;;;; While most of SBCL is derived from the CMU CL system, the test
;;;; files (like this one) were written from scratch after the fork
;;;; from CMU CL.
-;;;;
+;;;;
;;;; This software is in the public domain and is provided with
;;;; absolutely no warranty. See the COPYING and CREDITS files for
;;;; more information.
(assert
(loop for i from 0 to 9 always
(loop for j from i to 10 always
- (loop for c from 0 to (- j i) always
- (let* ((orig '(a a a a a a a a a a))
- (x (copy-seq orig))
- (y (nsubstitute 'x 'a x :start i :end j :count c)))
- (equal y (nconc (make-list i :initial-element 'a)
- (make-list c :initial-element 'x)
- (make-list (- 10 (+ i c))
- :initial-element 'a))))))))
+ (loop for c from 0 to (- j i) always
+ (let* ((orig '(a a a a a a a a a a))
+ (x (copy-seq orig))
+ (y (nsubstitute 'x 'a x :start i :end j :count c)))
+ (equal y (nconc (make-list i :initial-element 'a)
+ (make-list c :initial-element 'x)
+ (make-list (- 10 (+ i c))
+ :initial-element 'a))))))))
(assert
(loop for i from 0 to 9 always
(loop for j from i to 10 always
- (loop for c from 0 to (- j i) always
- (let* ((orig '(a a a a a a a a a a))
- (x (copy-seq orig))
- (y (nsubstitute-if 'x (lambda (x) (eq x 'a)) x
- :start i :end j
- :count c :from-end t)))
- (equal y (nconc (make-list (- j c) :initial-element 'a)
- (make-list c :initial-element 'x)
- (make-list (- 10 j)
- :initial-element 'a))))))))
+ (loop for c from 0 to (- j i) always
+ (let* ((orig '(a a a a a a a a a a))
+ (x (copy-seq orig))
+ (y (nsubstitute-if 'x (lambda (x) (eq x 'a)) x
+ :start i :end j
+ :count c :from-end t)))
+ (equal y (nconc (make-list (- j c) :initial-element 'a)
+ (make-list c :initial-element 'x)
+ (make-list (- 10 j)
+ :initial-element 'a))))))))
(assert
(loop for i from 0 to 9 always
(loop for j from i to 10 always
- (loop for c from 0 to (- j i) always
- (let* ((orig '(a a a a a a a a a a))
- (x (copy-seq orig))
- (y (nsubstitute-if-not 'x (lambda (x)
- (not (eq x 'a))) x
- :start i :end j
- :count c :from-end t)))
- (equal y (nconc (make-list (- j c) :initial-element 'a)
- (make-list c :initial-element 'x)
- (make-list (- 10 j)
- :initial-element 'a))))))))
+ (loop for c from 0 to (- j i) always
+ (let* ((orig '(a a a a a a a a a a))
+ (x (copy-seq orig))
+ (y (nsubstitute-if-not 'x (lambda (x)
+ (not (eq x 'a))) x
+ :start i :end j
+ :count c :from-end t)))
+ (equal y (nconc (make-list (- j c) :initial-element 'a)
+ (make-list c :initial-element 'x)
+ (make-list (- 10 j)
+ :initial-element 'a))))))))
;;; And equally similarly, REMOVE-DUPLICATES misbehaved when given
;;; :START arguments:
;;; tests of COUNT-IF and COUNT-IF-NOT
(macrolet (;; the guts of CCI, abstracted over whether we're testing
- ;; COUNT-IF or COUNT-IF-NOT
- (%cci (expected count-if test sequence-as-list &rest keys)
+ ;; COUNT-IF or COUNT-IF-NOT
+ (%cci (expected count-if test sequence-as-list &rest keys)
`(let* ((list ',sequence-as-list)
- (simple-vector (coerce list 'simple-vector))
- (length (length list))
- (vector (make-array (* 2 length) :fill-pointer length)))
- (replace vector list :end1 length)
- (dolist (seq (list list simple-vector vector))
- (assert (= ,expected (,count-if ,test seq ,@keys))))))
- ;; "Check COUNT-IF"
- (cci (expected test sequence-as-list &rest keys)
- `(progn
+ (simple-vector (coerce list 'simple-vector))
+ (length (length list))
+ (vector (make-array (* 2 length) :fill-pointer length)))
+ (replace vector list :end1 length)
+ (dolist (seq (list list simple-vector vector))
+ (assert (= ,expected (,count-if ,test seq ,@keys))))))
+ ;; "Check COUNT-IF"
+ (cci (expected test sequence-as-list &rest keys)
+ `(progn
(format t "~&SEQUENCE-AS-LIST=~S~%" ',sequence-as-list)
- (%cci ,expected
- count-if
- ,test
- ,sequence-as-list
- ,@keys)
- (%cci ,expected
- count-if-not
- (complement ,test)
- ,sequence-as-list
- ,@keys))))
+ (%cci ,expected
+ count-if
+ ,test
+ ,sequence-as-list
+ ,@keys)
+ (%cci ,expected
+ count-if-not
+ (complement ,test)
+ ,sequence-as-list
+ ,@keys))))
(cci 1 #'consp (1 (12) 1))
(cci 3 #'consp (1 (2) 3 (4) (5) 6))
(cci 3 #'consp (1 (2) 3 (4) (5) 6) :from-end t)
(assert (equal (merge 'list (list 1 2 4) (list 2 3 7) '<) '(1 2 2 3 4 7)))
(assert (equal (merge 'list (list 1 2 4) (list -2 3 7) #'<) '(-2 1 2 3 4 7)))
(assert (equal (merge 'list (list 1 2 4) (vector -2 3 7) '< :key 'abs)
- '(1 2 -2 3 4 7)))
+ '(1 2 -2 3 4 7)))
(assert (equal (merge 'list (list 1 -2 4) (list -2 3 7) '< :key #'abs)
- '(1 -2 -2 3 4 7)))
+ '(1 -2 -2 3 4 7)))
(assert (equal (stable-sort (list 1 10 2 12 13 3) '<) '(1 2 3 10 12 13)))
(assert (equal (stable-sort (list 1 10 2 12 13 3) #'< :key '-)
- '(13 12 10 3 2 1)))
+ '(13 12 10 3 2 1)))
(assert (equal (stable-sort (list 1 10 2 12 13 3) '> :key #'-)
- '(1 2 3 10 12 13)))
+ '(1 2 3 10 12 13)))
(assert (equal (stable-sort (list 1 2 3 -3 -2 -1) '< :key 'abs)
- '(1 -1 2 -2 3 -3)))
+ '(1 -1 2 -2 3 -3)))
;;; CSR broke FILL by not returning the sequence argument in a transform.
(let* ((s1 (copy-seq "abcde"))
(s2 (fill s1 #\z)))
(assert s2)
(assert (string= s2 "zzzzz")))
+
+;;; POSITION on displaced arrays with non-zero offset has been broken
+;;; for quite a while...
+(let ((fn (compile nil '(lambda (x) (position x)))))
+ (let* ((x #(1 2 3))
+ (y (make-array 2 :displaced-to x :displaced-index-offset 1)))
+ (assert (= (position 2 y) 0))))
+
+;;; (SIMPLE-STRING) is a legal type specifier for creation functions
+(let ((a (make-sequence '(simple-string) 5))
+ (b (concatenate '(simple-string) "a" "bdec"))
+ (c (map '(simple-string) 'identity "abcde"))
+ (d (merge '(simple-string) (copy-seq "acd") (copy-seq "be") 'char>))
+ (e (coerce '(#\a #\b #\c #\e #\d) '(simple-string))))
+ (assert (= (length a) 5))
+ (assert (string= b "abdec"))
+ (assert (string= c "abcde"))
+ (assert (string= d "beacd"))
+ (assert (string= e "abced")))