1.0.9.52: copy propagation interfering with local calls
[sbcl/lichteblau.git] / tests / compiler.pure.lisp
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1 ;;;; various compiler tests without side effects
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 (cl:in-package :cl-user)
16 ;; The tests in this file assume that EVAL will use the compiler
17 (when (eq sb-ext:*evaluator-mode* :interpret)
18 (invoke-restart 'run-tests::skip-file))
20 ;;; Exercise a compiler bug (by crashing the compiler).
21 ;;;
22 ;;; This test code is from Douglas Crosher's simplified TICKLE-BUG
23 ;;; (2000-09-06 on cmucl-imp).
24 ;;;
25 ;;; The bug was fixed by Douglas Crosher's patch, massaged for SBCL by
26 ;;; Martin Atzmueller (2000-09-13 on sbcl-devel).
27 (funcall (compile nil
28 '(lambda ()
29 (labels ((fun1 ()
30 (fun2))
31 (fun2 ()
32 (when nil
33 (tagbody
34 tag
35 (fun2)
36 (go tag)))
37 (when nil
38 (tagbody
39 tag
40 (fun1)
41 (go tag)))))
43 (fun1)
44 nil))))
46 ;;; Exercise a compiler bug (by crashing the compiler).
47 ;;;
48 ;;; Tim Moore gave a patch for this bug in CMU CL 2000-05-24 on
49 ;;; cmucl-imp, and Martin Atzmueller applied it to SBCL.
50 (funcall (compile nil
51 '(lambda (x)
52 (or (integerp x)
53 (block used-by-some-y?
54 (flet ((frob (stk)
55 (dolist (y stk)
56 (unless (rejected? y)
57 (return-from used-by-some-y? t)))))
58 (declare (inline frob))
59 (frob (rstk x))
60 (frob (mrstk x)))
61 nil))))
62 13)
64 ;;; bug 112, reported by Martin Atzmueller 2001-06-25 (originally
65 ;;; from Bruno Haible in CMU CL bugs collection), fixed by
66 ;;; Alexey Dejneka 2002-01-27
67 (assert (= 1 ; (used to give 0 under bug 112)
68 (let ((x 0))
69 (declare (special x))
70 (let ((x 1))
71 (let ((y x))
72 (declare (special x)) y)))))
73 (assert (= 1 ; (used to give 1 even under bug 112, still works after fix)
74 (let ((x 0))
75 (declare (special x))
76 (let ((x 1))
77 (let ((y x) (x 5))
78 (declare (special x)) y)))))
80 ;;; another LET-related bug fixed by Alexey Dejneka at the same
81 ;;; time as bug 112
82 (multiple-value-bind (fun warnings-p failure-p)
83 ;; should complain about duplicate variable names in LET binding
84 (compile nil
85 '(lambda ()
86 (let (x
87 (x 1))
88 (list x))))
89 (declare (ignore warnings-p))
90 (assert (functionp fun))
91 (assert failure-p))
93 ;;; bug 169 (reported by Alexey Dejneka 2002-05-12, fixed by David
94 ;;; Lichteblau 2002-05-21)
95 (progn
96 (multiple-value-bind (fun warnings-p failure-p)
97 (compile nil
98 ;; Compiling this code should cause a STYLE-WARNING
99 ;; about *X* looking like a special variable but not
100 ;; being one.
101 '(lambda (n)
102 (let ((*x* n))
103 (funcall (symbol-function 'x-getter))
104 (print *x*))))
105 (assert (functionp fun))
106 (assert warnings-p)
107 (assert (not failure-p)))
108 (multiple-value-bind (fun warnings-p failure-p)
109 (compile nil
110 ;; Compiling this code should not cause a warning
111 ;; (because the DECLARE turns *X* into a special
112 ;; variable as its name suggests it should be).
113 '(lambda (n)
114 (let ((*x* n))
115 (declare (special *x*))
116 (funcall (symbol-function 'x-getter))
117 (print *x*))))
118 (assert (functionp fun))
119 (assert (not warnings-p))
120 (assert (not failure-p))))
122 ;;; a bug in 0.7.4.11
123 (dolist (i '(a b 1 2 "x" "y"))
124 ;; In sbcl-0.7.4.11, the compiler tried to source-transform the
125 ;; TYPEP here but got confused and died, doing
126 ;; (ASSOC '(AND INTEGERP (SATISFIES PLUSP)))
127 ;; *BACKEND-TYPE-PREDICATES*
128 ;; :TEST #'TYPE=)
129 ;; and blowing up because TYPE= tried to call PLUSP on the
130 ;; characters of the MEMBER-TYPE representing STANDARD-CHAR.
131 (when (typep i '(and integer (satisfies oddp)))
132 (print i)))
133 (dotimes (i 14)
134 (when (typep i '(and integer (satisfies oddp)))
135 (print i)))
137 ;;; bug 156 (reported by APD sbcl-devel 2002-04-12, fixed by CSR patch
138 ;;; sbcl-devel 2002-07-02): FUNCTION-LAMBDA-EXPRESSION of
139 ;;; interactively-compiled functions was broken by sleaziness and
140 ;;; confusion in the assault on 0.7.0, so this expression used to
141 ;;; signal TYPE-ERROR when it found NIL instead of a DEBUG-SOURCE.
142 (eval '(function-lambda-expression #'(lambda (x) x)))
144 ;;; bug caught and fixed by Raymond Toy cmucl-imp 2002-07-10: &REST
145 ;;; variable is not optional.
146 (assert (null (ignore-errors (eval '(funcall (lambda (&rest) 12))))))
148 ;;; on the PPC, we got the magic numbers in undefined_tramp wrong for
149 ;;; a while; fixed by CSR 2002-07-18
150 (multiple-value-bind (value error)
151 (ignore-errors (some-undefined-function))
152 (assert (null value))
153 (assert (eq (cell-error-name error) 'some-undefined-function)))
155 ;;; Non-symbols shouldn't be allowed as VARs in lambda lists. (Where VAR
156 ;;; is a variable name, as in section 3.4.1 of the ANSI spec.)
157 (assert (null (ignore-errors (eval '(lambda ("foo") 12)))))
158 (assert (ignore-errors (eval '(lambda (foo) 12))))
159 (assert (null (ignore-errors (eval '(lambda (&optional 12) "foo")))))
160 (assert (ignore-errors (eval '(lambda (&optional twelve) "foo"))))
161 (assert (null (ignore-errors (eval '(lambda (&optional (12 12)) "foo")))))
162 (assert (ignore-errors (eval '(lambda (&optional (twelve 12)) "foo"))))
163 (assert (null (ignore-errors (eval '(lambda (&key #\c) "foo")))))
164 (assert (ignore-errors (eval '(lambda (&key c) "foo"))))
165 (assert (null (ignore-errors (eval '(lambda (&key (#\c #\c)) "foo")))))
166 (assert (ignore-errors (eval '(lambda (&key (c #\c)) "foo"))))
167 (assert (null (ignore-errors (eval '(lambda (&key ((#\c #\c) #\c)) "foo")))))
168 (assert (ignore-errors (eval '(lambda (&key ((:c cbyanyothername) #\c)) "foo"))))
170 ;;; As reported and fixed by Antonio Martinez-Shotton sbcl-devel
171 ;;; 2002-09-12, this failed in sbcl-0.7.7.23. (with failed AVER
172 ;;; "(LEAF-HAS-SOURCE-NAME-P LEAF)")
173 (assert (= (funcall (eval `(lambda (x) (funcall ,(lambda (y) (+ y 3)) x))) 14)
174 17))
176 ;;; bug 181: bad type specifier dropped compiler into debugger
177 (assert (list (compile nil '(lambda (x)
178 (declare (type (0) x))
179 x))))
181 (let ((f (compile nil '(lambda (x)
182 (make-array 1 :element-type '(0))))))
183 (assert (null (ignore-errors (funcall f)))))
185 ;;; the following functions must not be flushable
186 (dolist (form '((make-sequence 'fixnum 10)
187 (concatenate 'fixnum nil)
188 (map 'fixnum #'identity nil)
189 (merge 'fixnum nil nil #'<)))
190 (assert (not (eval `(locally (declare (optimize (safety 0)))
191 (ignore-errors (progn ,form t)))))))
193 (dolist (form '((values-list (car (list '(1 . 2))))
194 (fboundp '(set bet))
195 (atan #c(1 1) (car (list #c(2 2))))
196 (nthcdr (car (list (floor (cos 3)))) '(1 2 3 4 5))
197 (nthcdr (car (list 5)) '(1 2 . 3))))
198 (assert (not (eval `(locally (declare (optimize (safety 3)))
199 (ignore-errors (progn ,form t)))))))
201 ;;; feature: we shall complain if functions which are only useful for
202 ;;; their result are called and their result ignored.
203 (loop for (form expected-des) in
204 '(((progn (nreverse (list 1 2)) t)
205 "The return value of NREVERSE should not be discarded.")
206 ((progn (nreconc (list 1 2) (list 3 4)) t)
207 "The return value of NRECONC should not be discarded.")
208 ((locally
209 (declare (inline sort))
210 (sort (list 1 2) #'<) t)
211 ;; FIXME: it would be nice if this warned on non-inlined sort
212 ;; but the current simple boolean function attribute
213 ;; can't express the condition that would be required.
214 "The return value of STABLE-SORT-LIST should not be discarded.")
215 ((progn (sort (vector 1 2) #'<) t)
216 ;; Apparently, SBCL (but not CL) guarantees in-place vector
217 ;; sort, so no warning.
218 nil)
219 ((progn (delete 2 (list 1 2)) t)
220 "The return value of DELETE should not be discarded.")
221 ((progn (delete-if #'evenp (list 1 2)) t)
222 ("The return value of DELETE-IF should not be discarded."))
223 ((progn (delete-if #'evenp (vector 1 2)) t)
224 ("The return value of DELETE-IF should not be discarded."))
225 ((progn (delete-if-not #'evenp (list 1 2)) t)
226 "The return value of DELETE-IF-NOT should not be discarded.")
227 ((progn (delete-duplicates (list 1 2)) t)
228 "The return value of DELETE-DUPLICATES should not be discarded.")
229 ((progn (merge 'list (list 1 3) (list 2 4) #'<) t)
230 "The return value of MERGE should not be discarded.")
231 ((progn (nreconc (list 1 3) (list 2 4)) t)
232 "The return value of NRECONC should not be discarded.")
233 ((progn (nunion (list 1 3) (list 2 4)) t)
234 "The return value of NUNION should not be discarded.")
235 ((progn (nintersection (list 1 3) (list 2 4)) t)
236 "The return value of NINTERSECTION should not be discarded.")
237 ((progn (nset-difference (list 1 3) (list 2 4)) t)
238 "The return value of NSET-DIFFERENCE should not be discarded.")
239 ((progn (nset-exclusive-or (list 1 3) (list 2 4)) t)
240 "The return value of NSET-EXCLUSIVE-OR should not be discarded."))
241 for expected = (if (listp expected-des)
242 expected-des
243 (list expected-des))
245 (multiple-value-bind (fun warnings-p failure-p)
246 (handler-bind ((style-warning (lambda (c)
247 (if expected
248 (let ((expect-one (pop expected)))
249 (assert (search expect-one
250 (with-standard-io-syntax
251 (let ((*print-right-margin* nil))
252 (princ-to-string c))))
254 "~S should have warned ~S, but instead warned: ~A"
255 form expect-one c))
256 (error "~S shouldn't give a(nother) warning, but did: ~A" form c)))))
257 (compile nil `(lambda () ,form)))
258 (declare (ignore warnings-p))
259 (assert (functionp fun))
260 (assert (null expected)
262 "~S should have warned ~S, but didn't."
263 form expected)
264 (assert (not failure-p))))
266 ;;; a bug in the MAP deftransform caused non-VECTOR array specifiers
267 ;;; to cause errors in the compiler. Fixed by CSR in 0.7.8.10
268 (assert (list (compile nil '(lambda (x) (map 'simple-array 'identity x)))))
270 ;;; bug 129: insufficient syntax checking in MACROLET
271 (multiple-value-bind (result error)
272 (ignore-errors (eval '(macrolet ((foo x `',x)) (foo 1 2 3))))
273 (assert (null result))
274 (assert (typep error 'error)))
276 ;;; bug 124: environment of MACROLET-introduced macro expanders
277 (assert (equal
278 (macrolet ((mext (x) `(cons :mext ,x)))
279 (macrolet ((mint (y) `'(:mint ,(mext y))))
280 (list (mext '(1 2))
281 (mint (1 2)))))
282 '((:MEXT 1 2) (:MINT (:MEXT 1 2)))))
284 ;;; bug 48c: SYMBOL-MACROLET should signal PROGRAM-ERROR if introduced
285 ;;; symbol is declared to be SPECIAL
286 (multiple-value-bind (result error)
287 (ignore-errors (funcall (lambda ()
288 (symbol-macrolet ((s '(1 2)))
289 (declare (special s))
290 s))))
291 (assert (null result))
292 (assert (typep error 'program-error)))
294 ;;; ECASE should treat a bare T as a literal key
295 (multiple-value-bind (result error)
296 (ignore-errors (ecase 1 (t 0)))
297 (assert (null result))
298 (assert (typep error 'type-error)))
300 (multiple-value-bind (result error)
301 (ignore-errors (ecase 1 (t 0) (1 2)))
302 (assert (eql result 2))
303 (assert (null error)))
305 ;;; FTYPE should accept any functional type specifier
306 (compile nil '(lambda (x) (declare (ftype function f)) (f x)))
308 ;;; FUNCALL of special operators and macros should signal an
309 ;;; UNDEFINED-FUNCTION error
310 (multiple-value-bind (result error)
311 (ignore-errors (funcall 'quote 1))
312 (assert (null result))
313 (assert (typep error 'undefined-function))
314 (assert (eq (cell-error-name error) 'quote)))
315 (multiple-value-bind (result error)
316 (ignore-errors (funcall 'and 1))
317 (assert (null result))
318 (assert (typep error 'undefined-function))
319 (assert (eq (cell-error-name error) 'and)))
321 ;;; PSETQ should behave when given complex symbol-macro arguments
322 (multiple-value-bind (sequence index)
323 (symbol-macrolet ((x (aref a (incf i)))
324 (y (aref a (incf i))))
325 (let ((a (copy-seq #(0 1 2 3 4 5 6 7 8 9)))
326 (i 0))
327 (psetq x (aref a (incf i))
328 y (aref a (incf i)))
329 (values a i)))
330 (assert (equalp sequence #(0 2 2 4 4 5 6 7 8 9)))
331 (assert (= index 4)))
333 (multiple-value-bind (result error)
334 (ignore-errors
335 (let ((x (list 1 2)))
336 (psetq (car x) 3)
338 (assert (null result))
339 (assert (typep error 'program-error)))
341 ;;; COPY-SEQ should work on known-complex vectors:
342 (assert (equalp #(1)
343 (let ((v (make-array 0 :fill-pointer 0)))
344 (vector-push-extend 1 v)
345 (copy-seq v))))
347 ;;; to support INLINE functions inside MACROLET, it is necessary for
348 ;;; FUNCTION-LAMBDA-EXPRESSION to return a proper lambda expression in
349 ;;; certain circumstances, one of which is when compile is called from
350 ;;; top-level.
351 (assert (equal
352 (function-lambda-expression
353 (compile nil '(lambda (x) (block nil (print x)))))
354 '(lambda (x) (block nil (print x)))))
356 ;;; bug 62: too cautious type inference in a loop
357 (assert (nth-value
359 (compile nil
360 '(lambda (a)
361 (declare (optimize speed (safety 0)))
362 (typecase a
363 (array (loop (print (car a)))))))))
365 ;;; Bug reported by Robert E. Brown sbcl-devel 2003-02-02: compiler
366 ;;; failure
367 (compile nil
368 '(lambda (key tree collect-path-p)
369 (let ((lessp (key-lessp tree))
370 (equalp (key-equalp tree)))
371 (declare (type (function (t t) boolean) lessp equalp))
372 (let ((path '(nil)))
373 (loop for node = (root-node tree)
374 then (if (funcall lessp key (node-key node))
375 (left-child node)
376 (right-child node))
377 when (null node)
378 do (return (values nil nil nil))
379 do (when collect-path-p
380 (push node path))
381 (when (funcall equalp key (node-key node))
382 (return (values node path t))))))))
384 ;;; CONSTANTLY should return a side-effect-free function (bug caught
385 ;;; by Paul Dietz' test suite)
386 (let ((i 0))
387 (let ((fn (constantly (progn (incf i) 1))))
388 (assert (= i 1))
389 (assert (= (funcall fn) 1))
390 (assert (= i 1))
391 (assert (= (funcall fn) 1))
392 (assert (= i 1))))
394 ;;; Bug 240 reported by tonyms on #lisp IRC 2003-02-25 (modified version)
395 (loop for (fun warns-p) in
396 '(((lambda (&optional *x*) *x*) t)
397 ((lambda (&optional *x* &rest y) (values *x* y)) t)
398 ((lambda (&optional *print-length*) (values *print-length*)) nil)
399 ((lambda (&optional *print-length* &rest y) (values *print-length* y)) nil)
400 ((lambda (&optional *x*) (declare (special *x*)) (values *x*)) nil)
401 ((lambda (&optional *x* &rest y) (declare (special *x*)) (values *x* y)) nil))
402 for real-warns-p = (nth-value 1 (compile nil fun))
403 do (assert (eq warns-p real-warns-p)))
405 ;;; Bug reported by Gilbert Baumann on #lisp IRC 2003-03-26
406 (assert (equal (funcall (eval '(lambda (x &optional (y (pop x))) (list x y)))
407 '(1 2))
408 '((2) 1)))
410 ;;; Bug reported by Paul Dietz on cmucl-imp and fixed by Gerd
411 ;;; Moellmann: CONVERT-MORE-CALL failed on the following call
412 (assert (eq (eval '((lambda (&key) 'u) :allow-other-keys nil)) 'u))
414 (assert
415 (raises-error? (multiple-value-bind (a b c)
416 (eval '(truncate 3 4))
417 (declare (integer c))
418 (list a b c))
419 type-error))
421 (assert (equal (multiple-value-list (the (values &rest integer)
422 (eval '(values 3))))
423 '(3)))
425 ;;; Bug relating to confused representation for the wild function
426 ;;; type:
427 (assert (null (funcall (eval '(lambda () (multiple-value-list (values)))))))
429 ;;; &ENVIRONMENT parameter should be bound first (from Paul Dietz'
430 ;;; test suite)
431 (assert (eql (macrolet ((foo () 1))
432 (macrolet ((%f (&optional (x (macroexpand '(foo) env)) &environment env)
434 (%f)))
437 ;;; MACROLET should check for duplicated names
438 (dolist (ll '((x (z x))
439 (x y &optional z x w)
440 (x y &optional z z)
441 (x &rest x)
442 (x &rest (y x))
443 (x &optional (y nil x))
444 (x &optional (y nil y))
445 (x &key x)
446 (x &key (y nil x))
447 (&key (y nil z) (z nil w))
448 (&whole x &optional x)
449 (&environment x &whole x)))
450 (assert (nth-value 2
451 (handler-case
452 (compile nil
453 `(lambda ()
454 (macrolet ((foo ,ll nil)
455 (bar (&environment env)
456 `',(macro-function 'foo env)))
457 (bar))))
458 (error (c)
459 (values nil t t))))))
461 (assert (typep (eval `(the arithmetic-error
462 ',(make-condition 'arithmetic-error)))
463 'arithmetic-error))
465 (assert (not (nth-value
466 2 (compile nil '(lambda ()
467 (make-array nil :initial-element 11))))))
469 (assert (raises-error? (funcall (eval #'open) "assertoid.lisp"
470 :external-format '#:nonsense)))
471 (assert (raises-error? (funcall (eval #'load) "assertoid.lisp"
472 :external-format '#:nonsense)))
474 (assert (= (the (values integer symbol) (values 1 'foo 13)) 1))
476 (let ((f (compile nil
477 '(lambda (v)
478 (declare (optimize (safety 3)))
479 (list (the fixnum (the (real 0) (eval v))))))))
480 (assert (raises-error? (funcall f 0.1) type-error))
481 (assert (raises-error? (funcall f -1) type-error)))
483 ;;; the implicit block does not enclose lambda list
484 (let ((forms '((defmacro #1=#:foo (&optional (x (return-from #1#))))
485 #+nil(macrolet ((#2=#:foo (&optional (x (return-from #2#))))))
486 (define-compiler-macro #3=#:foo (&optional (x (return-from #3#))))
487 (deftype #4=#:foo (&optional (x (return-from #4#))))
488 (define-setf-expander #5=#:foo (&optional (x (return-from #5#))))
489 (defsetf #6=#:foo (&optional (x (return-from #6#))) ()))))
490 (dolist (form forms)
491 (assert (nth-value 2 (compile nil `(lambda () ,form))))))
493 (assert (nth-value 2 (compile nil
494 '(lambda ()
495 (svref (make-array '(8 9) :adjustable t) 1)))))
497 ;;; CHAR= did not check types of its arguments (reported by Adam Warner)
498 (raises-error? (funcall (compile nil '(lambda (x y z) (char= x y z)))
499 #\a #\b nil)
500 type-error)
501 (raises-error? (funcall (compile nil
502 '(lambda (x y z)
503 (declare (optimize (speed 3) (safety 3)))
504 (char/= x y z)))
505 nil #\a #\a)
506 type-error)
508 ;;; Compiler lost return type of MAPCAR and friends
509 (dolist (fun '(mapcar mapc maplist mapl))
510 (assert (nth-value 2 (compile nil
511 `(lambda (x)
512 (1+ (,fun #'print x)))))))
514 (assert (nth-value 2 (compile nil
515 '(lambda ()
516 (declare (notinline mapcar))
517 (1+ (mapcar #'print '(1 2 3)))))))
519 ;;; bug found by Paul Dietz: (SETF AREF) for bit vectors with constant
520 ;;; index was effectless
521 (let ((f (compile nil '(lambda (a v)
522 (declare (type simple-bit-vector a) (type bit v))
523 (declare (optimize (speed 3) (safety 0)))
524 (setf (aref a 0) v)
525 a))))
526 (let ((y (make-array 2 :element-type 'bit :initial-element 0)))
527 (assert (equal y #*00))
528 (funcall f y 1)
529 (assert (equal y #*10))))
531 (handler-bind ((sb-ext:compiler-note #'error))
532 (compile nil '(lambda (x)
533 (declare (type (simple-array (simple-string 3) (5)) x))
534 (aref (aref x 0) 0))))
536 ;;; compiler failure
537 (let ((f (compile nil '(lambda (x) (typep x '(not (member 0d0)))))))
538 (assert (funcall f 1d0)))
540 (compile nil '(lambda (x)
541 (declare (double-float x))
542 (let ((y (* x pi)))
543 (atan y y))))
545 ;;; bogus optimization of BIT-NOT
546 (multiple-value-bind (result x)
547 (eval '(let ((x (eval #*1001)))
548 (declare (optimize (speed 2) (space 3))
549 (type (bit-vector) x))
550 (values (bit-not x nil) x)))
551 (assert (equal x #*1001))
552 (assert (equal result #*0110)))
554 ;;; the VECTOR type in CONCATENATE/MERGE/MAKE-SEQUENCE means (VECTOR T).
555 (handler-bind ((sb-ext:compiler-note #'error))
556 (assert (equalp (funcall
557 (compile
559 '(lambda ()
560 (let ((x (make-sequence 'vector 10 :initial-element 'a)))
561 (setf (aref x 4) 'b)
562 x))))
563 #(a a a a b a a a a a))))
565 ;;; this is not a check for a bug, but rather a test of compiler
566 ;;; quality
567 (dolist (type '((integer 0 *) ; upper bound
568 (real (-1) *)
569 float ; class
570 (real * (-10)) ; lower bound
572 (assert (nth-value
573 1 (compile nil
574 `(lambda (n)
575 (declare (optimize (speed 3) (compilation-speed 0)))
576 (loop for i from 1 to (the (integer -17 10) n) by 2
577 collect (when (> (random 10) 5)
578 (the ,type (- i 11)))))))))
580 ;;; bug 278b
582 ;;; We suppose that INTEGER arithmetic cannot be efficient, and the
583 ;;; compiler has an optimized VOP for +; so this code should cause an
584 ;;; efficiency note.
585 (assert (eq (block nil
586 (handler-case
587 (compile nil '(lambda (i)
588 (declare (optimize speed))
589 (declare (type integer i))
590 (+ i 2)))
591 (sb-ext:compiler-note (c) (return :good))))
592 :good))
594 ;;; bug 277: IGNORE/IGNORABLE declarations should be acceptable for
595 ;;; symbol macros
596 (assert (not (nth-value 1 (compile nil '(lambda (u v)
597 (symbol-macrolet ((x u)
598 (y v))
599 (declare (ignore x)
600 (ignorable y))
601 (list u v)))))))
603 ;;; bug reported by Paul Dietz: wrong optimizer for (EXPT ... 0)
604 (loop for (x type) in
605 '((14 integer)
606 (14 rational)
607 (-14/3 (rational -8 11))
608 (3s0 short-float)
609 (4f0 single-float)
610 (5d0 double-float)
611 (6l0 long-float)
612 (14 real)
613 (13/2 real)
614 (2s0 real)
615 (2d0 real)
616 (#c(-3 4) (complex fixnum))
617 (#c(-3 4) (complex rational))
618 (#c(-3/7 4) (complex rational))
619 (#c(2s0 3s0) (complex short-float))
620 (#c(2f0 3f0) (complex single-float))
621 (#c(2d0 3d0) (complex double-float))
622 (#c(2l0 3l0) (complex long-float))
623 (#c(2d0 3s0) (complex float))
624 (#c(2 3f0) (complex real))
625 (#c(2 3d0) (complex real))
626 (#c(-3/7 4) (complex real))
627 (#c(-3/7 4) complex)
628 (#c(2 3l0) complex))
629 do (dolist (zero '(0 0s0 0f0 0d0 0l0))
630 (dolist (real-zero (list zero (- zero)))
631 (let* ((src `(lambda (x) (expt (the ,type x) ,real-zero)))
632 (fun (compile nil src))
633 (result (1+ (funcall (eval #'*) x real-zero))))
634 (assert (eql result (funcall fun x)))))))
636 ;;; (SIGNED-BYTE 1) [ returned from the logxor derive-type optimizer ]
637 ;;; wasn't recognized as a good type specifier.
638 (let ((fun (lambda (x y)
639 (declare (type (integer -1 0) x y) (optimize speed))
640 (logxor x y))))
641 (assert (= (funcall fun 0 0) 0))
642 (assert (= (funcall fun 0 -1) -1))
643 (assert (= (funcall fun -1 -1) 0)))
645 ;;; from PFD's torture test, triggering a bug in our effective address
646 ;;; treatment.
647 (compile
649 `(lambda (a b)
650 (declare (type (integer 8 22337) b))
651 (logandc2
652 (logandc2
653 (* (logandc1 (max -29303 b) 4) b)
654 (abs (logorc1 (+ (logandc1 -11 b) 2607688420) -31153924)))
655 (logeqv (max a 0) b))))
657 ;;; Alpha floating point modes weren't being reset after an exception,
658 ;;; leading to an exception on the second compile, below.
659 (compile nil '(lambda (x y) (declare (type (double-float 0.0d0) x y)) (/ x y)))
660 (handler-case (/ 1.0 0.0)
661 ;; provoke an exception
662 (arithmetic-error ()))
663 (compile nil '(lambda (x y) (declare (type (double-float 0.0d0) x y)) (/ x y)))
665 ;;; bug reported by Paul Dietz: component last block does not have
666 ;;; start ctran
667 (compile nil
668 '(lambda ()
669 (declare (notinline + logand)
670 (optimize (speed 0)))
671 (LOGAND
672 (BLOCK B5
673 (FLET ((%F1 ()
674 (RETURN-FROM B5 -220)))
675 (LET ((V7 (%F1)))
676 (+ 359749 35728422))))
677 -24076)))
679 ;;; bug 294 reported by Paul Dietz: miscompilation of REM and MOD
680 (assert (= (funcall (compile nil `(lambda (b)
681 (declare (optimize (speed 3))
682 (type (integer 2 152044363) b))
683 (rem b (min -16 0))))
684 108251912)
687 (assert (= (funcall (compile nil `(lambda (c)
688 (declare (optimize (speed 3))
689 (type (integer 23062188 149459656) c))
690 (mod c (min -2 0))))
691 95019853)
692 -1))
694 ;;; bug reported by Paul Dietz: block splitting inside FLUSH-DEAD-CODE
695 (compile nil
696 '(LAMBDA (A B C)
697 (BLOCK B6
698 (LOGEQV (REM C -6758)
699 (REM B (MAX 44 (RETURN-FROM B6 A)))))))
701 (compile nil '(lambda ()
702 (block nil
703 (flet ((foo (x y) (if (> x y) (print x) (print y))))
704 (foo 1 2)
705 (bar)
706 (foo (return 14) 2)))))
708 ;;; bug in Alpha backend: not enough sanity checking of arguments to
709 ;;; instructions
710 (assert (= (funcall (compile nil
711 '(lambda (x)
712 (declare (fixnum x))
713 (ash x -257)))
714 1024)
717 ;;; bug found by WHN and pfdietz: compiler failure while referencing
718 ;;; an entry point inside a deleted lambda
719 (compile nil '(lambda ()
720 (let (r3533)
721 (flet ((bbfn ()
722 (setf r3533
723 (progn
724 (flet ((truly (fn bbd)
725 (let (r3534)
726 (let ((p3537 nil))
727 (unwind-protect
728 (multiple-value-prog1
729 (progn
730 (setf r3534
731 (progn
732 (bubf bbd t)
733 (flet ((c-3536 ()
734 (funcall fn)))
735 (cdec #'c-3536
736 (vector bbd))))))
737 (setf p3537 t))
738 (unless p3537
739 (error "j"))))
740 r3534))
741 (c (pd) (pdc pd)))
742 (let ((a (smock a))
743 (b (smock b))
744 (b (smock c)))))))))
745 (wum #'bbfn "hc3" (list)))
746 r3533)))
747 (compile nil '(lambda () (flet ((%f () (unwind-protect nil))) nil)))
749 ;;; the strength reduction of constant multiplication used (before
750 ;;; sbcl-0.8.4.x) to lie to the compiler. This meant that, under
751 ;;; certain circumstances, the compiler would derive that a perfectly
752 ;;; reasonable multiplication never returned, causing chaos. Fixed by
753 ;;; explicitly doing modular arithmetic, and relying on the backends
754 ;;; being smart.
755 (assert (= (funcall
756 (compile nil
757 '(lambda (x)
758 (declare (type (integer 178956970 178956970) x)
759 (optimize speed))
760 (* x 24)))
761 178956970)
762 4294967280))
764 ;;; bug in modular arithmetic and type specifiers
765 (assert (= (funcall (compile nil (lambda (x) (logand x x 0)))
769 ;;; MISC.99 from Paul Dietz' random tester: FAST-ASH-MOD32-C VOP
770 ;;; produced wrong result for shift >=32 on X86
771 (assert (= 0 (funcall
772 (compile nil
773 '(lambda (a)
774 (declare (type (integer 4303063 101130078) a))
775 (mask-field (byte 18 2) (ash a 77))))
776 57132532)))
778 ;;; MISC.101 and MISC.103: FLUSH-DEST did not mark the USE's block for
779 ;;; type check regeneration
780 (assert (eql (funcall
781 (compile nil '(lambda (a c)
782 (declare (type (integer 185501219873 303014665162) a))
783 (declare (type (integer -160758 255724) c))
784 (declare (optimize (speed 3)))
785 (let ((v8
786 (- -554046873252388011622614991634432
787 (ignore-errors c)
788 (unwind-protect 2791485))))
789 (max (ignore-errors a)
790 (let ((v6 (- v8 (restart-case 980))))
791 (min v8 v6))))))
792 259448422916 173715)
793 259448422916))
794 (assert (eql (funcall
795 (compile nil '(lambda (a b)
796 (min -80
797 (abs
798 (ignore-errors
800 (logeqv b
801 (block b6
802 (return-from b6
803 (load-time-value -6876935))))
804 (if (logbitp 1 a) b (setq a -1522022182249))))))))
805 -1802767029877 -12374959963)
806 -80))
808 ;;; various MISC.*, related to NODEs/LVARs with derived type NIL
809 (assert (eql (funcall (compile nil '(lambda (c)
810 (declare (type (integer -3924 1001809828) c))
811 (declare (optimize (speed 3)))
812 (min 47 (if (ldb-test (byte 2 14) c)
813 -570344431
814 (ignore-errors -732893970)))))
815 705347625)
816 -570344431))
817 (assert (eql (funcall
818 (compile nil '(lambda (b)
819 (declare (type (integer -1598566306 2941) b))
820 (declare (optimize (speed 3)))
821 (max -148949 (ignore-errors b))))
824 (assert (eql (funcall
825 (compile nil '(lambda (b c)
826 (declare (type (integer -4 -3) c))
827 (block b7
828 (flet ((%f1 (f1-1 f1-2 f1-3)
829 (if (logbitp 0 (return-from b7
830 (- -815145138 f1-2)))
831 (return-from b7 -2611670)
832 99345)))
833 (let ((v2 (%f1 -2464 (%f1 -1146 c c) -2)))
834 b)))))
835 2950453607 -4)
836 -815145134))
837 (assert (eql (funcall
838 (compile nil
839 '(lambda (b c)
840 (declare (type (integer -29742055786 23602182204) b))
841 (declare (type (integer -7409 -2075) c))
842 (declare (optimize (speed 3)))
843 (floor
844 (labels ((%f2 ()
845 (block b6
846 (ignore-errors (return-from b6
847 (if (= c 8) b 82674))))))
848 (%f2)))))
849 22992834060 -5833)
850 82674))
851 (assert (equal (multiple-value-list
852 (funcall
853 (compile nil '(lambda (a)
854 (declare (type (integer -944 -472) a))
855 (declare (optimize (speed 3)))
856 (round
857 (block b3
858 (return-from b3
859 (if (= 55957 a) -117 (ignore-errors
860 (return-from b3 a))))))))
861 -589))
862 '(-589 0)))
864 ;;; MISC.158
865 (assert (zerop (funcall
866 (compile nil
867 '(lambda (a b c)
868 (declare (type (integer 79828 2625480458) a))
869 (declare (type (integer -4363283 8171697) b))
870 (declare (type (integer -301 0) c))
871 (if (equal 6392154 (logxor a b))
872 1706
873 (let ((v5 (abs c)))
874 (logand v5
875 (logior (logandc2 c v5)
876 (common-lisp:handler-case
877 (ash a (min 36 22477)))))))))
878 100000 0 0)))
880 ;;; MISC.152, 153: deleted code and iteration var type inference
881 (assert (eql (funcall
882 (compile nil
883 '(lambda (a)
884 (block b5
885 (let ((v1 (let ((v8 (unwind-protect 9365)))
886 8862008)))
888 (return-from b5
889 (labels ((%f11 (f11-1) f11-1))
890 (%f11 87246015)))
891 (return-from b5
892 (setq v1
893 (labels ((%f6 (f6-1 f6-2 f6-3) v1))
894 (dpb (unwind-protect a)
895 (byte 18 13)
896 (labels ((%f4 () 27322826))
897 (%f6 -2 -108626545 (%f4))))))))))))
899 87246015))
901 (assert (eql (funcall
902 (compile nil
903 '(lambda (a)
904 (if (logbitp 3
905 (case -2
906 ((-96879 -1035 -57680 -106404 -94516 -125088)
907 (unwind-protect 90309179))
908 ((-20811 -86901 -9368 -98520 -71594)
909 (let ((v9 (unwind-protect 136707)))
910 (block b3
911 (setq v9
912 (let ((v4 (return-from b3 v9)))
913 (- (ignore-errors (return-from b3 v4))))))))
914 (t -50)))
915 -20343
916 a)))
918 -20343))
920 ;;; MISC.165
921 (assert (eql (funcall
922 (compile
924 '(lambda (a b c)
925 (block b3
926 (flet ((%f15
927 (f15-1 f15-2 f15-3
928 &optional
929 (f15-4
930 (flet ((%f17
931 (f17-1 f17-2 f17-3
932 &optional (f17-4 185155520) (f17-5 c)
933 (f17-6 37))
935 (%f17 -1046 a 1115306 (%f17 b -146330 422) -337817)))
936 (f15-5 a) (f15-6 -40))
937 (return-from b3 -16)))
938 (multiple-value-call #'%f15 (values -519354 a 121 c -1905))))))
939 0 0 -5)
940 -16))
942 ;;; MISC.172
943 (assert (eql (funcall
944 (compile
946 '(lambda (a b c)
947 (declare (notinline list apply))
948 (declare (optimize (safety 3)))
949 (declare (optimize (speed 0)))
950 (declare (optimize (debug 0)))
951 (labels ((%f12 (f12-1 f12-2)
952 (labels ((%f2 (f2-1 f2-2)
953 (flet ((%f6 ()
954 (flet ((%f18
955 (f18-1
956 &optional (f18-2 a)
957 (f18-3 -207465075)
958 (f18-4 a))
959 (return-from %f12 b)))
960 (%f18 -3489553
962 (%f18 (%f18 150 -64 f12-1)
963 (%f18 (%f18 -8531)
964 11410)
966 56362666))))
967 (labels ((%f7
968 (f7-1 f7-2
969 &optional (f7-3 (%f6)))
970 7767415))
971 f12-1))))
972 (%f2 b -36582571))))
973 (apply #'%f12 (list 774 -4413)))))
974 0 1 2)
975 774))
977 ;;; MISC.173
978 (assert (eql (funcall
979 (compile
981 '(lambda (a b c)
982 (declare (notinline values))
983 (declare (optimize (safety 3)))
984 (declare (optimize (speed 0)))
985 (declare (optimize (debug 0)))
986 (flet ((%f11
987 (f11-1 f11-2
988 &optional (f11-3 c) (f11-4 7947114)
989 (f11-5
990 (flet ((%f3 (f3-1 &optional (f3-2 b) (f3-3 5529))
991 8134))
992 (multiple-value-call #'%f3
993 (values (%f3 -30637724 b) c)))))
994 (setq c 555910)))
995 (if (and nil (%f11 a a))
996 (if (%f11 a 421778 4030 1)
997 (labels ((%f7
998 (f7-1 f7-2
999 &optional
1000 (f7-3
1001 (%f11 -79192293
1002 (%f11 c a c -4 214720)
1005 (%f11 b 985)))
1006 (f7-4 a))
1008 (%f11 c b -25644))
1010 -32326608))))
1011 1 2 3)
1012 -32326608))
1014 ;;; MISC.177, 182: IR2 copy propagation missed a hidden write to a
1015 ;;; local lambda argument
1016 (assert
1017 (equal
1018 (funcall
1019 (compile nil
1020 '(lambda (a b c)
1021 (declare (type (integer 804561 7640697) a))
1022 (declare (type (integer -1 10441401) b))
1023 (declare (type (integer -864634669 55189745) c))
1024 (declare (ignorable a b c))
1025 (declare (optimize (speed 3)))
1026 (declare (optimize (safety 1)))
1027 (declare (optimize (debug 1)))
1028 (flet ((%f11
1029 (f11-1 f11-2)
1030 (labels ((%f4 () (round 200048 (max 99 c))))
1031 (logand
1032 f11-1
1033 (labels ((%f3 (f3-1) -162967612))
1034 (%f3 (let* ((v8 (%f4)))
1035 (setq f11-1 (%f4)))))))))
1036 (%f11 -120429363 (%f11 62362 b)))))
1037 6714367 9645616 -637681868)
1038 -264223548))
1040 ;;; Bug reported by Paul F. Dietz caused by derive type loss in VALUE
1041 ;;; transform
1042 (assert (equal (multiple-value-list
1043 (funcall
1044 (compile nil '(lambda ()
1045 (declare (optimize (speed 1) (space 0) (safety 3) (debug 3) (compilation-speed 1)))
1046 (ceiling
1047 (ceiling
1048 (flet ((%f16 () 0)) (%f16))))))))
1049 '(0 0)))
1051 ;;; MISC.184
1052 (assert (zerop
1053 (funcall
1054 (compile
1056 '(lambda (a b c)
1057 (declare (type (integer 867934833 3293695878) a))
1058 (declare (type (integer -82111 1776797) b))
1059 (declare (type (integer -1432413516 54121964) c))
1060 (declare (optimize (speed 3)))
1061 (declare (optimize (safety 1)))
1062 (declare (optimize (debug 1)))
1063 (if nil
1064 (flet ((%f15 (f15-1 &optional (f15-2 c))
1065 (labels ((%f1 (f1-1 f1-2) 0))
1066 (%f1 a 0))))
1067 (flet ((%f4 ()
1068 (multiple-value-call #'%f15
1069 (values (%f15 c 0) (%f15 0)))))
1070 (if nil (%f4)
1071 (flet ((%f8 (f8-1 &optional (f8-2 (%f4)) (f8-3 0))
1072 f8-3))
1073 0))))
1074 0)))
1075 3040851270 1664281 -1340106197)))
1077 ;;; MISC.249
1078 (assert (zerop
1079 (funcall
1080 (compile
1082 '(lambda (a b)
1083 (declare (notinline <=))
1084 (declare (optimize (speed 2) (space 3) (safety 0)
1085 (debug 1) (compilation-speed 3)))
1086 (if (if (<= 0) nil nil)
1087 (labels ((%f9 (f9-1 f9-2 f9-3)
1088 (ignore-errors 0)))
1089 (dotimes (iv4 5 a) (%f9 0 0 b)))
1090 0)))
1091 1 2)))
1093 ;;; MISC.259-264 (aka "CSR screwed up implementing *-MOD32")
1094 (assert
1095 (= (funcall
1096 (compile
1098 '(lambda (a)
1099 (declare (type (integer 177547470 226026978) a))
1100 (declare (optimize (speed 3) (space 0) (safety 0) (debug 0)
1101 (compilation-speed 1)))
1102 (logand a (* a 438810))))
1103 215067723)
1104 13739018))
1107 ;;;; Bugs in stack analysis
1108 ;;; bug 299 (reported by PFD)
1109 (assert
1110 (equal (funcall
1111 (compile
1113 '(lambda ()
1114 (declare (optimize (debug 1)))
1115 (multiple-value-call #'list
1116 (if (eval t) (eval '(values :a :b :c)) nil)
1117 (catch 'foo (throw 'foo (values :x :y)))))))
1118 '(:a :b :c :x :y)))
1119 ;;; bug 298 (= MISC.183)
1120 (assert (zerop (funcall
1121 (compile
1123 '(lambda (a b c)
1124 (declare (type (integer -368154 377964) a))
1125 (declare (type (integer 5044 14959) b))
1126 (declare (type (integer -184859815 -8066427) c))
1127 (declare (ignorable a b c))
1128 (declare (optimize (speed 3)))
1129 (declare (optimize (safety 1)))
1130 (declare (optimize (debug 1)))
1131 (block b7
1132 (flet ((%f3 (f3-1 f3-2 f3-3) 0))
1133 (apply #'%f3 0 (catch 'foo (return-from b7 (%f3 0 b c))) c nil)))))
1134 0 6000 -9000000)))
1135 (assert (equal (eval '(let () (apply #'list 1 (list (catch 'a (throw 'a (block b 2)))))))
1136 '(1 2)))
1137 (let ((f (compile
1139 '(lambda (x)
1140 (block foo
1141 (multiple-value-call #'list
1143 (block bar
1144 (return-from foo
1145 (multiple-value-call #'list
1147 (block quux
1148 (return-from bar
1149 (catch 'baz
1150 (if x
1151 (return-from quux 1)
1152 (throw 'baz 2))))))))))))))
1153 (assert (equal (funcall f t) '(:b 1)))
1154 (assert (equal (funcall f nil) '(:a 2))))
1156 ;;; MISC.185
1157 (assert (equal
1158 (funcall
1159 (compile
1161 '(lambda (a b c)
1162 (declare (type (integer 5 155656586618) a))
1163 (declare (type (integer -15492 196529) b))
1164 (declare (type (integer 7 10) c))
1165 (declare (optimize (speed 3)))
1166 (declare (optimize (safety 1)))
1167 (declare (optimize (debug 1)))
1168 (flet ((%f3
1169 (f3-1 f3-2 f3-3
1170 &optional (f3-4 a) (f3-5 0)
1171 (f3-6
1172 (labels ((%f10 (f10-1 f10-2 f10-3)
1174 (apply #'%f10
1177 (- (if (equal a b) b (%f10 c a 0))
1178 (catch 'ct2 (throw 'ct2 c)))
1179 nil))))
1181 (%f3 (%f3 (%f3 b 0 0 0) a 0) a b b b c)))) 5 0 7)
1183 ;;; MISC.186
1184 (assert (eq
1185 (eval
1186 '(let* ((form '(labels ((%f3 (f3-1 f3-2) f3-1))
1187 (apply #'%f3 b (catch 'ct8 (throw 'ct8 (logeqv (%f3 c 0)))) nil)))
1188 (vars '(b c))
1189 (fn1 `(lambda ,vars
1190 (declare (type (integer -2 19) b)
1191 (type (integer -1520 218978) c)
1192 (optimize (speed 3) (safety 1) (debug 1)))
1193 ,form))
1194 (fn2 `(lambda ,vars
1195 (declare (notinline logeqv apply)
1196 (optimize (safety 3) (speed 0) (debug 0)))
1197 ,form))
1198 (cf1 (compile nil fn1))
1199 (cf2 (compile nil fn2))
1200 (result1 (multiple-value-list (funcall cf1 2 18886)))
1201 (result2 (multiple-value-list (funcall cf2 2 18886))))
1202 (if (equal result1 result2)
1203 :good
1204 (values result1 result2))))
1205 :good))
1207 ;;; MISC.290
1208 (assert (zerop
1209 (funcall
1210 (compile
1212 '(lambda ()
1213 (declare
1214 (optimize (speed 3) (space 3) (safety 1)
1215 (debug 2) (compilation-speed 0)))
1216 (apply (constantly 0) (catch 'ct2 0) 0 (catch 'ct2 0) nil))))))
1218 ;;; MISC.292
1219 (assert (zerop (funcall
1220 (compile
1222 '(lambda (a b)
1223 (declare (optimize (speed 2) (space 0) (safety 3) (debug 1)
1224 (compilation-speed 2)))
1225 (apply (constantly 0)
1228 (catch 'ct6
1229 (apply (constantly 0)
1232 (let* ((v1
1233 (let ((*s7* 0))
1234 b)))
1237 nil))
1239 nil)))
1240 1 2)))
1242 ;;; misc.295
1243 (assert (eql
1244 (funcall
1245 (compile
1247 '(lambda ()
1248 (declare (optimize (speed 1) (space 0) (safety 0) (debug 0)))
1249 (multiple-value-prog1
1250 (the integer (catch 'ct8 (catch 'ct7 15867134)))
1251 (catch 'ct1 (throw 'ct1 0))))))
1252 15867134))
1254 ;;; misc.361: replacing CAST with (m-v-call #'%compile-time-type-error)
1255 ;;; could transform known-values LVAR to UVL
1256 (assert (zerop (funcall
1257 (compile
1259 '(lambda (a b c)
1260 (declare (notinline boole values denominator list))
1261 (declare
1262 (optimize (speed 2)
1263 (space 0)
1264 (safety 1)
1265 (debug 0)
1266 (compilation-speed 2)))
1267 (catch 'ct6
1268 (progv
1269 '(*s8*)
1270 (list 0)
1271 (let ((v9 (ignore-errors (throw 'ct6 0))))
1272 (denominator
1273 (progv nil nil (values (boole boole-and 0 v9)))))))))
1274 1 2 3)))
1276 ;;; non-continuous dead UVL blocks
1277 (defun non-continuous-stack-test (x)
1278 (multiple-value-call #'list
1279 (eval '(values 11 12))
1280 (eval '(values 13 14))
1281 (block ext
1282 (return-from non-continuous-stack-test
1283 (multiple-value-call #'list
1284 (eval '(values :b1 :b2))
1285 (eval '(values :b3 :b4))
1286 (block int
1287 (return-from ext
1288 (multiple-value-call (eval #'values)
1289 (eval '(values 1 2))
1290 (eval '(values 3 4))
1291 (block ext
1292 (return-from int
1293 (multiple-value-call (eval #'values)
1294 (eval '(values :a1 :a2))
1295 (eval '(values :a3 :a4))
1296 (block int
1297 (return-from ext
1298 (multiple-value-call (eval #'values)
1299 (eval '(values 5 6))
1300 (eval '(values 7 8))
1301 (if x
1302 :ext
1303 (return-from int :int))))))))))))))))
1304 (assert (equal (non-continuous-stack-test t) '(11 12 13 14 1 2 3 4 5 6 7 8 :ext)))
1305 (assert (equal (non-continuous-stack-test nil) '(:b1 :b2 :b3 :b4 :a1 :a2 :a3 :a4 :int)))
1307 ;;; MISC.362: environment of UNWIND-PROTECTor is different from that
1308 ;;; if ENTRY.
1309 (assert (equal (multiple-value-list (funcall
1310 (compile
1312 '(lambda (b g h)
1313 (declare (optimize (speed 3) (space 3) (safety 2)
1314 (debug 2) (compilation-speed 3)))
1315 (catch 'ct5
1316 (unwind-protect
1317 (labels ((%f15 (f15-1 f15-2 f15-3)
1318 (rational (throw 'ct5 0))))
1319 (%f15 0
1320 (apply #'%f15
1323 (progn
1324 (progv '(*s2* *s5*) (list 0 (%f15 0 g 0)) b)
1326 nil)
1328 (common-lisp:handler-case 0)))))
1329 1 2 3))
1330 '(0)))
1333 ;;; MISC.275
1334 (assert
1335 (zerop
1336 (funcall
1337 (compile
1339 '(lambda (b)
1340 (declare (notinline funcall min coerce))
1341 (declare
1342 (optimize (speed 1)
1343 (space 2)
1344 (safety 2)
1345 (debug 1)
1346 (compilation-speed 1)))
1347 (flet ((%f12 (f12-1)
1348 (coerce
1349 (min
1350 (if f12-1 (multiple-value-prog1
1351 b (return-from %f12 0))
1353 'integer)))
1354 (funcall #'%f12 0))))
1355 -33)))
1357 ;;; Discussion of a CMUCL PCL bug on Sparc with Raymond Toy revealed a
1358 ;;; potential problem: optimizers and type derivers for MAX and MIN
1359 ;;; were not consistent in treating EQUALP, but not EQL, arguments.
1360 (dolist (f '(min max))
1361 (loop for complex-arg-args in '((1d0 2d0) (0d0 1d0))
1362 for complex-arg = `(if x ,@complex-arg-args)
1364 (loop for args in `((1 ,complex-arg)
1365 (,complex-arg 1))
1366 for form = `(,f ,@args)
1367 for f1 = (compile nil `(lambda (x) ,form))
1368 and f2 = (compile nil `(lambda (x) (declare (notinline min max))
1369 ,form))
1371 (dolist (x '(nil t))
1372 (assert (eql (funcall f1 x) (funcall f2 x)))))))
1375 (handler-case (compile nil '(lambda (x)
1376 (declare (optimize (speed 3) (safety 0)))
1377 (the double-float (sqrt (the double-float x)))))
1378 (sb-ext:compiler-note (c)
1379 ;; Ignore the note for the float -> pointer conversion of the
1380 ;; return value.
1381 (unless (string= (car (last (sb-c::simple-condition-format-arguments c)))
1382 "<return value>")
1383 (error "Compiler does not trust result type assertion."))))
1385 (let ((f (compile nil '(lambda (x)
1386 (declare (optimize speed (safety 0)))
1387 (block nil
1388 (the double-float
1389 (multiple-value-prog1
1390 (sqrt (the double-float x))
1391 (when (< x 0)
1392 (return :minus)))))))))
1393 (assert (eql (funcall f -1d0) :minus))
1394 (assert (eql (funcall f 4d0) 2d0)))
1396 ;;; bug 304: SBCL produced something similar to (/ (ASH x 4) 8)
1397 (handler-case
1398 (compile nil '(lambda (a i)
1399 (locally
1400 (declare (optimize (speed 3) (safety 0) (space 0) (debug 0)
1401 (inhibit-warnings 0)))
1402 (declare (type (alien (* (unsigned 8))) a)
1403 (type (unsigned-byte 32) i))
1404 (deref a i))))
1405 (compiler-note () (error "The code is not optimized.")))
1407 (handler-case
1408 (compile nil '(lambda (x)
1409 (declare (type (integer -100 100) x))
1410 (declare (optimize speed))
1411 (declare (notinline identity))
1412 (1+ (identity x))))
1413 (compiler-note () (error "IDENTITY derive-type not applied.")))
1415 (assert (null (funcall (compile nil '(lambda (x) (funcall #'cddr x))) nil)))
1417 ;;; MISC.293 = easy variant of bug 303: repeated write to the same
1418 ;;; LVAR; here the first write may be cleared before the second is
1419 ;;; made.
1420 (assert
1421 (zerop
1422 (funcall
1423 (compile
1425 '(lambda ()
1426 (declare (notinline complex))
1427 (declare (optimize (speed 1) (space 0) (safety 1)
1428 (debug 3) (compilation-speed 3)))
1429 (flet ((%f () (multiple-value-prog1 0 (return-from %f 0))))
1430 (complex (%f) 0)))))))
1432 ;;; MISC.110A: CAST optimizer forgot to flush LVAR derived type
1433 (assert (zerop (funcall
1434 (compile
1436 '(lambda (a c)
1437 (declare (type (integer -1294746569 1640996137) a))
1438 (declare (type (integer -807801310 3) c))
1439 (declare (optimize (speed 3) (space 3) (safety 0) (debug 0) (compilation-speed 3)))
1440 (catch 'ct7
1442 (logbitp 0
1443 (if (/= 0 a)
1445 (ignore-errors
1446 (progn (if (ldb-test (byte 0 0) (rational (throw 'ct7 0))) 0 0) 0))))
1447 0 0))))
1448 391833530 -32785211)))
1450 ;;; efficiency notes for ordinary code
1451 (macrolet ((frob (arglist &body body)
1452 `(progn
1453 (handler-case
1454 (compile nil '(lambda ,arglist ,@body))
1455 (sb-ext:compiler-note (e)
1456 (error "bad compiler note for ~S:~% ~A" ',body e)))
1457 (catch :got-note
1458 (handler-case
1459 (compile nil '(lambda ,arglist (declare (optimize speed))
1460 ,@body))
1461 (sb-ext:compiler-note (e) (throw :got-note nil)))
1462 (error "missing compiler note for ~S" ',body)))))
1463 (frob (x) (funcall x))
1464 (frob (x y) (find x y))
1465 (frob (x y) (find-if x y))
1466 (frob (x y) (find-if-not x y))
1467 (frob (x y) (position x y))
1468 (frob (x y) (position-if x y))
1469 (frob (x y) (position-if-not x y))
1470 (frob (x) (aref x 0)))
1472 (macrolet ((frob (style-warn-p form)
1473 (if style-warn-p
1474 `(catch :got-style-warning
1475 (handler-case
1476 (eval ',form)
1477 (style-warning (e) (throw :got-style-warning nil)))
1478 (error "missing style-warning for ~S" ',form))
1479 `(handler-case
1480 (eval ',form)
1481 (style-warning (e)
1482 (error "bad style-warning for ~S: ~A" ',form e))))))
1483 (frob t (lambda (x &optional y &key z) (list x y z)))
1484 (frob nil (lambda (x &optional y z) (list x y z)))
1485 (frob nil (lambda (x &key y z) (list x y z)))
1486 (frob t (defgeneric #:foo (x &optional y &key z)))
1487 (frob nil (defgeneric #:foo (x &optional y z)))
1488 (frob nil (defgeneric #:foo (x &key y z)))
1489 (frob t (defun #:foo (x) (flet ((foo (x &optional y &key z) (list x y z))) (foo x x :z x)))))
1491 ;;; this was a bug in the LOGXOR type deriver. The top form gave a
1492 ;;; note, because the system failed to derive the fact that the return
1493 ;;; from LOGXOR was small and negative, though the bottom one worked.
1494 (handler-bind ((sb-ext:compiler-note #'error))
1495 (compile nil '(lambda ()
1496 (declare (optimize speed (safety 0)))
1497 (lambda (x y)
1498 (declare (type (integer 3 6) x)
1499 (type (integer -6 -3) y))
1500 (+ (logxor x y) most-positive-fixnum)))))
1501 (handler-bind ((sb-ext:compiler-note #'error))
1502 (compile nil '(lambda ()
1503 (declare (optimize speed (safety 0)))
1504 (lambda (x y)
1505 (declare (type (integer 3 6) y)
1506 (type (integer -6 -3) x))
1507 (+ (logxor x y) most-positive-fixnum)))))
1509 ;;; check that modular ash gives the right answer, to protect against
1510 ;;; possible misunderstandings about the hardware shift instruction.
1511 (assert (zerop (funcall
1512 (compile nil '(lambda (x y)
1513 (declare (optimize speed)
1514 (type (unsigned-byte 32) x y))
1515 (logand #xffffffff (ash x y))))
1516 1 257)))
1518 ;;; code instrumenting problems
1519 (compile nil
1520 '(lambda ()
1521 (declare (optimize (debug 3)))
1522 (list (the integer (if nil 14 t)))))
1524 (compile nil
1525 '(LAMBDA (A B C D)
1526 (DECLARE (NOTINLINE LOGORC1 BYTE MASK-FIELD))
1527 (DECLARE
1528 (OPTIMIZE (SPEED 1)
1529 (SPACE 1)
1530 (SAFETY 1)
1531 (DEBUG 3)
1532 (COMPILATION-SPEED 0)))
1533 (MASK-FIELD (BYTE 7 26)
1534 (PROGN
1535 (TAGBODY (THE INTEGER (CATCH 'CT4 (LOGORC1 C -15950))) 1)
1536 B))))
1538 (compile nil
1539 '(lambda (buffer i end)
1540 (declare (optimize (debug 3)))
1541 (loop (when (not (eql 0 end)) (return)))
1542 (let ((s (make-string end)))
1543 (setf (schar s i) (schar buffer i))
1544 s)))
1546 ;;; check that constant string prefix and suffix don't cause the
1547 ;;; compiler to emit code deletion notes.
1548 (handler-bind ((sb-ext:code-deletion-note #'error))
1549 (compile nil '(lambda (s x)
1550 (pprint-logical-block (s x :prefix "(")
1551 (print x s))))
1552 (compile nil '(lambda (s x)
1553 (pprint-logical-block (s x :per-line-prefix ";")
1554 (print x s))))
1555 (compile nil '(lambda (s x)
1556 (pprint-logical-block (s x :suffix ">")
1557 (print x s)))))
1559 ;;; MISC.427: loop analysis requires complete DFO structure
1560 (assert (eql 17 (funcall
1561 (compile
1563 '(lambda (a)
1564 (declare (notinline list reduce logior))
1565 (declare (optimize (safety 2) (compilation-speed 1)
1566 (speed 3) (space 2) (debug 2)))
1567 (logior
1568 (let* ((v5 (reduce #'+ (list 0 a))))
1569 (declare (dynamic-extent v5))
1570 v5))))
1571 17)))
1573 ;;; MISC.434
1574 (assert (zerop (funcall
1575 (compile
1577 '(lambda (a b)
1578 (declare (type (integer -8431780939320 1571817471932) a))
1579 (declare (type (integer -4085 0) b))
1580 (declare (ignorable a b))
1581 (declare
1582 (optimize (space 2)
1583 (compilation-speed 0)
1584 #+sbcl (sb-c:insert-step-conditions 0)
1585 (debug 2)
1586 (safety 0)
1587 (speed 3)))
1588 (let ((*s5* 0))
1589 (dotimes (iv1 2 0)
1590 (let ((*s5*
1591 (elt '(1954479092053)
1592 (min 0
1593 (max 0
1594 (if (< iv1 iv1)
1595 (lognand iv1 (ash iv1 (min 53 iv1)))
1596 iv1))))))
1597 0)))))
1598 -7639589303599 -1368)))
1600 (compile
1602 '(lambda (a b)
1603 (declare (type (integer) a))
1604 (declare (type (integer) b))
1605 (declare (ignorable a b))
1606 (declare (optimize (space 2) (compilation-speed 0)
1607 (debug 0) (safety 0) (speed 3)))
1608 (dotimes (iv1 2 0)
1609 (when (< iv1 2) (print 'x)) ;; request for second constraint propagation pass
1610 (print (if (< iv1 iv1)
1611 (logand (ash iv1 iv1) 1)
1612 iv1)))))
1614 ;;; MISC.435: lambda var substitution in a deleted code.
1615 (assert (zerop (funcall
1616 (compile
1618 '(lambda (a b c d)
1619 (declare (notinline aref logandc2 gcd make-array))
1620 (declare
1621 (optimize (space 0) (safety 0) (compilation-speed 3)
1622 (speed 3) (debug 1)))
1623 (progn
1624 (tagbody
1625 (let* ((v2 (make-array nil :initial-element (catch 'ct1 (go tag2)))))
1626 (declare (dynamic-extent v2))
1627 (gcd (go tag2) (logandc2 (catch 'ct2 c) (aref v2))))
1628 tag2)
1629 0)))
1630 3021871717588 -866608 -2 -17194)))
1632 ;;; MISC.436, 438: lost reoptimization
1633 (assert (zerop (funcall
1634 (compile
1636 '(lambda (a b)
1637 (declare (type (integer -2917822 2783884) a))
1638 (declare (type (integer 0 160159) b))
1639 (declare (ignorable a b))
1640 (declare
1641 (optimize (compilation-speed 1)
1642 (speed 3)
1643 (safety 3)
1644 (space 0)
1645 ; #+sbcl (sb-c:insert-step-conditions 0)
1646 (debug 0)))
1648 (oddp
1649 (loop for
1651 below
1653 count
1654 (logbitp 0
1656 (ash b
1657 (min 8
1658 (count 0
1659 '(-10197561 486 430631291
1660 9674068))))))))
1662 0)))
1663 1265797 110757)))
1665 (assert (zerop (funcall
1666 (compile
1668 ' (lambda (a)
1669 (declare (type (integer 0 1696) a))
1670 ; (declare (ignorable a))
1671 (declare (optimize (space 2) (debug 0) (safety 1)
1672 (compilation-speed 0) (speed 1)))
1673 (if (logbitp 0 (ash (1- a) (min 11 a))) 0 0)))
1674 805)))
1676 ;;; bug #302
1677 (assert (compile
1679 '(lambda (s ei x y)
1680 (declare (type (simple-array function (2)) s) (type ei ei))
1681 (funcall (aref s ei) x y))))
1683 ;;; MISC.320: ir1-transform can create an intercomponent reference to
1684 ;;; a DEFINED-FUN.
1685 (assert (eql 102 (funcall
1686 (compile
1688 '(lambda ()
1689 (declare (optimize (speed 3) (space 0) (safety 2)
1690 (debug 2) (compilation-speed 0)))
1691 (catch 'ct2
1692 (elt '(102)
1693 (flet ((%f12 () (rem 0 -43)))
1694 (multiple-value-call #'%f12 (values))))))))))
1696 ;;; MISC.437: lost reoptimization after FLUSH-DEST
1697 (assert (zerop (funcall
1698 (compile
1700 '(lambda (a b c d e)
1701 (declare (notinline values complex eql))
1702 (declare
1703 (optimize (compilation-speed 3)
1704 (speed 3)
1705 (debug 1)
1706 (safety 1)
1707 (space 0)))
1708 (flet ((%f10
1709 (f10-1 f10-2 f10-3
1710 &optional (f10-4 (ignore-errors 0)) (f10-5 0)
1711 &key &allow-other-keys)
1712 (if (or (eql 0 0) t) 0 (if f10-1 0 0))))
1713 (complex (multiple-value-call #'%f10 (values a c b 0 0)) 0))))
1714 80043 74953652306 33658947 -63099937105 -27842393)))
1716 ;;; bug #351 -- program-error for malformed LET and LET*, including those
1717 ;;; resulting from SETF of LET.
1718 (dolist (fun (list (compile nil '(lambda () (let :bogus-let :oops)))
1719 (compile nil '(lambda () (let* :bogus-let* :oops)))
1720 (compile nil '(lambda (x) (push x (let ((y 0)) y))))))
1721 (assert (functionp fun))
1722 (multiple-value-bind (res err) (ignore-errors (funcall fun))
1723 (assert (not res))
1724 (assert (typep err 'program-error))))
1726 (let ((fun (compile nil '(lambda (x) (random (if x 10 20))))))
1727 (dotimes (i 100 (error "bad RANDOM distribution"))
1728 (when (> (funcall fun nil) 9)
1729 (return t)))
1730 (dotimes (i 100)
1731 (when (> (funcall fun t) 9)
1732 (error "bad RANDOM event"))))
1734 ;;; 0.8.17.28-sma.1 lost derived type information.
1735 (with-test (:name "0.8.17.28-sma.1" :fails-on :sparc)
1736 (handler-bind ((sb-ext:compiler-note (lambda (c) (error "~A" c))))
1737 (compile nil
1738 '(lambda (x y v)
1739 (declare (optimize (speed 3) (safety 0)))
1740 (declare (type (integer 0 80) x)
1741 (type (integer 0 11) y)
1742 (type (simple-array (unsigned-byte 32) (*)) v))
1743 (setf (aref v 0) (* (* x #.(floor (ash 1 32) (* 11 80))) y))
1744 nil))))
1746 ;;; Bug reported by Robert J. Macomber: instrumenting of more-entry
1747 ;;; prevented open coding of %LISTIFY-REST-ARGS.
1748 (let ((f (compile nil '(lambda ()
1749 (declare (optimize (debug 3)))
1750 (with-simple-restart (blah "blah") (error "blah"))))))
1751 (handler-bind ((error (lambda (c) (invoke-restart 'blah))))
1752 (assert (equal (multiple-value-list (funcall f)) '(nil t)))))
1754 ;;; Bug reported by Timmy Douglas: overflow in bit vector setter with
1755 ;;; constant index and value.
1756 (loop for n-bits = 1 then (* n-bits 2)
1757 for type = `(unsigned-byte ,n-bits)
1758 and v-max = (1- (ash 1 n-bits))
1759 while (<= n-bits sb-vm:n-word-bits)
1761 (let* ((n (* 2 (1+ (- sb-vm::n-word-bits n-bits))))
1762 (array1 (make-array n :element-type type))
1763 (array2 (make-array n :element-type type)))
1764 (dotimes (i n)
1765 (dolist (v (list 0 v-max))
1766 (let ((f (compile nil `(lambda (a)
1767 (declare (type (simple-array ,type (,n)) a))
1768 (setf (aref a ,i) ,v)))))
1769 (fill array1 (- v-max v))
1770 (fill array2 (- v-max v))
1771 (funcall f array1)
1772 (setf (aref array2 i) v)
1773 (assert (every #'= array1 array2)))))))
1775 (let ((fn (compile nil '(lambda (x)
1776 (declare (type bit x))
1777 (declare (optimize speed))
1778 (let ((b (make-array 64 :element-type 'bit
1779 :initial-element 0)))
1780 (count x b))))))
1781 (assert (= (funcall fn 0) 64))
1782 (assert (= (funcall fn 1) 0)))
1784 (let ((fn (compile nil '(lambda (x y)
1785 (declare (type simple-bit-vector x y))
1786 (declare (optimize speed))
1787 (equal x y)))))
1788 (assert (funcall
1790 (make-array 64 :element-type 'bit :initial-element 0)
1791 (make-array 64 :element-type 'bit :initial-element 0)))
1792 (assert (not
1793 (funcall
1795 (make-array 64 :element-type 'bit :initial-element 0)
1796 (let ((b (make-array 64 :element-type 'bit :initial-element 0)))
1797 (setf (sbit b 63) 1)
1798 b)))))
1800 ;;; MISC.535: compiler failure
1801 (let ((c0 #c(4196.088977268509d0 -15943.3603515625d0)))
1802 (assert (not (funcall
1803 (compile
1805 `(lambda (p1 p2)
1806 (declare (optimize speed (safety 1))
1807 (type (eql ,c0) p1)
1808 (type number p2))
1809 (eql (the (complex double-float) p1) p2)))
1810 c0 #c(12 612/979)))))
1812 ;;; reported by Lutz Euler: we shouldn't signal a compiler note for
1813 ;;; simple-bit-vector functions.
1814 (handler-bind ((sb-ext:compiler-note #'error))
1815 (compile nil '(lambda (x)
1816 (declare (type simple-bit-vector x))
1817 (count 1 x))))
1818 (handler-bind ((sb-ext:compiler-note #'error))
1819 (compile nil '(lambda (x y)
1820 (declare (type simple-bit-vector x y))
1821 (equal x y))))
1823 ;;; MISC.550: CAST merging in IR1 finalization caused unexpected
1824 ;;; code transformations.
1825 (assert (eql (funcall
1826 (compile
1828 '(lambda (p1 p2)
1829 (declare (optimize (speed 3) (safety 2) (debug 3) (space 3))
1830 (type atom p1)
1831 (type symbol p2))
1832 (or p1 (the (eql t) p2))))
1833 nil t)
1836 ;;; MISC.548: type check weakening converts required type into
1837 ;;; optional
1838 (assert (eql t
1839 (funcall
1840 (compile
1842 '(lambda (p1)
1843 (declare (optimize (speed 2) (safety 1) (debug 3) (space 2)))
1844 (atom (the (member f assoc-if write-line t w) p1))))
1845 t)))
1847 ;;; Free special bindings only apply to the body of the binding form, not
1848 ;;; the initialization forms.
1849 (assert (eq :good
1850 (funcall (compile 'nil
1851 (lambda ()
1852 (let ((x :bad))
1853 (declare (special x))
1854 (let ((x :good))
1855 ((lambda (&optional (y x))
1856 (declare (special x)) y)))))))))
1858 ;;; Bug from pfdietz's random tester: the compiler knew that IMAGPART of
1859 ;;; a rational was zero, but didn't do the substitution, leading to a
1860 ;;; crash in the ASH vop (since a shift of 57 wouldn't fit in the
1861 ;;; machine's ASH instruction's immediate field) that the compiler
1862 ;;; thought was legitimate.
1864 ;;; FIXME: this has been recorded as bug 383. The attempted fix (sbcl
1865 ;;; 0.9.2.6) led to lots of spurious optimization notes. So the bug stil
1866 ;;; exist and this test case serves as a reminder of the problem.
1867 ;;; --njf, 2005-07-05
1868 #+nil
1869 (compile 'nil
1870 (LAMBDA (B)
1871 (DECLARE (TYPE (INTEGER -2 14) B))
1872 (DECLARE (IGNORABLE B))
1873 (ASH (IMAGPART B) 57)))
1875 ;;; bug reported by Eduardo Mu\~noz
1876 (multiple-value-bind (fun warnings failure)
1877 (compile nil '(lambda (struct first)
1878 (declare (optimize speed))
1879 (let* ((nodes (nodes struct))
1880 (bars (bars struct))
1881 (length (length nodes))
1882 (new (make-array length :fill-pointer 0)))
1883 (vector-push first new)
1884 (loop with i fixnum = 0
1885 for newl fixnum = (length new)
1886 while (< newl length) do
1887 (let ((oldl (length new)))
1888 (loop for j fixnum from i below newl do
1889 (dolist (n (node-neighbours (aref new j) bars))
1890 (unless (find n new)
1891 (vector-push n new))))
1892 (setq i oldl)))
1893 new)))
1894 (declare (ignore fun warnings failure))
1895 (assert (not failure)))
1897 ;;; bug #389: "0.0 can't be converted to type NIL." (Brian Rowe
1898 ;;; sbcl-devel)
1899 (compile nil '(lambda (x y a b c)
1900 (- y (* (signum x) (sqrt (abs (- (* b x) c)))))))
1902 ;;; Type inference from CHECK-TYPE
1903 (let ((count0 0) (count1 0))
1904 (handler-bind ((sb-ext:compiler-note (lambda (c) (incf count0))))
1905 (compile nil '(lambda (x)
1906 (declare (optimize (speed 3)))
1907 (1+ x))))
1908 ;; forced-to-do GENERIC-+, etc, possible word -> bignum conversion note
1909 (assert (> count0 1))
1910 (handler-bind ((sb-ext:compiler-note (lambda (c) (incf count1))))
1911 (compile nil '(lambda (x)
1912 (declare (optimize (speed 3)))
1913 (check-type x fixnum)
1914 (1+ x))))
1915 ;; Only the posssible word -> bignum conversion note
1916 (assert (= count1 1)))
1918 ;;; Up to 0.9.8.22 x86-64 had broken return value handling in the
1919 ;;; %SET-SAP-REF-DOUBLE/SINGLE VOPs.
1920 (with-test (:name :sap-ref-float)
1921 (compile nil '(lambda (sap)
1922 (let ((x (setf (sb-vm::sap-ref-double sap 0) 1d0)))
1923 (1+ x))))
1924 (compile nil '(lambda (sap)
1925 (let ((x (setf (sb-vm::sap-ref-single sap 0) 1d0)))
1926 (1+ x)))))
1928 ;;; bug #399
1929 (with-test (:name :string-union-types)
1930 (compile nil '(lambda (x)
1931 (declare (type (or (simple-array character (6))
1932 (simple-array character (5))) x))
1933 (aref x 0))))
1935 ;;; MISC.623: missing functions for constant-folding
1936 (assert (eql 0
1937 (funcall
1938 (compile
1940 '(lambda ()
1941 (declare (optimize (space 2) (speed 0) (debug 2)
1942 (compilation-speed 3) (safety 0)))
1943 (loop for lv3 below 1
1944 count (minusp
1945 (loop for lv2 below 2
1946 count (logbitp 0
1947 (bit #*1001101001001
1948 (min 12 (max 0 lv3))))))))))))
1950 ;;; MISC.624: erronous AVER in x86's %LOGBITP VOPs
1951 (assert (eql 0
1952 (funcall
1953 (compile
1955 '(lambda (a)
1956 (declare (type (integer 21 28) a))
1957 (declare (optimize (compilation-speed 1) (safety 2)
1958 (speed 0) (debug 0) (space 1)))
1959 (let* ((v7 (flet ((%f3 (f3-1 f3-2)
1960 (loop for lv2 below 1
1961 count
1962 (logbitp 29
1963 (sbit #*10101111
1964 (min 7 (max 0 (eval '0))))))))
1965 (%f3 0 a))))
1966 0)))
1967 22)))
1969 ;;; MISC.626: bandaged AVER was still wrong
1970 (assert (eql -829253
1971 (funcall
1972 (compile
1974 '(lambda (a)
1975 (declare (type (integer -902970 2) a))
1976 (declare (optimize (space 2) (debug 0) (compilation-speed 1)
1977 (speed 0) (safety 3)))
1978 (prog2 (if (logbitp 30 a) 0 (block b3 0)) a)))
1979 -829253)))
1981 ;; MISC.628: constant-folding %LOGBITP was buggy
1982 (assert (eql t
1983 (funcall
1984 (compile
1986 '(lambda ()
1987 (declare (optimize (safety 3) (space 3) (compilation-speed 3)
1988 (speed 0) (debug 1)))
1989 (not (not (logbitp 0 (floor 2147483651 (min -23 0))))))))))
1991 ;; mistyping found by random-tester
1992 (assert (zerop
1993 (funcall
1994 (compile
1996 '(lambda ()
1997 (declare (optimize (speed 1) (debug 0)
1998 (space 2) (safety 0) (compilation-speed 0)))
1999 (unwind-protect 0
2000 (* (/ (multiple-value-prog1 -29457482 -5602513511) 1))))))))
2002 ;; aggressive constant folding (bug #400)
2003 (assert
2004 (eq t (funcall (compile nil '(lambda () (or t (the integer (/ 1 0))))))))
2006 (with-test (:name (:compiler :constraint-propagation :var-eql-to-non-var-1))
2007 (assert
2008 (handler-case
2009 (compile nil '(lambda (x y)
2010 (when (eql x (length y))
2011 (locally
2012 (declare (optimize (speed 3)))
2013 (1+ x)))))
2014 (compiler-note () (error "The code is not optimized.")))))
2016 (with-test (:name (:compiler :constraint-propagation :var-eql-to-non-var-2))
2017 (assert
2018 (handler-case
2019 (compile nil '(lambda (x y)
2020 (when (eql (length y) x)
2021 (locally
2022 (declare (optimize (speed 3)))
2023 (1+ x)))))
2024 (compiler-note () (error "The code is not optimized.")))))
2026 (with-test (:name (:compiler :constraint-propagation :float-bounds-1))
2027 (handler-case
2028 (compile nil '(lambda (x)
2029 (declare (type (single-float * (3.0)) x))
2030 (when (<= x 2.0)
2031 (when (<= 2.0 x)
2032 x))))
2033 (compiler-note () (error "Deleted reachable code."))))
2035 (with-test (:name (:compiler :constraint-propagation :float-bounds-2))
2036 (catch :note
2037 (handler-case
2038 (compile nil '(lambda (x)
2039 (declare (type single-float x))
2040 (when (< 1.0 x)
2041 (when (<= x 1.0)
2042 (error "This is unreachable.")))))
2043 (compiler-note () (throw :note nil)))
2044 (error "Unreachable code undetected.")))
2046 (with-test (:name (:compiler :constraint-propagation :var-eql-to-var-1))
2047 (catch :note
2048 (handler-case
2049 (compile nil '(lambda (x y)
2050 (when (typep y 'fixnum)
2051 (when (eql x y)
2052 (unless (typep x 'fixnum)
2053 (error "This is unreachable"))
2054 (setq y nil)))))
2055 (compiler-note () (throw :note nil)))
2056 (error "Unreachable code undetected.")))
2058 (with-test (:name (:compiler :constraint-propagation :var-eql-to-var-2))
2059 (catch :note
2060 (handler-case
2061 (compile nil '(lambda (x y)
2062 (when (typep y 'fixnum)
2063 (when (eql y x)
2064 (unless (typep x 'fixnum)
2065 (error "This is unreachable"))
2066 (setq y nil)))))
2067 (compiler-note () (throw :note nil)))
2068 (error "Unreachable code undetected.")))
2070 ;; Reported by John Wiseman, sbcl-devel
2071 ;; Subject: [Sbcl-devel] float type derivation bug?
2072 ;; Date: Tue, 4 Apr 2006 15:28:15 -0700
2073 (with-test (:name (:type-derivation :float-bounds))
2074 (compile nil '(lambda (bits)
2075 (let* ((s (if (= (ash bits -31) 0) 1 -1))
2076 (e (logand (ash bits -23) #xff))
2077 (m (if (= e 0)
2078 (ash (logand bits #x7fffff) 1)
2079 (logior (logand bits #x7fffff) #x800000))))
2080 (float (* s m (expt 2 (- e 150))))))))
2082 ;; Reported by James Knight
2083 ;; Subject: [Sbcl-devel] AVER: "(EQ (SB-NAME (SC-SB (TN-SC TN))) 'REGISTERS)"
2084 ;; Date: Fri, 24 Mar 2006 19:30:00 -0500
2085 (with-test (:name :logbitp-vop)
2086 (compile nil
2087 '(lambda (days shift)
2088 (declare (type fixnum shift days))
2089 (let* ((result 0)
2090 (canonicalized-shift (+ shift 1))
2091 (first-wrapping-day (- 1 canonicalized-shift)))
2092 (declare (type fixnum result))
2093 (dotimes (source-day 7)
2094 (declare (type (integer 0 6) source-day))
2095 (when (logbitp source-day days)
2096 (setf result
2097 (logior result
2098 (the fixnum
2099 (if (< source-day first-wrapping-day)
2100 (+ source-day canonicalized-shift)
2101 (- (+ source-day
2102 canonicalized-shift) 7)))))))
2103 result))))
2105 ;;; MISC.637: incorrect delaying of conversion of optional entries
2106 ;;; with hairy constant defaults
2107 (let ((f '(lambda ()
2108 (labels ((%f11 (f11-2 &key key1)
2109 (labels ((%f8 (f8-2 &optional (f8-5 (if nil (return-from %f11 0) 0)))
2110 :bad1))
2111 (%f8 (%f8 0)))
2112 :bad2))
2113 :good))))
2114 (assert (eq (funcall (compile nil f)) :good)))
2116 ;;; MISC.555: new reference to an already-optimized local function
2117 (let* ((l '(lambda (p1)
2118 (declare (optimize (speed 1) (safety 2) (debug 2) (space 0)) (type keyword p1))
2119 (keywordp p1)))
2120 (f (compile nil l)))
2121 (assert (funcall f :good))
2122 (assert (nth-value 1 (ignore-errors (funcall f 42)))))
2124 ;;; Check that the compiler doesn't munge *RANDOM-STATE*.
2125 (let* ((state (make-random-state))
2126 (*random-state* (make-random-state state))
2127 (a (random most-positive-fixnum)))
2128 (setf *random-state* state)
2129 (compile nil `(lambda (x a)
2130 (declare (single-float x)
2131 (type (simple-array double-float) a))
2132 (+ (loop for i across a
2133 summing i)
2134 x)))
2135 (assert (= a (random most-positive-fixnum))))
2137 ;;; MISC.641: LET-conversion after physical environment analysis lost NLX-INFOs
2138 (let ((form '(lambda ()
2139 (declare (optimize (speed 1) (space 0) (debug 2)
2140 (compilation-speed 0) (safety 1)))
2141 (flet ((%f3 (f3-1 &key (key1 (count (floor 0 (min -74 0)) #())))
2143 (apply #'%f3 0 nil)))))
2144 (assert (zerop (funcall (compile nil form)))))
2146 ;;; size mismatch: #<SB-VM::EA :DWORD base=#<SB-C:TN t1[RDX]> disp=1> is a :DWORD and #<SB-C:TN t2[RAX]> is a :QWORD. on x86-64
2147 (compile nil '(lambda ()
2148 (let ((x (make-array '(1) :element-type '(signed-byte 32))))
2149 (setf (aref x 0) 1))))
2151 ;;; step instrumentation confusing the compiler, reported by Faré
2152 (handler-bind ((warning #'error))
2153 (compile nil '(lambda ()
2154 (declare (optimize (debug 2))) ; not debug 3!
2155 (let ((val "foobar"))
2156 (map-into (make-array (list (length val))
2157 :element-type '(unsigned-byte 8))
2158 #'char-code val)))))
2160 ;;; overconfident primitive type computation leading to bogus type
2161 ;;; checking.
2162 (let* ((form1 '(lambda (x)
2163 (declare (type (and condition function) x))
2165 (fun1 (compile nil form1))
2166 (form2 '(lambda (x)
2167 (declare (type (and standard-object function) x))
2169 (fun2 (compile nil form2)))
2170 (assert (raises-error? (funcall fun1 (make-condition 'error))))
2171 (assert (raises-error? (funcall fun1 fun1)))
2172 (assert (raises-error? (funcall fun2 fun2)))
2173 (assert (eq (funcall fun2 #'print-object) #'print-object)))
2175 ;;; LET* + VALUES declaration: while the declaration is a non-standard
2176 ;;; and possibly a non-conforming extension, as long as we do support
2177 ;;; it, we might as well get it right.
2179 ;;; Bug reported by Kaersten Poeck on sbcl-devel 20061023.
2180 (compile nil '(lambda () (let* () (declare (values list)))))
2183 ;;; test for some problems with too large immediates in x86-64 modular
2184 ;;; arithmetic vops
2185 (compile nil '(lambda (x) (declare (fixnum x))
2186 (logand most-positive-fixnum (logxor x most-positive-fixnum))))
2188 (compile nil '(lambda (x) (declare (fixnum x))
2189 (logand most-positive-fixnum (+ x most-positive-fixnum))))
2191 (compile nil '(lambda (x) (declare (fixnum x))
2192 (logand most-positive-fixnum (* x most-positive-fixnum))))
2194 ;;; bug 256.b
2195 (assert (let (warned-p)
2196 (handler-bind ((warning (lambda (w) (setf warned-p t))))
2197 (compile nil
2198 '(lambda (x)
2199 (list (let ((y (the real x)))
2200 (unless (floatp y) (error ""))
2202 (integer-length x)))))
2203 warned-p))
2205 ;; Dead / in safe code
2206 (with-test (:name :safe-dead-/)
2207 (assert (eq :error
2208 (handler-case
2209 (funcall (compile nil
2210 '(lambda (x y)
2211 (declare (optimize (safety 3)))
2212 (/ x y)
2213 (+ x y)))
2216 (division-by-zero ()
2217 :error)))))
2219 ;;; Dead unbound variable (bug 412)
2220 (with-test (:name :dead-unbound)
2221 (assert (eq :error
2222 (handler-case
2223 (funcall (compile nil
2224 '(lambda ()
2225 #:unbound
2226 42)))
2227 (unbound-variable ()
2228 :error)))))
2230 ;;; No compiler notes from compiling SUBSEQ SIMPLE-VECTOR.
2231 (handler-bind ((sb-ext:compiler-note 'error))
2232 (assert
2233 (equalp #(2 3)
2234 (funcall (compile nil `(lambda (s p e)
2235 (declare (optimize speed)
2236 (simple-vector s))
2237 (subseq s p e)))
2238 (vector 1 2 3 4)
2240 3))))
2242 ;;; No compiler notes from compiling COPY-SEQ SIMPLE-VECTOR.
2243 (handler-bind ((sb-ext:compiler-note 'error))
2244 (assert
2245 (equalp #(1 2 3 4)
2246 (funcall (compile nil `(lambda (s)
2247 (declare (optimize speed)
2248 (simple-vector s))
2249 (copy-seq s)))
2250 (vector 1 2 3 4)))))
2252 ;;; bug in adding DATA-VECTOR-REF-WITH-OFFSET to x86-64
2253 (assert (not (mismatch #(1.0f0 2.0f0) (make-array 2 :element-type 'single-float :initial-contents (list 1.0f0 2.0f0)))))
2255 ;;; bug in interval-arithmetic used by the compiler: needless attempt to coerce too
2256 ;;; large bignums to floats
2257 (dolist (op '(* / + -))
2258 (let ((fun (compile
2260 `(lambda (x)
2261 (declare (type (integer 0 #.(* 2 (truncate most-positive-double-float))) x))
2262 (,op 0.0d0 x)))))
2263 (loop repeat 10
2264 do (let ((arg (random (truncate most-positive-double-float))))
2265 (assert (eql (funcall fun arg)
2266 (funcall op 0.0d0 arg)))))))
2268 (with-test (:name :high-debug-known-function-inlining)
2269 (let ((fun (compile nil
2270 '(lambda ()
2271 (declare (optimize (debug 3)) (inline append))
2272 (let ((fun (lambda (body)
2273 (append
2274 (first body)
2275 nil))))
2276 (funcall fun
2277 '((foo (bar)))))))))
2278 (funcall fun)))
2280 (with-test (:name :high-debug-known-function-transform-with-optional-arguments)
2281 (compile nil '(lambda (x y)
2282 (declare (optimize sb-c::preserve-single-use-debug-variables))
2283 (if (block nil
2284 (some-unknown-function
2285 (lambda ()
2286 (return (member x y))))
2289 (error "~a" y)))))