Dynamic space relocation, part 1 of 2
[sbcl.git] / tests / type.pure.lisp
blob46084585d2e2fb23a00445c23d36eb12a0329809
1 ;;;; This software is part of the SBCL system. See the README file for
2 ;;;; more information.
3 ;;;;
4 ;;;; While most of SBCL is derived from the CMU CL system, the test
5 ;;;; files (like this one) were written from scratch after the fork
6 ;;;; from CMU CL.
7 ;;;;
8 ;;;; This software is in the public domain and is provided with
9 ;;;; absolutely no warranty. See the COPYING and CREDITS files for
10 ;;;; more information.
12 (in-package "CL-USER")
14 (test-util:with-test (:name :typexpand-check-lexenv)
15 (flet ((try (f) (assert-error (funcall f 'hash-table 3))))
16 (mapc #'try '(typexpand-1 typexpand typexpand-all))))
18 (locally
19 (declare (notinline mapcar))
20 (mapcar (lambda (args)
21 (destructuring-bind (obj type-spec result) args
22 (flet ((matches-result? (x)
23 (eq (if x t nil) result)))
24 (assert (matches-result? (typep obj type-spec)))
25 (assert (matches-result? (sb-kernel:ctypep
26 obj
27 (sb-kernel:specifier-type
28 type-spec)))))))
29 '((nil (or null vector) t)
30 (nil (or number vector) nil)
31 (12 (or null vector) nil)
32 (12 (and (or number vector) real) t))))
35 ;;; This test is motivated by bug #195, which previously had (THE REAL
36 ;;; #(1 2 3)) give an error which prints as "This is not a (OR
37 ;;; SINGLE-FLOAT DOUBLE-FLOAT RATIONAL)". We ideally want all of the
38 ;;; defined-by-ANSI types to unparse as themselves or at least
39 ;;; something similar (e.g. CHARACTER can unparse to BASE-CHAR, since
40 ;;; the types are equivalent in current SBCL, and EXTENDED-CHAR can
41 ;;; unparse to NIL, since there are no EXTENDED-CHARs currently).
42 (let ((standard-types '(;; from table 4-2 in section 4.2.3 in the
43 ;; CLHS.
44 arithmetic-error
45 function
46 simple-condition
47 array
48 generic-function
49 simple-error
50 atom
51 hash-table
52 simple-string
53 base-char
54 integer
55 simple-type-error
56 base-string
57 keyword
58 simple-vector
59 bignum
60 list
61 simple-warning
62 bit
63 logical-pathname
64 single-float
65 bit-vector
66 long-float
67 standard-char
68 broadcast-stream
69 method
70 standard-class
71 built-in-class
72 method-combination
73 standard-generic-function
74 cell-error
75 nil
76 standard-method
77 character
78 null
79 standard-object
80 class
81 number
82 storage-condition
83 compiled-function
84 package
85 stream
86 complex
87 package-error
88 stream-error
89 concatenated-stream
90 parse-error
91 string
92 condition
93 pathname
94 string-stream
95 cons
96 print-not-readable
97 structure-class
98 control-error
99 program-error
100 structure-object
101 division-by-zero
102 random-state
103 style-warning
104 double-float
105 ratio
106 symbol
107 echo-stream
108 rational
109 synonym-stream
110 end-of-file
111 reader-error
113 error
114 readtable
115 two-way-stream
116 extended-char
117 real
118 type-error
119 file-error
120 restart
121 unbound-slot
122 file-stream
123 sequence
124 unbound-variable
125 fixnum
126 serious-condition
127 undefined-function
128 float
129 short-float
130 unsigned-byte
131 floating-point-inexact
132 signed-byte
133 vector
134 floating-point-invalid-operation
135 simple-array
136 warning
137 floating-point-overflow
138 simple-base-string
139 floating-point-underflow
140 simple-bit-vector)))
141 (dolist (type standard-types)
142 #+nil (format t "~&~S~%" type)
143 (assert (not (sb-kernel:unknown-type-p (sb-kernel:specifier-type type))))
144 (assert (atom (sb-kernel:type-specifier (sb-kernel:specifier-type type))))))
146 ;;; a bug underlying the reported bug #221: The SB-KERNEL type code
147 ;;; signalled an error on this expression.
148 (subtypep '(function (fixnum) (values package boolean))
149 '(function (t) (values package boolean)))
151 ;;; bug reported by Valtteri Vuorik
152 (compile nil '(lambda () (member (char "foo" 0) '(#\. #\/) :test #'char=)))
153 (assert (not (equal (multiple-value-list
154 (subtypep '(function ()) '(function (&rest t))))
155 '(nil t))))
157 (assert (not (equal (multiple-value-list
158 (subtypep '(function (&rest t)) '(function ())))
159 '(t t))))
161 (assert (subtypep '(function)
162 '(function (&optional * &rest t))))
163 (assert (equal (multiple-value-list
164 (subtypep '(function)
165 '(function (t &rest t))))
166 '(nil t)))
167 (assert (and (subtypep 'function '(function))
168 (subtypep '(function) 'function)))
170 ;;; Absent any exciting generalizations of |R, the type RATIONAL is
171 ;;; partitioned by RATIO and INTEGER. Ensure that the type system
172 ;;; knows about this. [ the type system is permitted to return NIL,
173 ;;; NIL for these, so if future maintenance breaks these tests that
174 ;;; way, that's fine. What the SUBTYPEP calls are _not_ allowed to
175 ;;; return is NIL, T, because that's completely wrong. ]
176 (assert (subtypep '(or integer ratio) 'rational))
177 (assert (subtypep 'rational '(or integer ratio)))
178 ;;; Likewise, these are allowed to return NIL, NIL, but shouldn't
179 ;;; return NIL, T:
180 (assert (subtypep t '(or real (not real))))
181 (assert (subtypep t '(or keyword (not keyword))))
182 (assert (subtypep '(and cons (not (cons symbol integer)))
183 '(or (cons (not symbol) *) (cons * (not integer)))))
184 (assert (subtypep '(or (cons (not symbol) *) (cons * (not integer)))
185 '(and cons (not (cons symbol integer)))))
186 (assert (subtypep '(or (eql 0) (rational (0) 10))
187 '(rational 0 10)))
188 (assert (subtypep '(rational 0 10)
189 '(or (eql 0) (rational (0) 10))))
190 ;;; Until sbcl-0.7.13.7, union of CONS types when the CDRs were the
191 ;;; same type gave exceedingly wrong results
192 (assert (null (subtypep '(or (cons fixnum single-float)
193 (cons bignum single-float))
194 '(cons single-float single-float))))
195 (assert (subtypep '(cons integer single-float)
196 '(or (cons fixnum single-float) (cons bignum single-float))))
198 (assert (not (nth-value 1 (subtypep '(and null some-unknown-type)
199 'another-unknown-type))))
201 ;;; bug 46c
202 (with-test (:name :coerce-function-on-macro)
203 (dolist (fun '(and if))
204 (assert-error (coerce fun 'function))))
206 (dotimes (i 100)
207 (let ((x (make-array 0 :element-type `(unsigned-byte ,(1+ i)))))
208 (eval `(typep ,x (class-of ,x)))))
210 (assert (not (typep #c(1 2) '(member #c(2 1)))))
211 (assert (typep #c(1 2) '(member #c(1 2))))
212 (assert (subtypep 'nil '(complex nil)))
213 (assert (subtypep '(complex nil) 'nil))
214 (assert (subtypep 'nil '(complex (eql 0))))
215 (assert (subtypep '(complex (eql 0)) 'nil))
216 (assert (subtypep 'nil '(complex (integer 0 0))))
217 (assert (subtypep '(complex (integer 0 0)) 'nil))
218 (assert (subtypep 'nil '(complex (rational 0 0))))
219 (assert (subtypep '(complex (rational 0 0)) 'nil))
220 (assert (subtypep 'complex '(complex real)))
221 (assert (subtypep '(complex real) 'complex))
222 (assert (subtypep '(complex (eql 1)) '(complex (member 1 2))))
223 (assert (subtypep '(complex ratio) '(complex rational)))
224 (assert (subtypep '(complex ratio) 'complex))
225 (assert (equal (multiple-value-list
226 (subtypep '(complex (integer 1 2))
227 '(member #c(1 1) #c(1 2) #c(2 1) #c(2 2))))
228 '(nil t)))
230 (assert (typep 0 '(real #.(ash -1 10000) #.(ash 1 10000))))
231 (assert (subtypep '(real #.(ash -1 1000) #.(ash 1 1000))
232 '(real #.(ash -1 10000) #.(ash 1 10000))))
233 (assert (subtypep '(real (#.(ash -1 1000)) (#.(ash 1 1000)))
234 '(real #.(ash -1 1000) #.(ash 1 1000))))
236 ;;; Bug, found by Paul F. Dietz
237 (let* ((x (eval #c(-1 1/2)))
238 (type (type-of x)))
239 (assert (subtypep type '(complex rational)))
240 (assert (typep x type)))
242 ;;; Test derivation of LOG{AND,IOR,XOR} bounds for unsigned arguments.
244 ;;; Fear the Loop of Doom!
246 ;;; (In fact, this is such a fearsome loop that executing it with the
247 ;;; evaluator would take ages... Disable it under those circumstances.)
248 #+#.(cl:if (cl:eq sb-ext:*evaluator-mode* :compile) '(and) '(or))
249 (with-test (:name (:type-derivation :logical-operations :correctness))
250 (let* ((n-bits 5)
251 (size (ash 1 n-bits)))
252 (labels ((brute-force (a b c d op)
253 (loop with min = (ash 1 n-bits)
254 with max = 0
255 for i from a upto b do
256 (loop for j from c upto d do
257 (let ((x (funcall op i j)))
258 (setf min (min min x)
259 max (max max x))))
260 finally (return (values min max))))
261 (test (a b c d op deriver)
262 (multiple-value-bind (brute-low brute-high)
263 (brute-force a b c d op)
264 (multiple-value-bind (test-low test-high)
265 (funcall deriver
266 (sb-c::specifier-type `(integer ,a ,b))
267 (sb-c::specifier-type `(integer ,c ,d)))
268 (unless (and (= brute-low test-low)
269 (= brute-high test-high))
270 (format t "FAIL: ~A [~D, ~D] [~D, ~D]~%EXPECTED [~D, ~D] GOT [~D, ~D]~%"
271 op a b c d
272 brute-low brute-high test-low test-high)
273 (assert (and (= brute-low test-low)
274 (= brute-high test-high))))))))
275 (dolist (op '(logand logior logxor))
276 (let ((deriver (intern (format nil "~A-DERIVE-UNSIGNED-BOUNDS" op)
277 (find-package :sb-c))))
278 (format t "testing type derivation: ~A~%" deriver)
279 (loop for a from 0 below size do
280 (loop for b from a below size do
281 (loop for c from 0 below size do
282 (loop for d from c below size do
283 (test a b c d op deriver))))))))))
285 (with-test (:name (:type-derivation :logical-operations :scaling))
286 (let ((type-x1 (sb-c::specifier-type `(integer ,(expt 2 10000)
287 ,(expt 2 10000))))
288 (type-x2 (sb-c::specifier-type `(integer ,(expt 2 100000)
289 ,(expt 2 100000))))
290 (type-y (sb-c::specifier-type '(integer 0 1))))
291 (dolist (op '(logand logior logxor))
292 (let* ((deriver (intern (format nil "~A-DERIVE-TYPE-AUX" op)
293 (find-package :sb-c)))
294 (scale (/ (runtime (funcall deriver type-x2 type-y))
295 (runtime (funcall deriver type-x1 type-y)))))
296 ;; Linear scaling is good, quadratical bad. Draw the line
297 ;; near the geometric mean of the corresponding SCALEs.
298 (when (> scale 32)
299 (error "Bad scaling of ~a: input 10 times but runtime ~a times as large."
300 deriver scale))))))
302 ;;; subtypep on CONS types wasn't taking account of the fact that a
303 ;;; CONS type could be the empty type (but no other non-CONS type) in
304 ;;; disguise.
305 (multiple-value-bind (yes win)
306 (subtypep '(and function stream) 'nil)
307 (multiple-value-bind (cyes cwin)
308 (subtypep '(cons (and function stream) t)
309 '(cons nil t))
310 (assert (eq yes cyes))
311 (assert (eq win cwin))))
313 ;;; CONS type subtypep could be too enthusiastic about thinking it was
314 ;;; certain
315 (multiple-value-bind (yes win)
316 (subtypep '(satisfies foo) '(satisfies bar))
317 (assert (null yes))
318 (assert (null win))
319 (multiple-value-bind (cyes cwin)
320 (subtypep '(cons (satisfies foo) t)
321 '(cons (satisfies bar) t))
322 (assert (null cyes))
323 (assert (null cwin))))
325 (multiple-value-bind (yes win)
326 (subtypep 'generic-function 'function)
327 (assert yes)
328 (assert win))
329 ;;; this would be in some internal test suite like type.before-xc.lisp
330 ;;; except that generic functions don't exist at that stage.
331 (multiple-value-bind (yes win)
332 (subtypep 'generic-function 'sb-kernel:funcallable-instance)
333 (assert yes)
334 (assert win))
336 ;;; all sorts of answers are right for this one, but it used to
337 ;;; trigger an AVER instead.
338 (subtypep '(function ()) '(and (function ()) (satisfies identity)))
340 (assert (sb-kernel:unknown-type-p (sb-kernel:specifier-type 'an-unkown-type)))
342 (assert
343 (sb-kernel:type=
344 (sb-kernel:specifier-type '(or (simple-array an-unkown-type (*))
345 (simple-array an-unkown-type)))
346 (sb-kernel:specifier-type '(or (simple-array an-unkown-type (*))
347 (simple-array an-unkown-type)))))
349 (assert
350 (sb-kernel:type=
351 (sb-kernel:specifier-type '(simple-array an-unkown-type (*)))
352 (sb-kernel:specifier-type '(simple-array an-unkown-type (*)))))
354 (assert
355 (not
356 (sb-kernel:type=
357 (sb-kernel:specifier-type '(simple-array an-unkown-type (*)))
358 (sb-kernel:specifier-type '(array an-unkown-type (*))))))
360 (assert
361 (not
362 (sb-kernel:type=
363 (sb-kernel:specifier-type '(simple-array an-unkown-type (7)))
364 (sb-kernel:specifier-type '(simple-array an-unkown-type (8))))))
366 (assert
367 (sb-kernel:type/= (sb-kernel:specifier-type 'cons)
368 (sb-kernel:specifier-type '(cons single-float single-float))))
370 (multiple-value-bind (match win)
371 (sb-kernel:type= (sb-kernel:specifier-type '(cons integer))
372 (sb-kernel:specifier-type '(cons)))
373 (assert (and (not match) win)))
375 (assert (typep #p"" 'sb-kernel:instance))
376 (assert (subtypep '(member #p"") 'sb-kernel:instance))
378 (with-test (:name (:typep :character-set :negation))
379 (flet ((generate-chars ()
380 (loop repeat 100
381 collect (code-char (random char-code-limit)))))
382 (dotimes (i 1000)
383 (let* ((chars (generate-chars))
384 (type `(member ,@chars))
385 (not-type `(not ,type)))
386 (dolist (char chars)
387 (assert (typep char type))
388 (assert (not (typep char not-type))))
389 (let ((other-chars (generate-chars)))
390 (dolist (char other-chars)
391 (unless (member char chars)
392 (assert (not (typep char type)))
393 (assert (typep char not-type)))))))))
395 (with-test (:name (:check-type :store-value :complex-place))
396 (let ((a (cons 0.0 2))
397 (handler-invoked nil))
398 (handler-bind ((error
399 (lambda (c)
400 (declare (ignore c))
401 (assert (not handler-invoked))
402 (setf handler-invoked t)
403 (invoke-restart 'store-value 1))))
404 (check-type (car a) integer))
405 (assert (eql (car a) 1))))
407 ;;; The VOP FIXNUMP/UNSIGNED-BYTE-64 was broken on x86-64, failing
408 ;;; the first ASSERT below. The second ASSERT takes care that the fix
409 ;;; doesn't overshoot the mark.
410 (with-test (:name (:typep :fixnum-if-unsigned-byte))
411 (let ((f (compile nil
412 '(lambda (x)
413 (declare (type (unsigned-byte #.sb-vm:n-word-bits) x))
414 (typep x (quote fixnum))))))
415 (assert (not (funcall f (1+ most-positive-fixnum))))
416 (assert (funcall f most-positive-fixnum))))
418 (with-test (:name (:typep :member-uses-eql))
419 (assert (eval '(typep 1/3 '(member 1/3 nil))))
420 (assert (eval '(typep 1.0 '(member 1.0 t))))
421 (assert (eval '(typep #c(1.1 1.2) '(member #c(1.1 1.2)))))
422 (assert (eval '(typep #c(1 1) '(member #c(1 1)))))
423 (let ((bignum1 (+ 12 most-positive-fixnum))
424 (bignum2 (- (+ 15 most-positive-fixnum) 3)))
425 (assert (eval `(typep ,bignum1 '(member ,bignum2))))))
427 (with-test (:name :opt+rest+key-canonicalization)
428 (let ((type '(function (&optional t &rest t &key (:x t) (:y t)) *)))
429 (assert (equal type (sb-kernel:type-specifier (sb-kernel:specifier-type type))))))
431 (with-test (:name :bug-369)
432 (let ((types (mapcar #'sb-c::values-specifier-type
433 '((values (vector package) &optional)
434 (values (vector package) &rest t)
435 (values (vector hash-table) &rest t)
436 (values (vector hash-table) &optional)
437 (values t &optional)
438 (values t &rest t)
439 (values nil &optional)
440 (values nil &rest t)
441 (values sequence &optional)
442 (values sequence &rest t)
443 (values list &optional)
444 (values list &rest t)))))
445 (dolist (x types)
446 (dolist (y types)
447 (let ((i (sb-c::values-type-intersection x y)))
448 (assert (sb-c::type= i (sb-c::values-type-intersection i x)))
449 (assert (sb-c::type= i (sb-c::values-type-intersection i y))))))))
451 (with-test (:name :bug-485972)
452 (assert (equal (multiple-value-list (subtypep 'symbol 'keyword)) '(nil t)))
453 (assert (equal (multiple-value-list (subtypep 'keyword 'symbol)) '(t t))))
455 ;; WARNING: this test case would fail by recursing into the stack's guard page.
456 (with-test (:name :bug-883498)
457 (sb-kernel:specifier-type
458 `(or (INTEGER -2 -2)
459 (AND (SATISFIES FOO) (RATIONAL -3/2 -3/2)))))
461 ;; The infinite recursion mentioned in the previous test was caused by an
462 ;; attempt to get the following right.
463 (with-test (:name :quirky-integer-rational-union)
464 (assert (subtypep `(or (integer * -1)
465 (and (rational * -1/2) (not integer)))
466 `(rational * -1/2)))
467 (assert (subtypep `(rational * -1/2)
468 `(or (integer * -1)
469 (and (rational * -1/2) (not integer))))))
471 ;; for the longest time (at least 05525d3a), single-value-type would
472 ;; return CHARACTER on this.
473 (with-test (:name :single-value-&optional-type)
474 (assert (sb-c::type= (sb-c::single-value-type
475 (sb-c::values-specifier-type '(values &optional character)))
476 (sb-c::specifier-type '(or null character)))))
478 ;; lp#1317308 - TYPE-OF must not return a type specifier
479 ;; involving AND,EQL,MEMBER,NOT,OR,SATISFIES,or VALUES.
480 (with-test (:name :ANSIly-report-hairy-array-type)
481 (let ((simp-t (make-array 9))
482 (simp-bit (make-array 16 :element-type 'bit)))
483 ;; TYPE-OF doesn't have an optimization that returns a constant specifier
484 ;; from a non-constant array of known type. If it did, we'd probably
485 ;; want to check that these results are all equal:
486 ;; - the runtime-determined type
487 ;; - the compile-time-determined constant type
488 ;; - the compile-time-determined type of an equivalent object
489 ;; that is in fact a compile-time constant
490 (flet ((our-type-of (x) (sb-kernel:type-specifier (sb-kernel:ctype-of x))))
491 (let ((hairy-t (make-array 3 :displaced-to simp-t)))
492 (assert (equal (our-type-of hairy-t)
493 '(and (vector t 3) (not simple-array))))
494 (assert (equal (type-of hairy-t) '(vector t 3))))
495 (let ((hairy-t (make-array '(3 2) :displaced-to simp-t)))
496 (assert (equal (our-type-of hairy-t)
497 '(and (array t (3 2)) (not simple-array))))
498 (assert (equal (type-of hairy-t) '(array t (3 2)))))
499 (let ((hairy-bit
500 (make-array 5 :displaced-to simp-bit :element-type 'bit)))
501 (assert (equal (our-type-of hairy-bit)
502 '(and (bit-vector 5) (not simple-array))))
503 (assert (equal (type-of hairy-bit) '(bit-vector 5)))))))
505 (with-test (:name :bug-309098)
506 (let ((u `(or ,@(map 'list (lambda (x) `(array ,(sb-vm:saetp-specifier x)))
507 sb-vm:*specialized-array-element-type-properties*))))
508 (assert (equal (multiple-value-list (subtypep 'array u)) '(t t)))))
510 (with-test (:name :bug-1258716)
511 (let ((intersection (sb-kernel:type-intersection
512 (sb-kernel:specifier-type 'simple-vector)
513 (sb-kernel:specifier-type `(vector #:unknown)))))
514 (assert (sb-kernel:array-type-p intersection))
515 ;; and not *wild-type*
516 (assert (sb-kernel:type= (sb-kernel:array-type-specialized-element-type intersection)
517 sb-kernel:*universal-type*))))
519 (with-test (:name :parse-safely)
520 (dolist (x '(array integer cons))
521 (assert (handler-case (sb-kernel:specifier-type `(,x . 0))
522 (sb-kernel::arg-count-error () t)
523 (error (c) (print c) nil)))))
525 (with-test (:name :unparse-safely)
526 (let* ((intersection (sb-kernel:type-intersection
527 (sb-kernel:specifier-type '(vector (or bit character)))
528 (sb-kernel:specifier-type `(vector (or bit symbol)))))
529 (round-trip (sb-kernel:specifier-type
530 (sb-kernel:type-specifier intersection))))
531 (assert (sb-kernel:type= intersection round-trip))
532 (assert (sb-kernel:array-type-p intersection))
533 ;; and not *wild-type*
534 (assert (sb-kernel:type/= (sb-kernel:array-type-specialized-element-type intersection)
535 (sb-kernel:specifier-type 'bit)))))
537 ;; lp#1333731
538 (with-test (:name :adjust-array-changes-type-of)
539 (let ((a (make-array 10 :adjustable t)))
540 (assert (equal (type-of a) '(vector t 10)))
541 (adjust-array a 20)
542 (assert (equal (type-of a) '(vector t 20)))))
545 (with-test (:name :unknown-type-strongly-uncacheable)
546 ;; VALUES-SPECIFIER-TYPE should not cache a specifier any part of which
547 ;; is unknown. This leads to consistent results when parsing unknown
548 ;; types. Previously it was indeterminate whether a condition would
549 ;; be signaled for (OR UNKNOWN KNOWN) depending on whether that expression
550 ;; had ever been parsed and whether it had been evicted from the cache.
551 (assert-signal (progn (sb-kernel:specifier-type '(or weeble ratio))
552 (sb-kernel:specifier-type '(or weeble ratio)))
553 sb-kernel:parse-unknown-type 2) ; expect 2 signals
554 (assert-signal (progn (sb-kernel:specifier-type '(and potrzebie real))
555 (sb-kernel:specifier-type '(and potrzebie real)))
556 sb-kernel:parse-unknown-type 2) ; expect 2 signals
557 (assert-signal (progn (sb-kernel:specifier-type '(array strudel))
558 (sb-kernel:specifier-type '(array strudel)))
559 sb-kernel:parse-unknown-type 2) ; expect 2 signals
560 (assert-signal (progn (sb-kernel:specifier-type '(not bad))
561 (sb-kernel:specifier-type '(not bad)))
562 sb-kernel:parse-unknown-type 2)) ; expect 2 signals
564 (in-package "SB-KERNEL")
565 (test-util:with-test (:name :partition-array-into-simple/hairy)
566 ;; Some tests that (simple-array | hairy-array) = array
567 ;; At present this works only for wild element-type.
568 (multiple-value-bind (eq winp)
569 (type= (specifier-type '(not (and array (not simple-array))))
570 (specifier-type '(or (not array) simple-array)))
571 (assert (and eq winp)))
573 ;; if X is neither simple-array nor hairy-array, it is not an array
574 (assert (type= (specifier-type '(and (not simple-array)
575 (not (and array (not simple-array)))))
576 (specifier-type '(not array))))
578 ;; (simple-array * (*)) = (AND (NOT <hairy-array>) VECTOR) etc
579 (flet ((try (unrestricted simple)
580 (assert (type= (specifier-type simple)
581 (type-intersection
582 (specifier-type
583 '(not (and array (not simple-array))))
584 (specifier-type unrestricted))))))
585 (try 'vector '(simple-array * (*)))
586 (try '(vector t) 'simple-vector)
587 (try 'bit-vector 'simple-bit-vector)
588 (try 'string 'simple-string)
589 #+sb-unicode(try 'character-string 'simple-character-string)
590 (try 'base-string 'simple-base-string))
592 ;; if X is a known string and not an array-header
593 ;; it must be a SIMPLE-STRING
594 (assert (type= (type-intersection
595 (specifier-type 'string)
596 (specifier-type
597 '(not (or (and simple-array (not vector))
598 (and array (not simple-array))))))
599 (specifier-type 'simple-string))))
601 (test-util:with-test (:name :classoids-as-type-specifiers)
602 (dolist (classoid (list (find-classoid 'integer)
603 (find-class 'integer)))
604 ;; Classoids and classes should work as type specifiers
605 ;; in the atom form, not as lists.
606 ;; Their legality or lack thereof is equivalent in all cases.
607 (flet ((expect-win (type)
608 (multiple-value-bind (f warn err)
609 (compile nil `(lambda (x) (declare (,type x)) x))
610 (assert (and f (not warn) (not err))))
611 (multiple-value-bind (f warn err)
612 (compile nil `(lambda (x) (declare (type ,type x)) x))
613 (assert (and f (not warn) (not err))))))
614 (expect-win classoid))
615 ;; Negative tests come in two flavors:
616 ;; In the case of (DECLARE (TYPE ...)), parsing the following thing
617 ;; as a type should fail. But when 'TYPE is implied, "canonization"
618 ;; should do nothing, because the following form is not a type,
619 ;; so we get an error about an unrecognized declaration instead.
620 (flet ((expect-lose (type)
621 (multiple-value-bind (f warn err)
622 (let ((*error-output* (make-broadcast-stream)))
623 (compile nil `(lambda (x) (declare (,type x)) x)))
624 (declare (ignore f warn))
625 (assert err))
626 (multiple-value-bind (f warn err)
627 (let ((*error-output* (make-broadcast-stream)))
628 (compile nil `(lambda (x) (declare (type ,type x)) x)))
629 (declare (ignore f warn))
630 (assert err))))
631 (expect-lose `(,classoid))
632 (expect-lose `(,classoid 1 100)))))
634 (test-util:with-test (:name :classoid-type-kind)
635 (do-all-symbols (s)
636 (let ((c (sb-kernel:find-classoid s nil)))
637 ;; No classoid can have a :TYPE :KIND that is :DEFINED.
638 (when c
639 (if (typep c 'sb-kernel:built-in-classoid)
640 (assert (eq (sb-int:info :type :kind s) :primitive))
641 (assert (eq (sb-int:info :type :kind s) :instance)))))))
643 (test-util:with-test (:name :make-numeric-type)
644 (assert (eq (make-numeric-type :class 'integer :low '(4) :high '(5))
645 *empty-type*)))
647 (test-util:with-test (:name :unparse-string)
648 (assert (equal (type-specifier (specifier-type '(string 10)))
649 '(string 10)))
650 (assert (equal (type-specifier (specifier-type '(simple-string 10)))
651 '(simple-string 10))))