Remove remnants of non-interleavable raw slot spport.
[sbcl.git] / tests / dynamic-extent.impure.lisp
blobcf532e463e6e480e814f8f8fedacea89bb4507b1
1 ;;;; tests that dynamic-extent functionality works.
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 (when (eq sb-ext:*evaluator-mode* :interpret)
15 (sb-ext:exit :code 104))
17 (load "compiler-test-util.lisp")
18 (use-package :ctu)
20 (setq sb-c::*check-consistency* t
21 sb-ext:*stack-allocate-dynamic-extent* t)
23 (defun crashme (a)
24 (declare (optimize (speed 3) (safety 0) (space 0)))
25 (declare (muffle-conditions style-warning)) ; re F1 and F2
26 (restart-case
27 (progn (ignore-errors (error "Foo")) (write-char #\.))
28 (retry () (f1 a))
29 (use-value (new) (f2 new))))
31 ;; lp#1530390
32 (with-test (:name :do-not-dxify-restarts)
33 (let ((a (make-array 100))) (unwind-protect (crashme 'bork) (fill a 0)))
34 (let ((a (make-array 100))) (unwind-protect (crashme 'bork) (fill a 0)))
35 (let ((a (make-array 100))) (unwind-protect (crashme 'bork) (fill a 0)))
36 (let ((a (make-array 100))) (unwind-protect (crashme 'bork) (fill a 0)))
39 (defmacro defun-with-dx (name arglist &body body)
40 (let ((debug-name (sb-int:symbolicate name "-HIGH-DEBUG"))
41 (default-name (sb-int:symbolicate name "-DEFAULT")))
42 `(progn
43 (defun ,debug-name ,arglist
44 (declare (optimize debug))
45 ,@body)
46 (defun ,default-name ,arglist
47 ,@body)
48 (defun ,name (&rest args)
49 (apply #',debug-name args)
50 (apply #',default-name args)))))
52 (declaim (notinline opaque-identity))
53 (defun opaque-identity (x)
56 ;;; &REST lists
58 (defun-with-dx dxlength (&rest rest)
59 (declare (dynamic-extent rest))
60 (length rest))
62 (with-test (:name (:dx-&rest :basics))
63 (assert (= (dxlength 1 2 3) 3))
64 (assert (= (dxlength t t t t t t) 6))
65 (assert (= (dxlength) 0)))
67 (defun callee (list)
68 (destructuring-bind (a b c d e f &rest g) list
69 (+ a b c d e f (length g))))
71 (defun-with-dx dxcaller (&rest rest)
72 (declare (dynamic-extent rest))
73 (callee rest))
75 (with-test (:name (:dx-&rest :pass-down-to-callee :tail-call))
76 (assert (= (dxcaller 1 2 3 4 5 6 7) 22)))
78 (defun-with-dx dxcaller-align-1 (x &rest rest)
79 (declare (dynamic-extent rest))
80 (+ x (callee rest)))
82 (with-test (:name (:dx-&rest :pass-down-to-callee :non-tail-call))
83 (assert (= (dxcaller-align-1 17 1 2 3 4 5 6 7) 39))
84 (assert (= (dxcaller-align-1 17 1 2 3 4 5 6 7 8) 40)))
86 ;;; %NIP-VALUES
88 (defun-with-dx test-nip-values ()
89 (flet ((bar (x &rest y)
90 (declare (dynamic-extent y))
91 (if (> x 0)
92 (values x (length y))
93 (values (car y)))))
94 (multiple-value-call #'values
95 (bar 1 2 3 4 5 6)
96 (bar -1 'a 'b))))
98 (with-test (:name (:nip-values))
99 (assert (equal (multiple-value-list (test-nip-values)) '(1 5 a))))
101 ;;; LET-variable substitution
103 (defun-with-dx test-let-var-subst1 (x)
104 (let ((y (list x (1- x))))
105 (opaque-identity :foo)
106 (let ((z (the list y)))
107 (declare (dynamic-extent z))
108 (length z))))
110 (with-test (:name (:let-variable-substitution))
111 (assert (eql (test-let-var-subst1 17) 2)))
113 (defun-with-dx test-let-var-subst2 (x)
114 (let ((y (list x (1- x))))
115 (declare (dynamic-extent y))
116 (opaque-identity :foo)
117 (let ((z (the list y)))
118 (length z))))
120 (with-test (:name (:let-variable-substitution-2))
121 (assert (eql (test-let-var-subst2 17) 2)))
124 ;;; DX propagation through LET-return.
126 (defun-with-dx test-lvar-subst (x)
127 (let ((y (list x (1- x))))
128 (declare (dynamic-extent y))
129 (second (let ((z (the list y)))
130 (opaque-identity :foo)
131 z))))
133 (with-test (:name (:dx-propagation-through-let-return))
134 (assert (eql (test-lvar-subst 11) 10)))
136 ;;; this code is incorrect, but the compiler should not fail
137 (defun-with-dx test-let-var-subst-incorrect (x)
138 (let ((y (list x (1- x))))
139 (opaque-identity :foo)
140 (let ((z (the list y)))
141 (declare (dynamic-extent z))
142 (opaque-identity :bar)
143 z)))
145 ;;; alignment
147 (defvar *x*)
148 (defun-with-dx test-alignment-dx-list (form)
149 (multiple-value-prog1 (eval form)
150 (let ((l (list 1 2 3 4)))
151 (declare (dynamic-extent l))
152 (setq *x* (copy-list l)))))
154 (with-test (:name (:dx-list :alignment))
155 (dotimes (n 64)
156 (let* ((res (loop for i below n collect i))
157 (form `(values ,@res)))
158 (assert (equal (multiple-value-list (test-alignment-dx-list form)) res))
159 (assert (equal *x* '(1 2 3 4))))))
161 ;;; closure
163 (declaim (notinline true))
164 (defun true (x)
165 (declare (ignore x))
168 (defun-with-dx dxclosure (x)
169 (flet ((f (y)
170 (+ y x)))
171 (declare (dynamic-extent #'f))
172 (true #'f)))
174 (with-test (:name (:dx-closure))
175 (assert (eq t (dxclosure 13))))
177 ;;; value-cells
179 (defun-with-dx dx-value-cell (x)
180 ;; Not implemented everywhere, yet.
181 #+(or x86 x86-64 mips hppa)
182 (let ((cell x))
183 (declare (sb-int:truly-dynamic-extent cell))
184 (flet ((f ()
185 (incf cell)))
186 (declare (dynamic-extent #'f))
187 (true #'f))))
189 ;;; CONS
191 (defun-with-dx cons-on-stack (x)
192 (let ((cons (cons x x)))
193 (declare (dynamic-extent cons))
194 (true cons)
195 nil))
197 ;;; MAKE-ARRAY
199 (defun force-make-array-on-stack (n)
200 (declare (optimize safety))
201 (let ((v (make-array (min n 1))))
202 (declare (sb-int:truly-dynamic-extent v))
203 (true v)
204 (true v)
205 nil))
207 (defun-with-dx make-array-on-stack-1 ()
208 (let ((v (make-array '(42) :element-type 'single-float)))
209 (declare (dynamic-extent v))
210 (true v)
211 (true v)
212 nil))
214 (defun-with-dx make-array-on-stack-2 (n x)
215 (declare (integer n))
216 (let ((v (make-array n :initial-contents x)))
217 (declare (sb-int:truly-dynamic-extent v))
218 (true v)
219 (true v)
220 nil))
222 (defun-with-dx make-array-on-stack-3 (x y z)
223 (let ((v (make-array 3
224 :element-type 'fixnum :initial-contents (list x y z)
225 :element-type t :initial-contents x)))
226 (declare (sb-int:truly-dynamic-extent v))
227 (true v)
228 (true v)
229 nil))
231 (defun-with-dx make-array-on-stack-4 ()
232 (let ((v (make-array 3 :initial-contents '(1 2 3))))
233 (declare (sb-int:truly-dynamic-extent v))
234 (true v)
235 (true v)
236 nil))
238 (defun-with-dx make-array-on-stack-5 ()
239 (let ((v (make-array 3 :initial-element 12 :element-type t)))
240 (declare (sb-int:truly-dynamic-extent v))
241 (true v)
242 (true v)
243 nil))
245 (defun-with-dx make-array-on-stack-6 ()
246 (let ((v (make-array 3 :initial-element 12 :element-type '(unsigned-byte 8))))
247 (declare (sb-int:truly-dynamic-extent v))
248 (true v)
249 (true v)
250 nil))
252 (defun-with-dx make-array-on-stack-7 ()
253 (let ((v (make-array 3 :initial-element 12 :element-type '(signed-byte 8))))
254 (declare (sb-int:truly-dynamic-extent v))
255 (true v)
256 (true v)
257 nil))
259 (defun-with-dx make-array-on-stack-8 ()
260 (let ((v (make-array 3 :initial-element 12 :element-type 'word)))
261 (declare (sb-int:truly-dynamic-extent v))
262 (true v)
263 (true v)
264 nil))
266 (defun-with-dx make-array-on-stack-9 ()
267 (let ((v (make-array 3 :initial-element 12.0 :element-type 'single-float)))
268 (declare (sb-int:truly-dynamic-extent v))
269 (true v)
270 (true v)
271 nil))
273 (defun-with-dx make-array-on-stack-10 ()
274 (let ((v (make-array 3 :initial-element 12.0d0 :element-type 'double-float)))
275 (declare (sb-int:truly-dynamic-extent v))
276 (true v)
277 (true v)
278 nil))
280 (defun-with-dx make-array-on-stack-11 ()
281 (let ((v (make-array (the integer (opaque-identity 3)) :initial-element 12.0d0 :element-type 'double-float)))
282 (declare (sb-int:truly-dynamic-extent v))
283 (true v)
284 (true v)
285 nil))
287 (defun-with-dx vector-on-stack (x y)
288 (let ((v (vector 1 x 2 y 3)))
289 (declare (sb-int:truly-dynamic-extent v))
290 (true v)
291 nil))
293 ;;; MAKE-LIST
295 (declaim (inline make-list-container))
296 (defstruct list-container listy-slot)
297 (defun make-var-length-dx-list (n thunk)
298 (sb-int:dx-let ((s (make-list-container :listy-slot (make-list n))))
299 (funcall thunk s)))
300 ;; :stack-allocatable-lists is necessary but not sufficient
301 (with-test (:name (:dx-list :make-list) :skipped-on '(not :x86-64))
302 (assert (null (ctu:find-named-callees #'make-var-length-dx-list)))
303 (assert-no-consing (make-var-length-dx-list
304 50 (lambda (x) (declare (ignore x))))))
306 ;;; MAKE-STRUCTURE
308 (declaim (inline make-fp-struct-1))
309 (defstruct fp-struct-1
310 (s 0.0 :type single-float)
311 (d 0.0d0 :type double-float))
313 (defun-with-dx test-fp-struct-1.1 (s d)
315 (let ((fp (make-fp-struct-1 :s s)))
316 (declare (dynamic-extent fp))
317 (assert (eql s (fp-struct-1-s fp)))
318 (assert (eql 0.0d0 (fp-struct-1-d fp)))))
320 (defun-with-dx test-fp-struct-1.2 (s d)
322 (let ((fp (make-fp-struct-1 :d d)))
323 (declare (dynamic-extent fp))
324 (assert (eql 0.0 (fp-struct-1-s fp)))
325 (assert (eql d (fp-struct-1-d fp)))))
327 (defun-with-dx test-fp-struct-1.3 (s d)
328 (let ((fp (make-fp-struct-1 :d d :s s)))
329 (declare (dynamic-extent fp))
330 (assert (eql s (fp-struct-1-s fp)))
331 (assert (eql d (fp-struct-1-d fp)))))
333 (defun-with-dx test-fp-struct-1.4 (s d)
334 (let ((fp (make-fp-struct-1 :s s :d d)))
335 (declare (dynamic-extent fp))
336 (assert (eql s (fp-struct-1-s fp)))
337 (assert (eql d (fp-struct-1-d fp)))))
339 (with-test (:name (:test-fp-struct-1.1))
340 (test-fp-struct-1.1 123.456 876.243d0))
341 (with-test (:name (:test-fp-struct-1.2))
342 (test-fp-struct-1.2 123.456 876.243d0))
343 (with-test (:name (:test-fp-struct-1.3))
344 (test-fp-struct-1.3 123.456 876.243d0))
345 (with-test (:name (:test-fp-struct-1.4))
346 (test-fp-struct-1.4 123.456 876.243d0))
348 (declaim (inline make-fp-struct-2))
349 (defstruct fp-struct-2
350 (d 0.0d0 :type double-float)
351 (s 0.0 :type single-float))
353 (defun-with-dx test-fp-struct-2.1 (s d)
355 (let ((fp (make-fp-struct-2 :s s)))
356 (declare (dynamic-extent fp))
357 (assert (eql s (fp-struct-2-s fp)))
358 (assert (eql 0.0d0 (fp-struct-2-d fp)))))
360 (defun-with-dx test-fp-struct-2.2 (s d)
362 (let ((fp (make-fp-struct-2 :d d)))
363 (declare (dynamic-extent fp))
364 (assert (eql 0.0 (fp-struct-2-s fp)))
365 (assert (eql d (fp-struct-2-d fp)))))
367 (defun-with-dx test-fp-struct-2.3 (s d)
368 (let ((fp (make-fp-struct-2 :d d :s s)))
369 (declare (dynamic-extent fp))
370 (assert (eql s (fp-struct-2-s fp)))
371 (assert (eql d (fp-struct-2-d fp)))))
373 (defun-with-dx test-fp-struct-2.4 (s d)
374 (let ((fp (make-fp-struct-2 :s s :d d)))
375 (declare (dynamic-extent fp))
376 (assert (eql s (fp-struct-2-s fp)))
377 (assert (eql d (fp-struct-2-d fp)))))
379 (with-test (:name (:test-fp-struct-2.1))
380 (test-fp-struct-2.1 123.456 876.243d0))
381 (with-test (:name (:test-fp-struct-2.2))
382 (test-fp-struct-2.2 123.456 876.243d0))
383 (with-test (:name (:test-fp-struct-2.3))
384 (test-fp-struct-2.3 123.456 876.243d0))
385 (with-test (:name (:test-fp-struct-2.4))
386 (test-fp-struct-2.4 123.456 876.243d0))
388 (declaim (inline make-cfp-struct-1))
389 (defstruct cfp-struct-1
390 (s (complex 0.0) :type (complex single-float))
391 (d (complex 0.0d0) :type (complex double-float)))
393 (defun-with-dx test-cfp-struct-1.1 (s d)
395 (let ((cfp (make-cfp-struct-1 :s s)))
396 (declare (dynamic-extent cfp))
397 (assert (eql s (cfp-struct-1-s cfp)))
398 (assert (eql (complex 0.0d0) (cfp-struct-1-d cfp)))))
400 (defun-with-dx test-cfp-struct-1.2 (s d)
402 (let ((cfp (make-cfp-struct-1 :d d)))
403 (declare (dynamic-extent cfp))
404 (assert (eql (complex 0.0) (cfp-struct-1-s cfp)))
405 (assert (eql d (cfp-struct-1-d cfp)))))
407 (defun-with-dx test-cfp-struct-1.3 (s d)
408 (let ((cfp (make-cfp-struct-1 :d d :s s)))
409 (declare (dynamic-extent cfp))
410 (assert (eql s (cfp-struct-1-s cfp)))
411 (assert (eql d (cfp-struct-1-d cfp)))))
413 (defun-with-dx test-cfp-struct-1.4 (s d)
414 (let ((cfp (make-cfp-struct-1 :s s :d d)))
415 (declare (dynamic-extent cfp))
416 (assert (eql s (cfp-struct-1-s cfp)))
417 (assert (eql d (cfp-struct-1-d cfp)))))
419 (with-test (:name (:test-cfp-struct-1.1))
420 (test-cfp-struct-1.1 (complex 0.123 123.456) (complex 908132.41d0 876.243d0)))
421 (with-test (:name (:test-cfp-struct-1.2))
422 (test-cfp-struct-1.2 (complex 0.123 123.456) (complex 908132.41d0 876.243d0)))
423 (with-test (:name (:test-cfp-struct-1.3))
424 (test-cfp-struct-1.3 (complex 0.123 123.456) (complex 908132.41d0 876.243d0)))
425 (with-test (:name (:test-cfp-struct-1.4))
426 (test-cfp-struct-1.4 (complex 0.123 123.456) (complex 908132.41d0 876.243d0)))
428 (declaim (inline make-cfp-struct-2))
429 (defstruct cfp-struct-2
430 (d (complex 0.0d0) :type (complex double-float))
431 (s (complex 0.0) :type (complex single-float)))
433 (defun-with-dx test-cfp-struct-2.1 (s d)
435 (let ((cfp (make-cfp-struct-2 :s s)))
436 (declare (dynamic-extent cfp))
437 (assert (eql s (cfp-struct-2-s cfp)))
438 (assert (eql (complex 0.0d0) (cfp-struct-2-d cfp)))))
440 (defun-with-dx test-cfp-struct-2.2 (s d)
442 (let ((cfp (make-cfp-struct-2 :d d)))
443 (declare (dynamic-extent cfp))
444 (assert (eql (complex 0.0) (cfp-struct-2-s cfp)))
445 (assert (eql d (cfp-struct-2-d cfp)))))
447 (defun-with-dx test-cfp-struct-2.3 (s d)
448 (let ((cfp (make-cfp-struct-2 :d d :s s)))
449 (declare (dynamic-extent cfp))
450 (assert (eql s (cfp-struct-2-s cfp)))
451 (assert (eql d (cfp-struct-2-d cfp)))))
453 (defun-with-dx test-cfp-struct-2.4 (s d)
454 (let ((cfp (make-cfp-struct-2 :s s :d d)))
455 (declare (dynamic-extent cfp))
456 (assert (eql s (cfp-struct-2-s cfp)))
457 (assert (eql d (cfp-struct-2-d cfp)))))
459 (with-test (:name (:test-cfp-struct-2.1))
460 (test-cfp-struct-2.1 (complex 0.123 123.456) (complex 908132.41d0 876.243d0)))
461 (with-test (:name (:test-cfp-struct-2.2))
462 (test-cfp-struct-2.2 (complex 0.123 123.456) (complex 908132.41d0 876.243d0)))
463 (with-test (:name (:test-cfp-struct-2.3))
464 (test-cfp-struct-2.3 (complex 0.123 123.456) (complex 908132.41d0 876.243d0)))
465 (with-test (:name (:test-cfp-struct-2.4))
466 (test-cfp-struct-2.4 (complex 0.123 123.456) (complex 908132.41d0 876.243d0)))
468 ;; It works to declare a structure constructor INLINE after the DEFSTRUCT
469 ;; was processed, as long as it was in the null lexical environment.
470 ;; In a perfect world, we'd figure out that a variable declared DX which
471 ;; receives the value of a structure constructor defined in the same file
472 ;; and neither expressly INLINE nor NOTINLINE should be locally inlined.
473 ;; But at least this shows that a declaration at the intended use point
474 ;; is sufficient, without also a bracketing INLINE/NOTINLINE at the DEFSTRUCT.
476 ;; Verify the precondition for the assertions that claim that DXifying works
477 ;; even though the MAKE- function was not expressly INLINE when its DEFSTRUCT
478 ;; was compiled.
479 (dolist (s '(make-foo1 make-foo2 make-foo3))
480 (assert (null (sb-int:info :function :inline-expansion-designator s))))
482 (defstruct foo1 x)
484 (defun-with-dx make-foo1-on-stack (x)
485 (declare (inline make-foo1))
486 (let ((foo (make-foo1 :x x)))
487 (declare (dynamic-extent foo))
488 (assert (eql x (foo1-x foo)))))
490 (defstruct foo2
491 (x 0.0 :type single-float)
492 (y 0.0d0 :type double-float)
497 (defun-with-dx make-foo2-on-stack (x y)
498 (declare (inline make-foo2))
500 (let ((foo (make-foo2 :y y :c 'c)))
501 (declare (dynamic-extent foo))
502 (assert (eql 0.0 (foo2-x foo)))
503 (assert (eql y (foo2-y foo)))
504 (assert (eql 'c (foo2-c foo)))
505 (assert (eql nil (foo2-b foo)))))
507 ;;; Check that constants work out as argument for all relevant
508 ;;; slot types.
509 (defstruct foo3
510 (a 0 :type t)
511 (b 1 :type fixnum)
512 (c 2 :type sb-vm:word)
513 (d 3.0 :type single-float)
514 (e 4.0d0 :type double-float))
516 (defun-with-dx make-foo3-on-stack ()
517 (declare (inline make-foo3))
518 (let ((foo (make-foo3)))
519 (declare (dynamic-extent foo))
520 (assert (eql 0 (foo3-a foo)))
521 (assert (eql 1 (foo3-b foo)))
522 (assert (eql 2 (foo3-c foo)))
523 (assert (eql 3.0 (foo3-d foo)))
524 (assert (eql 4.0d0 (foo3-e foo)))))
526 ;;; Nested DX
528 (defun-with-dx nested-dx-lists ()
529 (let ((dx (list (list 1 2) (list 3 4))))
530 (declare (dynamic-extent dx))
531 (true dx)
532 nil))
534 (defun-with-dx nested-dx-conses ()
535 (let ((dx (cons 1 (cons 2 (cons 3 (cons (cons t t) nil))))))
536 (declare (dynamic-extent dx))
537 (true dx)
538 nil))
540 (defun-with-dx nested-dx-not-used (x)
541 (declare (list x))
542 (let ((l (setf (car x) (list x x x))))
543 (declare (dynamic-extent l))
544 (true l)
545 (true (length l))
546 nil))
548 (defun-with-dx nested-evil-dx-used (x)
549 (declare (list x))
550 (let ((l (list x x x)))
551 (declare (dynamic-extent l))
552 (unwind-protect
553 (progn
554 (setf (car x) l)
555 (true l))
556 (setf (car x) nil))
557 nil))
559 (defparameter *bar* nil)
560 (declaim (inline make-nested-bad make-nested-good))
561 (defstruct (nested (:constructor make-nested-bad (&key bar &aux (bar (setf *bar* bar))))
562 (:constructor make-nested-good (&key bar)))
563 bar)
565 (defun-with-dx nested-good (y)
566 (let ((x (list (list (make-nested-good :bar (list (list (make-nested-good :bar (list y)))))))))
567 (declare (dynamic-extent x))
568 (true x)))
570 (defun-with-dx nested-bad (y)
571 (let ((x (list (list (make-nested-bad :bar (list (list (make-nested-bad :bar (list y)))))))))
572 (declare (dynamic-extent x))
573 (unless (equalp (caar x) (make-nested-good :bar *bar*))
574 (error "got ~S, wanted ~S" (caar x) (make-nested-good :bar *bar*)))
575 ;; the NESTED instance itself *should* be DX!
576 (copy-nested (caar x))))
578 (with-test (:name :conservative-nested-dx)
579 ;; NESTED-BAD should not stack-allocate :BAR due to the SETF.
580 (assert (equalp (nested-bad 42) (make-nested-good :bar *bar*)))
581 (assert (equalp *bar* (list (list (make-nested-bad :bar (list 42)))))))
583 ;;; multiple uses for dx lvar
585 (defun-with-dx multiple-dx-uses ()
586 (let ((dx (if (true t)
587 (list 1 2 3)
588 (list 2 3 4))))
589 (declare (dynamic-extent dx))
590 (true dx)
591 nil))
593 ;;; mapfoo should make the initial cons dx
595 (defun mapcar-negate (x) (mapcar #'- x))
596 (defun mapcan-reverse (x) (mapcan #'reverse x))
598 ;;; handler-case and handler-bind should use DX internally
600 (defun dx-handler-bind (x)
601 (handler-bind ((error
602 #'(lambda (c)
603 (break "OOPS: ~S caused ~S" x c)))
604 ((and serious-condition (not error))
605 #'(lambda (c)
606 (break "OOPS2: ~S did ~S" x c))))
607 (/ 2 x)))
609 (defun dx-handler-case (x)
610 (assert (zerop (handler-case (/ 2 x)
611 (error (c)
612 (break "OOPS: ~S caused ~S" x c)
614 (:no-error (res)
615 (1- res))))))
617 (defun list-delete-some-stuff ()
618 ;; opaque-identity hides the fact that we are calling a destructive function
619 ;; on a constant, which is technically illegal. But no deletion occurs,
620 ;; so it's innocuous. Also these aren't tests of DX, but oh well...
621 (declare (muffle-conditions style-warning))
622 (delete 'a (opaque-identity '(x y)))
623 (delete 'a (opaque-identity '(x y)) :from-end t)
624 (delete-duplicates (opaque-identity '(x y))))
626 (defvar *a-cons* (cons nil nil))
628 (with-test (:name (:no-consing :dx-closures) :skipped-on '(not :stack-allocatable-closures))
629 (assert-no-consing (dxclosure 42)))
631 (with-test (:name (:no-consing :dx-lists)
632 :skipped-on '(not (and :stack-allocatable-lists
633 :stack-allocatable-fixed-objects)))
634 (assert-no-consing (dxlength 1 2 3))
635 (assert-no-consing (dxlength t t t t t t))
636 (assert-no-consing (dxlength))
637 (assert-no-consing (dxcaller 1 2 3 4 5 6 7))
638 (assert-no-consing (test-nip-values))
639 (assert-no-consing (test-let-var-subst2 17))
640 (assert-no-consing (test-lvar-subst 11))
641 (assert-no-consing (nested-dx-lists))
642 (assert-consing (nested-dx-not-used *a-cons*))
643 (assert-no-consing (nested-evil-dx-used *a-cons*))
644 (assert-no-consing (mapcar-negate nil))
645 (assert-no-consing (mapcan-reverse nil))
646 (assert-no-consing (list-delete-some-stuff))
647 (assert-no-consing (multiple-dx-uses)))
649 (with-test (:name (:no-consing :dx-value-cell)
650 :skipped-on '(not :stack-allocatable-closures))
651 (assert-no-consing (dx-value-cell 13)))
653 (with-test (:name (:no-consing :dx-fixed-objects)
654 :skipped-on '(not (and :stack-allocatable-fixed-objects
655 :stack-allocatable-closures)))
656 (assert-no-consing (cons-on-stack 42))
657 (assert-no-consing (make-foo1-on-stack 123))
658 (assert-no-consing (nested-good 42))
659 (assert-no-consing (nested-dx-conses))
660 (assert-no-consing (dx-handler-bind 2))
661 (assert-no-consing (dx-handler-case 2)))
663 (with-test (:name (:no-consing :dx-vectors) :skipped-on '(not :stack-allocatable-vectors))
664 (assert-no-consing (force-make-array-on-stack 128))
665 (assert-no-consing (make-array-on-stack-2 5 '(1 2.0 3 4.0 5)))
666 (assert-no-consing (make-array-on-stack-3 9 8 7))
667 (assert-no-consing (make-array-on-stack-4))
668 (assert-no-consing (make-array-on-stack-5))
669 (assert-no-consing (vector-on-stack :x :y)))
671 (with-test (:name (:no-consing :specialized-dx-vectors)
672 :skipped-on `(not (and :stack-allocatable-vectors
673 :c-stack-is-control-stack)))
674 (assert-no-consing (make-array-on-stack-1))
675 (assert-no-consing (make-array-on-stack-6))
676 (assert-no-consing (make-array-on-stack-7))
677 (assert-no-consing (make-array-on-stack-8))
678 (assert-no-consing (make-array-on-stack-9))
679 (assert-no-consing (make-array-on-stack-10))
680 (assert-no-consing (make-array-on-stack-11)))
682 (with-test (:name (:no-consing :dx-raw-instances) :skipped-on '(or (not :raw-instance-init-vops)
683 (not (and :gencgc :c-stack-is-control-stack))))
684 (let (a b)
685 (setf a 1.24 b 1.23d0)
686 (assert-no-consing (make-foo2-on-stack a b)))
687 (assert-no-consing (make-foo3-on-stack)))
689 ;;; not really DX, but GETHASH and (SETF GETHASH) should not cons
691 (defvar *table* (make-hash-table))
693 (defun test-hash-table ()
694 (setf (gethash 5 *table*) 13)
695 (gethash 5 *table*))
697 (with-test (:name (:no-consing :hash-tables))
698 (assert-no-consing (test-hash-table)))
700 ;;; Both with-pinned-objects and without-gcing should not cons
702 (defun call-without-gcing (fun)
703 (sb-sys:without-gcing (funcall fun)))
705 (defun call-with-pinned-object (fun obj)
706 (sb-sys:with-pinned-objects (obj)
707 (funcall fun obj)))
709 (with-test (:name (:no-consing :without-gcing))
710 (assert-no-consing (call-without-gcing (lambda ()))))
712 (with-test (:name (:no-consing :with-pinned-objects))
713 (assert-no-consing (call-with-pinned-object #'identity 42)))
715 ;;; with-mutex should use DX and not cons
717 (defvar *mutex* (sb-thread::make-mutex :name "mutexlock"))
719 (defun test-mutex ()
720 (sb-thread:with-mutex (*mutex*)
721 (true *mutex*)))
723 (with-test (:name (:no-consing :mutex) :skipped-on '(not :sb-thread))
724 (assert-no-consing (test-mutex)))
727 ;;; Bugs found by Paul F. Dietz
729 (with-test (:name (:dx-bug-misc :pfdietz))
730 (assert
732 (funcall
733 (compile
735 '(lambda (a b)
736 (declare (optimize (speed 2) (space 0) (safety 0)
737 (debug 1) (compilation-speed 3)))
738 (let* ((v5 (cons b b)))
739 (declare (dynamic-extent v5))
741 a)))
742 'x 'y)
743 'x)))
745 ;;; bug reported by Svein Ove Aas
746 (defun svein-2005-ii-07 (x y)
747 (declare (optimize (speed 3) (space 2) (safety 0) (debug 0)))
748 (let ((args (list* y 1 2 x)))
749 (declare (dynamic-extent args))
750 (apply #'aref args)))
752 (with-test (:name (:dx-bugs-misc :svein-2005-ii-07))
753 (assert (eql
754 (svein-2005-ii-07
755 '(0)
756 #3A(((1 1 1) (1 1 1) (1 1 1))
757 ((1 1 1) (1 1 1) (4 1 1))
758 ((1 1 1) (1 1 1) (1 1 1))))
759 4)))
761 ;;; bug reported by Brian Downing: stack-allocated arrays were not
762 ;;; filled with zeroes.
763 (defun-with-dx bdowning-2005-iv-16 ()
764 (let ((a (make-array 11 :initial-element 0)))
765 (declare (dynamic-extent a))
766 (assert (every (lambda (x) (eql x 0)) a))))
768 (with-test (:name (:dx-bug-misc :bdowning-2005-iv-16))
769 #+(or hppa mips x86 x86-64)
770 (assert-no-consing (bdowning-2005-iv-16))
771 (bdowning-2005-iv-16))
773 (declaim (inline my-nconc))
774 (defun my-nconc (&rest lists)
775 (declare (dynamic-extent lists))
776 (apply #'nconc lists))
777 (defun-with-dx my-nconc-caller (a b c)
778 (let ((l1 (list a b c))
779 (l2 (list a b c)))
780 (my-nconc l1 l2)))
781 (with-test (:name :rest-stops-the-buck)
782 (let ((list1 (my-nconc-caller 1 2 3))
783 (list2 (my-nconc-caller 9 8 7)))
784 (assert (equal list1 '(1 2 3 1 2 3)))
785 (assert (equal list2 '(9 8 7 9 8 7)))))
787 (defun-with-dx let-converted-vars-dx-allocated-bug (x y z)
788 (let* ((a (list x y z))
789 (b (list x y z))
790 (c (list a b)))
791 (declare (dynamic-extent c))
792 (values (first c) (second c))))
793 (with-test (:name :let-converted-vars-dx-allocated-bug)
794 (multiple-value-bind (i j) (let-converted-vars-dx-allocated-bug 1 2 3)
795 (assert (and (equal i j)
796 (equal i (list 1 2 3))))))
798 ;;; workaround for bug 419 -- real issue remains, but check that the
799 ;;; bandaid holds.
800 (defun-with-dx bug419 (x)
801 (multiple-value-call #'list
802 (eval '(values 1 2 3))
803 (let ((x x))
804 (declare (dynamic-extent x))
805 (flet ((mget (y)
806 (+ x y))
807 (mset (z)
808 (incf x z)))
809 (declare (dynamic-extent #'mget #'mset))
810 ((lambda (f g) (eval `(progn ,f ,g (values 4 5 6)))) #'mget #'mset)))))
812 (with-test (:name (:dx-bug-misc :bug419))
813 (assert (equal (bug419 42) '(1 2 3 4 5 6))))
815 ;;; Multiple DX arguments in a local function call
816 (defun test-dx-flet-test (fun n f1 f2 f3)
817 (let ((res (with-output-to-string (s)
818 (assert (eql n (ignore-errors (funcall fun s)))))))
819 (multiple-value-bind (x pos) (read-from-string res nil)
820 (assert (equalp f1 x))
821 (multiple-value-bind (y pos2) (read-from-string res nil nil :start pos)
822 (assert (equalp f2 y))
823 (assert (equalp f3 (read-from-string res nil nil :start pos2))))))
824 #+(or hppa mips x86 x86-64)
825 (assert-no-consing (assert (eql n (funcall fun nil))))
826 (assert (eql n (funcall fun nil))))
828 (macrolet ((def (n f1 f2 f3)
829 (let ((name (sb-pcl::format-symbol :cl-user "DX-FLET-TEST.~A" n)))
830 `(progn
831 (defun-with-dx ,name (s)
832 (flet ((f (x)
833 (declare (dynamic-extent x))
834 (when s
835 (print x s)
836 (finish-output s))
837 nil))
838 (f ,f1)
839 (f ,f2)
840 (f ,f3)
841 ,n))
842 (with-test (:name (:dx-flet-test ,n))
843 (test-dx-flet-test #',name ,n ,f1 ,f2 ,f3))))))
844 (def 0 (list :one) (list :two) (list :three))
845 (def 1 (make-array 128) (list 1 2 3 4 5 6 7 8) (list 'list))
846 (def 2 (list 1) (list 2 3) (list 4 5 6 7)))
848 ;;; Test that unknown-values coming after a DX value won't mess up the
849 ;;; stack analysis
850 (defun test-update-uvl-live-sets (x y z)
851 (declare (optimize speed (safety 0)))
852 (flet ((bar (a b)
853 (declare (dynamic-extent a))
854 (eval `(list (length ',a) ',b))))
855 (list (bar x y)
856 (bar (list x y z) ; dx push
857 (list
858 (multiple-value-call 'list
859 (eval '(values 1 2 3)) ; uv push
860 (max y z)
861 ) ; uv pop
863 ))))
865 (with-test (:name (:update-uvl-live-sets))
866 (assert (equal '((0 4) (3 ((1 2 3 5) 14)))
867 (test-update-uvl-live-sets #() 4 5))))
869 (with-test (:name :regression-1.0.23.38)
870 (compile nil '(lambda ()
871 (declare (muffle-conditions compiler-note))
872 (flet ((make (x y)
873 (let ((res (cons x x)))
874 (setf (cdr res) y)
875 res)))
876 (declare (inline make))
877 (let ((z (make 1 2)))
878 (declare (dynamic-extent z))
879 (print z)
880 t))))
881 (compile nil '(lambda ()
882 (declare (muffle-conditions compiler-note))
883 (flet ((make (x y)
884 (let ((res (cons x x)))
885 (setf (cdr res) y)
886 (if x res y))))
887 (declare (inline make))
888 (let ((z (make 1 2)))
889 (declare (dynamic-extent z))
890 (print z)
891 t)))))
893 ;;; On x86 and x86-64 upto 1.0.28.16 LENGTH and WORDS argument
894 ;;; tns to ALLOCATE-VECTOR-ON-STACK could be packed in the same
895 ;;; location, leading to all manner of badness. ...reproducing this
896 ;;; reliably is hard, but this it at least used to break on x86-64.
897 (defun length-and-words-packed-in-same-tn (m)
898 (declare (optimize speed (safety 0) (debug 0) (space 0)))
899 (let ((array (make-array (max 1 m) :element-type 'fixnum)))
900 (declare (dynamic-extent array))
901 (array-total-size array)))
902 (with-test (:name :length-and-words-packed-in-same-tn)
903 (assert (= 1 (length-and-words-packed-in-same-tn -3))))
905 (with-test (:name :handler-case-bogus-compiler-note
906 :skipped-on '(not (and :stack-allocatable-fixed-objects
907 :stack-allocatable-closures)))
908 (handler-bind
909 ((compiler-note (lambda (note)
910 (error "compiler issued note ~S during test" note))))
911 ;; Taken from SWANK, used to signal a bogus stack allocation
912 ;; failure note.
913 (compile nil
914 `(lambda (files fasl-dir load)
915 (declare (muffle-conditions style-warning))
916 (let ((needs-recompile nil))
917 (dolist (src files)
918 (let ((dest (binary-pathname src fasl-dir)))
919 (handler-case
920 (progn
921 (when (or needs-recompile
922 (not (probe-file dest))
923 (file-newer-p src dest))
924 (setq needs-recompile t)
925 (ensure-directories-exist dest)
926 (compile-file src :output-file dest :print nil :verbose t))
927 (when load
928 (load dest :verbose t)))
929 (serious-condition (c)
930 (handle-loadtime-error c dest))))))))))
932 (declaim (inline foovector barvector))
933 (defun foovector (x y z)
934 (let ((v (make-array 3)))
935 (setf (aref v 0) x
936 (aref v 1) y
937 (aref v 2) z)
939 (defun barvector (x y z)
940 (make-array 3 :initial-contents (list x y z)))
941 (with-test (:name :dx-compiler-notes
942 :skipped-on '(not (and :stack-allocatable-vectors
943 :stack-allocatable-closures)))
944 (flet ((assert-notes (j lambda)
945 (let ((n 0))
946 (handler-bind ((compiler-note (lambda (c)
947 (declare (ignore c))
948 (incf n))))
949 (let ((*error-output* (make-broadcast-stream)))
950 (compile nil lambda))
951 (unless (= j n)
952 (error "Wanted ~S notes, got ~S for~% ~S"
953 j n lambda))))))
954 ;; These ones should complain.
955 (assert-notes 1 `(lambda (x)
956 (let ((v (make-array x)))
957 (declare (dynamic-extent v))
958 (length v))))
959 (assert-notes 2 `(lambda (x)
960 (let ((y (if (plusp x)
961 (true x)
962 (true (- x)))))
963 (declare (dynamic-extent y))
964 (print y)
965 nil)))
966 (assert-notes 1 `(lambda (x)
967 (let ((y (foovector x x x)))
968 (declare (sb-int:truly-dynamic-extent y))
969 (print y)
970 nil)))
971 ;; These ones should not complain.
972 (assert-notes 0 `(lambda (name)
973 (with-alien
974 ((posix-getenv (function c-string c-string)
975 :EXTERN "getenv"))
976 (values
977 (alien-funcall posix-getenv name)))))
978 (assert-notes 0 `(lambda (x)
979 (let ((y (barvector x x x)))
980 (declare (dynamic-extent y))
981 (print y)
982 nil)))
983 (assert-notes 0 `(lambda (list)
984 (declare (optimize (space 0)))
985 (sort list (lambda (x y) ; shut unrelated notes up
986 (< (truly-the fixnum x)
987 (truly-the fixnum y))))))
988 (assert-notes 0 `(lambda (other)
989 #'(lambda (s c n)
990 (ignore-errors (funcall other s c n)))))))
992 ;;; Stack allocating a value cell in HANDLER-CASE would blow up stack
993 ;;; in an unfortunate loop.
994 (defun handler-case-eating-stack ()
995 (declare (muffle-conditions warning)) ; "dead code detected ... IR1-PHASES"
996 (let ((sp nil))
997 (do ((n 0 (logand most-positive-fixnum (1+ n))))
998 ((>= n 1024))
999 (multiple-value-bind (value error) (ignore-errors)
1000 (when (and value error) nil))
1001 (if sp
1002 (assert (= sp (sb-c::%primitive sb-c:current-stack-pointer)))
1003 (setf sp (sb-c::%primitive sb-c:current-stack-pointer))))))
1004 (with-test (:name :handler-case-eating-stack
1005 :skipped-on '(not (and :stack-allocatable-fixed-objects
1006 :stack-allocatable-closures)))
1007 (assert-no-consing (handler-case-eating-stack)))
1009 ;;; A nasty bug where RECHECK-DYNAMIC-EXTENT-LVARS thought something was going
1010 ;;; to be stack allocated when it was not, leading to a bogus %NIP-VALUES.
1011 ;;; Fixed by making RECHECK-DYNAMIC-EXTENT-LVARS deal properly with nested DX.
1012 (deftype vec ()
1013 `(simple-array t (3)))
1014 (declaim (ftype (function (t t t) vec) vec))
1015 (declaim (inline vec))
1016 (defun vec (a b c)
1017 (make-array 3 :initial-contents (list a b c)))
1018 (defun bad-boy (vec)
1019 (declare (type vec vec))
1020 (lambda (fun)
1021 (let ((vec (vec (aref vec 0) (aref vec 1) (aref vec 2))))
1022 (declare (dynamic-extent vec))
1023 (funcall fun vec))))
1024 (with-test (:name :recheck-nested-dx-bug
1025 :skipped-on '(not :stack-allocatable-vectors))
1026 (assert (funcall (bad-boy (vec 1.0 2.0 3.3))
1027 (lambda (vec) (equalp vec (vec 1.0 2.0 3.3)))))
1028 (flet ((foo (x) (declare (ignore x))))
1029 (let ((bad-boy (bad-boy (vec 2.0 3.0 4.0))))
1030 (assert-no-consing (funcall bad-boy #'foo)))))
1032 (with-test (:name :bug-497321)
1033 (flet ((test (lambda type)
1034 (let ((n 0))
1035 (handler-bind ((condition (lambda (c)
1036 (incf n)
1037 (unless (typep c type)
1038 (error "wanted ~S for~% ~S~%got ~S"
1039 type lambda (type-of c))))))
1040 (let ((*error-output* (make-broadcast-stream)))
1041 (compile nil lambda)))
1042 (assert (= n 1)))))
1043 (test `(lambda () (declare (dynamic-extent #'bar)))
1044 'style-warning)
1045 (test `(lambda () (declare (dynamic-extent bar)))
1046 'style-warning)
1047 (test `(lambda (bar) (cons bar (lambda () (declare (dynamic-extent bar)))))
1048 'sb-ext:compiler-note)
1049 (test `(lambda ()
1050 (flet ((bar () t))
1051 (cons #'bar (lambda () (declare (dynamic-extent #'bar))))))
1052 'sb-ext:compiler-note)))
1054 (with-test (:name :bug-586105
1055 :skipped-on '(not (and :stack-allocatable-vectors
1056 :stack-allocatable-lists)))
1057 (flet ((test (x)
1058 (let ((vec1 (make-array 1 :initial-contents (list (list x))))
1059 (vec2 (make-array 1 :initial-contents `((,x))))
1060 (vec3 (make-array 1 :initial-contents `#((,x))))
1061 (vec4 (make-array 1 :initial-contents `(#(,x)))))
1062 (declare (dynamic-extent vec1 vec2 vec3 vec4))
1063 (assert (eql x (car (aref vec1 0))))
1064 (assert (eql x (car (aref vec2 0))))
1065 (assert (eql x (car (aref vec3 0))))
1066 (assert (eql x (elt (aref vec4 0) 0))))))
1067 (assert-no-consing (test 42))))
1069 (defun bug-681092 ()
1070 (declare (optimize speed))
1071 (let ((c 0))
1072 (flet ((bar () c))
1073 (declare (dynamic-extent #'bar))
1074 (do () ((list) (bar))
1075 (setf c 10)
1076 (return (bar))))))
1077 (with-test (:name :bug-681092)
1078 (assert (= 10 (bug-681092))))
1080 ;;;; Including a loop in the flow graph between a DX-allocation and
1081 ;;;; the start of its environment would, for a while, cause executing
1082 ;;;; any of the code in the loop to discard the value. Found via
1083 ;;;; attempting to DX-allocate an array, which triggered the FILL
1084 ;;;; transform, which inserted such a loop.
1085 (defun bug-1472785 (x)
1086 (let ((y (let ((z (cons nil nil)))
1087 (let ((i 0))
1088 (tagbody
1090 (when (= x i) (go b2))
1091 (incf i)
1092 (go b1)
1093 b2))
1095 (w (cons t t)))
1096 (declare (dynamic-extent y w))
1097 (eq y w)))
1098 (with-test (:name :bug-1472785)
1099 (assert (null (bug-1472785 1))))
1101 ;;;; &REST lists should stop DX propagation -- not required by ANSI,
1102 ;;;; but required by sanity.
1104 (declaim (inline rest-stops-dx))
1105 (defun-with-dx rest-stops-dx (&rest args)
1106 (declare (dynamic-extent args))
1107 (apply #'opaque-identity args))
1109 (defun-with-dx rest-stops-dx-ok ()
1110 (equal '(:foo) (rest-stops-dx (list :foo))))
1112 (with-test (:name :rest-stops-dynamic-extent)
1113 (assert (rest-stops-dx-ok)))
1115 ;;;; These tests aren't strictly speaking DX, but rather &REST -> &MORE
1116 ;;;; conversion.
1117 (with-test (:name :rest-to-more-conversion)
1118 (let ((f1 (compile nil `(lambda (f &rest args)
1119 (apply f args)))))
1120 (assert-no-consing (assert (eql f1 (funcall f1 #'identity f1)))))
1121 (let ((f2 (compile nil `(lambda (f1 f2 &rest args)
1122 (values (apply f1 args) (apply f2 args))))))
1123 (assert-no-consing (multiple-value-bind (a b)
1124 (funcall f2 (lambda (x y z) (+ x y z)) (lambda (x y z) (- x y z))
1125 1 2 3)
1126 (assert (and (eql 6 a) (eql -4 b))))))
1127 (let ((f3 (compile nil `(lambda (f &optional x &rest args)
1128 (when x
1129 (apply f x args))))))
1130 (assert-no-consing (assert (eql 42 (funcall f3
1131 (lambda (a b c) (+ a b c))
1134 21)))))
1135 (let ((f4
1136 (let ((*error-output* (make-broadcast-stream)))
1137 (compile nil `(lambda (f &optional x &rest args
1138 &key y &allow-other-keys)
1139 (apply f y x args))))))
1140 (assert-no-consing (funcall f4 (lambda (y x yk y2 b c)
1141 (assert (eq y 'y))
1142 (assert (= x 2))
1143 (assert (eq :y yk))
1144 (assert (eq y2 'y))
1145 (assert (eq b 'b))
1146 (assert (eq c 'c)))
1147 2 :y 'y 'b 'c)))
1148 (let ((f5 (compile nil `(lambda (a b c &rest args)
1149 (apply #'list* a b c args)))))
1150 (assert (equal '(1 2 3 4 5 6 7) (funcall f5 1 2 3 4 5 6 '(7)))))
1151 (let ((f6 (compile nil `(lambda (x y)
1152 (declare (optimize speed))
1153 (concatenate 'string x y)))))
1154 (assert (equal "foobar" (funcall f6 "foo" "bar"))))
1155 (let ((f7 (compile nil `(lambda (&rest args)
1156 (lambda (f)
1157 (apply f args))))))
1158 (assert (equal '(a b c d e f) (funcall (funcall f7 'a 'b 'c 'd 'e 'f) 'list))))
1159 (let ((f8 (compile nil `(lambda (&rest args)
1160 (flet ((foo (f)
1161 (apply f args)))
1162 #'foo)))))
1163 (assert (equal '(a b c d e f) (funcall (funcall f8 'a 'b 'c 'd 'e 'f) 'list))))
1164 (let ((f9 (compile nil `(lambda (f &rest args)
1165 (flet ((foo (g)
1166 (apply g args)))
1167 (declare (dynamic-extent #'foo))
1168 (funcall f #'foo))))))
1169 (assert (equal '(a b c d e f)
1170 (funcall f9 (lambda (f) (funcall f 'list)) 'a 'b 'c 'd 'e 'f))))
1171 (let ((f10 (compile nil `(lambda (f &rest args)
1172 (flet ((foo (g)
1173 (apply g args)))
1174 (funcall f #'foo))))))
1175 (assert (equal '(a b c d e f)
1176 (funcall f10 (lambda (f) (funcall f 'list)) 'a 'b 'c 'd 'e 'f))))
1177 (let ((f11 (compile nil `(lambda (x y z)
1178 (block out
1179 (labels ((foo (x &rest rest)
1180 (apply (lambda (&rest rest2)
1181 (return-from out (values-list rest2)))
1182 x rest)))
1183 (if x
1184 (foo x y z)
1185 (foo y z x))))))))
1186 (multiple-value-bind (a b c) (funcall f11 1 2 3)
1187 (assert (eql a 1))
1188 (assert (eql b 2))
1189 (assert (eql c 3)))))
1191 (defun opaque-funcall (function &rest arguments)
1192 (apply function arguments))
1194 (with-test (:name :implicit-value-cells)
1195 (flet ((test-it (type input output)
1196 (let ((f (compile nil `(lambda (x)
1197 (declare (type ,type x))
1198 (flet ((inc ()
1199 (incf x)))
1200 (declare (dynamic-extent #'inc))
1201 (list (opaque-funcall #'inc) x))))))
1202 (assert (equal (funcall f input)
1203 (list output output))))))
1204 (let ((width sb-vm:n-word-bits))
1205 (test-it t (1- most-positive-fixnum) most-positive-fixnum)
1206 (test-it `(unsigned-byte ,(1- width)) (ash 1 (- width 2)) (1+ (ash 1 (- width 2))))
1207 (test-it `(signed-byte ,width) (ash -1 (- width 2)) (1+ (ash -1 (- width 2))))
1208 (test-it `(unsigned-byte ,width) (ash 1 (1- width)) (1+ (ash 1 (1- width))))
1209 (test-it 'single-float 3f0 4f0)
1210 (test-it 'double-float 3d0 4d0)
1211 (test-it '(complex single-float) #c(3f0 4f0) #c(4f0 4f0))
1212 (test-it '(complex double-float) #c(3d0 4d0) #c(4d0 4d0)))))
1214 (with-test (:name :sap-implicit-value-cells)
1215 (let ((f (compile nil `(lambda (x)
1216 (declare (type system-area-pointer x))
1217 (flet ((inc ()
1218 (setf x (sb-sys:sap+ x 16))))
1219 (declare (dynamic-extent #'inc))
1220 (list (opaque-funcall #'inc) x)))))
1221 (width sb-vm:n-machine-word-bits))
1222 (assert (every (lambda (x)
1223 (sb-sys:sap= x (sb-sys:int-sap (+ 16 (ash 1 (1- width))))))
1224 (funcall f (sb-sys:int-sap (ash 1 (1- width))))))))
1226 (with-test (:name :&more-bounds)
1227 ;; lp#1154946
1228 (assert (not (funcall (compile nil '(lambda (&rest args) (car args))))))
1229 (assert (not (funcall (compile nil '(lambda (&rest args) (nth 6 args))))))
1230 (assert (not (funcall (compile nil '(lambda (&rest args) (elt args 10))))))
1231 (assert (not (funcall (compile nil '(lambda (&rest args) (cadr args))))))
1232 (assert (not (funcall (compile nil '(lambda (&rest args) (third args)))))))