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0.8.16.17
[sbcl/simd.git] / tests / compiler.pure.lisp
blob36741f4c826a20a89f47bc437ac21d9d55866633
1 ;;;; various compiler tests without side effects
2
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.
13
14 (cl:in-package :cl-user)
15
16 ;;; Exercise a compiler bug (by crashing the compiler).
17 ;;;
18 ;;; This test code is from Douglas Crosher's simplified TICKLE-BUG
19 ;;; (2000-09-06 on cmucl-imp).
20 ;;;
21 ;;; The bug was fixed by Douglas Crosher's patch, massaged for SBCL by
22 ;;; Martin Atzmueller (2000-09-13 on sbcl-devel).
23 (funcall (compile nil
24 '(lambda ()
25 (labels ((fun1 ()
26 (fun2))
27 (fun2 ()
28 (when nil
29 (tagbody
30 tag
31 (fun2)
32 (go tag)))
33 (when nil
34 (tagbody
35 tag
36 (fun1)
37 (go tag)))))
38
39 (fun1)
40 nil))))
41
42 ;;; Exercise a compiler bug (by crashing the compiler).
43 ;;;
44 ;;; Tim Moore gave a patch for this bug in CMU CL 2000-05-24 on
45 ;;; cmucl-imp, and Martin Atzmueller applied it to SBCL.
46 (funcall (compile nil
47 '(lambda (x)
48 (or (integerp x)
49 (block used-by-some-y?
50 (flet ((frob (stk)
51 (dolist (y stk)
52 (unless (rejected? y)
53 (return-from used-by-some-y? t)))))
54 (declare (inline frob))
55 (frob (rstk x))
56 (frob (mrstk x)))
57 nil))))
58 13)
59
60 ;;; bug 112, reported by Martin Atzmueller 2001-06-25 (originally
61 ;;; from Bruno Haible in CMU CL bugs collection), fixed by
62 ;;; Alexey Dejneka 2002-01-27
63 (assert (= 1 ; (used to give 0 under bug 112)
64 (let ((x 0))
65 (declare (special x))
66 (let ((x 1))
67 (let ((y x))
68 (declare (special x)) y)))))
69 (assert (= 1 ; (used to give 1 even under bug 112, still works after fix)
70 (let ((x 0))
71 (declare (special x))
72 (let ((x 1))
73 (let ((y x) (x 5))
74 (declare (special x)) y)))))
75
76 ;;; another LET-related bug fixed by Alexey Dejneka at the same
77 ;;; time as bug 112
78 (multiple-value-bind (fun warnings-p failure-p)
79 ;; should complain about duplicate variable names in LET binding
80 (compile nil
81 '(lambda ()
82 (let (x
83 (x 1))
84 (list x))))
85 (declare (ignore warnings-p))
86 (assert (functionp fun))
87 (assert failure-p))
88
89 ;;; bug 169 (reported by Alexey Dejneka 2002-05-12, fixed by David
90 ;;; Lichteblau 2002-05-21)
91 (progn
92 (multiple-value-bind (fun warnings-p failure-p)
93 (compile nil
94 ;; Compiling this code should cause a STYLE-WARNING
95 ;; about *X* looking like a special variable but not
96 ;; being one.
97 '(lambda (n)
98 (let ((*x* n))
99 (funcall (symbol-function 'x-getter))
100 (print *x*))))
101 (assert (functionp fun))
102 (assert warnings-p)
103 (assert (not failure-p)))
104 (multiple-value-bind (fun warnings-p failure-p)
105 (compile nil
106 ;; Compiling this code should not cause a warning
107 ;; (because the DECLARE turns *X* into a special
108 ;; variable as its name suggests it should be).
109 '(lambda (n)
110 (let ((*x* n))
111 (declare (special *x*))
112 (funcall (symbol-function 'x-getter))
113 (print *x*))))
114 (assert (functionp fun))
115 (assert (not warnings-p))
116 (assert (not failure-p))))
117
118 ;;; a bug in 0.7.4.11
119 (dolist (i '(a b 1 2 "x" "y"))
120 ;; In sbcl-0.7.4.11, the compiler tried to source-transform the
121 ;; TYPEP here but got confused and died, doing
122 ;; (ASSOC '(AND INTEGERP (SATISFIES PLUSP)))
123 ;; *BACKEND-TYPE-PREDICATES*
124 ;; :TEST #'TYPE=)
125 ;; and blowing up because TYPE= tried to call PLUSP on the
126 ;; characters of the MEMBER-TYPE representing STANDARD-CHAR.
127 (when (typep i '(and integer (satisfies oddp)))
128 (print i)))
129 (dotimes (i 14)
130 (when (typep i '(and integer (satisfies oddp)))
131 (print i)))
132
133 ;;; bug 156 (reported by APD sbcl-devel 2002-04-12, fixed by CSR patch
134 ;;; sbcl-devel 2002-07-02): FUNCTION-LAMBDA-EXPRESSION of
135 ;;; interactively-compiled functions was broken by sleaziness and
136 ;;; confusion in the assault on 0.7.0, so this expression used to
137 ;;; signal TYPE-ERROR when it found NIL instead of a DEBUG-SOURCE.
138 (eval '(function-lambda-expression #'(lambda (x) x)))
139
140 ;;; bug caught and fixed by Raymond Toy cmucl-imp 2002-07-10: &REST
141 ;;; variable is not optional.
142 (assert (null (ignore-errors (eval '(funcall (lambda (&rest) 12))))))
143
144 ;;; on the PPC, we got the magic numbers in undefined_tramp wrong for
145 ;;; a while; fixed by CSR 2002-07-18
146 (multiple-value-bind (value error)
147 (ignore-errors (some-undefined-function))
148 (assert (null value))
149 (assert (eq (cell-error-name error) 'some-undefined-function)))
150
151 ;;; Non-symbols shouldn't be allowed as VARs in lambda lists. (Where VAR
152 ;;; is a variable name, as in section 3.4.1 of the ANSI spec.)
153 (assert (null (ignore-errors (eval '(lambda ("foo") 12)))))
154 (assert (ignore-errors (eval '(lambda (foo) 12))))
155 (assert (null (ignore-errors (eval '(lambda (&optional 12) "foo")))))
156 (assert (ignore-errors (eval '(lambda (&optional twelve) "foo"))))
157 (assert (null (ignore-errors (eval '(lambda (&optional (12 12)) "foo")))))
158 (assert (ignore-errors (eval '(lambda (&optional (twelve 12)) "foo"))))
159 (assert (null (ignore-errors (eval '(lambda (&key #\c) "foo")))))
160 (assert (ignore-errors (eval '(lambda (&key c) "foo"))))
161 (assert (null (ignore-errors (eval '(lambda (&key (#\c #\c)) "foo")))))
162 (assert (ignore-errors (eval '(lambda (&key (c #\c)) "foo"))))
163 (assert (null (ignore-errors (eval '(lambda (&key ((#\c #\c) #\c)) "foo")))))
164 (assert (ignore-errors (eval '(lambda (&key ((:c cbyanyothername) #\c)) "foo"))))
165
166 ;;; As reported and fixed by Antonio Martinez-Shotton sbcl-devel
167 ;;; 2002-09-12, this failed in sbcl-0.7.7.23. (with failed AVER
168 ;;; "(LEAF-HAS-SOURCE-NAME-P LEAF)")
169 (assert (= (funcall (eval `(lambda (x) (funcall ,(lambda (y) (+ y 3)) x))) 14)
170 17))
171
172 ;;; bug 181: bad type specifier dropped compiler into debugger
173 (assert (list (compile nil '(lambda (x)
174 (declare (type (0) x))
175 x))))
176
177 (let ((f (compile nil '(lambda (x)
178 (make-array 1 :element-type '(0))))))
179 (assert (null (ignore-errors (funcall f)))))
180
181 ;;; the following functions must not be flushable
182 (dolist (form '((make-sequence 'fixnum 10)
183 (concatenate 'fixnum nil)
184 (map 'fixnum #'identity nil)
185 (merge 'fixnum nil nil #'<)))
186 (assert (not (eval `(locally (declare (optimize (safety 0)))
187 (ignore-errors (progn ,form t)))))))
188
189 (dolist (form '((values-list (car (list '(1 . 2))))
190 (fboundp '(set bet))
191 (atan #c(1 1) (car (list #c(2 2))))
192 (nthcdr (car (list (floor (cos 3)))) '(1 2 3 4 5))
193 (nthcdr (car (list 5)) '(1 2 . 3))))
194 (assert (not (eval `(locally (declare (optimize (safety 3)))
195 (ignore-errors (progn ,form t)))))))
196
197 ;;; a bug in the MAP deftransform caused non-VECTOR array specifiers
198 ;;; to cause errors in the compiler. Fixed by CSR in 0.7.8.10
199 (assert (list (compile nil '(lambda (x) (map 'simple-array 'identity x)))))
200
201 ;;; bug 129: insufficient syntax checking in MACROLET
202 (multiple-value-bind (result error)
203 (ignore-errors (eval '(macrolet ((foo x `',x)) (foo 1 2 3))))
204 (assert (null result))
205 (assert (typep error 'error)))
206
207 ;;; bug 124: environment of MACROLET-introduced macro expanders
208 (assert (equal
209 (macrolet ((mext (x) `(cons :mext ,x)))
210 (macrolet ((mint (y) `'(:mint ,(mext y))))
211 (list (mext '(1 2))
212 (mint (1 2)))))
213 '((:MEXT 1 2) (:MINT (:MEXT 1 2)))))
214
215 ;;; bug 48c: SYMBOL-MACROLET should signal PROGRAM-ERROR if introduced
216 ;;; symbol is declared to be SPECIAL
217 (multiple-value-bind (result error)
218 (ignore-errors (funcall (lambda ()
219 (symbol-macrolet ((s '(1 2)))
220 (declare (special s))
221 s))))
222 (assert (null result))
223 (assert (typep error 'program-error)))
224
225 ;;; ECASE should treat a bare T as a literal key
226 (multiple-value-bind (result error)
227 (ignore-errors (ecase 1 (t 0)))
228 (assert (null result))
229 (assert (typep error 'type-error)))
230
231 (multiple-value-bind (result error)
232 (ignore-errors (ecase 1 (t 0) (1 2)))
233 (assert (eql result 2))
234 (assert (null error)))
235
236 ;;; FTYPE should accept any functional type specifier
237 (compile nil '(lambda (x) (declare (ftype function f)) (f x)))
238
239 ;;; FUNCALL of special operators and macros should signal an
240 ;;; UNDEFINED-FUNCTION error
241 (multiple-value-bind (result error)
242 (ignore-errors (funcall 'quote 1))
243 (assert (null result))
244 (assert (typep error 'undefined-function))
245 (assert (eq (cell-error-name error) 'quote)))
246 (multiple-value-bind (result error)
247 (ignore-errors (funcall 'and 1))
248 (assert (null result))
249 (assert (typep error 'undefined-function))
250 (assert (eq (cell-error-name error) 'and)))
251
252 ;;; PSETQ should behave when given complex symbol-macro arguments
253 (multiple-value-bind (sequence index)
254 (symbol-macrolet ((x (aref a (incf i)))
255 (y (aref a (incf i))))
256 (let ((a (copy-seq #(0 1 2 3 4 5 6 7 8 9)))
257 (i 0))
258 (psetq x (aref a (incf i))
259 y (aref a (incf i)))
260 (values a i)))
261 (assert (equalp sequence #(0 2 2 4 4 5 6 7 8 9)))
262 (assert (= index 4)))
263
264 (multiple-value-bind (result error)
265 (ignore-errors
266 (let ((x (list 1 2)))
267 (psetq (car x) 3)
268 x))
269 (assert (null result))
270 (assert (typep error 'program-error)))
271
272 ;;; COPY-SEQ should work on known-complex vectors:
273 (assert (equalp #(1)
274 (let ((v (make-array 0 :fill-pointer 0)))
275 (vector-push-extend 1 v)
276 (copy-seq v))))
277
278 ;;; to support INLINE functions inside MACROLET, it is necessary for
279 ;;; FUNCTION-LAMBDA-EXPRESSION to return a proper lambda expression in
280 ;;; certain circumstances, one of which is when compile is called from
281 ;;; top-level.
282 (assert (equal
283 (function-lambda-expression
284 (compile nil '(lambda (x) (block nil (print x)))))
285 '(lambda (x) (block nil (print x)))))
286
287 ;;; bug 62: too cautious type inference in a loop
288 (assert (nth-value
289 2
290 (compile nil
291 '(lambda (a)
292 (declare (optimize speed (safety 0)))
293 (typecase a
294 (array (loop (print (car a)))))))))
295
296 ;;; Bug reported by Robert E. Brown sbcl-devel 2003-02-02: compiler
297 ;;; failure
298 (compile nil
299 '(lambda (key tree collect-path-p)
300 (let ((lessp (key-lessp tree))
301 (equalp (key-equalp tree)))
302 (declare (type (function (t t) boolean) lessp equalp))
303 (let ((path '(nil)))
304 (loop for node = (root-node tree)
305 then (if (funcall lessp key (node-key node))
306 (left-child node)
307 (right-child node))
308 when (null node)
309 do (return (values nil nil nil))
310 do (when collect-path-p
311 (push node path))
312 (when (funcall equalp key (node-key node))
313 (return (values node path t))))))))
314
315 ;;; CONSTANTLY should return a side-effect-free function (bug caught
316 ;;; by Paul Dietz' test suite)
317 (let ((i 0))
318 (let ((fn (constantly (progn (incf i) 1))))
319 (assert (= i 1))
320 (assert (= (funcall fn) 1))
321 (assert (= i 1))
322 (assert (= (funcall fn) 1))
323 (assert (= i 1))))
324
325 ;;; Bug 240 reported by tonyms on #lisp IRC 2003-02-25 (modified version)
326 (loop for (fun warns-p) in
327 '(((lambda (&optional *x*) *x*) t)
328 ((lambda (&optional *x* &rest y) (values *x* y)) t)
329 ((lambda (&optional *print-length*) (values *print-length*)) nil)
330 ((lambda (&optional *print-length* &rest y) (values *print-length* y)) nil)
331 ((lambda (&optional *x*) (declare (special *x*)) (values *x*)) nil)
332 ((lambda (&optional *x* &rest y) (declare (special *x*)) (values *x* y)) nil))
333 for real-warns-p = (nth-value 1 (compile nil fun))
334 do (assert (eq warns-p real-warns-p)))
335
336 ;;; Bug reported by Gilbert Baumann on #lisp IRC 2003-03-26
337 (assert (equal (funcall (eval '(lambda (x &optional (y (pop x))) (list x y)))
338 '(1 2))
339 '((2) 1)))
340
341 ;;; Bug reported by Paul Dietz on cmucl-imp and fixed by Gerd
342 ;;; Moellmann: CONVERT-MORE-CALL failed on the following call
343 (assert (eq (eval '((lambda (&key) 'u) :allow-other-keys nil)) 'u))
344
345 (raises-error? (multiple-value-bind (a b c)
346 (eval '(truncate 3 4))
347 (declare (integer c))
348 (list a b c))
349 type-error)
350
351 (assert (equal (multiple-value-list (the (values &rest integer)
352 (eval '(values 3))))
353 '(3)))
354
355 ;;; Bug relating to confused representation for the wild function
356 ;;; type:
357 (assert (null (funcall (eval '(lambda () (multiple-value-list (values)))))))
358
359 ;;; &ENVIRONMENT parameter should be bound first (from Paul Dietz'
360 ;;; test suite)
361 (assert (eql (macrolet ((foo () 1))
362 (macrolet ((%f (&optional (x (macroexpand '(foo) env)) &environment env)
363 x))
364 (%f)))
365 1))
366
367 ;;; MACROLET should check for duplicated names
368 (dolist (ll '((x (z x))
369 (x y &optional z x w)
370 (x y &optional z z)
371 (x &rest x)
372 (x &rest (y x))
373 (x &optional (y nil x))
374 (x &optional (y nil y))
375 (x &key x)
376 (x &key (y nil x))
377 (&key (y nil z) (z nil w))
378 (&whole x &optional x)
379 (&environment x &whole x)))
380 (assert (nth-value 2
381 (handler-case
382 (compile nil
383 `(lambda ()
384 (macrolet ((foo ,ll nil)
385 (bar (&environment env)
386 `',(macro-function 'foo env)))
387 (bar))))
388 (error (c)
389 (values nil t t))))))
390
391 (assert (typep (eval `(the arithmetic-error
392 ',(make-condition 'arithmetic-error)))
393 'arithmetic-error))
394
395 (assert (not (nth-value
396 2 (compile nil '(lambda ()
397 (make-array nil :initial-element 11))))))
398
399 (assert (raises-error? (funcall (eval #'open) "assertoid.lisp"
400 :external-format '#:nonsense)))
401 (assert (raises-error? (funcall (eval #'load) "assertoid.lisp"
402 :external-format '#:nonsense)))
403
404 (assert (= (the (values integer symbol) (values 1 'foo 13)) 1))
405
406 (let ((f (compile nil
407 '(lambda (v)
408 (declare (optimize (safety 3)))
409 (list (the fixnum (the (real 0) (eval v))))))))
410 (assert (raises-error? (funcall f 0.1) type-error))
411 (assert (raises-error? (funcall f -1) type-error)))
412
413 ;;; the implicit block does not enclose lambda list
414 (let ((forms '((defmacro #1=#:foo (&optional (x (return-from #1#))))
415 #+nil(macrolet ((#2=#:foo (&optional (x (return-from #2#))))))
416 (define-compiler-macro #3=#:foo (&optional (x (return-from #3#))))
417 (deftype #4=#:foo (&optional (x (return-from #4#))))
418 (define-setf-expander #5=#:foo (&optional (x (return-from #5#))))
419 (defsetf #6=#:foo (&optional (x (return-from #6#))) ()))))
420 (dolist (form forms)
421 (assert (nth-value 2 (compile nil `(lambda () ,form))))))
422
423 (assert (nth-value 2 (compile nil
424 '(lambda ()
425 (svref (make-array '(8 9) :adjustable t) 1)))))
426
427 ;;; CHAR= did not check types of its arguments (reported by Adam Warner)
428 (raises-error? (funcall (compile nil '(lambda (x y z) (char= x y z)))
429 #\a #\b nil)
430 type-error)
431 (raises-error? (funcall (compile nil
432 '(lambda (x y z)
433 (declare (optimize (speed 3) (safety 3)))
434 (char/= x y z)))
435 nil #\a #\a)
436 type-error)
437
438 ;;; Compiler lost return type of MAPCAR and friends
439 (dolist (fun '(mapcar mapc maplist mapl))
440 (assert (nth-value 2 (compile nil
441 `(lambda (x)
442 (1+ (,fun #'print x)))))))
443
444 (assert (nth-value 2 (compile nil
445 '(lambda ()
446 (declare (notinline mapcar))
447 (1+ (mapcar #'print '(1 2 3)))))))
448
449 ;;; bug found by Paul Dietz: (SETF AREF) for bit vectors with constant
450 ;;; index was effectless
451 (let ((f (compile nil '(lambda (a v)
452 (declare (type simple-bit-vector a) (type bit v))
453 (declare (optimize (speed 3) (safety 0)))
454 (setf (aref a 0) v)
455 a))))
456 (let ((y (make-array 2 :element-type 'bit :initial-element 0)))
457 (assert (equal y #*00))
458 (funcall f y 1)
459 (assert (equal y #*10))))
460
461 (handler-bind ((sb-ext:compiler-note #'error))
462 (compile nil '(lambda (x)
463 (declare (type (simple-array (simple-string 3) (5)) x))
464 (aref (aref x 0) 0))))
465
466 ;;; compiler failure
467 (let ((f (compile nil '(lambda (x) (typep x '(not (member 0d0)))))))
468 (assert (funcall f 1d0)))
469
470 (compile nil '(lambda (x)
471 (declare (double-float x))
472 (let ((y (* x pi)))
473 (atan y y))))
474
475 ;;; bogus optimization of BIT-NOT
476 (multiple-value-bind (result x)
477 (eval '(let ((x (eval #*1001)))
478 (declare (optimize (speed 2) (space 3))
479 (type (bit-vector) x))
480 (values (bit-not x nil) x)))
481 (assert (equal x #*1001))
482 (assert (equal result #*0110)))
483
484 ;;; the VECTOR type in CONCATENATE/MERGE/MAKE-SEQUENCE means (VECTOR T).
485 (handler-bind ((sb-ext:compiler-note #'error))
486 (assert (equalp (funcall
487 (compile
488 nil
489 '(lambda ()
490 (let ((x (make-sequence 'vector 10 :initial-element 'a)))
491 (setf (aref x 4) 'b)
492 x))))
493 #(a a a a b a a a a a))))
494
495 ;;; this is not a check for a bug, but rather a test of compiler
496 ;;; quality
497 (dolist (type '((integer 0 *) ; upper bound
498 (real (-1) *)
499 float ; class
500 (real * (-10)) ; lower bound
501 ))
502 (assert (nth-value
503 1 (compile nil
504 `(lambda (n)
505 (declare (optimize (speed 3) (compilation-speed 0)))
506 (loop for i from 1 to (the (integer -17 10) n) by 2
507 collect (when (> (random 10) 5)
508 (the ,type (- i 11)))))))))
509
510 ;;; bug 278b
511 ;;;
512 ;;; We suppose that INTEGER arithmetic cannot be efficient, and the
513 ;;; compiler has an optimized VOP for +; so this code should cause an
514 ;;; efficiency note.
515 (assert (eq (block nil
516 (handler-case
517 (compile nil '(lambda (i)
518 (declare (optimize speed))
519 (declare (type integer i))
520 (+ i 2)))
521 (sb-ext:compiler-note (c) (return :good))))
522 :good))
523
524 ;;; bug 277: IGNORE/IGNORABLE declarations should be acceptable for
525 ;;; symbol macros
526 (assert (not (nth-value 1 (compile nil '(lambda (u v)
527 (symbol-macrolet ((x u)
528 (y v))
529 (declare (ignore x)
530 (ignorable y))
531 (list u v)))))))
532
533 ;;; bug reported by Paul Dietz: wrong optimizer for (EXPT ... 0)
534 (loop for (x type) in
535 '((14 integer)
536 (14 rational)
537 (-14/3 (rational -8 11))
538 (3s0 short-float)
539 (4f0 single-float)
540 (5d0 double-float)
541 (6l0 long-float)
542 (14 real)
543 (13/2 real)
544 (2s0 real)
545 (2d0 real)
546 (#c(-3 4) (complex fixnum))
547 (#c(-3 4) (complex rational))
548 (#c(-3/7 4) (complex rational))
549 (#c(2s0 3s0) (complex short-float))
550 (#c(2f0 3f0) (complex single-float))
551 (#c(2d0 3d0) (complex double-float))
552 (#c(2l0 3l0) (complex long-float))
553 (#c(2d0 3s0) (complex float))
554 (#c(2 3f0) (complex real))
555 (#c(2 3d0) (complex real))
556 (#c(-3/7 4) (complex real))
557 (#c(-3/7 4) complex)
558 (#c(2 3l0) complex))
559 do (dolist (zero '(0 0s0 0f0 0d0 0l0))
560 (dolist (real-zero (list zero (- zero)))
561 (let* ((src `(lambda (x) (expt (the ,type x) ,real-zero)))
562 (fun (compile nil src))
563 (result (1+ (funcall (eval #'*) x real-zero))))
564 (assert (eql result (funcall fun x)))))))
565
566 ;;; (SIGNED-BYTE 1) [ returned from the logxor derive-type optimizer ]
567 ;;; wasn't recognized as a good type specifier.
568 (let ((fun (lambda (x y)
569 (declare (type (integer -1 0) x y) (optimize speed))
570 (logxor x y))))
571 (assert (= (funcall fun 0 0) 0))
572 (assert (= (funcall fun 0 -1) -1))
573 (assert (= (funcall fun -1 -1) 0)))
574
575 ;;; from PFD's torture test, triggering a bug in our effective address
576 ;;; treatment.
577 (compile
578 nil
579 `(lambda (a b)
580 (declare (type (integer 8 22337) b))
581 (logandc2
582 (logandc2
583 (* (logandc1 (max -29303 b) 4) b)
584 (abs (logorc1 (+ (logandc1 -11 b) 2607688420) -31153924)))
585 (logeqv (max a 0) b))))
586
587 ;;; Alpha floating point modes weren't being reset after an exception,
588 ;;; leading to an exception on the second compile, below.
589 (compile nil '(lambda (x y) (declare (type (double-float 0.0d0) x y)) (/ x y)))
590 (handler-case (/ 1.0 0.0)
591 ;; provoke an exception
592 (arithmetic-error ()))
593 (compile nil '(lambda (x y) (declare (type (double-float 0.0d0) x y)) (/ x y)))
594
595 ;;; bug reported by Paul Dietz: component last block does not have
596 ;;; start ctran
597 (compile nil
598 '(lambda ()
599 (declare (notinline + logand)
600 (optimize (speed 0)))
601 (LOGAND
602 (BLOCK B5
603 (FLET ((%F1 ()
604 (RETURN-FROM B5 -220)))
605 (LET ((V7 (%F1)))
606 (+ 359749 35728422))))
607 -24076)))
608
609 ;;; bug 294 reported by Paul Dietz: miscompilation of REM and MOD
610 (assert (= (funcall (compile nil `(lambda (b)
611 (declare (optimize (speed 3))
612 (type (integer 2 152044363) b))
613 (rem b (min -16 0))))
614 108251912)
615 8))
616
617 (assert (= (funcall (compile nil `(lambda (c)
618 (declare (optimize (speed 3))
619 (type (integer 23062188 149459656) c))
620 (mod c (min -2 0))))
621 95019853)
622 -1))
623
624 ;;; bug reported by Paul Dietz: block splitting inside FLUSH-DEAD-CODE
625 (compile nil
626 '(LAMBDA (A B C)
627 (BLOCK B6
628 (LOGEQV (REM C -6758)
629 (REM B (MAX 44 (RETURN-FROM B6 A)))))))
630
631 (compile nil '(lambda ()
632 (block nil
633 (flet ((foo (x y) (if (> x y) (print x) (print y))))
634 (foo 1 2)
635 (bar)
636 (foo (return 14) 2)))))
637
638 ;;; bug in Alpha backend: not enough sanity checking of arguments to
639 ;;; instructions
640 (assert (= (funcall (compile nil
641 '(lambda (x)
642 (declare (fixnum x))
643 (ash x -257)))
644 1024)
645 0))
646
647 ;;; bug found by WHN and pfdietz: compiler failure while referencing
648 ;;; an entry point inside a deleted lambda
649 (compile nil '(lambda ()
650 (let (r3533)
651 (flet ((bbfn ()
652 (setf r3533
653 (progn
654 (flet ((truly (fn bbd)
655 (let (r3534)
656 (let ((p3537 nil))
657 (unwind-protect
658 (multiple-value-prog1
659 (progn
660 (setf r3534
661 (progn
662 (bubf bbd t)
663 (flet ((c-3536 ()
664 (funcall fn)))
665 (cdec #'c-3536
666 (vector bbd))))))
667 (setf p3537 t))
668 (unless p3537
669 (error "j"))))
670 r3534))
671 (c (pd) (pdc pd)))
672 (let ((a (smock a))
673 (b (smock b))
674 (b (smock c)))))))))
675 (wum #'bbfn "hc3" (list)))
676 r3533)))
677 (compile nil '(lambda () (flet ((%f () (unwind-protect nil))) nil)))
678
679 ;;; the strength reduction of constant multiplication used (before
680 ;;; sbcl-0.8.4.x) to lie to the compiler. This meant that, under
681 ;;; certain circumstances, the compiler would derive that a perfectly
682 ;;; reasonable multiplication never returned, causing chaos. Fixed by
683 ;;; explicitly doing modular arithmetic, and relying on the backends
684 ;;; being smart.
685 (assert (= (funcall
686 (compile nil
687 '(lambda (x)
688 (declare (type (integer 178956970 178956970) x)
689 (optimize speed))
690 (* x 24)))
691 178956970)
692 4294967280))
693
694 ;;; bug in modular arithmetic and type specifiers
695 (assert (= (funcall (compile nil (lambda (x) (logand x x 0)))
696 -1)
697 0))
698
699 ;;; MISC.99 from Paul Dietz' random tester: FAST-ASH-MOD32-C VOP
700 ;;; produced wrong result for shift >=32 on X86
701 (assert (= 0 (funcall
702 (compile nil
703 '(lambda (a)
704 (declare (type (integer 4303063 101130078) a))
705 (mask-field (byte 18 2) (ash a 77))))
706 57132532)))
707
708 ;;; MISC.101 and MISC.103: FLUSH-DEST did not mark the USE's block for
709 ;;; type check regeneration
710 (assert (eql (funcall
711 (compile nil '(lambda (a c)
712 (declare (type (integer 185501219873 303014665162) a))
713 (declare (type (integer -160758 255724) c))
714 (declare (optimize (speed 3)))
715 (let ((v8
716 (- -554046873252388011622614991634432
717 (ignore-errors c)
718 (unwind-protect 2791485))))
719 (max (ignore-errors a)
720 (let ((v6 (- v8 (restart-case 980))))
721 (min v8 v6))))))
722 259448422916 173715)
723 259448422916))
724 (assert (eql (funcall
725 (compile nil '(lambda (a b)
726 (min -80
727 (abs
728 (ignore-errors
729 (+
730 (logeqv b
731 (block b6
732 (return-from b6
733 (load-time-value -6876935))))
734 (if (logbitp 1 a) b (setq a -1522022182249))))))))
735 -1802767029877 -12374959963)
736 -80))
737
738 ;;; various MISC.*, related to NODEs/LVARs with derived type NIL
739 (assert (eql (funcall (compile nil '(lambda (c)
740 (declare (type (integer -3924 1001809828) c))
741 (declare (optimize (speed 3)))
742 (min 47 (if (ldb-test (byte 2 14) c)
743 -570344431
744 (ignore-errors -732893970)))))
745 705347625)
746 -570344431))
747 (assert (eql (funcall
748 (compile nil '(lambda (b)
749 (declare (type (integer -1598566306 2941) b))
750 (declare (optimize (speed 3)))
751 (max -148949 (ignore-errors b))))
752 0)
753 0))
754 (assert (eql (funcall
755 (compile nil '(lambda (b c)
756 (declare (type (integer -4 -3) c))
757 (block b7
758 (flet ((%f1 (f1-1 f1-2 f1-3)
759 (if (logbitp 0 (return-from b7
760 (- -815145138 f1-2)))
761 (return-from b7 -2611670)
762 99345)))
763 (let ((v2 (%f1 -2464 (%f1 -1146 c c) -2)))
764 b)))))
765 2950453607 -4)
766 -815145134))
767 (assert (eql (funcall
768 (compile nil
769 '(lambda (b c)
770 (declare (type (integer -29742055786 23602182204) b))
771 (declare (type (integer -7409 -2075) c))
772 (declare (optimize (speed 3)))
773 (floor
774 (labels ((%f2 ()
775 (block b6
776 (ignore-errors (return-from b6
777 (if (= c 8) b 82674))))))
778 (%f2)))))
779 22992834060 -5833)
780 82674))
781 (assert (equal (multiple-value-list
782 (funcall
783 (compile nil '(lambda (a)
784 (declare (type (integer -944 -472) a))
785 (declare (optimize (speed 3)))
786 (round
787 (block b3
788 (return-from b3
789 (if (= 55957 a) -117 (ignore-errors
790 (return-from b3 a))))))))
791 -589))
792 '(-589 0)))
793
794 ;;; MISC.158
795 (assert (zerop (funcall
796 (compile nil
797 '(lambda (a b c)
798 (declare (type (integer 79828 2625480458) a))
799 (declare (type (integer -4363283 8171697) b))
800 (declare (type (integer -301 0) c))
801 (if (equal 6392154 (logxor a b))
802 1706
803 (let ((v5 (abs c)))
804 (logand v5
805 (logior (logandc2 c v5)
806 (common-lisp:handler-case
807 (ash a (min 36 22477)))))))))
808 100000 0 0)))
809
810 ;;; MISC.152, 153: deleted code and iteration var type inference
811 (assert (eql (funcall
812 (compile nil
813 '(lambda (a)
814 (block b5
815 (let ((v1 (let ((v8 (unwind-protect 9365)))
816 8862008)))
817 (*
818 (return-from b5
819 (labels ((%f11 (f11-1) f11-1))
820 (%f11 87246015)))
821 (return-from b5
822 (setq v1
823 (labels ((%f6 (f6-1 f6-2 f6-3) v1))
824 (dpb (unwind-protect a)
825 (byte 18 13)
826 (labels ((%f4 () 27322826))
827 (%f6 -2 -108626545 (%f4))))))))))))
828 -6)
829 87246015))
830
831 (assert (eql (funcall
832 (compile nil
833 '(lambda (a)
834 (if (logbitp 3
835 (case -2
836 ((-96879 -1035 -57680 -106404 -94516 -125088)
837 (unwind-protect 90309179))
838 ((-20811 -86901 -9368 -98520 -71594)
839 (let ((v9 (unwind-protect 136707)))
840 (block b3
841 (setq v9
842 (let ((v4 (return-from b3 v9)))
843 (- (ignore-errors (return-from b3 v4))))))))
844 (t -50)))
845 -20343
846 a)))
847 0)
848 -20343))
849
850 ;;; MISC.165
851 (assert (eql (funcall
852 (compile
853 nil
854 '(lambda (a b c)
855 (block b3
856 (flet ((%f15
857 (f15-1 f15-2 f15-3
858 &optional
859 (f15-4
860 (flet ((%f17
861 (f17-1 f17-2 f17-3
862 &optional (f17-4 185155520) (f17-5 c)
863 (f17-6 37))
864 c))
865 (%f17 -1046 a 1115306 (%f17 b -146330 422) -337817)))
866 (f15-5 a) (f15-6 -40))
867 (return-from b3 -16)))
868 (multiple-value-call #'%f15 (values -519354 a 121 c -1905))))))
869 0 0 -5)
870 -16))
871
872 ;;; MISC.172
873 (assert (eql (funcall
874 (compile
875 nil
876 '(lambda (a b c)
877 (declare (notinline list apply))
878 (declare (optimize (safety 3)))
879 (declare (optimize (speed 0)))
880 (declare (optimize (debug 0)))
881 (labels ((%f12 (f12-1 f12-2)
882 (labels ((%f2 (f2-1 f2-2)
883 (flet ((%f6 ()
884 (flet ((%f18
885 (f18-1
886 &optional (f18-2 a)
887 (f18-3 -207465075)
888 (f18-4 a))
889 (return-from %f12 b)))
890 (%f18 -3489553
891 -7
892 (%f18 (%f18 150 -64 f12-1)
893 (%f18 (%f18 -8531)
894 11410)
895 b)
896 56362666))))
897 (labels ((%f7
898 (f7-1 f7-2
899 &optional (f7-3 (%f6)))
900 7767415))
901 f12-1))))
902 (%f2 b -36582571))))
903 (apply #'%f12 (list 774 -4413)))))
904 0 1 2)
905 774))
906
907 ;;; MISC.173
908 (assert (eql (funcall
909 (compile
910 nil
911 '(lambda (a b c)
912 (declare (notinline values))
913 (declare (optimize (safety 3)))
914 (declare (optimize (speed 0)))
915 (declare (optimize (debug 0)))
916 (flet ((%f11
917 (f11-1 f11-2
918 &optional (f11-3 c) (f11-4 7947114)
919 (f11-5
920 (flet ((%f3 (f3-1 &optional (f3-2 b) (f3-3 5529))
921 8134))
922 (multiple-value-call #'%f3
923 (values (%f3 -30637724 b) c)))))
924 (setq c 555910)))
925 (if (and nil (%f11 a a))
926 (if (%f11 a 421778 4030 1)
927 (labels ((%f7
928 (f7-1 f7-2
929 &optional
930 (f7-3
931 (%f11 -79192293
932 (%f11 c a c -4 214720)
933 b
934 b
935 (%f11 b 985)))
936 (f7-4 a))
937 b))
938 (%f11 c b -25644))
939 54)
940 -32326608))))
941 1 2 3)
942 -32326608))
943
944 ;;; MISC.177, 182: IR2 copy propagation missed a hidden write to a
945 ;;; local lambda argument
946 (assert
947 (equal
948 (funcall
949 (compile nil
950 '(lambda (a b c)
951 (declare (type (integer 804561 7640697) a))
952 (declare (type (integer -1 10441401) b))
953 (declare (type (integer -864634669 55189745) c))
954 (declare (ignorable a b c))
955 (declare (optimize (speed 3)))
956 (declare (optimize (safety 1)))
957 (declare (optimize (debug 1)))
958 (flet ((%f11
959 (f11-1 f11-2)
960 (labels ((%f4 () (round 200048 (max 99 c))))
961 (logand
962 f11-1
963 (labels ((%f3 (f3-1) -162967612))
964 (%f3 (let* ((v8 (%f4)))
965 (setq f11-1 (%f4)))))))))
966 (%f11 -120429363 (%f11 62362 b)))))
967 6714367 9645616 -637681868)
968 -264223548))
969
970 ;;; Bug reported by Paul F. Dietz caused by derive type loss in VALUE
971 ;;; transform
972 (assert (equal (multiple-value-list
973 (funcall
974 (compile nil '(lambda ()
975 (declare (optimize (speed 1) (space 0) (safety 3) (debug 3) (compilation-speed 1)))
976 (ceiling
977 (ceiling
978 (flet ((%f16 () 0)) (%f16))))))))
979 '(0 0)))
980
981 ;;; MISC.184
982 (assert (zerop
983 (funcall
984 (compile
985 nil
986 '(lambda (a b c)
987 (declare (type (integer 867934833 3293695878) a))
988 (declare (type (integer -82111 1776797) b))
989 (declare (type (integer -1432413516 54121964) c))
990 (declare (optimize (speed 3)))
991 (declare (optimize (safety 1)))
992 (declare (optimize (debug 1)))
993 (if nil
994 (flet ((%f15 (f15-1 &optional (f15-2 c))
995 (labels ((%f1 (f1-1 f1-2) 0))
996 (%f1 a 0))))
997 (flet ((%f4 ()
998 (multiple-value-call #'%f15
999 (values (%f15 c 0) (%f15 0)))))
1000 (if nil (%f4)
1001 (flet ((%f8 (f8-1 &optional (f8-2 (%f4)) (f8-3 0))
1002 f8-3))
1003 0))))
1004 0)))
1005 3040851270 1664281 -1340106197)))
1006
1007 ;;; MISC.249
1008 (assert (zerop
1009 (funcall
1010 (compile
1011 nil
1012 '(lambda (a b)
1013 (declare (notinline <=))
1014 (declare (optimize (speed 2) (space 3) (safety 0)
1015 (debug 1) (compilation-speed 3)))
1016 (if (if (<= 0) nil nil)
1017 (labels ((%f9 (f9-1 f9-2 f9-3)
1018 (ignore-errors 0)))
1019 (dotimes (iv4 5 a) (%f9 0 0 b)))
1020 0)))
1021 1 2)))
1022
1023 ;;; MISC.259-264 (aka "CSR screwed up implementing *-MOD32")
1024 (assert
1025 (= (funcall
1026 (compile
1027 nil
1028 '(lambda (a)
1029 (declare (type (integer 177547470 226026978) a))
1030 (declare (optimize (speed 3) (space 0) (safety 0) (debug 0)
1031 (compilation-speed 1)))
1032 (logand a (* a 438810))))
1033 215067723)
1034 13739018))
1035
1036 \f
1037 ;;;; Bugs in stack analysis
1038 ;;; bug 299 (reported by PFD)
1039 (assert
1040 (equal (funcall
1041 (compile
1042 nil
1043 '(lambda ()
1044 (declare (optimize (debug 1)))
1045 (multiple-value-call #'list
1046 (if (eval t) (eval '(values :a :b :c)) nil)
1047 (catch 'foo (throw 'foo (values :x :y)))))))
1048 '(:a :b :c :x :y)))
1049 ;;; bug 298 (= MISC.183)
1050 (assert (zerop (funcall
1051 (compile
1052 nil
1053 '(lambda (a b c)
1054 (declare (type (integer -368154 377964) a))
1055 (declare (type (integer 5044 14959) b))
1056 (declare (type (integer -184859815 -8066427) c))
1057 (declare (ignorable a b c))
1058 (declare (optimize (speed 3)))
1059 (declare (optimize (safety 1)))
1060 (declare (optimize (debug 1)))
1061 (block b7
1062 (flet ((%f3 (f3-1 f3-2 f3-3) 0))
1063 (apply #'%f3 0 (catch 'foo (return-from b7 (%f3 0 b c))) c nil)))))
1064 0 6000 -9000000)))
1065 (assert (equal (eval '(let () (apply #'list 1 (list (catch 'a (throw 'a (block b 2)))))))
1066 '(1 2)))
1067 (let ((f (compile
1068 nil
1069 '(lambda (x)
1070 (block foo
1071 (multiple-value-call #'list
1072 :a
1073 (block bar
1074 (return-from foo
1075 (multiple-value-call #'list
1076 :b
1077 (block quux
1078 (return-from bar
1079 (catch 'baz
1080 (if x
1081 (return-from quux 1)
1082 (throw 'baz 2))))))))))))))
1083 (assert (equal (funcall f t) '(:b 1)))
1084 (assert (equal (funcall f nil) '(:a 2))))
1085
1086 ;;; MISC.185
1087 (assert (equal
1088 (funcall
1089 (compile
1090 nil
1091 '(lambda (a b c)
1092 (declare (type (integer 5 155656586618) a))
1093 (declare (type (integer -15492 196529) b))
1094 (declare (type (integer 7 10) c))
1095 (declare (optimize (speed 3)))
1096 (declare (optimize (safety 1)))
1097 (declare (optimize (debug 1)))
1098 (flet ((%f3
1099 (f3-1 f3-2 f3-3
1100 &optional (f3-4 a) (f3-5 0)
1101 (f3-6
1102 (labels ((%f10 (f10-1 f10-2 f10-3)
1103 0))
1104 (apply #'%f10
1105 0
1106 a
1107 (- (if (equal a b) b (%f10 c a 0))
1108 (catch 'ct2 (throw 'ct2 c)))
1109 nil))))
1110 0))
1111 (%f3 (%f3 (%f3 b 0 0 0) a 0) a b b b c)))) 5 0 7)
1112 0))
1113 ;;; MISC.186
1114 (assert (eq
1115 (eval
1116 '(let* ((form '(labels ((%f3 (f3-1 f3-2) f3-1))
1117 (apply #'%f3 b (catch 'ct8 (throw 'ct8 (logeqv (%f3 c 0)))) nil)))
1118 (vars '(b c))
1119 (fn1 `(lambda ,vars
1120 (declare (type (integer -2 19) b)
1121 (type (integer -1520 218978) c)
1122 (optimize (speed 3) (safety 1) (debug 1)))
1123 ,form))
1124 (fn2 `(lambda ,vars
1125 (declare (notinline logeqv apply)
1126 (optimize (safety 3) (speed 0) (debug 0)))
1127 ,form))
1128 (cf1 (compile nil fn1))
1129 (cf2 (compile nil fn2))
1130 (result1 (multiple-value-list (funcall cf1 2 18886)))
1131 (result2 (multiple-value-list (funcall cf2 2 18886))))
1132 (if (equal result1 result2)
1133 :good
1134 (values result1 result2))))
1135 :good))
1136
1137 ;;; MISC.290
1138 (assert (zerop
1139 (funcall
1140 (compile
1141 nil
1142 '(lambda ()
1143 (declare
1144 (optimize (speed 3) (space 3) (safety 1)
1145 (debug 2) (compilation-speed 0)))
1146 (apply (constantly 0) (catch 'ct2 0) 0 (catch 'ct2 0) nil))))))
1147
1148 ;;; MISC.292
1149 (assert (zerop (funcall
1150 (compile
1151 nil
1152 '(lambda (a b)
1153 (declare (optimize (speed 2) (space 0) (safety 3) (debug 1)
1154 (compilation-speed 2)))
1155 (apply (constantly 0)
1156 a
1157 0
1158 (catch 'ct6
1159 (apply (constantly 0)
1160 0
1161 0
1162 (let* ((v1
1163 (let ((*s7* 0))
1164 b)))
1165 0)
1166 0
1167 nil))
1168 0
1169 nil)))
1170 1 2)))
1171
1172 ;;; misc.295
1173 (assert (eql
1174 (funcall
1175 (compile
1176 nil
1177 '(lambda ()
1178 (declare (optimize (speed 1) (space 0) (safety 0) (debug 0)))
1179 (multiple-value-prog1
1180 (the integer (catch 'ct8 (catch 'ct7 15867134)))
1181 (catch 'ct1 (throw 'ct1 0))))))
1182 15867134))
1183
1184 ;;; misc.361: replacing CAST with (m-v-call #'%compile-time-type-error)
1185 ;;; could transform known-values LVAR to UVL
1186 (assert (zerop (funcall
1187 (compile
1188 nil
1189 '(lambda (a b c)
1190 (declare (notinline boole values denominator list))
1191 (declare
1192 (optimize (speed 2)
1193 (space 0)
1194 (safety 1)
1195 (debug 0)
1196 (compilation-speed 2)))
1197 (catch 'ct6
1198 (progv
1199 '(*s8*)
1200 (list 0)
1201 (let ((v9 (ignore-errors (throw 'ct6 0))))
1202 (denominator
1203 (progv nil nil (values (boole boole-and 0 v9)))))))))
1204 1 2 3)))
1205
1206 ;;; non-continuous dead UVL blocks
1207 (defun non-continuous-stack-test (x)
1208 (multiple-value-call #'list
1209 (eval '(values 11 12))
1210 (eval '(values 13 14))
1211 (block ext
1212 (return-from non-continuous-stack-test
1213 (multiple-value-call #'list
1214 (eval '(values :b1 :b2))
1215 (eval '(values :b3 :b4))
1216 (block int
1217 (return-from ext
1218 (multiple-value-call (eval #'values)
1219 (eval '(values 1 2))
1220 (eval '(values 3 4))
1221 (block ext
1222 (return-from int
1223 (multiple-value-call (eval #'values)
1224 (eval '(values :a1 :a2))
1225 (eval '(values :a3 :a4))
1226 (block int
1227 (return-from ext
1228 (multiple-value-call (eval #'values)
1229 (eval '(values 5 6))
1230 (eval '(values 7 8))
1231 (if x
1232 :ext
1233 (return-from int :int))))))))))))))))
1234 (assert (equal (non-continuous-stack-test t) '(11 12 13 14 1 2 3 4 5 6 7 8 :ext)))
1235 (assert (equal (non-continuous-stack-test nil) '(:b1 :b2 :b3 :b4 :a1 :a2 :a3 :a4 :int)))
1236
1237 ;;; MISC.362: environment of UNWIND-PROTECTor is different from that
1238 ;;; if ENTRY.
1239 (assert (equal (multiple-value-list (funcall
1240 (compile
1241 nil
1242 '(lambda (b g h)
1243 (declare (optimize (speed 3) (space 3) (safety 2)
1244 (debug 2) (compilation-speed 3)))
1245 (catch 'ct5
1246 (unwind-protect
1247 (labels ((%f15 (f15-1 f15-2 f15-3)
1248 (rational (throw 'ct5 0))))
1249 (%f15 0
1250 (apply #'%f15
1251 0
1252 h
1253 (progn
1254 (progv '(*s2* *s5*) (list 0 (%f15 0 g 0)) b)
1255 0)
1256 nil)
1257 0))
1258 (common-lisp:handler-case 0)))))
1259 1 2 3))
1260 '(0)))
1261
1262 \f
1263 ;;; MISC.275
1264 (assert
1265 (zerop
1266 (funcall
1267 (compile
1268 nil
1269 '(lambda (b)
1270 (declare (notinline funcall min coerce))
1271 (declare
1272 (optimize (speed 1)
1273 (space 2)
1274 (safety 2)
1275 (debug 1)
1276 (compilation-speed 1)))
1277 (flet ((%f12 (f12-1)
1278 (coerce
1279 (min
1280 (if f12-1 (multiple-value-prog1
1281 b (return-from %f12 0))
1282 0))
1283 'integer)))
1284 (funcall #'%f12 0))))
1285 -33)))
1286
1287 ;;; Discussion of a CMUCL PCL bug on Sparc with Raymond Toy revealed a
1288 ;;; potential problem: optimizers and type derivers for MAX and MIN
1289 ;;; were not consistent in treating EQUALP, but not EQL, arguments.
1290 (dolist (f '(min max))
1291 (loop for complex-arg-args in '((1d0 2d0) (0d0 1d0))
1292 for complex-arg = `(if x ,@complex-arg-args)
1293 do
1294 (loop for args in `((1 ,complex-arg)
1295 (,complex-arg 1))
1296 for form = `(,f ,@args)
1297 for f1 = (compile nil `(lambda (x) ,form))
1298 and f2 = (compile nil `(lambda (x) (declare (notinline min max))
1299 ,form))
1300 do
1301 (dolist (x '(nil t))
1302 (assert (eql (funcall f1 x) (funcall f2 x)))))))
1303
1304 ;;;
1305 (handler-case (compile nil '(lambda (x)
1306 (declare (optimize (speed 3) (safety 0)))
1307 (the double-float (sqrt (the double-float x)))))
1308 (sb-ext:compiler-note ()
1309 (error "Compiler does not trust result type assertion.")))
1310
1311 (let ((f (compile nil '(lambda (x)
1312 (declare (optimize speed (safety 0)))
1313 (block nil
1314 (the double-float
1315 (multiple-value-prog1
1316 (sqrt (the double-float x))
1317 (when (< x 0)
1318 (return :minus)))))))))
1319 (assert (eql (funcall f -1d0) :minus))
1320 (assert (eql (funcall f 4d0) 2d0)))
1321
1322 ;;; bug 304: SBCL produced something similar to (/ (ASH x 4) 8)
1323 (handler-case
1324 (compile nil '(lambda (a i)
1325 (locally
1326 (declare (optimize (speed 3) (safety 0) (space 0) (debug 0)
1327 (inhibit-warnings 0)))
1328 (declare (type (alien (* (unsigned 8))) a)
1329 (type (unsigned-byte 32) i))
1330 (deref a i))))
1331 (compiler-note () (error "The code is not optimized.")))
1332
1333 (handler-case
1334 (compile nil '(lambda (x)
1335 (declare (type (integer -100 100) x))
1336 (declare (optimize speed))
1337 (declare (notinline identity))
1338 (1+ (identity x))))
1339 (compiler-note () (error "IDENTITY derive-type not applied.")))
1340
1341 (assert (null (funcall (compile nil '(lambda (x) (funcall #'cddr x))) nil)))
1342
1343 ;;; MISC.293 = easy variant of bug 303: repeated write to the same
1344 ;;; LVAR; here the first write may be cleared before the second is
1345 ;;; made.
1346 (assert
1347 (zerop
1348 (funcall
1349 (compile
1350 nil
1351 '(lambda ()
1352 (declare (notinline complex))
1353 (declare (optimize (speed 1) (space 0) (safety 1)
1354 (debug 3) (compilation-speed 3)))
1355 (flet ((%f () (multiple-value-prog1 0 (return-from %f 0))))
1356 (complex (%f) 0)))))))
1357
1358 ;;; MISC.110A: CAST optimizer forgot to flush LVAR derived type
1359 (assert (zerop (funcall
1360 (compile
1361 nil
1362 '(lambda (a c)
1363 (declare (type (integer -1294746569 1640996137) a))
1364 (declare (type (integer -807801310 3) c))
1365 (declare (optimize (speed 3) (space 3) (safety 0) (debug 0) (compilation-speed 3)))
1366 (catch 'ct7
1367 (if
1368 (logbitp 0
1369 (if (/= 0 a)
1370 c
1371 (ignore-errors
1372 (progn (if (ldb-test (byte 0 0) (rational (throw 'ct7 0))) 0 0) 0))))
1373 0 0))))
1374 391833530 -32785211)))
1375
1376 ;;; efficiency notes for ordinary code
1377 (macrolet ((frob (arglist &body body)
1378 `(progn
1379 (handler-case
1380 (compile nil '(lambda ,arglist ,@body))
1381 (sb-ext:compiler-note (e)
1382 (error "bad compiler note for ~S:~% ~A" ',body e)))
1383 (catch :got-note
1384 (handler-case
1385 (compile nil '(lambda ,arglist (declare (optimize speed))
1386 ,@body))
1387 (sb-ext:compiler-note (e) (throw :got-note nil)))
1388 (error "missing compiler note for ~S" ',body)))))
1389 (frob (x) (funcall x))
1390 (frob (x y) (find x y))
1391 (frob (x y) (find-if x y))
1392 (frob (x y) (find-if-not x y))
1393 (frob (x y) (position x y))
1394 (frob (x y) (position-if x y))
1395 (frob (x y) (position-if-not x y))
1396 (frob (x) (aref x 0)))
1397
1398 (macrolet ((frob (style-warn-p form)
1399 (if style-warn-p
1400 `(catch :got-style-warning
1401 (handler-case
1402 (eval ',form)
1403 (style-warning (e) (throw :got-style-warning nil)))
1404 (error "missing style-warning for ~S" ',form))
1405 `(handler-case
1406 (eval ',form)
1407 (style-warning (e)
1408 (error "bad style-warning for ~S: ~A" ',form e))))))
1409 (frob t (lambda (x &optional y &key z) (list x y z)))
1410 (frob nil (lambda (x &optional y z) (list x y z)))
1411 (frob nil (lambda (x &key y z) (list x y z)))
1412 (frob t (defgeneric #:foo (x &optional y &key z)))
1413 (frob nil (defgeneric #:foo (x &optional y z)))
1414 (frob nil (defgeneric #:foo (x &key y z)))
1415 (frob t (defun #:foo (x) (flet ((foo (x &optional y &key z) (list x y z))) (foo x x :z x)))))
1416
1417 ;;; this was a bug in the LOGXOR type deriver. The top form gave a
1418 ;;; note, because the system failed to derive the fact that the return
1419 ;;; from LOGXOR was small and negative, though the bottom one worked.
1420 (handler-bind ((sb-ext:compiler-note #'error))
1421 (compile nil '(lambda ()
1422 (declare (optimize speed (safety 0)))
1423 (lambda (x y)
1424 (declare (type (integer 3 6) x)
1425 (type (integer -6 -3) y))
1426 (+ (logxor x y) most-positive-fixnum)))))
1427 (handler-bind ((sb-ext:compiler-note #'error))
1428 (compile nil '(lambda ()
1429 (declare (optimize speed (safety 0)))
1430 (lambda (x y)
1431 (declare (type (integer 3 6) y)
1432 (type (integer -6 -3) x))
1433 (+ (logxor x y) most-positive-fixnum)))))
1434
1435 ;;; check that modular ash gives the right answer, to protect against
1436 ;;; possible misunderstandings about the hardware shift instruction.
1437 (assert (zerop (funcall
1438 (compile nil '(lambda (x y)
1439 (declare (optimize speed)
1440 (type (unsigned-byte 32) x y))
1441 (logand #xffffffff (ash x y))))
1442 1 257)))
1443
1444 ;;; code instrumenting problems
1445 (compile nil
1446 '(lambda ()
1447 (declare (optimize (debug 3)))
1448 (list (the integer (if nil 14 t)))))
1449
1450 (compile nil
1451 '(LAMBDA (A B C D)
1452 (DECLARE (NOTINLINE LOGORC1 BYTE MASK-FIELD))
1453 (DECLARE
1454 (OPTIMIZE (SPEED 1)
1455 (SPACE 1)
1456 (SAFETY 1)
1457 (DEBUG 3)
1458 (COMPILATION-SPEED 0)))
1459 (MASK-FIELD (BYTE 7 26)
1460 (PROGN
1461 (TAGBODY (THE INTEGER (CATCH 'CT4 (LOGORC1 C -15950))) 1)
1462 B))))
1463
1464 (compile nil
1465 '(lambda (buffer i end)
1466 (declare (optimize (debug 3)))
1467 (loop (when (not (eql 0 end)) (return)))
1468 (let ((s (make-string end)))
1469 (setf (schar s i) (schar buffer i))
1470 s)))
1471
1472 ;;; check that constant string prefix and suffix don't cause the
1473 ;;; compiler to emit code deletion notes.
1474 (handler-bind ((sb-ext:code-deletion-note #'error))
1475 (compile nil '(lambda (s x)
1476 (pprint-logical-block (s x :prefix "(")
1477 (print x s))))
1478 (compile nil '(lambda (s x)
1479 (pprint-logical-block (s x :per-line-prefix ";")
1480 (print x s))))
1481 (compile nil '(lambda (s x)
1482 (pprint-logical-block (s x :suffix ">")
1483 (print x s)))))
1484
1485 ;;; MISC.427: loop analysis requires complete DFO structure
1486 (assert (eql 17 (funcall
1487 (compile
1488 nil
1489 '(lambda (a)
1490 (declare (notinline list reduce logior))
1491 (declare (optimize (safety 2) (compilation-speed 1)
1492 (speed 3) (space 2) (debug 2)))
1493 (logior
1494 (let* ((v5 (reduce #'+ (list 0 a))))
1495 (declare (dynamic-extent v5))
1496 v5))))
1497 17)))
1498
1499 ;;; MISC.434
1500 (assert (zerop (funcall
1501 (compile
1502 nil
1503 '(lambda (a b)
1504 (declare (type (integer -8431780939320 1571817471932) a))
1505 (declare (type (integer -4085 0) b))
1506 (declare (ignorable a b))
1507 (declare
1508 (optimize (space 2)
1509 (compilation-speed 0)
1510 #+sbcl (sb-c:insert-step-conditions 0)
1511 (debug 2)
1512 (safety 0)
1513 (speed 3)))
1514 (let ((*s5* 0))
1515 (dotimes (iv1 2 0)
1516 (let ((*s5*
1517 (elt '(1954479092053)
1518 (min 0
1519 (max 0
1520 (if (< iv1 iv1)
1521 (lognand iv1 (ash iv1 (min 53 iv1)))
1522 iv1))))))
1523 0)))))
1524 -7639589303599 -1368)))
1525
1526 (compile
1527 nil
1528 '(lambda (a b)
1529 (declare (type (integer) a))
1530 (declare (type (integer) b))
1531 (declare (ignorable a b))
1532 (declare (optimize (space 2) (compilation-speed 0)
1533 (debug 0) (safety 0) (speed 3)))
1534 (dotimes (iv1 2 0)
1535 (when (< iv1 2) (print 'x)) ;; request for second constraint propagation pass
1536 (print (if (< iv1 iv1)
1537 (logand (ash iv1 iv1) 1)
1538 iv1)))))
SIMD patches for x86