y)
+ (let ((res (cons x x)))
+ (setf (cdr res) y)
+ (if x res y))))
+ (declaim (inline make))
+ (let ((z (make 1 2)))
+ (declare (dynamic-extent z))
+ (print z)
+ t)))))
+
+;;; On x86 and x86-64 upto 1.0.28.16 LENGTH and WORDS argument
+;;; tns to ALLOCATE-VECTOR-ON-STACK could be packed in the same
+;;; location, leading to all manner of badness. ...reproducing this
+;;; reliably is hard, but this it at least used to break on x86-64.
+(defun length-and-words-packed-in-same-tn (m)
+ (declare (optimize speed (safety 0) (debug 0) (space 0)))
+ (let ((array (make-array (max 1 m) :element-type 'fixnum)))
+ (declare (dynamic-extent array))
+ (array-total-size array)))
+(with-test (:name :length-and-words-packed-in-same-tn)
+ (assert (= 1 (length-and-words-packed-in-same-tn -3))))
\f