ARM64: Fix disassembler label annotation.
[sbcl.git] / tests / debug.impure.lisp
blob65a23e698ed8f58238876fb498f7414827ec15e1
1 ;;;; This file is for testing debugging functionality, using
2 ;;;; test machinery which might have side effects (e.g.
3 ;;;; executing DEFUN).
5 ;;;; This software is part of the SBCL system. See the README file for
6 ;;;; more information.
7 ;;;;
8 ;;;; While most of SBCL is derived from the CMU CL system, the test
9 ;;;; files (like this one) were written from scratch after the fork
10 ;;;; from CMU CL.
11 ;;;;
12 ;;;; This software is in the public domain and is provided with
13 ;;;; absolutely no warranty. See the COPYING and CREDITS files for
14 ;;;; more information.
16 (cl:in-package :cl-user)
18 ;;; The debugger doesn't have any native knowledge of the interpreter
19 (when (eq sb-ext:*evaluator-mode* :interpret)
20 (sb-ext:exit :code 104))
23 ;;;; Check that we get debug arglists right.
25 ;;; FIXME: This should use some get-argslist like functionality that
26 ;;; we actually export.
27 ;;;
28 ;;; Return the debug arglist of the function object FUN as a list, or
29 ;;; punt with :UNKNOWN.
30 (defun get-arglist (fun)
31 (declare (type function fun))
32 ;; The Lisp-level type FUNCTION can conceal a multitude of sins..
33 (case (sb-kernel:widetag-of fun)
34 (#.sb-vm:simple-fun-header-widetag
35 (sb-kernel:%simple-fun-arglist fun))
36 (#.sb-vm:closure-header-widetag
37 (get-arglist (sb-kernel:%closure-fun fun)))
38 ;; In code/describe.lisp, ll. 227 (%describe-fun), we use a scheme
39 ;; like above, and it seems to work. -- MNA 2001-06-12
41 ;; (There might be other cases with arglist info also.
42 ;; SIMPLE-FUN-HEADER-WIDETAG and CLOSURE-HEADER-WIDETAG just
43 ;; happen to be the two case that I had my nose rubbed in when
44 ;; debugging a GC problem caused by applying %SIMPLE-FUN-ARGLIST to
45 ;; a closure. -- WHN 2001-06-05)
47 #+sb-eval
48 (if (typep fun 'sb-eval::interpreted-function)
49 (sb-eval::interpreted-function-lambda-list fun)
50 :unknown)
51 #-sb-eval
52 :unknown)))
54 (defun zoop (zeep &key beep)
55 blurp)
56 (assert (equal (get-arglist #'zoop) '(zeep &key beep)))
58 ;;; Check some predefined functions too.
59 ;;;
60 ;;; (We don't know exactly what the arguments are, e.g. the first
61 ;;; argument of PRINT might be SB-IMPL::OBJECT or SB-KERNEL::OBJ or
62 ;;; whatever. But we do know the general structure that a correct
63 ;;; answer should have, so we can safely do a lot of checks.)
64 (with-test (:name :predefined-functions-1)
65 (destructuring-bind (object-sym &optional-sym stream-sym) (get-arglist #'print)
66 (assert (symbolp object-sym))
67 (assert (eql &optional-sym '&optional))
68 (assert (symbolp stream-sym))))
70 (with-test (:name :predefined-functions-2)
71 (destructuring-bind (dest-sym control-sym &rest-sym format-args-sym)
72 (get-arglist #'format)
73 (assert (symbolp dest-sym))
74 (assert (symbolp control-sym))
75 (assert (eql &rest-sym '&rest))
76 (assert (symbolp format-args-sym))))
78 ;;;; test TRACE
80 (defmacro with-traced-function ((name &rest options) &body body)
81 `(with-output-to-string (*trace-output*)
82 (unwind-protect
83 (progn
84 (trace ,name ,@options)
85 ,@body)
86 (ignore-errors (untrace ,name)))))
88 (defun trace-this ()
89 'ok)
91 (defun trace-fact (n)
92 (if (zerop n)
94 (* n (trace-fact (1- n)))))
96 (with-test (:name (trace :simple))
97 (let ((output (with-traced-function (trace-this)
98 (assert (eq 'ok (trace-this))))))
99 (assert (search "TRACE-THIS" output))
100 (assert (search "returned OK" output))))
102 ;;; bug 379
103 ;;; This is not a WITH-TEST :FAILS-ON PPC DARWIN since there are
104 ;;; suspicions that the breakpoint trace might corrupt the whole image
105 ;;; on that platform.
106 (with-test (:name (trace :encapsulate nil)
107 :fails-on '(or (and :ppc (not :linux)) :sparc :arm64)
108 :broken-on '(or :darwin :sunos :hppa))
109 (let ((output (with-traced-function (trace-this :encapsulate nil)
110 (assert (eq 'ok (trace-this))))))
111 (assert (search "TRACE-THIS" output))
112 (assert (search "returned OK" output))))
114 (with-test (:name (:trace :encapsulate nil :recursive)
115 :fails-on '(or (and :ppc (not :linux)) :sparc :sunos :arm64)
116 :broken-on '(or :darwin (and :x86 :sunos) :hppa))
117 (let ((output (with-traced-function (trace-fact :encapsulate nil)
118 (assert (= 120 (trace-fact 5))))))
119 (assert (search "TRACE-FACT" output))
120 (assert (search "returned 1" output))
121 (assert (search "returned 120" output))))
123 (defun trace-and-fmakunbound-this (x)
126 (with-test (:name (trace fmakunbound :bug-667657))
127 (trace trace-and-fmakunbound-this)
128 (fmakunbound 'trace-and-fmakunbound-this)
129 (untrace)
130 (assert (not (trace))))
132 (with-test (:name (trace :report nil :smoke))
133 (let ((output (with-traced-function (trace-this :report nil)
134 (assert (eq 'ok (trace-this))))))
135 (assert (sequence:emptyp output))))
137 (with-test (:name (trace :report nil :print))
138 (let ((output (with-traced-function
139 (trace-fact :report nil :print (sb-debug:arg 0))
140 (assert (eq '2 (trace-fact 2))))))
141 (assert (string= output (format nil "2~@
143 0~%")))))
145 (with-test (:name :bug-414)
146 (handler-bind ((warning #'error))
147 (load (compile-file "bug-414.lisp"))
148 (disassemble 'bug-414)))
150 ;; A known function can be stored as a code constant in lieu of the
151 ;; usual mode of storing an #<fdefn> and looking up the function from it.
152 ;; One such usage occurs with TAIL-CALL-VARIABLE (e.g. via APPLY).
153 ;; Show that declaring the function locally notinline uses the #<fdefn>
154 ;; by first compiling a call that would have elided the #<fdefn>
155 ;; and then TRACE.
156 (defun test-compile-then-load (filename junk)
157 (declare (notinline compile-file load))
158 (apply 'load (apply 'compile-file filename junk) junk))
159 (compile 'test-compile-then-load)
160 (with-test (:name :traceable-known-fun)
161 (let ((s (make-string-output-stream)))
162 (trace compile-file load)
163 (let ((*trace-output* s))
164 (test-compile-then-load "bug-414.lisp" nil))
165 (untrace)
166 (assert (>= (count #\Newline (get-output-stream-string s)) 4))))
168 (with-test (:name :bug-310175 :fails-on '(not :stack-allocatable-lists))
169 ;; KLUDGE: Not all DX-enabled platforms DX CONS, and the compiler
170 ;; transforms two-arg-LIST* (and one-arg-LIST) to CONS. Therefore,
171 ;; use two-arg-LIST, which should get through to VOP LIST, and thus
172 ;; stack-allocate on a predictable set of machines.
173 (let ((dx-arg (list t t)))
174 (declare (dynamic-extent dx-arg))
175 (flet ((dx-arg-backtrace (x)
176 (declare (optimize (debug 2)))
177 (prog1 (sb-debug:list-backtrace :count 10)
178 (assert (sb-debug::stack-allocated-p x)))))
179 (declare (notinline dx-arg-backtrace))
180 (assert (member-if (lambda (frame)
181 (and (consp frame)
182 (consp (car frame))
183 (equal '(flet dx-arg-backtrace :in) (butlast (car frame)))
184 (notany #'sb-debug::stack-allocated-p (cdr frame))))
185 (dx-arg-backtrace dx-arg))))))
187 (with-test (:name :bug-795245)
188 (assert
189 (eq :ok
190 (catch 'done
191 (handler-bind
192 ((error (lambda (e)
193 (declare (ignore e))
194 (handler-case
195 (sb-debug:print-backtrace :count 100
196 :stream (make-broadcast-stream))
197 (error ()
198 (throw 'done :error))
199 (:no-error ()
200 (throw 'done :ok))))))
201 (apply '/= nil 1 2 nil))))))
203 ;;;; test infinite error protection
205 (defmacro nest-errors (n-levels error-form)
206 (if (< 0 n-levels)
207 `(handler-bind ((error (lambda (condition)
208 (declare (ignore condition))
209 ,error-form)))
210 (nest-errors ,(1- n-levels) ,error-form))
211 error-form))
213 (defun erroring-debugger-hook (condition old-debugger-hook)
214 (let ((*debugger-hook* old-debugger-hook))
215 (format t "recursive condition: ~A~%" condition) (force-output)
216 (error "recursive condition: ~A" condition)))
218 (defun test-infinite-error-protection ()
219 ;; after 50 successful throws to SB-IMPL::TOPLEVEL-CATCHER sbcl used
220 ;; to halt, it produces so much garbage that's hard to suppress that
221 ;; it is tested only once
222 (write-line "--HARMLESS BUT ALARMING BACKTRACE COMING UP--")
223 (let ((*debugger-hook* #'erroring-debugger-hook))
224 (loop repeat 1 do
225 (let ((error-counter 0)
226 (*terminal-io* (make-broadcast-stream)))
227 (assert
228 (not (eq
229 :normal-exit
230 (catch 'sb-impl::toplevel-catcher
231 (nest-errors 20 (error "infinite error ~s"
232 (incf error-counter)))
233 :normal-exit)))))))
234 (write-line "--END OF H-B-A-B--"))
236 (with-test (:name :infinite-error-protection)
237 (enable-debugger)
238 (test-infinite-error-protection))
240 (with-test (:name (:infinite-error-protection :thread)
241 :skipped-on '(not :sb-thread))
242 (enable-debugger)
243 (let ((thread (sb-thread:make-thread #'test-infinite-error-protection)))
244 (loop while (sb-thread:thread-alive-p thread))))
246 ;; unconditional, in case either previous left it enabled
247 (disable-debugger)
249 ;;;; test some limitations of MAKE-LISP-OBJ
251 ;;; Older GENCGC systems had a bug in the pointer validation used by
252 ;;; MAKE-LISP-OBJ that made SIMPLE-FUN objects always fail to
253 ;;; validate.
254 (with-test (:name (:make-lisp-obj :simple-funs))
255 (sb-sys:without-gcing
256 (assert (eq #'identity
257 (sb-kernel:make-lisp-obj
258 (sb-kernel:get-lisp-obj-address
259 #'identity))))))
261 ;;; Older CHENEYGC systems didn't perform any real pointer validity
262 ;;; checks beyond "is this pointer to somewhere in heap space".
263 (with-test (:name (:make-lisp-obj :pointer-validation))
264 ;; Fun and games: We need to test MAKE-LISP-OBJ with a known-bogus
265 ;; address, but we also need the GC to not pitch a fit if it sees an
266 ;; object with said bogus address. Thus, construct our known-bogus
267 ;; object within an area of unboxed storage (a vector) in static
268 ;; space. We'll make it a simple object, (CONS 0 0), which has an
269 ;; in-memory representation of two consecutive zero words. We
270 ;; allocate a three-word vector so that we can guarantee a
271 ;; double-word aligned double-word of zeros no matter what happens
272 ;; with the vector-data-offset (currently double-word aligned).
273 (let* ((memory (sb-int:make-static-vector 3 :element-type `(unsigned-byte ,sb-vm:n-word-bits)
274 :initial-element 0))
275 (vector-data-address (sb-sys:sap-int (sb-kernel::vector-sap memory)))
276 (object-base-address (logandc2 (+ vector-data-address sb-vm:lowtag-mask) sb-vm:lowtag-mask))
277 (object-tagged-address (+ object-base-address sb-vm:list-pointer-lowtag)))
278 (multiple-value-bind (object valid-p)
279 (sb-kernel:make-lisp-obj object-tagged-address nil)
280 (declare (ignore object))
281 (assert (not valid-p)))))
283 (defun test-debugger (control form &rest targets)
284 (let ((out (make-string-output-stream))
285 (oops t))
286 (unwind-protect
287 (progn
288 (with-simple-restart (debugger-test-done! "Debugger Test Done!")
289 (let* ((*debug-io* (make-two-way-stream
290 (make-string-input-stream control)
291 (make-broadcast-stream out #+nil *standard-output*)))
292 ;; Initial announcement goes to *ERROR-OUTPUT*
293 (*error-output* *debug-io*)
294 (*invoke-debugger-hook* nil))
295 (handler-bind ((error #'invoke-debugger))
296 (eval form))))
297 (setf oops nil))
298 (when oops
299 (error "Uncontrolled unwind from debugger test.")))
300 ;; For sanity's sake this is outside the *debug-io* rebinding -- otherwise
301 ;; it could swallow our asserts!
302 (with-input-from-string (s (get-output-stream-string out))
303 (loop for line = (read-line s nil)
304 while line
305 do (assert targets)
306 #+nil
307 (format *error-output* "Got: ~A~%" line)
308 (let ((match (pop targets)))
309 (if (eq '* match)
310 ;; Whatever, till the next line matches.
311 (let ((text (pop targets)))
312 #+nil
313 (format *error-output* "Looking for: ~A~%" text)
314 (unless (search text line)
315 (push text targets)
316 (push match targets)))
317 (unless (search match line)
318 (format *error-output* "~&Wanted: ~S~% Got: ~S~%" match line)
319 (setf oops t))))))
320 ;; Check that we saw everything we wanted
321 (when targets
322 (error "Missed: ~S" targets))
323 (assert (not oops))))
325 (with-test (:name (:debugger :source 1)
326 ;; Division is done by an assembly routine on ppc
327 ;; and it can't locate the div-by-zero error there
328 :fails-on :ppc)
329 (test-debugger
331 source 0
332 debugger-test-done!"
333 `(progn
334 (defun this-will-break (x)
335 (declare (optimize debug))
336 (let* ((y (- x x))
337 (z (/ x y)))
338 (+ x z)))
339 (this-will-break 1))
341 "debugger invoked"
343 "DIVISION-BY-ZERO"
344 "Operation was (/ 1 0)"
346 "INTEGER-/-INTEGER"
347 "source: "
348 "(THIS-WILL-BREAK 1)"
349 "1]"
350 "(/ X Y)"
351 "1]"))
353 (with-test (:name (:debugger :source 2))
354 (test-debugger
356 source 0
357 debugger-test-done!"
358 `(locally (declare (optimize (speed 0) (safety 3) (debug 3)))
359 (let ((f #'(lambda (x cont)
360 (print x (make-broadcast-stream))
361 (if (zerop x)
362 (error "~%foo")
363 (funcall cont (1- x) cont)))))
364 (funcall f 10 f)))
366 "debugger"
368 "foo"
370 "source: (ERROR \"~%foo\")"
372 "(LAMBDA (X CONT)"
374 "(FUNCALL CONT (1- X) CONT)"
375 "1]"))
377 (with-test (:name (disassemble :high-debug-eval))
378 (eval `(defun this-will-be-disassembled (x)
379 (declare (optimize debug))
380 (+ x x)))
381 (let* ((oopses (make-string-output-stream))
382 (disassembly
383 (let ((*error-output* oopses))
384 (with-output-to-string (*standard-output*)
385 (disassemble 'this-will-be-disassembled)))))
386 (with-input-from-string (s disassembly)
387 (assert (search "; disassembly for THIS-WILL-BE-DISASSEMBLED"
388 (read-line s))))
389 (let ((problems (get-output-stream-string oopses)))
390 (unless (zerop (length problems))
391 (error problems)))))
393 (defun this-too-will-be-disasssembled (x)
394 (declare (optimize debug))
395 (+ x x))
397 (with-test (:name (disassemble :high-debug-load))
398 (let* ((oopses (make-string-output-stream))
399 (disassembly
400 (let ((*error-output* oopses))
401 (with-output-to-string (*standard-output*)
402 (disassemble 'this-too-will-be-disasssembled)))))
403 (with-input-from-string (s disassembly)
404 (assert (equal "; disassembly for THIS-TOO-WILL-BE-DISASSSEMBLED"
405 (read-line s))))
406 (let ((problems (get-output-stream-string oopses)))
407 (unless (zerop (length problems))
408 (error problems)))))
410 ;; The test named :GF-dispatch-backtrace depends on the fact that renaming
411 ;; a closure works, and that the debugger can extract a closure name.
412 ;; First things first: verify that a closure can be named.
413 (defun make-adder (x)
414 (sb-impl::set-closure-name (lambda (y) (+ x y)) `(adder ,x)))
415 (with-test (:name :closure-renaming-really-works)
416 (let ((f1 (make-adder 5))
417 (expect "#<CLOSURE (ADDER 5)"))
418 (assert (= (mismatch (write-to-string (make-adder 5)) expect)
419 (length expect)))
420 (assert (and (eq (sb-impl::set-closure-name f1 "ADD5") f1)
421 (string= (sb-impl::%fun-name f1) "ADD5")))))
423 (with-test (:name (:xep-arglist-clean-up :bug-1192929))
424 (assert
425 (block nil
426 (handler-bind ((error (lambda (e)
427 (declare (ignore e))
428 (return (< (length (car (sb-debug:list-backtrace :count 1)))
429 10)))))
430 (funcall (compile nil `(lambda (i) (declare ((mod 65536) i)) i)) nil)))))
432 ;;; bug-1261646
434 (defun print-backtrace-to-string/debug-print-variable-alist (x)
435 (values
436 (with-output-to-string (stream)
437 (let ((*debug-print-variable-alist* '((*print-length* . 5)
438 (*print-level* . 3))))
439 (sb-debug:print-backtrace :stream stream :count 5)))
440 x)) ; Force use of X to prevent flushing
442 (with-test (:name (:print-frame-call :respect *debug-print-variable-alist*
443 *print-length* :bug-1261646))
444 (let* ((printed (print-backtrace-to-string/debug-print-variable-alist (make-array 200)))
445 (call "(PRINT-BACKTRACE-TO-STRING/DEBUG-PRINT-VARIABLE-ALIST ")
446 (position (+ (search call printed) (length call))))
447 (assert (eql position (search "#(0 0 0 0 0 ...)" printed :start2 position)))))
449 (with-test (:name (:print-frame-call :respect *debug-print-variable-alist*
450 *print-level* :bug-1261646))
451 (let* ((printed (print-backtrace-to-string/debug-print-variable-alist
452 '(((((1)))))))
453 (call "(PRINT-BACKTRACE-TO-STRING/DEBUG-PRINT-VARIABLE-ALIST ")
454 (position (+ (search call printed) (length call))))
455 (assert (eql position (search "((#))" printed :start2 position)))))
458 (defvar *x* nil)
459 (defun foo (a) a)
461 (with-test (:name :trace-debug-arg)
462 (trace foo :print-after (setf *x* (sb-debug:arg 0)))
463 (foo 1)
464 (assert (eql *x* 1))
466 (trace foo :print (setf *x* (sb-debug:arg 0)))
467 (foo 2)
468 (assert (eql *x* 2))
470 (trace foo :condition (eql (setf *x* (sb-debug:arg 0)) 0))
471 (foo 3)
472 (assert (eql *x* 3))
474 (trace foo :condition-after (setf *x* (sb-debug:arg 0)))
475 (foo 4)
476 (assert (eql *x* 4))
478 (trace foo :break (and (setf *x* (sb-debug:arg 0)) nil))
479 (foo 5)
480 (assert (eql *x* 5))
482 (trace foo :break-all (and (setf *x* (sb-debug:arg 0)) nil))
483 (foo 6)
484 (assert (eql *x* 6))
485 (trace foo :break-after (and (setf *x* (sb-debug:arg 0)) nil))
486 (foo 7))
488 (defun frobbleize (arg) (declare (ignore arg)) (sb-debug:print-backtrace) 'win)
489 (defmethod low-debug-method ((self t))
490 (declare (optimize (debug 0)))
491 (frobbleize 'me) ; make this not a tail call, so it remains on stack
493 (with-test (:name :clean-fast-method-frame-lossage)
494 (low-debug-method 42)) ; no need to assert. it either crashes or doesn't
496 (defun return-65535 ()
497 65535)
499 (with-test (:name :indirect-closure-values)
500 (let ((count 0))
501 (block nil
502 (handler-bind ((error (lambda (c)
503 (declare (ignore c))
504 (sb-debug::map-backtrace
505 (lambda (frame)
506 (let ((sb-debug::*current-frame* frame)
507 (name (sb-debug::frame-call frame)))
508 (when (or (eq name 'test)
509 (and (consp name)
510 (or (eql (search '(labels f1) name) 0)
511 (eql (search '(labels f2) name) 0))))
512 (incf count)
513 (assert (eql (var 'a) 2))))))
514 (return))))
515 (funcall
516 (compile nil
517 `(sb-int:named-lambda test ()
518 (declare (optimize debug))
519 (let ((a 1))
520 (labels
521 ((f1 ()
522 (incf a)
523 (signal 'error))
524 (f2 ()
525 (f1)))
526 (f2))))))))
527 (assert (= count 3))))
529 (with-test (:name :indirect-closure-values.2)
530 (let ((count 0))
531 (block nil
532 (handler-bind ((error (lambda (c)
533 (declare (ignore c))
534 (sb-debug::map-backtrace
535 (lambda (frame)
536 (let ((sb-debug::*current-frame* frame)
537 (name (sb-debug::frame-call frame)))
538 (when (or (eq name 'test)
539 (and (consp name)
540 (or (eql (search '(labels f1) name) 0)
541 (eql (search '(labels f2) name) 0))))
542 (incf count)
543 (assert (eql (var 'a) 65535))))))
544 (return))))
545 (funcall
546 (compile nil
547 `(sb-int:named-lambda test ()
548 (declare (optimize debug))
549 (let ((a (return-65535)))
550 (declare ((unsigned-byte 16) a))
551 (labels
552 ((f1 ()
553 (incf a)
554 (signal 'error))
555 (f2 ()
556 (f1)))
557 (f2))))))))
558 (assert (= count 3))))
560 (with-test (:name :non-tail-self-call-bad-variables)
561 (let ((count 0))
562 (block nil
563 (handler-bind ((error (lambda (c)
564 (declare (ignore c))
565 (sb-debug::map-backtrace
566 (lambda (frame)
567 (let ((sb-debug::*current-frame* frame))
568 (multiple-value-bind (name args)
569 (sb-debug::frame-call frame)
570 (when (eq name 'test)
571 (assert (or (null args)
572 (equal args '(nil))))
573 (incf count))))))
574 (return))))
575 (funcall
576 (compile nil `(sb-int:named-lambda test (&optional x)
577 (declare (optimize sb-c::recognize-self-calls))
578 (signal 'error :format-control "~a" :format-arguments (list x))
579 (test 1)
580 1)))))
581 (assert (= count 1))))
583 (with-test (:name :local-tail-call-variables)
584 (let ((count 0))
585 (block nil
586 (handler-bind ((error (lambda (c)
587 (declare (ignore c))
588 (sb-debug::map-backtrace
589 (lambda (frame)
590 (let ((sb-debug::*current-frame* frame))
591 (multiple-value-bind (name args)
592 (sb-debug::frame-call frame)
593 (when (eq name 'test)
594 (assert (equal args '(error)))
595 (incf count))))))
596 (return))))
597 (funcall
598 (compile nil `(sb-int:named-lambda test (x)
599 (signal x)
600 ;; If :local-tail-call fails, this will fail
601 ;; too, because there's no jump between
602 ;; SIGNAL and the call to TAIL and it will
603 ;; show (flet tail) in the backtrace.
604 (flet ((tail ()))
605 (declare (notinline tail))
606 (tail))))
607 'error)))
608 (assert (= count 1))))
610 (with-test (:name :variables-surrounding-inlined-code)
611 (let ((count 0))
612 (block nil
613 (handler-bind ((error (lambda (c)
614 (declare (ignore c))
615 (sb-debug::map-backtrace
616 (lambda (frame)
617 (let ((sb-debug::*current-frame* frame))
618 (multiple-value-bind (name)
619 (sb-debug::frame-call frame)
620 (when (eq name 'test)
621 (assert (equal (sb-debug:var 'l) '(1 2 3)))
622 (incf count))))))
623 (return))))
624 (funcall
625 (compile nil `(sb-int:named-lambda test (a i)
626 (declare (optimize (debug 3)))
627 (let ((l (list 1 2 3)))
628 (aref a i)
629 l)))
630 #(1) 2)))
631 (assert (= count 1))))
633 (with-test (:name :variables-surrounding-inlined-code.2)
634 (let ((count 0))
635 (block nil
636 (handler-bind ((error (lambda (c)
637 (declare (ignore c))
638 (sb-debug::map-backtrace
639 (lambda (frame)
640 (let ((sb-debug::*current-frame* frame))
641 (multiple-value-bind (name)
642 (sb-debug::frame-call frame)
643 (when (eq name 'test)
644 (assert (equal (sb-debug:var 'l) '(1 2 3)))
645 (incf count))))))
646 (return))))
647 (funcall
648 (compile nil `(sb-int:named-lambda test (c)
649 (declare (optimize (debug 3)))
650 (let ((l (list 1 2 3)))
651 (map 'list #'signal c)
652 l)))
653 '(error))))
654 (assert (= count 1))))