(sleep 2))))
;;; SLEEP should not cons
-(with-test (:name (sleep :non-consing))
- (ctu:assert-no-consing (sleep 0.00001)))
-
-;;; SLEEP should work with large integers as well -- no timers
-;;; on win32, so don't test there.
-(with-test (:name (sleep pretty-much-forever) :skipped-on :win32)
+(with-test (:name (sleep :non-consing) :fails-on :win32)
+ (ctu:assert-no-consing (sleep 0.00001s0))
+ (locally (declare (notinline sleep))
+ (ctu:assert-no-consing (sleep 0.00001s0))
+ (ctu:assert-no-consing (sleep 0.00001d0))
+ (ctu:assert-no-consing (sleep 1/100000003))))
+
+;;; SLEEP should work with large integers as well
+(with-test (:name (sleep pretty-much-forever))
(assert (eq :timeout
(handler-case
(sb-ext:with-timeout 1
(disassemble (lambda (x y)
(= (the (complex single-float) x)
(the (complex single-float) y)))))
+
+;;; Check that SLEEP called with ratios (with no common factors with
+;;; 1000000000, and smaller than 1/1000000000) works more or less as
+;;; expected.
+(with-test (:name :sleep-ratios)
+ (let ((fun0a (compile nil '(lambda () (sleep 1/7))))
+ (fun0b (compile nil '(lambda () (sleep 1/100000000000000000000000000))))
+ (fun1 (compile nil '(lambda (x) (sleep x))))
+ (start-time (get-universal-time)))
+ (sleep 1/7)
+ (sleep 1/100000000000000000000000000)
+ (funcall fun0a)
+ (funcall fun0b)
+ (funcall fun1 1/7)
+ (funcall fun1 1/100000000000000000000000000)
+ (assert (< (- (get-universal-time) start-time) 2))))