3 Bugs can be reported on the help mailing list
4 sbcl-help@lists.sourceforge.net
5 or on the development mailing list
6 sbcl-devel@lists.sourceforge.net
8 Please include enough information in a bug report that someone reading
9 it can reproduce the problem, i.e. don't write
10 Subject: apparent bug in PRINT-OBJECT (or *PRINT-LENGTH*?)
11 PRINT-OBJECT doesn't seem to work with *PRINT-LENGTH*. Is this a bug?
13 Subject: apparent bug in PRINT-OBJECT (or *PRINT-LENGTH*?)
14 In sbcl-1.2.3 running under OpenBSD 4.5 on my Alpha box, when
15 I compile and load the file
16 (DEFSTRUCT (FOO (:PRINT-OBJECT (LAMBDA (X Y)
17 (LET ((*PRINT-LENGTH* 4))
20 then at the command line type
22 the program loops endlessly instead of printing the object.
27 There is also some information on bugs in the manual page and
28 in the TODO file. Eventually more such information may move here.
30 The gaps in the number sequence belong to old bug descriptions which
31 have gone away (typically because they were fixed, but sometimes for
32 other reasons, e.g. because they were moved elsewhere).
36 DEFSTRUCT almost certainly should overwrite the old LAYOUT information
37 instead of just punting when a contradictory structure definition
38 is loaded. As it is, if you redefine DEFSTRUCTs in a way which
39 changes their layout, you probably have to rebuild your entire
40 program, even if you know or guess enough about the internals of
41 SBCL to wager that this (undefined in ANSI) operation would be safe.
43 3: "type checking of structure slots"
45 ANSI specifies that a type mismatch in a structure slot
46 initialization value should not cause a warning.
48 This one might not be fixed for a while because while we're big
49 believers in ANSI compatibility and all, (1) there's no obvious
50 simple way to do it (short of disabling all warnings for type
51 mismatches everywhere), and (2) there's a good portable
52 workaround, and (3) by their own reasoning, it looks as though
53 ANSI may have gotten it wrong. ANSI justifies this specification
55 The restriction against issuing a warning for type mismatches
56 between a slot-initform and the corresponding slot's :TYPE
57 option is necessary because a slot-initform must be specified
58 in order to specify slot options; in some cases, no suitable
60 However, in SBCL (as in CMU CL or, for that matter, any compiler
61 which really understands Common Lisp types) a suitable default
62 does exist, in all cases, because the compiler understands the
63 concept of functions which never return (i.e. has return type NIL).
64 Thus, as a portable workaround, you can use a call to some
65 known-never-to-return function as the default. E.g.
67 (BAR (ERROR "missing :BAR argument")
68 :TYPE SOME-TYPE-TOO-HAIRY-TO-CONSTRUCT-AN-INSTANCE-OF))
70 (DECLAIM (FTYPE (FUNCTION () NIL) MISSING-ARG))
71 (DEFUN REQUIRED-ARG () ; workaround for SBCL non-ANSI slot init typing
72 (ERROR "missing required argument"))
74 (BAR (REQUIRED-ARG) :TYPE TRICKY-TYPE-OF-SOME-SORT)
75 (BLETCH (REQUIRED-ARG) :TYPE TRICKY-TYPE-OF-SOME-SORT)
76 (N-REFS-SO-FAR 0 :TYPE (INTEGER 0)))
77 Such code should compile without complaint and work correctly either
78 on SBCL or on any other completely compliant Common Lisp system.
80 b: &AUX argument in a boa-constructor without a default value means
81 "do not initilize this slot" and does not cause type error. But
82 an error may be signalled at read time and it would be good if
88 And as long as we're wishing, it would be awfully nice if INSPECT could
89 also report on closures, telling about the values of the bound variables.
91 Currently INSPECT and DESCRIBE do show the values, but showing the
92 names of the bindings would be even nicer.
95 The compiler assumes that any time a function of declared FTYPE
96 doesn't signal an error, its arguments were of the declared type.
97 E.g. compiling and loading
98 (DECLAIM (OPTIMIZE (SAFETY 3)))
99 (DEFUN FACTORIAL (X) (GAMMA (1+ X)))
101 (DECLAIM (FTYPE (FUNCTION (UNSIGNED-BYTE)) FACTORIAL))
103 (COND ((> (FACTORIAL X) 1.0E6)
104 (FORMAT T "too big~%"))
106 (FORMAT T "exactly ~S~%" (FACTORIAL X)))
108 (FORMAT T "approximately ~S~%" (FACTORIAL X)))))
111 will cause the INTEGERP case to be selected, giving bogus output a la
113 This violates the "declarations are assertions" principle.
114 According to the ANSI spec, in the section "System Class FUNCTION",
115 this is a case of "lying to the compiler", but the lying is done
116 by the code which calls FACTORIAL with non-UNSIGNED-BYTE arguments,
117 not by the unexpectedly general definition of FACTORIAL. In any case,
118 "declarations are assertions" means that lying to the compiler should
119 cause an error to be signalled, and should not cause a bogus
120 result to be returned. Thus, the compiler should not assume
121 that arbitrary functions check their argument types. (It might
122 make sense to add another flag (CHECKED?) to DEFKNOWN to
123 identify functions which *do* check their argument types.)
124 (Also, verify that the compiler handles declared function
125 return types as assertions.)
128 The definitions of SIGCONTEXT-FLOAT-REGISTER and
129 %SET-SIGCONTEXT-FLOAT-REGISTER in x86-vm.lisp say they're not
130 supported on FreeBSD because the floating point state is not saved,
131 but at least as of FreeBSD 4.0, the floating point state *is* saved,
132 so they could be supported after all. Very likely
133 SIGCONTEXT-FLOATING-POINT-MODES could now be supported, too.
136 Compiling and loading
137 (DEFUN FAIL (X) (THROW 'FAIL-TAG X))
139 then requesting a BACKTRACE at the debugger prompt gives no information
140 about where in the user program the problem occurred.
142 (this is apparently mostly fixed on the SPARC, PPC, and x86 architectures:
143 while giving the backtrace the non-x86 systems complains about "unknown
144 source location: using block start", but apart from that the
145 backtrace seems reasonable. On x86 this is masked by bug 353. See
146 tests/debug.impure.lisp for a test case)
149 Using the pretty-printer from the command prompt gives funny
150 results, apparently because the pretty-printer doesn't know
151 about user's command input, including the user's carriage return
152 that the user, and therefore the pretty-printer thinks that
153 the new output block should start indented 2 or more characters
154 rightward of the correct location.
157 As reported by Winton Davies on a CMU CL mailing list 2000-01-10,
158 and reported for SBCL by Martin Atzmueller 2000-10-20: (TRACE GETHASH)
159 crashes SBCL. In general tracing anything which is used in the
160 implementation of TRACE is likely to have the same problem.
163 ANSI says in one place that type declarations can be abbreviated even
164 when the type name is not a symbol, e.g.
165 (DECLAIM ((VECTOR T) *FOOVECTOR*))
166 SBCL doesn't support this. But ANSI says in another place that this
167 isn't allowed. So it's not clear this is a bug after all. (See the
168 e-mail on cmucl-help@cons.org on 2001-01-16 and 2001-01-17 from WHN
171 (Actually this has changed changed since, and types as above are
172 now supported. This may be a bug.)
175 RANDOM-INTEGER-EXTRA-BITS=10 may not be large enough for the RANDOM
176 RNG to be high quality near RANDOM-FIXNUM-MAX; it looks as though
177 the mean of the distribution can be systematically O(0.1%) wrong.
178 Just increasing R-I-E-B is probably not a good solution, since
179 it would decrease efficiency more than is probably necessary. Perhaps
180 using some sort of accept/reject method would be better.
183 Internally the compiler sometimes evaluates
184 (sb-kernel:type/= (specifier-type '*) (specifier-type t))
185 (I stumbled across this when I added an
186 (assert (not (eq type1 *wild-type*)))
187 in the NAMED :SIMPLE-= type method.) '* isn't really a type, and
188 in a type context should probably be translated to T, and so it's
189 probably wrong to ask whether it's equal to the T type and then (using
190 the EQ type comparison in the NAMED :SIMPLE-= type method) return NIL.
191 (I haven't tried to investigate this bug enough to guess whether
192 there might be any user-level symptoms.)
194 In fact, the type system is likely to depend on this inequality not
195 holding... * is not equivalent to T in many cases, such as
196 (VECTOR *) /= (VECTOR T).
199 In sbcl-0.6.11.41 (and in all earlier SBCL, and in CMU
200 CL), out-of-line structure slot setters are horribly inefficient
201 whenever the type of the slot is declared, because out-of-line
202 structure slot setters are implemented as closures to save space,
203 so the compiler doesn't compile the type test into code, but
204 instead just saves the type in a lexical closure and interprets it
206 To exercise the problem, compile and load
207 (cl:in-package :cl-user)
209 (bar (error "missing") :type bar))
212 (loop (setf (foo-bar *foo*) x)))
214 (defvar *bar* (make-bar))
215 (defvar *foo* (make-foo :bar *bar*))
216 (defvar *setf-foo-bar* #'(setf foo-bar))
218 (loop (funcall *setf-foo-bar* x *foo*)))
219 then run (WASTREL1 *BAR*) or (WASTREL2 *BAR*), hit Ctrl-C, and
220 use BACKTRACE, to see it's spending all essentially all its time
221 in %TYPEP and VALUES-SPECIFIER-TYPE and so forth.
222 One possible solution would be simply to give up on
223 representing structure slot accessors as functions, and represent
224 them as macroexpansions instead. This can be inconvenient for users,
225 but it's not clear that it's worse than trying to help by expanding
226 into a horribly inefficient implementation.
227 As a workaround for the problem, #'(SETF FOO) expressions
228 can be replaced with (EFFICIENT-SETF-FUNCTION FOO), where
229 (defmacro efficient-setf-function (place-function-name)
230 (or #+sbcl (and (sb-int:info :function :accessor-for place-function-name)
231 ;; a workaround for the problem, encouraging the
232 ;; inline expansion of the structure accessor, so
233 ;; that the compiler can optimize its type test
234 (let ((new-value (gensym "NEW-VALUE-"))
235 (structure-value (gensym "STRUCTURE-VALUE-")))
236 `(lambda (,new-value ,structure-value)
237 (setf (,place-function-name ,structure-value)
239 ;; no problem, can just use the ordinary expansion
240 `(function (setf ,place-function-name))))
243 There's apparently a bug in CEILING optimization which caused
244 Douglas Crosher to patch the CMU CL version. Martin Atzmueller
245 applied the patches to SBCL and they didn't seem to cause problems
246 (as reported sbcl-devel 2001-05-04). However, since the patches
247 modify nontrivial code which was apparently written incorrectly
248 the first time around, until regression tests are written I'm not
249 comfortable merging the patches in the CVS version of SBCL.
254 a) ROOM works by walking over the heap linearly, instead of
255 following the object graph. Hence, it report garbage objects that
256 are unreachable. (Maybe this is a feature and not a bug?)
258 b) ROOM uses MAP-ALLOCATED-OBJECTS to walk the heap, which doesn't
259 check all pointers as well as it should, and can hence become
260 confused, leading to aver failures. As of 1.0.13.21 these (the
261 SAP= aver in particular) should be mostly under control, but push
262 ROOM hard enough and it still might croak.
265 When the compiler inline expands functions, it may be that different
266 kinds of return values are generated from different code branches.
267 E.g. an inline expansion of POSITION generates integer results
268 from one branch, and NIL results from another. When that inline
269 expansion is used in a context where only one of those results
272 (aref *a1* (position x *a2*)))
273 and the compiler can't prove that the unacceptable branch is
274 never taken, then bogus type mismatch warnings can be generated.
275 If you need to suppress the type mismatch warnings, you can
276 suppress the inline expansion,
278 #+sbcl (declare (notinline position)) ; to suppress bug 117 bogowarnings
279 (aref *a1* (position x *a2*)))
280 or, sometimes, suppress them by declaring the result to be of an
283 (aref *a1* (the integer (position x *a2*))))
285 This is not a new compiler problem in 0.7.0, but the new compiler
286 transforms for FIND, POSITION, FIND-IF, and POSITION-IF make it
287 more conspicuous. If you don't need performance from these functions,
288 and the bogus warnings are a nuisance for you, you can return to
289 your pre-0.7.0 state of grace with
290 #+sbcl (declaim (notinline find position find-if position-if)) ; bug 117..
295 As of version 0.pre7.14, SBCL's implementation of MACROLET makes
296 the entire lexical environment at the point of MACROLET available
297 in the bodies of the macroexpander functions. In particular, it
298 allows the function bodies (which run at compile time) to try to
299 access lexical variables (which are only defined at runtime).
300 It doesn't even issue a warning, which is bad.
302 The SBCL behavior arguably conforms to the ANSI spec (since the
303 spec says that the behavior is undefined, ergo anything conforms).
304 However, it would be better to issue a compile-time error.
305 Unfortunately I (WHN) don't see any simple way to detect this
306 condition in order to issue such an error, so for the meantime
307 SBCL just does this weird broken "conforming" thing.
309 The ANSI standard says, in the definition of the special operator
311 The macro-expansion functions defined by MACROLET are defined
312 in the lexical environment in which the MACROLET form appears.
313 Declarations and MACROLET and SYMBOL-MACROLET definitions affect
314 the local macro definitions in a MACROLET, but the consequences
315 are undefined if the local macro definitions reference any
316 local variable or function bindings that are visible in that
318 Then it seems to contradict itself by giving the example
320 (macrolet ((fudge (z)
321 ;The parameters x and flag are not accessible
322 ; at this point; a reference to flag would be to
323 ; the global variable of that name.
324 ` (if flag (* ,z ,z) ,z)))
325 ;The parameters x and flag are accessible here.
329 The comment "a reference to flag would be to the global variable
330 of the same name" sounds like good behavior for the system to have.
331 but actual specification quoted above says that the actual behavior
334 (Since 0.7.8.23 macroexpanders are defined in a restricted version
335 of the lexical environment, containing no lexical variables and
336 functions, which seems to conform to ANSI and CLtL2, but signalling
337 a STYLE-WARNING for references to variables similar to locals might
341 Ideally, uninterning a symbol would allow it, and its associated
342 FDEFINITION and PROCLAIM data, to be reclaimed by the GC. However,
343 at least as of sbcl-0.7.0, this isn't the case. Information about
344 FDEFINITIONs and PROCLAIMed properties is stored in globaldb.lisp
345 essentially in ordinary (non-weak) hash tables keyed by symbols.
346 Thus, once a system has an entry in this system, it tends to live
347 forever, even when it is uninterned and all other references to it
351 (reported by Jesse Bouwman 2001-10-24 through the unfortunately
352 prominent SourceForge web/db bug tracking system, which is
353 unfortunately not a reliable way to get a timely response from
354 the SBCL maintainers)
355 In the course of trying to build a test case for an
356 application error, I encountered this behavior:
357 If you start up sbcl, and then lay on CTRL-C for a
358 minute or two, the lisp process will eventually say:
359 %PRIMITIVE HALT called; the party is over.
360 and throw you into the monitor. If I start up lisp,
361 attach to the process with strace, and then do the same
362 (abusive) thing, I get instead:
363 access failure in heap page not marked as write-protected
364 and the monitor again. I don't know enough to have the
365 faintest idea of what is going on here.
366 This is with sbcl 6.12, uname -a reports:
367 Linux prep 2.2.19 #4 SMP Tue Apr 24 13:59:52 CDT 2001 i686 unknown
368 I (WHN) have verified that the same thing occurs on sbcl-0.pre7.141
369 under OpenBSD 2.9 on my X86 laptop. Do be patient when you try it:
370 it took more than two minutes (but less than five) for me.
374 ANSI allows types `(COMPLEX ,FOO) to use very hairy values for
375 FOO, e.g. (COMPLEX (AND REAL (SATISFIES ODDP))). The old CMU CL
376 COMPLEX implementation didn't deal with this, and hasn't been
377 upgraded to do so. (This doesn't seem to be a high priority
378 conformance problem, since seems hard to construct useful code
381 [ partially fixed by CSR in 0.8.17.17 because of a PFD ansi-tests
382 report that (COMPLEX RATIO) was failing; still failing on types of
383 the form (AND NUMBER (SATISFIES REALP) (SATISFIES ZEROP)). ]
385 b. (fixed in 0.8.3.43)
388 Floating point errors are reported poorly. E.g. on x86 OpenBSD
391 debugger invoked on condition of type SB-KERNEL:FLOATING-POINT-EXCEPTION:
392 An arithmetic error SB-KERNEL:FLOATING-POINT-EXCEPTION was signalled.
393 No traps are enabled? How can this be?
394 It should be possible to be much more specific (overflow, division
395 by zero, etc.) and of course the "How can this be?" should be fixable.
397 See also bugs #45.c and #183
400 (reported by Robert E. Brown 2002-04-16)
401 When a function is called with too few arguments, causing the
402 debugger to be entered, the uninitialized slots in the bad call frame
403 seem to cause GCish problems, being interpreted as tagged data even
404 though they're not. In particular, executing ROOM in the
405 debugger at that point causes AVER failures:
408 * (lisp-implementation-version)
414 failed AVER: "(SAP= CURRENT END)"
415 (Christophe Rhodes reports that this doesn't occur on the SPARC, which
416 isn't too surprising since there are many differences in stack
417 implementation and GC conservatism between the X86 and other ports.)
419 This is probably the same bug as 216
422 The compiler sometimes tries to constant-fold expressions before
423 it checks to see whether they can be reached. This can lead to
424 bogus warnings about errors in the constant folding, e.g. in code
427 (WRITE-STRING (> X 0) "+" "0"))
428 compiled in a context where the compiler can prove that X is NIL,
429 and the compiler complains that (> X 0) causes a type error because
430 NIL isn't a valid argument to #'>. Until sbcl-0.7.4.10 or so this
431 caused a full WARNING, which made the bug really annoying because then
432 COMPILE and COMPILE-FILE returned FAILURE-P=T for perfectly legal
433 code. Since then the warning has been downgraded to STYLE-WARNING,
434 so it's still a bug but at least it's a little less annoying.
436 183: "IEEE floating point issues"
437 Even where floating point handling is being dealt with relatively
438 well (as of sbcl-0.7.5, on sparc/sunos and alpha; see bug #146), the
439 accrued-exceptions and current-exceptions part of the fp control
440 word don't seem to bear much relation to reality. E.g. on
444 debugger invoked on condition of type DIVISION-BY-ZERO:
445 arithmetic error DIVISION-BY-ZERO signalled
446 0] (sb-vm::get-floating-point-modes)
448 (:TRAPS (:OVERFLOW :INVALID :DIVIDE-BY-ZERO)
449 :ROUNDING-MODE :NEAREST
450 :CURRENT-EXCEPTIONS NIL
451 :ACCRUED-EXCEPTIONS (:INEXACT)
454 * (sb-vm::get-floating-point-modes)
455 (:TRAPS (:OVERFLOW :INVALID :DIVIDE-BY-ZERO)
456 :ROUNDING-MODE :NEAREST
457 :CURRENT-EXCEPTIONS (:INEXACT)
458 :ACCRUED-EXCEPTIONS (:INEXACT)
461 188: "compiler performance fiasco involving type inference and UNION-TYPE"
465 (declare (optimize (safety 3)))
466 (declare (optimize (compilation-speed 2)))
467 (declare (optimize (speed 1) (debug 1) (space 1)))
469 (declare (type (integer 0) start))
470 (print (incf start 22))
471 (print (incf start 26))
472 (print (incf start 28)))
474 (declare (type (integer 0) start))
475 (print (incf start 22))
476 (print (incf start 26)))
478 (declare (type (integer 0) start))
479 (print (incf start 22))
480 (print (incf start 26))))))
482 [ Update: 1.0.14.36 improved this quite a bit (20-25%) by
483 eliminating useless work from PROPAGATE-FROM-SETS -- but as alluded
484 below, maybe we should be smarter about when to decide a derived
485 type is "good enough". ]
487 This example could be solved with clever enough constraint
488 propagation or with SSA, but consider
493 The careful type of X is {2k} :-(. Is it really important to be
494 able to work with unions of many intervals?
496 191: "Miscellaneous PCL deficiencies"
497 (reported by Alexey Dejneka sbcl-devel 2002-08-04)
498 a. DEFCLASS does not inform the compiler about generated
499 functions. Compiling a file with
503 (WITH-SLOTS (A-CLASS-X) A
505 results in a STYLE-WARNING:
507 SB-SLOT-ACCESSOR-NAME::|COMMON-LISP-USER A-CLASS-X slot READER|
509 APD's fix for this was checked in to sbcl-0.7.6.20, but Pierre
510 Mai points out that the declamation of functions is in fact
511 incorrect in some cases (most notably for structure
512 classes). This means that at present erroneous attempts to use
513 WITH-SLOTS and the like on classes with metaclass STRUCTURE-CLASS
514 won't get the corresponding STYLE-WARNING.
516 [much later, in 2006-08] in fact it's no longer erroneous to use
517 WITH-SLOTS on structure-classes. However, including :METACLASS
518 STRUCTURE-CLASS in the class definition gives a whole bunch of
519 function redefinition warnings, so we're still not good to close
522 c. (fixed in 0.8.4.23)
524 201: "Incautious type inference from compound types"
525 a. (reported by APD sbcl-devel 2002-09-17)
527 (LET ((Y (CAR (THE (CONS INTEGER *) X))))
529 (FORMAT NIL "~S IS ~S, Y = ~S"
536 (FOO ' (1 . 2)) => "NIL IS INTEGER, Y = 1"
540 (declare (type (array * (4 4)) x))
542 (setq x (make-array '(4 4)))
543 (adjust-array y '(3 5))
544 (= (array-dimension y 0) (eval `(array-dimension ,y 0)))))
546 * (foo (make-array '(4 4) :adjustable t))
549 205: "environment issues in cross compiler"
550 (These bugs have no impact on user code, but should be fixed or
552 a. Macroexpanders introduced with MACROLET are defined in the null
554 b. The body of (EVAL-WHEN (:COMPILE-TOPLEVEL) ...) is evaluated in
555 the null lexical environment.
556 c. The cross-compiler cannot inline functions defined in a non-null
559 207: "poorly distributed SXHASH results for compound data"
560 SBCL's SXHASH could probably try a little harder. ANSI: "the
561 intent is that an implementation should make a good-faith
562 effort to produce hash-codes that are well distributed
563 within the range of non-negative fixnums". But
564 (let ((hits (make-hash-table)))
567 (let* ((ij (cons i j))
568 (newlist (push ij (gethash (sxhash ij) hits))))
570 (format t "~&collision: ~S~%" newlist))))))
571 reports lots of collisions in sbcl-0.7.8. A stronger MIX function
572 would be an obvious way of fix. Maybe it would be acceptably efficient
573 to redo MIX using a lookup into a 256-entry s-box containing
574 29-bit pseudorandom numbers?
576 211: "keywords processing"
577 a. :ALLOW-OTHER-KEYS T should allow a function to receive an odd
578 number of keyword arguments.
580 212: "Sequence functions and circular arguments"
581 COERCE, MERGE and CONCATENATE go into an infinite loop when given
582 circular arguments; it would be good for the user if they could be
583 given an error instead (ANSI 17.1.1 allows this behaviour on the part
584 of the implementation, as conforming code cannot give non-proper
585 sequences to these functions. MAP also has this problem (and
586 solution), though arguably the convenience of being able to do
587 (MAP 'LIST '+ FOO '#1=(1 . #1#))
588 might be classed as more important (though signalling an error when
589 all of the arguments are circular is probably desireable).
591 213: "Sequence functions and type checking"
592 b. MAP, when given a type argument that is SUBTYPEP LIST, does not
593 check that it will return a sequence of the given type. Fixing
594 it along the same lines as the others (cf. work done around
595 sbcl-0.7.8.45) is possible, but doing so efficiently didn't look
596 entirely straightforward.
597 c. All of these functions will silently accept a type of the form
599 whether or not the return value is of this type. This is
600 probably permitted by ANSI (see "Exceptional Situations" under
601 ANSI MAKE-SEQUENCE), but the DERIVE-TYPE mechanism does not
602 know about this escape clause, so code of the form
603 (INTEGERP (CAR (MAKE-SEQUENCE '(CONS INTEGER *) 2)))
604 can erroneously return T.
606 215: ":TEST-NOT handling by functions"
607 a. FIND and POSITION currently signal errors when given non-NIL for
608 both their :TEST and (deprecated) :TEST-NOT arguments, but by
609 ANSI 17.2 "the consequences are unspecified", which by ANSI 1.4.2
610 means that the effect is "unpredictable but harmless". It's not
611 clear what that actually means; it may preclude conforming
612 implementations from signalling errors.
613 b. COUNT, REMOVE and the like give priority to a :TEST-NOT argument
614 when conflict occurs. As a quality of implementation issue, it
615 might be preferable to treat :TEST and :TEST-NOT as being in some
616 sense the same &KEY, and effectively take the first test function in
618 c. Again, a quality of implementation issue: it would be good to issue a
619 STYLE-WARNING at compile-time for calls with :TEST-NOT, and a
620 WARNING for calls with both :TEST and :TEST-NOT; possibly this
621 latter should be WARNed about at execute-time too.
623 216: "debugger confused by frames with invalid number of arguments"
624 In sbcl-0.7.8.51, executing e.g. (VECTOR-PUSH-EXTEND T), BACKTRACE, Q
625 leaves the system confused, enough so that (QUIT) no longer works.
626 It's as though the process of working with the uninitialized slot in
627 the bad VECTOR-PUSH-EXTEND frame causes GC problems, though that may
628 not be the actual problem. (CMU CL 18c doesn't have problems with this.)
630 This is probably the same bug as 162
632 235: "type system and inline expansion"
634 (declaim (ftype (function (cons) number) acc))
635 (declaim (inline acc))
637 (the number (car c)))
640 (values (locally (declare (optimize (safety 0)))
642 (locally (declare (optimize (safety 3)))
645 (foo '(nil) '(t)) => NIL, T.
647 As of 0.9.15.41 this seems to be due to ACC being inlined only once
648 inside FOO, which results in the second call reusing the FUNCTIONAL
649 resulting from the first -- which doesn't check the type.
651 237: "Environment arguments to type functions"
652 a. Functions SUBTYPEP, TYPEP, UPGRADED-ARRAY-ELEMENT-TYPE, and
653 UPGRADED-COMPLEX-PART-TYPE now have an optional environment
654 argument, but they ignore it completely. This is almost
655 certainly not correct.
656 b. Also, the compiler's optimizers for TYPEP have not been informed
657 about the new argument; consequently, they will not transform
658 calls of the form (TYPEP 1 'INTEGER NIL), even though this is
659 just as optimizeable as (TYPEP 1 'INTEGER).
661 238: "REPL compiler overenthusiasm for CLOS code"
663 * (defclass foo () ())
664 * (defmethod bar ((x foo) (foo foo)) (call-next-method))
665 causes approximately 100 lines of code deletion notes. Some
666 discussion on this issue happened under the title 'Three "interesting"
667 bugs in PCL', resulting in a fix for this oververbosity from the
668 compiler proper; however, the problem persists in the interactor
669 because the notion of original source is not preserved: for the
670 compiler, the original source of the above expression is (DEFMETHOD
671 BAR ((X FOO) (FOO FOO)) (CALL-NEXT-METHOD)), while by the time the
672 compiler gets its hands on the code needing compilation from the REPL,
673 it has been macroexpanded several times.
675 A symptom of the same underlying problem, reported by Tony Martinez:
677 (with-input-from-string (*query-io* " no")
679 (simple-type-error () 'error))
681 ; (SB-KERNEL:FLOAT-WAIT)
683 ; note: deleting unreachable code
684 ; compilation unit finished
687 242: "WRITE-SEQUENCE suboptimality"
688 (observed from clx performance)
689 In sbcl-0.7.13, WRITE-SEQUENCE of a sequence of type
690 (SIMPLE-ARRAY (UNSIGNED-BYTE 8) (*)) on a stream with element-type
691 (UNSIGNED-BYTE 8) will write to the stream one byte at a time,
692 rather than writing the sequence in one go, leading to severe
693 performance degradation.
694 As of sbcl-0.9.0.36, this is solved for fd-streams, so is less of a
695 problem in practice. (Fully fixing this would require adding a
696 ansi-stream-n-bout slot and associated methods to write a byte
697 sequence to ansi-stream, similar to the existing ansi-stream-sout
700 243: "STYLE-WARNING overenthusiasm for unused variables"
701 (observed from clx compilation)
702 In sbcl-0.7.14, in the presence of the macros
703 (DEFMACRO FOO (X) `(BAR ,X))
704 (DEFMACRO BAR (X) (DECLARE (IGNORABLE X)) 'NIL)
705 somewhat surprising style warnings are emitted for
706 (COMPILE NIL '(LAMBDA (Y) (FOO Y))):
708 ; (LAMBDA (Y) (FOO Y))
710 ; caught STYLE-WARNING:
711 ; The variable Y is defined but never used.
713 245: bugs in disassembler
714 b. On X86 operand size prefix is not recognized.
717 (defun foo (&key (a :x))
721 does not cause a warning. (BTW: old SBCL issued a warning, but for a
722 function, which was never called!)
725 Compiler does not emit warnings for
727 a. (lambda () (svref (make-array 8 :adjustable t) 1))
729 b. (fixed at some point before 1.0.4.10)
732 (declare (optimize (debug 0)))
733 (declare (type vector x))
734 (list (fill-pointer x)
738 Complex array type does not have corresponding type specifier.
740 This is a problem because the compiler emits optimization notes when
741 you use a non-simple array, and without a type specifier for hairy
742 array types, there's no good way to tell it you're doing it
743 intentionally so that it should shut up and just compile the code.
745 Another problem is confusing error message "asserted type ARRAY
746 conflicts with derived type (VALUES SIMPLE-VECTOR &OPTIONAL)" during
747 compiling (LAMBDA (V) (VALUES (SVREF V 0) (VECTOR-POP V))).
749 The last problem is that when type assertions are converted to type
750 checks, types are represented with type specifiers, so we could lose
751 complex attribute. (Now this is probably not important, because
752 currently checks for complex arrays seem to be performed by
756 (compile nil '(lambda () (aref (make-array 0) 0))) compiles without
757 warning. Analogous cases with the index and length being equal and
758 greater than 0 are warned for; the problem here seems to be that the
759 type required for an array reference of this type is (INTEGER 0 (0))
760 which is canonicalized to NIL.
765 (t1 (specifier-type s)))
766 (eval `(defstruct ,s))
767 (type= t1 (specifier-type s)))
772 b. The same for CSUBTYPEP.
774 262: "yet another bug in inline expansion of local functions"
775 During inline expansion of a local function Python can try to
776 reference optimized away objects (functions, variables, CTRANs from
777 tags and blocks), which later may lead to problems. Some of the
778 cases are worked around by forbidding expansion in such cases, but
779 the better way would be to reimplement inline expansion by copying
783 David Lichteblau provided (sbcl-devel 2003-06-01) a patch to fix
784 behaviour of streams with element-type (SIGNED-BYTE 8). The patch
785 looks reasonable, if not obviously correct; however, it caused the
786 PPC/Linux port to segfault during warm-init while loading
787 src/pcl/std-class.fasl. A workaround patch was made, but it would
788 be nice to understand why the first patch caused problems, and to
789 fix the cause if possible.
791 268: "wrong free declaration scope"
792 The following code must signal type error:
794 (locally (declare (optimize (safety 3)))
795 (flet ((foo (x &optional (y (car x)))
796 (declare (optimize (safety 0)))
798 (funcall (eval #'foo) 1)))
801 In the following function constraint propagator optimizes nothing:
804 (declare (integer x))
805 (declare (optimize speed))
813 Compilation of the following two forms causes "X is unbound" error:
815 (symbol-macrolet ((x pi))
816 (macrolet ((foo (y) (+ x y)))
817 (declaim (inline bar))
823 (See (COERCE (CDR X) 'FUNCTION) in IR1-CONVERT-INLINE-LAMBDA.)
826 CLHS says that type declaration of a symbol macro should not affect
827 its expansion, but in SBCL it does. (If you like magic and want to
828 fix it, don't forget to change all uses of MACROEXPAND to
832 The following code (taken from CLOCC) takes a lot of time to compile:
835 (declare (type (integer 0 #.large-constant) n))
838 (fixed in 0.8.2.51, but a test case would be good)
841 b. The same as in a., but using MULTIPLE-VALUE-SETQ instead of SETQ.
843 (defmethod faa ((*faa* double-float))
844 (set '*faa* (when (< *faa* 0) (- *faa*)))
846 (faa 1d0) => type error
848 279: type propagation error -- correctly inferred type goes astray?
849 In sbcl-0.8.3 and sbcl-0.8.1.47, the warning
850 The binding of ABS-FOO is a (VALUES (INTEGER 0 0)
851 &OPTIONAL), not a (INTEGER 1 536870911)
852 is emitted when compiling this file:
853 (declaim (ftype (function ((integer 0 #.most-positive-fixnum))
854 (integer #.most-negative-fixnum 0))
859 (let* (;; Uncomment this for a type mismatch warning indicating
860 ;; that the type of (FOO X) is correctly understood.
861 #+nil (fs-foo (float-sign (foo x)))
862 ;; Uncomment this for a type mismatch warning
863 ;; indicating that the type of (ABS (FOO X)) is
864 ;; correctly understood.
865 #+nil (fs-abs-foo (float-sign (abs (foo x))))
866 ;; something wrong with this one though
867 (abs-foo (abs (foo x))))
868 (declare (type (integer 1 100) abs-foo))
873 283: Thread safety: libc functions
874 There are places that we call unsafe-for-threading libc functions
875 that we should find alternatives for, or put locks around. Known or
876 strongly suspected problems, as of 1.0.3.13: please update this
877 bug instead of creating new ones
879 284: Thread safety: special variables
880 There are lots of special variables in SBCL, and I feel sure that at
881 least some of them are indicative of potentially thread-unsafe
882 parts of the system. See doc/internals/notes/threading-specials
884 286: "recursive known functions"
885 Self-call recognition conflicts with known function
886 recognition. Currently cross compiler and target COMPILE do not
887 recognize recursion, and in target compiler it can be disabled. We
888 can always disable it for known functions with RECURSIVE attribute,
889 but there remains a possibility of a function with a
890 (tail)-recursive simplification pass and transforms/VOPs for base
893 288: fundamental cross-compilation issues (from old UGLINESS file)
894 Using host floating point numbers to represent target floating point
895 numbers, or host characters to represent target characters, is
896 theoretically shaky. (The characters are OK as long as the characters
897 are in the ANSI-guaranteed character set, though, so they aren't a
898 real problem as long as the sources don't need anything but that;
899 the floats are a real problem.)
901 289: "type checking and source-transforms"
903 (block nil (let () (funcall #'+ (eval 'nil) (eval '1) (return :good))))
906 Our policy is to check argument types at the moment of a call. It
907 disagrees with ANSI, which says that type assertions are put
908 immediately onto argument expressions, but is easier to implement in
909 IR1 and is more compatible to type inference, inline expansion,
910 etc. IR1-transforms automatically keep this policy, but source
911 transforms for associative functions (such as +), being applied
912 during IR1-convertion, do not. It may be tolerable for direct calls
913 (+ x y z), but for (FUNCALL #'+ x y z) it is non-conformant.
915 b. Another aspect of this problem is efficiency. [x y + z +]
916 requires less registers than [x y z + +]. This transformation is
917 currently performed with source transforms, but it would be good to
918 also perform it in IR1 optimization phase.
920 290: Alpha floating point and denormalized traps
921 In SBCL 0.8.3.6x on the alpha, we work around what appears to be a
922 hardware or kernel deficiency: the status of the enable/disable
923 denormalized-float traps bit seems to be ambiguous; by the time we
924 get to os_restore_fp_control after a trap, denormalized traps seem
925 to be enabled. Since we don't want a trap every time someone uses a
926 denormalized float, in general, we mask out that bit when we restore
927 the control word; however, this clobbers any change the user might
931 LOOP with non-constant arithmetic step clauses suffers from overzealous
932 type constraint: code of the form
933 (loop for d of-type double-float from 0d0 to 10d0 by x collect d)
934 compiles to a type restriction on X of (AND DOUBLE-FLOAT (REAL
935 (0))). However, an integral value of X should be legal, because
936 successive adds of integers to double-floats produces double-floats,
937 so none of the type restrictions in the code is violated.
939 300: (reported by Peter Graves) Function PEEK-CHAR checks PEEK-TYPE
940 argument type only after having read a character. This is caused
941 with EXPLICIT-CHECK attribute in DEFKNOWN. The similar problem
942 exists with =, /=, <, >, <=, >=. They were fixed, but it is probably
943 less error prone to have EXPLICIT-CHECK be a local declaration,
944 being put into the definition, instead of an attribute being kept in
945 a separate file; maybe also put it into SB-EXT?
947 301: ARRAY-SIMPLE-=-TYPE-METHOD breaks on corner cases which can arise
948 in NOTE-ASSUMED-TYPES
949 In sbcl-0.8.7.32, compiling the file
951 (declare (type integer x))
952 (declare (type (vector (or hash-table bit)) y))
955 (declare (type integer x))
956 (declare (type (simple-array base (2)) y))
959 failed AVER: "(NOT (AND (NOT EQUALP) CERTAINP))"
961 303: "nonlinear LVARs" (aka MISC.293)
963 (multiple-value-call #'list
965 (multiple-value-prog1
966 (eval '(values :a :b :c))
972 (throw 'bar (values 3 4)))))))))))
974 (BUU 1) returns garbage.
976 The problem is that both EVALs sequentially write to the same LVAR.
978 306: "Imprecise unions of array types"
980 a. fixed in SBCL 0.9.15.48
985 ,@(loop for x across sb-vm:*specialized-array-element-type-properties*
986 collect `(array ,(sb-vm:saetp-specifier x)))))
987 => NIL, T (when it should be T, T)
989 309: "Dubious values for implementation limits"
990 (reported by Bruno Haible sbcl-devel "Incorrect value of
991 multiple-values-limit" 2004-04-19)
992 (values-list (make-list 1000000)), on x86/linux, signals a stack
993 exhaustion condition, despite MULTIPLE-VALUES-LIMIT being
994 significantly larger than 1000000. There are probably similar
995 dubious values for CALL-ARGUMENTS-LIMIT (see cmucl-help/cmucl-imp
996 around the same time regarding a call to LIST on sparc with 1000
997 arguments) and other implementation limit constants.
999 314: "LOOP :INITIALLY clauses and scope of initializers"
1000 reported by Bruno Haible sbcl-devel "various SBCL bugs" from CLISP
1001 test suite, originally by Thomas F. Burdick.
1002 ;; <http://www.lisp.org/HyperSpec/Body/sec_6-1-7-2.html>
1003 ;; According to the HyperSpec 6.1.2.1.4, in for-as-equals-then, var is
1004 ;; initialized to the result of evaluating form1. 6.1.7.2 says that
1005 ;; initially clauses are evaluated in the loop prologue, which precedes all
1006 ;; loop code except for the initial settings provided by with, for, or as.
1007 (loop :for x = 0 :then (1+ x)
1008 :for y = (1+ x) :then (ash y 1)
1009 :for z :across #(1 3 9 27 81 243)
1011 :initially (assert (zerop x)) :initially (assert (= 2 w))
1012 :until (>= w 100) :collect w)
1013 Expected: (2 6 15 38)
1016 318: "stack overflow in compiler warning with redefined class"
1017 reported by Bruno Haible sbcl-devel "various SBCL bugs" from CLISP
1020 (setf (find-class 'foo) nil)
1021 (defstruct foo slot-1)
1022 This used to give a stack overflow from within the printer, which has
1023 been fixed as of 0.8.16.11. Current result:
1025 ; can't compile TYPEP of anonymous or undefined class:
1026 ; #<SB-KERNEL:STRUCTURE-CLASSOID FOO>
1028 debugger invoked on a TYPE-ERROR in thread 19973:
1029 The value NIL is not of type FUNCTION.
1031 CSR notes: it's not really clear what it should give: is (SETF FIND-CLASS)
1032 meant to be enough to delete structure classes from the system?
1034 319: "backquote with comma inside array"
1035 reported by Bruno Haible sbcl-devel "various SBCL bugs" from CLISP
1037 (read-from-string "`#1A(1 2 ,(+ 2 2) 4)")
1039 #(1 2 ((SB-IMPL::|,|) + 2 2) 4)
1040 which probably isn't intentional.
1042 324: "STREAMs and :ELEMENT-TYPE with large bytesize"
1043 In theory, (open foo :element-type '(unsigned-byte <x>)) should work
1044 for all positive integral <x>. At present, it only works for <x> up
1045 to about 1024 (and similarly for signed-byte), so
1046 (open "/dev/zero" :element-type '(unsigned-byte 1025))
1047 gives an error in sbcl-0.8.10.
1049 325: "CLOSE :ABORT T on supeseding streams"
1050 Closing a stream opened with :IF-EXISTS :SUPERSEDE with :ABORT T leaves no
1051 file on disk, even if one existed before opening.
1053 The illegality of this is not crystal clear, as the ANSI dictionary
1054 entry for CLOSE says that when :ABORT is T superseded files are not
1055 superseded (ie. the original should be restored), whereas the OPEN
1056 entry says about :IF-EXISTS :SUPERSEDE "If possible, the
1057 implementation should not destroy the old file until the new stream
1058 is closed." -- implying that even though undesirable, early deletion
1059 is legal. Restoring the original would none the less be the polite
1062 326: "*PRINT-CIRCLE* crosstalk between streams"
1063 In sbcl-0.8.10.48 it's possible for *PRINT-CIRCLE* references to be
1064 mixed between streams when output operations are intermingled closely
1065 enough (as by doing output on S2 from within (PRINT-OBJECT X S1) in the
1066 test case below), so that e.g. the references #2# appears on a stream
1067 with no preceding #2= on that stream to define it (because the #2= was
1068 sent to another stream).
1069 (cl:in-package :cl-user)
1070 (defstruct foo index)
1071 (defparameter *foo* (make-foo :index 4))
1073 (defparameter *bar* (make-bar))
1074 (defparameter *tangle* (list *foo* *bar* *foo*))
1075 (defmethod print-object ((foo foo) stream)
1076 (let ((index (foo-index foo)))
1077 (format *trace-output*
1078 "~&-$- emitting FOO ~D, ambient *BAR*=~S~%"
1080 (format stream "[FOO ~D]" index))
1082 (let ((tsos (make-string-output-stream))
1083 (ssos (make-string-output-stream)))
1084 (let ((*print-circle* t)
1085 (*trace-output* tsos)
1086 (*standard-output* ssos))
1087 (prin1 *tangle* *standard-output*))
1088 (let ((string (get-output-stream-string ssos)))
1089 (unless (string= string "(#1=[FOO 4] #S(BAR) #1#)")
1090 ;; In sbcl-0.8.10.48 STRING was "(#1=[FOO 4] #2# #1#)".:-(
1091 (error "oops: ~S" string)))))
1092 It might be straightforward to fix this by turning the
1093 *CIRCULARITY-HASH-TABLE* and *CIRCULARITY-COUNTER* variables into
1094 per-stream slots, but (1) it would probably be sort of messy faking
1095 up the special variable binding semantics using UNWIND-PROTECT and
1096 (2) it might be sort of a pain to test that no other bugs had been
1099 328: "Profiling generic functions", transplanted from #241
1100 (from tonyms on #lisp IRC 2003-02-25)
1101 In sbcl-0.7.12.55, typing
1102 (defclass foo () ((bar :accessor foo-bar)))
1105 (defclass foo () ((bar :accessor foo-bar)))
1106 gives the error message
1107 "#:FOO-BAR already names an ordinary function or a macro."
1109 Problem: when a generic function is profiled, it appears as an ordinary
1110 function to PCL. (Remembering the uninterned accessor is OK, as the
1111 redefinition must be able to remove old accessors from their generic
1114 329: "Sequential class redefinition"
1115 reported by Bruno Haible:
1116 (defclass reactor () ((max-temp :initform 10000000)))
1117 (defvar *r1* (make-instance 'reactor))
1118 (defvar *r2* (make-instance 'reactor))
1119 (slot-value *r1* 'max-temp)
1120 (slot-value *r2* 'max-temp)
1121 (defclass reactor () ((uptime :initform 0)))
1122 (slot-value *r1* 'uptime)
1123 (defclass reactor () ((uptime :initform 0) (max-temp :initform 10000)))
1124 (slot-value *r1* 'max-temp) ; => 10000
1125 (slot-value *r2* 'max-temp) ; => 10000000 oops...
1128 The method effective when the wrapper is obsoleted can be saved
1129 in the wrapper, and then to update the instance just run through
1130 all the old wrappers in order from oldest to newest.
1132 332: "fasl stack inconsistency in structure redefinition"
1133 (reported by Tim Daly Jr sbcl-devel 2004-05-06)
1134 Even though structure redefinition is undefined by the standard, the
1135 following behaviour is suboptimal: running
1136 (defun stimulate-sbcl ()
1137 (let ((filename (format nil "/tmp/~A.lisp" (gensym))))
1138 ;;create a file which redefines a structure incompatibly
1139 (with-open-file (f filename :direction :output :if-exists :supersede)
1140 (print '(defstruct astruct foo) f)
1141 (print '(defstruct astruct foo bar) f))
1142 ;;compile and load the file, then invoke the continue restart on
1143 ;;the structure redefinition error
1144 (handler-bind ((error (lambda (c) (continue c))))
1145 (load (compile-file filename)))))
1147 and choosing the CONTINUE restart yields the message
1148 debugger invoked on a SB-INT:BUG in thread 27726:
1149 fasl stack not empty when it should be
1151 336: "slot-definitions must retain the generic functions of accessors"
1152 reported by Tony Martinez:
1153 (defclass foo () ((bar :reader foo-bar)))
1154 (defun foo-bar (x) x)
1155 (defclass foo () ((bar :reader get-bar))) ; => error, should work
1157 Note: just punting the accessor removal if the fdefinition
1158 is not a generic function is not enough:
1160 (defclass foo () ((bar :reader foo-bar)))
1161 (defvar *reader* #'foo-bar)
1162 (defun foo-bar (x) x)
1163 (defclass foo () ((bar :initform 'ok :reader get-bar)))
1164 (funcall *reader* (make-instance 'foo)) ; should be an error, since
1165 ; the method must be removed
1166 ; by the class redefinition
1168 Fixing this should also fix a subset of #328 -- update the
1169 description with a new test-case then.
1171 339: "DEFINE-METHOD-COMBINATION bugs"
1172 (reported by Bruno Haible via the clisp test suite)
1174 a. Syntax checking laxity (should produce errors):
1175 i. (define-method-combination foo :documentation :operator)
1176 ii. (define-method-combination foo :documentation nil)
1177 iii. (define-method-combination foo nil)
1178 iv. (define-method-combination foo nil nil
1179 (:arguments order &aux &key))
1180 v. (define-method-combination foo nil nil (:arguments &whole))
1181 vi. (define-method-combination foo nil nil (:generic-function))
1182 vii. (define-method-combination foo nil nil (:generic-function bar baz))
1183 viii. (define-method-combination foo nil nil (:generic-function (bar)))
1184 ix. (define-method-combination foo nil ((3)))
1185 x. (define-method-combination foo nil ((a)))
1187 b. define-method-combination arguments lambda list badness
1188 i. &aux args are currently unsupported;
1189 ii. default values of &optional and &key arguments are ignored;
1190 iii. supplied-p variables for &optional and &key arguments are not
1193 c. (fixed in sbcl-0.9.15.15)
1195 344: more (?) ROOM T problems (possibly part of bug 108)
1196 In sbcl-0.8.12.51, and off and on leading up to it, the
1197 SB!VM:MEMORY-USAGE operations in ROOM T caused
1198 unhandled condition (of type SB-INT:BUG):
1199 failed AVER: "(SAP= CURRENT END)"
1200 Several clever people have taken a shot at this without fixing
1201 it; this time around (before sbcl-0.8.13 release) I (WHN) just
1202 commented out the SB!VM:MEMORY-USAGE calls until someone figures
1203 out how to make them work reliably with the rest of the GC.
1205 (Note: there's at least one dubious thing in room.lisp: see the
1206 comment in VALID-OBJ)
1208 346: alpha backtrace
1209 In sbcl-0.8.13, all backtraces from errors caused by internal errors
1210 on the alpha seem to have a "bogus stack frame".
1212 349: PPRINT-INDENT rounding implementation decisions
1213 At present, pprint-indent (and indeed the whole pretty printer)
1214 more-or-less assumes that it's using a monospace font. That's
1215 probably not too silly an assumption, but one piece of information
1216 the current implementation loses is from requests to indent by a
1217 non-integral amount. As of sbcl-0.8.15.9, the system silently
1218 truncates the indentation to an integer at the point of request, but
1219 maybe the non-integral value should be propagated through the
1220 pprinter and only truncated at output? (So that indenting by 1/2
1221 then 3/2 would indent by two spaces, not one?)
1223 352: forward-referenced-class trouble
1224 reported by Bruno Haible on sbcl-devel
1226 (setf (class-name (find-class 'a)) 'b)
1230 Expected: an instance of c, with a slot named x
1231 Got: debugger invoked on a SIMPLE-ERROR in thread 78906:
1232 While computing the class precedence list of the class named C.
1233 The class named B is a forward referenced class.
1234 The class named B is a direct superclass of the class named C.
1236 [ Is this actually a bug? DEFCLASS only replaces an existing class
1237 when the class name is the proper name of that class, and in the
1238 above code the class found by (FIND-CLASS 'A) does not have a
1239 proper name. CSR, 2006-08-07 ]
1241 353: debugger suboptimalities on x86
1242 On x86 backtraces for undefined functions start with a bogus stack
1243 frame, and backtraces for throws to unknown catch tags with a "no
1244 debug information" frame. These are both due to CODE-COMPONENT-FROM-BITS
1245 (used on non-x86 platforms) being a more complete solution then what
1248 On x86/linux large portions of tests/debug.impure.lisp have been commented
1249 out as failures. The probable culprit for these problems is in x86-call-context
1250 (things work fine on x86/freebsd).
1252 More generally, the debugger internals suffer from excessive x86/non-x86
1253 conditionalization and OAOOMization: refactoring the common parts would
1256 354: XEPs in backtraces
1257 Under default compilation policy
1261 Has the XEP for TEST in the backtrace, not the TEST frame itself.
1262 (sparc and x86 at least)
1264 Since SBCL 0.8.20.1 this is hidden unless *SHOW-ENTRY-POINT-DETAILS*
1265 is true (instead there appear two TEST frames at least on ppc). The
1266 underlying cause seems to be that SB-C::TAIL-ANNOTATE will not merge
1267 the tail-call for the XEP, since Python has by that time proved that
1268 the function can never return; same happens if the function holds an
1269 unconditional call to ERROR.
1272 (reported by Bruno Haible)
1273 After the "layout depth conflict" error, the CLOS is left in a state where
1274 it's not possible to define new standard-class subclasses any more.
1276 (defclass prioritized-dispatcher ()
1277 ((dependents :type list :initform nil)))
1278 (defmethod sb-pcl:validate-superclass ((c1 sb-pcl:funcallable-standard-class)
1279 (c2 (eql (find-class 'prioritized-dispatcher))))
1281 (defclass prioritized-generic-function (prioritized-dispatcher standard-generic-function)
1283 (:metaclass sb-pcl:funcallable-standard-class))
1284 ;; ERROR, Quit the debugger with ABORT
1285 (defclass typechecking-reader-class (standard-class)
1287 Expected: #<STANDARD-CLASS TYPECHECKING-READER-CLASS>
1288 Got: ERROR "The assertion SB-PCL::WRAPPERS failed."
1290 [ This test case does not cause the error any more. However,
1291 similar problems can be observed with
1293 (defclass foo (standard-class) ()
1294 (:metaclass sb-mop:funcallable-standard-class))
1295 (sb-mop:finalize-inheritance (find-class 'foo))
1297 (defclass bar (standard-class) ())
1298 (make-instance 'bar)
1301 357: defstruct inheritance of initforms
1302 (reported by Bruno Haible)
1303 When defstruct and defclass (with :metaclass structure-class) are mixed,
1304 1. some slot initforms are ignored by the DEFSTRUCT generated constructor
1306 2. all slot initforms are ignored by MAKE-INSTANCE. (This can be arguably
1307 OK for initforms that were given in a DEFSTRUCT form, but for those
1308 given in a DEFCLASS form, I think it qualifies as a bug.)
1310 (defstruct structure02a
1314 (defclass structure02b (structure02a)
1315 ((slot4 :initform -44)
1318 (slot7 :initform (floor (* pi pi)))
1319 (slot8 :initform 88))
1320 (:metaclass structure-class))
1321 (defstruct (structure02c (:include structure02b (slot8 -88)))
1324 (slot11 (floor (exp 3))))
1326 (let ((a (make-structure02c)))
1327 (list (structure02c-slot4 a)
1328 (structure02c-slot5 a)
1329 (structure02c-slot6 a)
1330 (structure02c-slot7 a)))
1331 Expected: (-44 nil t 9)
1332 Got: (SB-PCL::..SLOT-UNBOUND.. SB-PCL::..SLOT-UNBOUND..
1333 SB-PCL::..SLOT-UNBOUND.. SB-PCL::..SLOT-UNBOUND..)
1335 (let ((b (make-instance 'structure02c)))
1336 (list (structure02c-slot2 b)
1337 (structure02c-slot3 b)
1338 (structure02c-slot4 b)
1339 (structure02c-slot6 b)
1340 (structure02c-slot7 b)
1341 (structure02c-slot8 b)
1342 (structure02c-slot10 b)
1343 (structure02c-slot11 b)))
1344 Expected: (t 3 -44 t 9 -88 t 20)
1345 Got: (0 0 0 0 0 0 0 0)
1347 359: wrong default value for ensure-generic-function's :generic-function-class argument
1348 (reported by Bruno Haible)
1349 ANSI CL is silent on this, but the MOP's specification of ENSURE-GENERIC-FUNCTION says:
1350 "The remaining arguments are the complete set of keyword arguments
1351 received by ENSURE-GENERIC-FUNCTION."
1352 and the spec of ENSURE-GENERIC-FUNCTION-USING-CLASS:
1353 ":GENERIC-FUNCTION-CLASS - a class metaobject or a class name. If it is not
1354 supplied, it defaults to the class named STANDARD-GENERIC-FUNCTION."
1355 This is not the case in SBCL. Test case:
1356 (defclass my-generic-function (standard-generic-function)
1358 (:metaclass sb-pcl:funcallable-standard-class))
1359 (setf (fdefinition 'foo1)
1360 (make-instance 'my-generic-function :name 'foo1))
1361 (ensure-generic-function 'foo1
1362 :generic-function-class (find-class 'standard-generic-function))
1364 ; => #<SB-MOP:FUNCALLABLE-STANDARD-CLASS STANDARD-GENERIC-FUNCTION>
1365 (setf (fdefinition 'foo2)
1366 (make-instance 'my-generic-function :name 'foo2))
1367 (ensure-generic-function 'foo2)
1369 Expected: #<SB-MOP:FUNCALLABLE-STANDARD-CLASS STANDARD-GENERIC-FUNCTION>
1370 Got: #<SB-MOP:FUNCALLABLE-STANDARD-CLASS MY-GENERIC-FUNCTION>
1372 362: missing error when a slot-definition is created without a name
1373 (reported by Bruno Haible)
1374 The MOP says about slot-definition initialization:
1375 "The :NAME argument is a slot name. An ERROR is SIGNALled if this argument
1376 is not a symbol which can be used as a variable name. An ERROR is SIGNALled
1377 if this argument is not supplied."
1379 (make-instance (find-class 'sb-pcl:standard-direct-slot-definition))
1381 Got: #<SB-MOP:STANDARD-DIRECT-SLOT-DEFINITION NIL>
1383 363: missing error when a slot-definition is created with a wrong documentation object
1384 (reported by Bruno Haible)
1385 The MOP says about slot-definition initialization:
1386 "The :DOCUMENTATION argument is a STRING or NIL. An ERROR is SIGNALled
1387 if it is not. This argument default to NIL during initialization."
1389 (make-instance (find-class 'sb-pcl:standard-direct-slot-definition)
1391 :documentation 'not-a-string)
1393 Got: #<SB-MOP:STANDARD-DIRECT-SLOT-DEFINITION FOO>
1395 369: unlike-an-intersection behavior of VALUES-TYPE-INTERSECTION
1396 In sbcl-0.8.18.2, the identity $(x \cap y \cap y)=(x \cap y)$
1397 does not hold for VALUES-TYPE-INTERSECTION, even for types which
1398 can be intersected exactly, so that ASSERTs fail in this test case:
1399 (in-package :cl-user)
1400 (let ((types (mapcar #'sb-c::values-specifier-type
1401 '((values (vector package) &optional)
1402 (values (vector package) &rest t)
1403 (values (vector hash-table) &rest t)
1404 (values (vector hash-table) &optional)
1405 (values t &optional)
1407 (values nil &optional)
1408 (values nil &rest t)
1409 (values sequence &optional)
1410 (values sequence &rest t)
1411 (values list &optional)
1412 (values list &rest t)))))
1415 (let ((i (sb-c::values-type-intersection x y)))
1416 (assert (sb-c::type= i (sb-c::values-type-intersection i x)))
1417 (assert (sb-c::type= i (sb-c::values-type-intersection i y)))))))
1419 370: reader misbehaviour on large-exponent floats
1420 (read-from-string "1.0s1000000000000000000000000000000000000000")
1421 causes the reader to attempt to create a very large bignum (which it
1422 will then attempt to coerce to a rational). While this isn't
1423 completely wrong, it is probably not ideal -- checking the floating
1424 point control word state and then returning the relevant float
1425 (most-positive-short-float or short-float-infinity) or signalling an
1426 error immediately would seem to make more sense.
1428 372: floating-point overflow not signalled on ppc/darwin
1429 The following assertions in float.pure.lisp fail on ppc/darwin
1430 (Mac OS X version 10.3.7):
1431 (assert (raises-error? (scale-float 1.0 most-positive-fixnum)
1432 floating-point-overflow))
1433 (assert (raises-error? (scale-float 1.0d0 (1+ most-positive-fixnum))
1434 floating-point-overflow)))
1435 as the SCALE-FLOAT just returns
1436 #.SB-EXT:SINGLE/DOUBLE-FLOAT-POSITIVE-INFINITY. These tests have been
1437 disabled on Darwin for now.
1439 377: Memory fault error reporting
1440 On those architectures where :C-STACK-IS-CONTROL-STACK is in
1441 *FEATURES*, we handle SIG_MEMORY_FAULT (SEGV or BUS) on an altstack,
1442 so we cannot handle the signal directly (as in interrupt_handle_now())
1443 in the case when the signal comes from some external agent (the user
1444 using kill(1), or a fault in some foreign code, for instance). As
1445 of sbcl-0.8.20.20, this is fixed by calling
1446 arrange_return_to_lisp_function() to a new error-signalling
1447 function, but as a result the error reporting is poor: we cannot
1448 even tell the user at which address the fault occurred. We should
1449 arrange such that arguments can be passed to the function called from
1450 arrange_return_to_lisp_function(), but this looked hard to do in
1451 general without suffering from memory leaks.
1453 379: TRACE :ENCAPSULATE NIL broken on ppc/darwin
1454 See commented-out test-case in debug.impure.lisp.
1456 380: Accessor redefinition fails because of old accessor name
1457 When redefining an accessor, SB-PCL::FIX-SLOT-ACCESSORS may try to
1458 find the generic function named by the old accessor name using
1459 ENSURE-GENERIC-FUNCTION and then remove the old accessor's method in
1460 the GF. If the old name does not name a function, or if the old name
1461 does not name a generic function, no attempt to find the GF or remove
1462 any methods is made.
1464 However, if an unrelated GF with an incompatible lambda list exists,
1465 the class redefinition will fail when SB-PCL::REMOVE-READER-METHOD
1466 tries to find and remove a method with an incompatible lambda list
1467 from the unrelated generic function.
1469 382: externalization unexpectedly changes array simplicity
1470 COMPILE-FILE and LOAD
1472 (let ((x #.(make-array 4 :fill-pointer 0)))
1473 (values (eval `(typep ',x 'simple-array))
1474 (typep x 'simple-array))))
1475 then (FOO) => T, NIL.
1477 Similar problems exist with SIMPLE-ARRAY-P, ARRAY-HEADER accessors
1478 and all array dimension functions.
1480 383: ASH'ing non-constant zeros
1483 (declare (type (integer -2 14) b))
1484 (declare (ignorable b))
1485 (ash (imagpart b) 57))
1486 on PPC (and other platforms, presumably) gives an error during the
1487 emission of FASH-ASH-LEFT/FIXNUM=>FIXNUM as the assembler attempts to
1488 stuff a too-large constant into the immediate field of a PPC
1489 instruction. Either the VOP should be fixed or the compiler should be
1490 taught how to transform this case away, paying particular attention
1491 to side-effects that might occur in the arguments to ASH.
1493 384: Compiler runaway on very large character types
1495 (compile nil '(lambda (x)
1496 (declare (type (member #\a 1) x))
1497 (the (member 1 nil) x)))
1499 The types apparently normalize into a very large type, and the compiler
1500 gets lost in REMOVE-DUPLICATES. Perhaps the latter should use
1501 a better algorithm (one based on hash tables, say) on very long lists
1502 when :TEST has its default value?
1506 (compile nil '(lambda (x) (the (not (eql #\a)) x)))
1508 (partially fixed in 0.9.3.1, but a better representation for these
1512 (format nil "~4,1F" 0.001) => "0.00" (should be " 0.0");
1513 (format nil "~4,1@F" 0.001) => "+.00" (should be "+0.0").
1515 386: SunOS/x86 stack exhaustion handling broken
1516 According to <http://alfa.s145.xrea.com/sbcl/solaris-x86.html>, the
1517 stack exhaustion checking (implemented with a write-protected guard
1518 page) does not work on SunOS/x86.
1521 (found by Dmitry Bogomolov)
1523 (defclass foo () ((x :type (unsigned-byte 8))))
1524 (defclass bar () ((x :type symbol)))
1525 (defclass baz (foo bar) ())
1529 SB-PCL::SPECIALIZER-APPLICABLE-USING-TYPE-P cannot handle the second argument
1532 [ Can't trigger this any more, as of 2006-08-07 ]
1535 (reported several times on sbcl-devel, by Rick Taube, Brian Rowe and
1538 ROUND-NUMERIC-BOUND assumes that float types always have a FORMAT
1539 specifying whether they're SINGLE or DOUBLE. This is true for types
1540 computed by the type system itself, but the compiler type derivation
1541 short-circuits this and constructs non-canonical types. A temporary
1542 fix was made to ROUND-NUMERIC-BOUND for the sbcl-0.9.6 release, but
1543 the right fix is to remove the abstraction violation in the
1544 compiler's type deriver.
1546 393: Wrong error from methodless generic function
1547 (DEFGENERIC FOO (X))
1549 gives NO-APPLICABLE-METHOD rather than an argument count error.
1551 395: Unicode and streams
1552 One of the remaining problems in SBCL's Unicode support is the lack
1553 of generality in certain streams.
1554 a. FILL-POINTER-STREAMs: SBCL refuses to write (e.g. using FORMAT)
1555 to streams made from strings that aren't character strings with
1557 (let ((v (make-array 5 :fill-pointer 0 :element-type 'standard-char)))
1560 should return a non-simple base string containing "foo" but
1563 (reported on sbcl-help by "tichy")
1565 396: block-compilation bug
1569 (when (funcall (eval #'(lambda (x) (eql x 2))) y)
1571 (incf x (incf y z))))))
1575 (bar 1) => 11, should be 4.
1578 The more interrupts arrive the less accurate SLEEP's timing gets.
1579 (time (sb-thread:terminate-thread
1580 (prog1 (sb-thread:make-thread (lambda ()
1587 398: GC-unsafe SB-ALIEN string deporting
1588 Translating a Lisp string to an alien string by taking a SAP to it
1589 as done by the :DEPORT-GEN methods for C-STRING and UTF8-STRING
1590 is not safe, since the Lisp string can move. For example the
1591 following code will fail quickly on both cheneygc and pre-0.9.8.19
1594 (setf (bytes-consed-between-gcs) 4096)
1595 (define-alien-routine "strcmp" int (s1 c-string) (s2 c-string))
1598 (let ((string "hello, world"))
1599 (assert (zerop (strcmp string string)))))
1601 (This will appear to work on post-0.9.8.19 GENCGC, since
1602 the GC no longer zeroes memory immediately after releasing
1603 it after a minor GC. Either enabling the READ_PROTECT_FREE_PAGES
1604 #define in gencgc.c or modifying the example so that a major
1605 GC will occasionally be triggered would unmask the bug.)
1607 On cheneygc the only solution would seem to be allocating some alien
1608 memory, copying the data over, and arranging that it's freed once we
1609 return. For GENCGC we could instead try to arrange that the string
1610 from which the SAP is taken is always pinned.
1612 For some more details see comments for (define-alien-type-method
1613 (c-string :deport-gen) ...) in host-c-call.lisp.
1615 403: FORMAT/PPRINT-LOGICAL-BLOCK of CONDITIONs ignoring *PRINT-CIRCLE*
1618 (make-condition 'simple-error
1619 :format-control "ow... ~S"
1620 :format-arguments '(#1=(#1#))))
1621 (setf *print-circle* t *print-level* 4)
1622 (format nil "~@<~A~:@>" *c*)
1625 where I (WHN) believe the correct result is "ow... #1=(#1#)",
1626 like the result from (PRINC-TO-STRING *C*). The question of
1627 what the correct result is is complicated by the hairy text in
1628 the Hyperspec "22.3.5.2 Tilde Less-Than-Sign: Logical Block",
1629 Other than the difference in its argument, ~@<...~:> is
1630 exactly the same as ~<...~:> except that circularity detection
1631 is not applied if ~@<...~:> is encountered at top level in a
1633 But because the odd behavior happens even without the at-sign,
1634 (format nil "~<~A~:@>" (list *c*)) ; => "ow... (((#)))"
1635 and because something seemingly similar can happen even in
1636 PPRINT-LOGICAL-BLOCK invoked directly without FORMAT,
1637 (pprint-logical-block (*standard-output* '(some nonempty list))
1638 (format *standard-output* "~A" '#1=(#1#)))
1639 (which prints "(((#)))" to *STANDARD-OUTPUT*), I don't think
1640 that the 22.3.5.2 trickiness is fundamental to the problem.
1642 My guess is that the problem is related to the logic around the MODE
1643 argument to CHECK-FOR-CIRCULARITY, but I haven't reverse-engineered
1644 enough of the intended meaning of the different MODE values to be
1647 404: nonstandard DWIMness in LOOP with unportably-ordered clauses
1648 In sbcl-0.9.13, the code
1649 (loop with stack = (make-array 2 :fill-pointer 2 :initial-element t)
1650 for length = (length stack)
1651 while (plusp length)
1652 for element = (vector-pop stack)
1654 compiles without error or warning and returns (T T). Unfortunately,
1655 it is inconsistent with the ANSI definition of the LOOP macro,
1656 because it mixes up VARIABLE-CLAUSEs with MAIN-CLAUSEs. Furthermore,
1657 SBCL's interpretation of the intended meaning is only one possible,
1658 unportable interpretation of the noncompliant code; in CLISP 2.33.2,
1659 the code compiles with a warning
1660 LOOP: FOR clauses should occur before the loop's main body
1661 and then fails at runtime with
1662 VECTOR-POP: #() has length zero
1663 perhaps because CLISP has shuffled the clauses into an
1664 ANSI-compliant order before proceeding.
1666 405: a TYPE-ERROR in MERGE-LETS exercised at DEBUG 3
1667 In sbcl-0.9.16.21 on linux/86, compiling
1668 (declaim (optimize (debug 3)))
1671 (flet ((i (x) (frob x (foo-bar foo))))
1674 The value NIL is not of type SB-C::PHYSENV.
1677 406: functional has external references -- failed aver
1678 Given the following food in a single file
1679 (eval-when (:compile-toplevel :load-toplevel :execute)
1682 (foo #.(make-foo3)))
1683 as of 0.9.18.11 the file compiler breaks on it:
1684 failed AVER: "(NOT (FUNCTIONAL-HAS-EXTERNAL-REFERENCES-P CLAMBDA))"
1685 Defining the missing MAKE-LOAD-FORM method makes the error go away.
1687 407: misoptimization of loop, COERCE 'FLOAT, and HANDLER-CASE for bignums
1688 (reported by Ariel Badichi on sbcl-devel 2007-01-09)
1689 407a: In sbcl-1.0.1 on Linux x86,
1691 (loop for n from (expt 2 1024) do
1693 (coerce n 'single-float)
1694 (simple-type-error ()
1695 (format t "Got here.~%")
1696 (return-from foo)))))
1698 causes an infinite loop, where handling the error would be expected.
1699 407b: In sbcl-1.0.1 on Linux x86,
1701 (loop for n from (expt 2 1024) do
1703 (format t "~E~%" (coerce n 'single-float))
1704 (simple-type-error ()
1705 (format t "Got here.~%")
1706 (return-from bar)))))
1707 fails to compile, with
1708 Too large to be represented as a SINGLE-FLOAT: ...
1710 0: ((LABELS SB-BIGNUM::CHECK-EXPONENT) ...)
1711 1: ((LABELS SB-BIGNUM::FLOAT-FROM-BITS) ...)
1712 2: (SB-KERNEL:%SINGLE-FLOAT ...)
1713 3: (SB-C::BOUND-FUNC ...)
1714 4: (SB-C::%SINGLE-FLOAT-DERIVE-TYPE-AUX ...)
1716 These are now fixed, but (COERCE HUGE 'SINGLE-FLOAT) still signals a
1717 type-error at runtime. The question is, should it instead signal a
1718 floating-point overflow, or return an infinity?
1720 408: SUBTYPEP confusion re. OR of SATISFIES of not-yet-defined predicate
1721 As reported by Levente M\'{e}sz\'{a}ros sbcl-devel 2006-02-20,
1722 (aver (equal (multiple-value-list
1723 (subtypep '(or (satisfies x) string)
1724 '(or (satisfies x) integer)))
1726 fails. Also, beneath that failure lurks another failure,
1727 (aver (equal (multiple-value-list
1729 '(or (satisfies x) integer)))
1731 Having looked at this for an hour or so in sbcl-1.0.2, and
1732 specifically having looked at the output from
1735 (y '(or (satisfies x) integer)))
1736 (trace sb-kernel::union-complex-subtypep-arg2
1737 sb-kernel::invoke-complex-subtypep-arg1-method
1738 sb-kernel::type-union
1739 sb-kernel::type-intersection
1742 my (WHN) impression is that the problem is that the semantics of TYPE=
1743 are wrong for what the UNION-COMPLEX-SUBTYPEP-ARG2 code is trying
1744 to use it for. The comments on the definition of TYPE= probably
1745 date back to CMU CL and seem to define it as a confusing thing:
1746 its primary value is something like "certainly equal," and its
1747 secondary value is something like "certain about that certainty."
1748 I'm left uncertain how to fix UNION-COMPLEX-SUBTYPEP-ARG2 without
1749 reducing its generality by removing the TYPE= cleverness. Possibly
1750 the tempting TYPE/= relative defined next to it might be a
1751 suitable replacement for the purpose. Probably, though, it would
1752 be best to start by reverse engineering exactly what TYPE= and
1753 TYPE/= do, and writing an explanation which is so clear that one
1754 can see immediately what it's supposed to mean in odd cases like
1755 (TYPE= '(SATISFIES X) 'INTEGER) when X isn't defined yet.
1757 409: MORE TYPE SYSTEM PROBLEMS
1758 Found while investigating an optimization failure for extended
1759 sequences. The extended sequence type implementation was altered to
1760 work around the problem, but the fundamental problem remains, to wit:
1761 (sb-kernel:type= (sb-kernel:specifier-type '(or float ratio))
1762 (sb-kernel:specifier-type 'single-float))
1763 returns NIL, NIL on sbcl-1.0.3.
1764 (probably related to bug #408)
1766 410: read circularities and type declarations
1767 Consider the definition
1768 (defstruct foo (a 0 :type (not symbol)))
1770 (setf *print-circle* t) ; just in case
1771 (read-from-string "#1=#s(foo :a #1#)")
1772 This gives a type error (#:G1 is not a (NOT SYMBOL)) because of the
1773 implementation of read circularity, using a symbol as a marker for
1774 the previously-referenced object.
1776 415: Issues creating large arrays on x86-64/Linux and x86/Darwin
1778 (make-array (1- array-dimension-limit))
1780 causes a GC invariant violation on x86-64/Linux, and
1781 an unhandled SIGILL on x86/Darwin.
1783 416: backtrace confusion
1794 gives the correct error, but the backtrace shows
1795 1: (SB-KERNEL:FDEFINITION-OBJECT 13 NIL)
1796 as the second frame.
1798 418: SUBSEQ on lists doesn't support bignum indexes
1800 LIST-SUBSEQ* now has all the works necessary to support bignum indexes,
1801 but it needs to be verified that changing the DEFKNOWN doesn't kill
1802 performance elsewhere.
1804 Other generic sequence functions have this problem as well.
1806 419: stack-allocated indirect closure variables are not popped
1809 (multiple-value-call #'list
1810 (eval '(values 1 2 3))
1812 (declare (sb-int:truly-dynamic-extent x))
1817 (declare (dynamic-extent #'mget #'mset))
1818 ((lambda (f g) (eval `(progn ,f ,g (values 4 5 6)))) #'mget #'mset)))))
1820 (ASSERT (EQUAL (BUG419 42) '(1 2 3 4 5 6))) => failure
1822 Note: as of SBCL 1.0.26.29 this bug no longer affects user code, as
1823 SB-INT:TRULY-DYNAMIC-EXTENT needs to be used instead of
1824 DYNAMIC-EXTENT for this to happen. Proper fix for this bug requires
1825 (Nikodemus thinks) storing the relevant LAMBDA-VARs in a
1826 :DYNAMIC-EXTENT cleanup, and teaching stack analysis how to deal
1829 421: READ-CHAR-NO-HANG misbehaviour on Windows Console:
1831 It seems that on Windows READ-CHAR-NO-HANG hangs if the user
1832 has pressed a key, but not yet enter (ie. SYSREAD-MAY-BLOCK-P
1833 seems to lie if the OS is buffering input for us on Console.)
1835 reported by Elliot Slaughter on sbcl-devel 2008/1/10.
1837 422: out-of-extent return not checked in safe code
1839 (declaim (optimize safety))
1840 (funcall (catch 't (block nil (throw 't (lambda () (return))))))
1842 behaves ...erratically. Reported by Kevin Reid on sbcl-devel
1843 2007-07-06. (We don't _have_ to check things like this, but we
1844 generally try to check returns in safe code, so we should here too.)
1846 424: toplevel closures and *CHECK-CONSISTENCY*
1848 The following breaks under COMPILE-FILE if *CHECK-CONSISTENCY* is true.
1850 (let ((exported-symbols-alist
1851 (loop for symbol being the external-symbols of :cl
1852 collect (cons symbol
1853 (concatenate 'string
1855 (string-downcase symbol))))))
1856 (defun hyperdoc-lookup (symbol)
1857 (cdr (assoc symbol exported-symbols-alist))))
1859 (Test-case adapted from CL-PPCRE.)
1861 426: inlining failure involving multiple nested calls
1863 (declaim (inline foo))
1867 (foo (foo x x) (foo x x)))
1868 ;; shows a full call to FOO
1870 ;; simple way to test this programmatically
1871 (let ((code (sb-c::fun-code-header #'bar))
1872 (foo (sb-impl::fdefinition-object 'foo nil)))
1873 (loop for i from sb-vm:code-constants-offset below (sb-kernel:get-header-data code)
1874 do (assert (not (eq foo (sb-kernel:code-header-ref code i))))))
1876 This appears to be an ancient bug, inherited from CMUCL: reportedly
1877 18c does the same thing. RECOGNIZE-KNOWN-CALL correctly picks up only
1878 one of the calls, but local call analysis fails to inline the call
1879 for the second time. Nikodemus thinks (but is not 100% sure based on
1880 very brief investigation) that the call that is not inlined is the
1881 second nested one. A trivial fix is to call CHANGE-REF-LEAF in known
1882 call for functions already inline converted there, but he is not sure
1883 if this has adverse effects elsewhere.
1885 428: TIMER SCHEDULE-STRESS in timer.impure.lisp fails
1887 Failure modes vary. Core problem seems to be (?) recursive entry to