(assert (null (butlast s (* 1440 most-positive-fixnum))))
(assert (null (nbutlast s (* 1440 most-positive-fixnum)))))
+(assert (eq :atom (last (list* 1 2 3 :atom) (eval 0))))
+(assert (eq :atom (last (list* 1 2 3 :atom) 0)))
+
;;; enforce lists in symbol-plist
(let ((s (gensym))
(l (list 1 3 4)))
(let ((x-numbers '(1 2))
(fun (car (list 'member))))
(test x-numbers (member 1 numbers))
+ (test x-numbers (member 1 numbers :key 'identity))
+ (test x-numbers (member 1 numbers :key #'identity))
(test (cdr x-numbers) (member 2 numbers))
(test nil (member 1.0 numbers ))
(let ((fun (car (list 'assoc))))
(test (1 a) (assoc 1 numbers))
(test (2 b) (assoc 2 numbers))
+ (test (1 a) (assoc 1 numbers :key 'identity))
+ (test (2 b) (assoc 2 numbers :key #'identity))
(test nil (assoc 1.0 numbers))
(test (1 a) (assoc 1.0 numbers :test #'=))
:b '((:a . 1) (:b . 2))))))
(assert (equal '(3 4 5) (funcall (compile nil '(lambda (i l) (member i l)))
3 '(1 2 3 4 5)))))
+
+;;; bad bounding index pair to SUBSEQ on a list
+(let ((list (list 0 1 2 3 4 5)))
+ (multiple-value-bind (res err) (ignore-errors (subseq list 4 2))
+ (assert (not res))
+ (assert (typep err 'sb-kernel:bounding-indices-bad-error))))
+
+;;; ADJOIN must apply key to item as well
+(assert (equal '((:b)) (funcall
+ (compile nil '(lambda (x y) (adjoin x y :key #'car :test #'string=)))
+ (list 'b) (list '(:b)))))
+(assert (equal '((:b))
+ (let ((sb-ext:*evaluator-mode* :interpret))
+ (eval '(adjoin (list 'b) (list '(:b)) :key #'car :test #'string=)))))
+
+;;; constant list argument to ADJOIN
+(assert (equal '(:x :y) (funcall
+ (compile nil '(lambda (elt)
+ (declare (optimize speed))
+ (adjoin elt '(:x :y))))
+ ':x)))
+(assert (equal '(:x :y) (funcall
+ (compile nil '(lambda (elt)
+ (declare (optimize speed))
+ (adjoin elt '(:y))))
+ ':x)))