Take pointer, not word count, as upper limit in verify_space()
[sbcl.git] / tests / map-tests.impure.lisp
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1 ;;;; side-effectful tests of MAP-related stuff
3 ;;;; This software is part of the SBCL system. See the README file for
4 ;;;; more information.
5 ;;;;
6 ;;;; While most of SBCL is derived from the CMU CL system, the test
7 ;;;; files (like this one) were written from scratch after the fork
8 ;;;; from CMU CL.
9 ;;;;
10 ;;;; This software is in the public domain and is provided with
11 ;;;; absolutely no warranty. See the COPYING and CREDITS files for
12 ;;;; more information.
14 (load "test-util.lisp")
15 (load "assertoid.lisp")
16 (use-package "ASSERTOID")
18 ;;; tests of MAP
19 (with-test (:name :map)
20 (assertoid (map 'vector #'+ '(1 2 3) '(30 20))
21 :expected-equalp #(31 22))
22 (assertoid (map 'list #'+ #(1 2) '(100) #(0) #(100 100))
23 :expected-equal '(201)))
25 ;;; tests of MAP-INTO
27 (with-test (:name :map-into)
28 (assertoid (map-into (vector) #'+ '(1 2 3) '(30 20))
29 :expected-equalp #())
30 (assertoid (map-into (vector 99) #'+ '(1 2 3) '(30 20))
31 :expected-equalp #(31))
32 (assertoid (map-into (vector 99 88) #'+ '(1 2 3) '(30 20))
33 :expected-equalp #(31 22))
34 (assertoid (map-into (vector 99 88 77) #'+ '(1 2 3) '(30 20))
35 :expected-equalp #(31 22 77))
37 (assertoid (map-into (list) #'+ '(1 2 3) '(30 20))
38 :expected-equalp '())
39 (assertoid (map-into (list 99) #'+ '(1 2 3) '(30 20))
40 :expected-equalp '(31))
41 (assertoid (map-into (list 99 88) #'+ '(1 2 3) '(30 20))
42 :expected-equalp '(31 22))
43 (assertoid (map-into (list 99 88 77) #'+ '(1 2 3) '(30 20))
44 :expected-equalp '(31 22 77))
46 (assertoid (map-into (vector 99 99 99) (constantly 5))
47 :expected-equalp #(5 5 5))
48 (assertoid (map-into (vector 99 99 99) (let ((x 0)) (lambda () (incf x))))
49 :expected-equalp #(1 2 3))
51 (assertoid (map-into (list 99 99 99) (constantly 5))
52 :expected-equalp '(5 5 5))
53 (assertoid (map-into (list 99 99 99) (let ((x 0)) (lambda () (incf x))))
54 :expected-equalp '(1 2 3))
56 (assertoid (map-into (make-array 0 :element-type 'fixnum)
57 #'+ '(1 2 3) '(30 20))
58 :expected-equalp #())
59 (assertoid (map-into (make-array 1 :element-type 'fixnum :initial-element 99)
60 #'+ '(1 2 3) '(30 20))
61 :expected-equalp #(31))
62 (assertoid (map-into (make-array 2 :element-type 'fixnum :initial-element 99)
63 #'+ '(1 2 3) '(30 20))
64 :expected-equalp #(31 22))
65 (assertoid (map-into (make-array 3 :element-type 'fixnum :initial-element 99)
66 #'+ '(1 2 3) '(30 20))
67 :expected-equalp #(31 22 99))
69 (assertoid (map-into (make-array 0 :fill-pointer 0 :initial-element 99)
70 #'+ '(1 2 3) '(30 20))
71 :expected-equalp #())
72 (assertoid (map-into (make-array 1 :fill-pointer 0 :initial-element 99)
73 #'+ '(1 2 3) '(30 20))
74 :expected-equalp #(31))
75 (assertoid (map-into (make-array 2 :fill-pointer 0 :initial-element 99)
76 #'+ '(1 2 3) '(30 20))
77 :expected-equalp #(31 22))
78 (assertoid (map-into (make-array 3 :fill-pointer 0 :initial-element 99)
79 #'+ '(1 2 3) '(30 20))
80 :expected-equalp #(31 22))
82 (assertoid (map-into (make-array 9 :fill-pointer 9 :initial-element 99)
83 #'+ '(1 2 3) '(30 20))
84 :expected-equalp #(31 22))
85 (assertoid (map-into (make-array 9 :fill-pointer 5 :initial-element 99)
86 #'+ '(1 2 3) '(30 20))
87 :expected-equalp #(31 22)))
89 (defmacro with-mapnil-test-fun (fun-name &body body)
90 `(let ((reversed-result nil))
91 (flet ((,fun-name (&rest rest)
92 (push rest reversed-result)))
93 ,@body
94 (nreverse reversed-result))))
96 (with-test (:name :map-nil)
97 (assertoid (with-mapnil-test-fun fun
98 (map nil #'fun #(1)))
99 :expected-equal '((1)))
100 (assertoid (with-mapnil-test-fun fun
101 (map nil #'fun #() '(1 2 3)))
102 :expected-equal '())
103 (assertoid (with-mapnil-test-fun fun
104 (map nil #'fun #(a b c) '(alpha beta) '(aleph beth)))
105 :expected-equal '((a alpha aleph) (b beta beth))))
107 ;;; Exercise MAP repeatedly on the same dataset by providing various
108 ;;; combinations of sequence type arguments, declarations, and so
109 ;;; forth.
110 (defvar *list-1* '(1))
111 (defvar *list-2* '(1 2))
112 (defvar *list-3* '(1 2 3))
113 (defvar *list-4* '(1 2 3 4))
114 (defvar *vector-10* #(10))
115 (defvar *vector-20* #(10 20))
116 (defvar *vector-30* #(10 20 30))
117 (defmacro maptest (&key
118 result-seq
119 fun-name
120 arg-seqs
121 arg-types
122 (result-element-types '(t)))
123 (let ((reversed-assertoids nil))
124 (dotimes (arg-type-index (expt 2 (length arg-types)))
125 (labels (;; Arrange for EXPR to be executed.
126 (arrange (expr)
127 (push expr reversed-assertoids))
128 ;; We toggle the various type declarations on and
129 ;; off depending on the bit pattern in ARG-TYPE-INDEX,
130 ;; so that we get lots of different things to test.
131 (eff-arg-type (i)
132 (if (and (< i (length arg-types))
133 (plusp (logand (expt 2 i)
134 arg-type-index)))
135 (nth i arg-types)
137 (args-with-type-decls ()
138 (let ((reversed-result nil))
139 (dotimes (i (length arg-seqs) (nreverse reversed-result))
140 (push `(the ,(eff-arg-type i)
141 ,(nth i arg-seqs))
142 reversed-result)))))
143 (dolist (fun `(',fun-name #',fun-name))
144 (dolist (result-type (cons 'list
145 (mapcan (lambda (et)
146 `((vector ,et)
147 (simple-array ,et 1)))
148 result-element-types)))
149 (arrange
150 `(assertoid (map ',result-type ,fun ,@(args-with-type-decls))
151 :expected-equalp (coerce ,result-seq
152 ',result-type))))
153 (arrange
154 `(assertoid (map-into (fill (copy-seq ,result-seq) 9999)
155 ,fun ,@(args-with-type-decls))
156 :expected-equalp ,result-seq)))
157 (arrange
158 `(assertoid (mapcar (lambda (args) (apply #',fun-name args))
159 (with-mapnil-test-fun mtf
160 (map nil
161 ;; (It would be nice to test MAP
162 ;; NIL with function names, too,
163 ;; but I can't see any concise way
164 ;; to do it..)
165 #'mtf
166 ,@(args-with-type-decls))))
167 :expected-equal (coerce ,result-seq 'list)))))
168 `(progn ,@(nreverse reversed-assertoids))))
170 (with-test (:name :maptest)
171 (maptest :result-seq '(2 3)
172 :fun-name 1+
173 :arg-seqs (*list-2*)
174 :arg-types (list))
175 (maptest :result-seq '(nil nil nil)
176 :fun-name oddp
177 :arg-seqs (*vector-30*)
178 :arg-types (vector))
179 (maptest :result-seq '(12 24)
180 :fun-name +
181 :arg-seqs (*list-2* *list-2* *vector-30*)
182 :arg-types (list list vector)))
184 (with-test (:name :map-into-vector-from-list)
185 (map-into (eval (make-array 10))
186 #'list
187 (make-list 10))
188 (assert (equalp (funcall (compile nil
189 `(lambda (a)
190 (map-into (make-array 3) #'identity a)))
191 '(1 2 3))
192 #(1 2 3))))
194 (with-test (:name :map-into-type-mismatch)
195 (assert-error
196 (funcall
197 (compile nil
198 `(lambda (x)
199 (map-into (make-array 1 :element-type '(signed-byte 16)) x)))
200 (constantly nil))
201 type-error)
202 (assert-error
203 (funcall
204 (compile nil
205 `(lambda (array x)
206 (map-into array x)))
207 (make-array 1 :element-type '(signed-byte 16)) (constantly nil))
208 type-error)
209 (assert-error
210 (funcall
211 (compile nil
212 `(lambda (array x)
213 (map-into array x)))
214 (cons 1 2) (constantly nil))
215 type-error))
217 (with-test (:name :map-type-mismatch)
218 (assert-error
219 (funcall
220 (compile nil
221 `(lambda (x) (map '(vector (signed-byte 16) 1) #'identity x)))
222 '(1.0))
223 type-error)
224 (assert-error
225 (funcall
226 (compile nil
227 `(lambda (type x) (map type #'identity x)))
228 '(vector (signed-byte 16) 1) '(1.0))
229 type-error))
231 (with-test (:name :map-out-of-line)
232 (flet ((call (map &rest args)
233 (apply (compile nil `(lambda (&rest args)
234 (declare (notinline ,map))
235 (apply #',map args)))
236 args)))
237 (assert (equal (call 'mapcar #'+ '(1 2 3) '(3 2 1))
238 '(4 4 4)))
239 (assert (equal (call 'maplist #'cons '(1 2 3) '(3 2 1))
240 '(((1 2 3) 3 2 1) ((2 3) 2 1) ((3) 1))))
241 (assert (equal (call 'mapcan #'cons '(1 2 3) '(3 2 1))
242 '(1 2 3 . 1)))
243 (assert (equal (call 'mapcon #'list '(1 2 3) '(3 2 1))
244 '((1 2 3) (3 2 1) (2 3) (2 1) (3) (1))))
245 (assert (equal (call 'mapcan #'identity
246 '((3 4 . 5) nil (1 . 5)))
247 '(3 4 1 . 5)))
248 (assert (equal (call 'mapcar #'list '(1 2 3) '(4 5 6) '(7 8 9))
249 '((1 4 7) (2 5 8) (3 6 9))))
250 (assert (equal (call 'mapcan #'identity '(1)) 1))))