1 ;;;; stuff originally from CMU CL's error.lisp which can or should
2 ;;;; come late (mostly related to the CONDITION class itself)
5 ;;;; This software is part of the SBCL system. See the README file for
8 ;;;; This software is derived from the CMU CL system, which was
9 ;;;; written at Carnegie Mellon University and released into the
10 ;;;; public domain. The software is in the public domain and is
11 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
12 ;;;; files for more information.
14 (in-package "SB!KERNEL")
16 ;;;; the CONDITION class
18 (/show0 "condition.lisp 20")
20 (eval-when (:compile-toplevel :load-toplevel :execute)
22 (/show0 "condition.lisp 24")
24 (def!struct (condition-classoid (:include slot-classoid)
25 (:constructor make-condition-classoid))
26 ;; list of CONDITION-SLOT structures for the direct slots of this
28 (slots nil :type list)
29 ;; list of CONDITION-SLOT structures for all of the effective class
30 ;; slots of this class
31 (class-slots nil :type list)
32 ;; report function or NIL
33 (report nil :type (or function null))
34 ;; list of alternating initargs and initforms
35 (default-initargs () :type list)
36 ;; class precedence list as a list of CLASS objects, with all
37 ;; non-CONDITION classes removed
39 ;; a list of all the effective instance allocation slots of this
40 ;; class that have a non-constant initform or default-initarg.
41 ;; Values for these slots must be computed in the dynamic
42 ;; environment of MAKE-CONDITION.
43 (hairy-slots nil :type list))
45 (/show0 "condition.lisp 49")
49 (!defstruct-with-alternate-metaclass condition
50 :slot-names (actual-initargs assigned-slots)
51 :boa-constructor %make-condition-object
52 :superclass-name instance
53 :metaclass-name condition-classoid
54 :metaclass-constructor make-condition-classoid
57 (defun make-condition-object (actual-initargs)
58 (%make-condition-object actual-initargs nil))
60 (defstruct (condition-slot (:copier nil))
61 (name (missing-arg) :type symbol)
62 ;; list of all applicable initargs
63 (initargs (missing-arg) :type list)
64 ;; names of reader and writer functions
65 (readers (missing-arg) :type list)
66 (writers (missing-arg) :type list)
67 ;; true if :INITFORM was specified
68 (initform-p (missing-arg) :type (member t nil))
69 ;; If this is a function, call it with no args. Otherwise, it's the
71 (initform (missing-arg) :type t)
72 ;; allocation of this slot, or NIL until defaulted
73 (allocation nil :type (member :instance :class nil))
74 ;; If ALLOCATION is :CLASS, this is a cons whose car holds the value.
75 (cell nil :type (or cons null))
77 (documentation nil :type (or string null)))
79 ;;; KLUDGE: It's not clear to me why CONDITION-CLASS has itself listed
80 ;;; in its CPL, while other classes derived from CONDITION-CLASS don't
81 ;;; have themselves listed in their CPLs. This behavior is inherited
82 ;;; from CMU CL, and didn't seem to be explained there, and I haven't
83 ;;; figured out whether it's right. -- WHN 19990612
84 (eval-when (:compile-toplevel :load-toplevel :execute)
85 (/show0 "condition.lisp 103")
86 (let ((condition-class (locally
87 ;; KLUDGE: There's a DEFTRANSFORM
88 ;; FIND-CLASSOID for constant class names
89 ;; which creates fast but
90 ;; non-cold-loadable, non-compact code. In
91 ;; this context, we'd rather have compact,
92 ;; cold-loadable code. -- WHN 19990928
93 (declare (notinline find-classoid))
94 (find-classoid 'condition))))
95 (setf (condition-classoid-cpl condition-class)
96 (list condition-class)))
97 (/show0 "condition.lisp 103"))
99 (setf (condition-classoid-report (locally
100 ;; KLUDGE: There's a DEFTRANSFORM
101 ;; FIND-CLASSOID for constant class
102 ;; names which creates fast but
103 ;; non-cold-loadable, non-compact
104 ;; code. In this context, we'd
105 ;; rather have compact,
106 ;; cold-loadable code. -- WHN
108 (declare (notinline find-classoid))
109 (find-classoid 'condition)))
110 (lambda (cond stream)
111 (format stream "Condition ~S was signalled." (type-of cond))))
113 (eval-when (:compile-toplevel :load-toplevel :execute)
115 (defun find-condition-layout (name parent-types)
116 (let* ((cpl (remove-duplicates
120 (condition-classoid-cpl
123 (cond-layout (info :type :compiler-layout 'condition))
124 (olayout (info :type :compiler-layout name))
125 ;; FIXME: Does this do the right thing in case of multiple
126 ;; inheritance? A quick look at DEFINE-CONDITION didn't make
127 ;; it obvious what ANSI intends to be done in the case of
128 ;; multiple inheritance, so it's not actually clear what the
131 (order-layout-inherits (concatenate 'simple-vector
132 (layout-inherits cond-layout)
133 (mapcar #'classoid-layout cpl)))))
135 (not (mismatch (layout-inherits olayout) new-inherits)))
137 (make-layout :classoid (make-undefined-classoid name)
138 :inherits new-inherits
140 :length (layout-length cond-layout)))))
144 ;;; FIXME: ANSI's definition of DEFINE-CONDITION says
145 ;;; Condition reporting is mediated through the PRINT-OBJECT method
146 ;;; for the condition type in question, with *PRINT-ESCAPE* always
147 ;;; being nil. Specifying (:REPORT REPORT-NAME) in the definition of
148 ;;; a condition type C is equivalent to:
149 ;;; (defmethod print-object ((x c) stream)
150 ;;; (if *print-escape* (call-next-method) (report-name x stream)))
151 ;;; The current code doesn't seem to quite match that.
152 (def!method print-object ((x condition) stream)
154 (print-unreadable-object (x stream :type t :identity t))
155 ;; KLUDGE: A comment from CMU CL here said
156 ;; 7/13/98 BUG? CPL is not sorted and results here depend on order of
157 ;; superclasses in define-condition call!
158 (dolist (class (condition-classoid-cpl (classoid-of x))
159 (error "no REPORT? shouldn't happen!"))
160 (let ((report (condition-classoid-report class)))
162 (return (funcall report x stream)))))))
164 ;;;; slots of CONDITION objects
166 (defvar *empty-condition-slot* '(empty))
168 (defun find-slot-default (class slot)
169 (let ((initargs (condition-slot-initargs slot))
170 (cpl (condition-classoid-cpl class)))
172 (let ((default-initargs (condition-classoid-default-initargs class)))
173 (dolist (initarg initargs)
174 (let ((val (getf default-initargs initarg *empty-condition-slot*)))
175 (unless (eq val *empty-condition-slot*)
176 (return-from find-slot-default
181 (if (condition-slot-initform-p slot)
182 (let ((initform (condition-slot-initform slot)))
183 (if (functionp initform)
186 (error "unbound condition slot: ~S" (condition-slot-name slot)))))
188 (defun find-condition-class-slot (condition-class slot-name)
190 (condition-classoid-cpl condition-class)
191 (error "There is no slot named ~S in ~S."
192 slot-name condition-class))
193 (dolist (slot (condition-classoid-slots sclass))
194 (when (eq (condition-slot-name slot) slot-name)
195 (return-from find-condition-class-slot slot)))))
197 (defun condition-writer-function (condition new-value name)
198 (dolist (cslot (condition-classoid-class-slots
199 (layout-classoid (%instance-layout condition)))
200 (setf (getf (condition-assigned-slots condition) name)
202 (when (eq (condition-slot-name cslot) name)
203 (return (setf (car (condition-slot-cell cslot)) new-value)))))
205 (defun condition-reader-function (condition name)
206 (let ((class (layout-classoid (%instance-layout condition))))
207 (dolist (cslot (condition-classoid-class-slots class))
208 (when (eq (condition-slot-name cslot) name)
209 (return-from condition-reader-function
210 (car (condition-slot-cell cslot)))))
211 (let ((val (getf (condition-assigned-slots condition) name
212 *empty-condition-slot*)))
213 (if (eq val *empty-condition-slot*)
214 (let ((actual-initargs (condition-actual-initargs condition))
215 (slot (find-condition-class-slot class name)))
217 (error "missing slot ~S of ~S" name condition))
218 (do ((initargs actual-initargs (cddr initargs)))
220 (setf (getf (condition-assigned-slots condition) name)
221 (find-slot-default class slot)))
222 (when (member (car initargs) (condition-slot-initargs slot))
223 (return-from condition-reader-function
224 (setf (getf (condition-assigned-slots condition)
231 (defun make-condition (thing &rest args)
233 "Make an instance of a condition object using the specified initargs."
234 ;; Note: ANSI specifies no exceptional situations in this function.
235 ;; signalling simple-type-error would not be wrong.
236 (let* ((thing (if (symbolp thing)
237 (find-classoid thing)
239 (class (typecase thing
240 (condition-classoid thing)
242 (error 'simple-type-error
244 :expected-type 'condition-class
245 :format-control "~S is not a condition class."
246 :format-arguments (list thing)))
248 (error 'simple-type-error
250 :expected-type 'condition-class
251 :format-control "bad thing for class argument:~% ~S"
252 :format-arguments (list thing)))))
253 (res (make-condition-object args)))
254 (setf (%instance-layout res) (classoid-layout class))
255 ;; Set any class slots with initargs present in this call.
256 (dolist (cslot (condition-classoid-class-slots class))
257 (dolist (initarg (condition-slot-initargs cslot))
258 (let ((val (getf args initarg *empty-condition-slot*)))
259 (unless (eq val *empty-condition-slot*)
260 (setf (car (condition-slot-cell cslot)) val)))))
261 ;; Default any slots with non-constant defaults now.
262 (dolist (hslot (condition-classoid-hairy-slots class))
263 (when (dolist (initarg (condition-slot-initargs hslot) t)
264 (unless (eq (getf args initarg *empty-condition-slot*)
265 *empty-condition-slot*)
267 (setf (getf (condition-assigned-slots res) (condition-slot-name hslot))
268 (find-slot-default class hslot))))
271 ;;;; DEFINE-CONDITION
273 (eval-when (:compile-toplevel :load-toplevel :execute)
274 (defun %compiler-define-condition (name direct-supers layout
275 all-readers all-writers)
276 (with-single-package-locked-error
277 (:symbol name "defining ~A as a condition")
278 (sb!xc:proclaim `(ftype (function (t) t) ,@all-readers))
279 (sb!xc:proclaim `(ftype (function (t t) t) ,@all-writers))
280 (multiple-value-bind (class old-layout)
281 (insured-find-classoid name
282 #'condition-classoid-p
283 #'make-condition-classoid)
284 (setf (layout-classoid layout) class)
285 (setf (classoid-direct-superclasses class)
286 (mapcar #'find-classoid direct-supers))
287 (cond ((not old-layout)
288 (register-layout layout))
289 ((not *type-system-initialized*)
290 (setf (layout-classoid old-layout) class)
291 (setq layout old-layout)
292 (unless (eq (classoid-layout class) layout)
293 (register-layout layout)))
294 ((redefine-layout-warning "current"
297 (layout-length layout)
298 (layout-inherits layout)
299 (layout-depthoid layout))
300 (register-layout layout :invalidate t))
301 ((not (classoid-layout class))
302 (register-layout layout)))
304 (setf (layout-info layout)
306 ;; KLUDGE: There's a FIND-CLASS DEFTRANSFORM for constant class
307 ;; names which creates fast but non-cold-loadable, non-compact
308 ;; code. In this context, we'd rather have compact, cold-loadable
309 ;; code. -- WHN 19990928
310 (declare (notinline find-classoid))
311 (layout-info (classoid-layout (find-classoid 'condition)))))
313 (setf (find-classoid name) class)
315 ;; Initialize CPL slot.
316 (setf (condition-classoid-cpl class)
317 (remove-if-not #'condition-classoid-p
318 (std-compute-class-precedence-list class)))))
322 ;;; Compute the effective slots of CLASS, copying inherited slots and
323 ;;; destructively modifying direct slots.
325 ;;; FIXME: It'd be nice to explain why it's OK to destructively modify
326 ;;; direct slots. Presumably it follows from the semantics of
327 ;;; inheritance and redefinition of conditions, but finding the cite
328 ;;; and documenting it here would be good. (Or, if this is not in fact
329 ;;; ANSI-compliant, fixing it would also be good.:-)
330 (defun compute-effective-slots (class)
331 (collect ((res (copy-list (condition-classoid-slots class))))
332 (dolist (sclass (cdr (condition-classoid-cpl class)))
333 (dolist (sslot (condition-classoid-slots sclass))
334 (let ((found (find (condition-slot-name sslot) (res)
335 :key #'condition-slot-name)))
337 (setf (condition-slot-initargs found)
338 (union (condition-slot-initargs found)
339 (condition-slot-initargs sslot)))
340 (unless (condition-slot-initform-p found)
341 (setf (condition-slot-initform-p found)
342 (condition-slot-initform-p sslot))
343 (setf (condition-slot-initform found)
344 (condition-slot-initform sslot)))
345 (unless (condition-slot-allocation found)
346 (setf (condition-slot-allocation found)
347 (condition-slot-allocation sslot))))
349 (res (copy-structure sslot)))))))
352 ;;; Early definitions of slot accessor creators.
354 ;;; Slot accessors must be generic functions, but ANSI does not seem
355 ;;; to specify any of them, and we cannot support it before end of
356 ;;; warm init. So we use ordinary functions inside SBCL, and switch to
357 ;;; GFs only at the end of building.
358 (declaim (notinline install-condition-slot-reader
359 install-condition-slot-writer))
360 (defun install-condition-slot-reader (name condition slot-name)
361 (declare (ignore condition))
362 (setf (fdefinition name)
364 (condition-reader-function condition slot-name))))
365 (defun install-condition-slot-writer (name condition slot-name)
366 (declare (ignore condition))
367 (setf (fdefinition name)
368 (lambda (new-value condition)
369 (condition-writer-function condition new-value slot-name))))
371 (defun %define-condition (name parent-types layout slots documentation
372 report default-initargs all-readers all-writers)
373 (with-single-package-locked-error
374 (:symbol name "defining ~A as a condition")
375 (%compiler-define-condition name parent-types layout all-readers all-writers)
376 (let ((class (find-classoid name)))
377 (setf (condition-classoid-slots class) slots)
378 (setf (condition-classoid-report class) report)
379 (setf (condition-classoid-default-initargs class) default-initargs)
380 (setf (fdocumentation name 'type) documentation)
384 ;; Set up reader and writer functions.
385 (let ((slot-name (condition-slot-name slot)))
386 (dolist (reader (condition-slot-readers slot))
387 (install-condition-slot-reader reader name slot-name))
388 (dolist (writer (condition-slot-writers slot))
389 (install-condition-slot-writer writer name slot-name))))
391 ;; Compute effective slots and set up the class and hairy slots
392 ;; (subsets of the effective slots.)
393 (let ((eslots (compute-effective-slots class))
396 (mapcar #'condition-classoid-default-initargs
397 (condition-classoid-cpl class)))))
398 (dolist (slot eslots)
399 (ecase (condition-slot-allocation slot)
401 (unless (condition-slot-cell slot)
402 (setf (condition-slot-cell slot)
403 (list (if (condition-slot-initform-p slot)
404 (let ((initform (condition-slot-initform slot)))
405 (if (functionp initform)
408 *empty-condition-slot*))))
409 (push slot (condition-classoid-class-slots class)))
411 (setf (condition-slot-allocation slot) :instance)
412 (when (or (functionp (condition-slot-initform slot))
413 (dolist (initarg (condition-slot-initargs slot) nil)
414 (when (functionp (getf e-def-initargs initarg))
416 (push slot (condition-classoid-hairy-slots class))))))))
419 (defmacro define-condition (name (&rest parent-types) (&rest slot-specs)
422 "DEFINE-CONDITION Name (Parent-Type*) (Slot-Spec*) Option*
423 Define NAME as a condition type. This new type inherits slots and its
424 report function from the specified PARENT-TYPEs. A slot spec is a list of:
425 (slot-name :reader <rname> :initarg <iname> {Option Value}*
427 The DEFINE-CLASS slot options :ALLOCATION, :INITFORM, [slot] :DOCUMENTATION
428 and :TYPE and the overall options :DEFAULT-INITARGS and
429 [type] :DOCUMENTATION are also allowed.
431 The :REPORT option is peculiar to DEFINE-CONDITION. Its argument is either
432 a string or a two-argument lambda or function name. If a function, the
433 function is called with the condition and stream to report the condition.
434 If a string, the string is printed.
436 Condition types are classes, but (as allowed by ANSI and not as described in
437 CLtL2) are neither STANDARD-OBJECTs nor STRUCTURE-OBJECTs. WITH-SLOTS and
438 SLOT-VALUE may not be used on condition objects."
439 (let* ((parent-types (or parent-types '(condition)))
440 (layout (find-condition-layout name parent-types))
443 (default-initargs ()))
445 (all-readers nil append)
446 (all-writers nil append))
447 (dolist (spec slot-specs)
448 (when (keywordp spec)
449 (warn "Keyword slot name indicates probable syntax error:~% ~S"
451 (let* ((spec (if (consp spec) spec (list spec)))
452 (slot-name (first spec))
453 (allocation :instance)
460 (do ((options (rest spec) (cddr options)))
462 (unless (and (consp options) (consp (cdr options)))
463 (error "malformed condition slot spec:~% ~S." spec))
464 (let ((arg (second options)))
465 (case (first options)
466 (:reader (readers arg))
467 (:writer (writers arg))
470 (writers `(setf ,arg)))
473 (error "more than one :INITFORM in ~S" spec))
476 (:initarg (initargs arg))
478 (setq allocation arg))
481 (error "more than one :DOCUMENTATION in ~S" spec))
482 (unless (stringp arg)
483 (error "slot :DOCUMENTATION argument is not a string: ~S"
485 (setq documentation arg))
488 (error "unknown slot option:~% ~S" (first options))))))
490 (all-readers (readers))
491 (all-writers (writers))
492 (slots `(make-condition-slot
494 :initargs ',(initargs)
497 :initform-p ',initform-p
498 :documentation ',documentation
500 ,(if (constantp initform)
502 `#'(lambda () ,initform)))))))
504 (dolist (option options)
505 (unless (consp option)
506 (error "bad option:~% ~S" option))
508 (:documentation (setq documentation (second option)))
510 (let ((arg (second option)))
513 `#'(lambda (condition stream)
514 (declare (ignore condition))
515 (write-string ,arg stream))
516 `#'(lambda (condition stream)
517 (funcall #',arg condition stream))))))
519 (do ((initargs (rest option) (cddr initargs)))
521 (let ((val (second initargs)))
522 (setq default-initargs
523 (list* `',(first initargs)
527 default-initargs)))))
529 (error "unknown option: ~S" (first option)))))
532 (eval-when (:compile-toplevel)
533 (%compiler-define-condition ',name ',parent-types ',layout
534 ',(all-readers) ',(all-writers)))
535 (eval-when (:load-toplevel :execute)
536 (%define-condition ',name
542 (list ,@default-initargs)
544 ',(all-writers)))))))
546 ;;;; DESCRIBE on CONDITIONs
548 ;;; a function to be used as the guts of DESCRIBE-OBJECT (CONDITION T)
549 ;;; eventually (once we get CLOS up and running so that we can define
551 (defun describe-condition (condition stream)
553 "~&~@<~S ~_is a ~S. ~_Its slot values are ~_~S.~:>~%"
557 (condition-actual-initargs condition)
558 (condition-assigned-slots condition))))
560 ;;;; various CONDITIONs specified by ANSI
562 (define-condition serious-condition (condition) ())
564 (define-condition error (serious-condition) ())
566 (define-condition warning (condition) ())
567 (define-condition style-warning (warning) ())
569 (defun simple-condition-printer (condition stream)
572 (simple-condition-format-control condition)
573 (simple-condition-format-arguments condition)))
575 (define-condition simple-condition ()
576 ((format-control :reader simple-condition-format-control
577 :initarg :format-control
578 :type format-control)
579 (format-arguments :reader simple-condition-format-arguments
580 :initarg :format-arguments
583 (:report simple-condition-printer))
585 (define-condition simple-warning (simple-condition warning) ())
587 (define-condition simple-error (simple-condition error) ())
589 ;;; not specified by ANSI, but too useful not to have around.
590 (define-condition simple-style-warning (simple-condition style-warning) ())
592 (define-condition storage-condition (serious-condition) ())
594 (define-condition type-error (error)
595 ((datum :reader type-error-datum :initarg :datum)
596 (expected-type :reader type-error-expected-type :initarg :expected-type))
598 (lambda (condition stream)
600 "~@<The value ~2I~:_~S ~I~_is not of type ~2I~_~S.~:>"
601 (type-error-datum condition)
602 (type-error-expected-type condition)))))
604 (define-condition simple-type-error (simple-condition type-error) ())
606 (define-condition program-error (error) ())
607 (define-condition parse-error (error) ())
608 (define-condition control-error (error) ())
609 (define-condition stream-error (error)
610 ((stream :reader stream-error-stream :initarg :stream)))
612 (define-condition end-of-file (stream-error) ()
614 (lambda (condition stream)
617 (stream-error-stream condition)))))
619 (define-condition file-error (error)
620 ((pathname :reader file-error-pathname :initarg :pathname))
622 (lambda (condition stream)
623 (format stream "error on file ~S" (file-error-pathname condition)))))
625 (define-condition package-error (error)
626 ((package :reader package-error-package :initarg :package)))
628 (define-condition cell-error (error)
629 ((name :reader cell-error-name :initarg :name)))
631 (define-condition unbound-variable (cell-error) ()
633 (lambda (condition stream)
635 "The variable ~S is unbound."
636 (cell-error-name condition)))))
638 (define-condition undefined-function (cell-error) ()
640 (lambda (condition stream)
642 "The function ~S is undefined."
643 (cell-error-name condition)))))
645 (define-condition special-form-function (undefined-function) ()
647 (lambda (condition stream)
649 "Cannot FUNCALL the SYMBOL-FUNCTION of special operator ~S."
650 (cell-error-name condition)))))
652 (define-condition arithmetic-error (error)
653 ((operation :reader arithmetic-error-operation
656 (operands :reader arithmetic-error-operands
658 (:report (lambda (condition stream)
660 "arithmetic error ~S signalled"
662 (when (arithmetic-error-operation condition)
664 "~%Operation was ~S, operands ~S."
665 (arithmetic-error-operation condition)
666 (arithmetic-error-operands condition))))))
668 (define-condition division-by-zero (arithmetic-error) ())
669 (define-condition floating-point-overflow (arithmetic-error) ())
670 (define-condition floating-point-underflow (arithmetic-error) ())
671 (define-condition floating-point-inexact (arithmetic-error) ())
672 (define-condition floating-point-invalid-operation (arithmetic-error) ())
674 (define-condition print-not-readable (error)
675 ((object :reader print-not-readable-object :initarg :object))
677 (lambda (condition stream)
678 (let ((obj (print-not-readable-object condition))
680 (format stream "~S cannot be printed readably." obj)))))
682 (define-condition reader-error (parse-error stream-error)
684 :reader reader-error-format-control
685 :initarg :format-control)
687 :reader reader-error-format-arguments
688 :initarg :format-arguments
691 (lambda (condition stream)
692 (let* ((error-stream (stream-error-stream condition))
693 (pos (file-position error-stream)))
696 (< pos sb!xc:array-dimension-limit)
697 ;; KLUDGE: lseek() (which is what FILE-POSITION
698 ;; reduces to on file-streams) is undefined on
699 ;; "some devices", which in practice means that it
700 ;; can claim to succeed on /dev/stdin on Darwin
701 ;; and Solaris. This is obviously bad news,
702 ;; because the READ-SEQUENCE below will then
703 ;; block, not complete, and the report will never
704 ;; be printed. As a workaround, we exclude
705 ;; interactive streams from this attempt to report
706 ;; positions. -- CSR, 2003-08-21
707 (not (interactive-stream-p error-stream))
708 (file-position error-stream :start))
711 :element-type (stream-element-type error-stream))))
712 (when (= pos (read-sequence string error-stream))
713 (setq lineno (1+ (count #\Newline string))
715 (or (position #\Newline string :from-end t) -1)
717 (file-position error-stream pos))
719 "READER-ERROR ~@[at ~W ~]~
720 ~@[(line ~W~]~@[, column ~W) ~]~
722 pos lineno colno error-stream
723 (reader-error-format-control condition)
724 (reader-error-format-arguments condition)))))))
726 ;;;; special SBCL extension conditions
728 ;;; an error apparently caused by a bug in SBCL itself
730 ;;; Note that we don't make any serious effort to use this condition
731 ;;; for *all* errors in SBCL itself. E.g. type errors and array
732 ;;; indexing errors can occur in functions called from SBCL code, and
733 ;;; will just end up as ordinary TYPE-ERROR or invalid index error,
734 ;;; because the signalling code has no good way to know that the
735 ;;; underlying problem is a bug in SBCL. But in the fairly common case
736 ;;; that the signalling code does know that it's found a bug in SBCL,
737 ;;; this condition is appropriate, reusing boilerplate and helping
738 ;;; users to recognize it as an SBCL bug.
739 (define-condition bug (simple-error)
742 (lambda (condition stream)
745 (simple-condition-format-control condition)
746 (simple-condition-format-arguments condition)
747 "~@<This is probably a bug in SBCL itself. (Alternatively, ~
748 SBCL might have been corrupted by bad user code, e.g. by an ~
749 undefined Lisp operation like ~S, or by stray pointers from ~
750 alien code or from unsafe Lisp code; or there might be a bug ~
751 in the OS or hardware that SBCL is running on.) If it seems to ~
752 be a bug in SBCL itself, the maintainers would like to know ~
753 about it. Bug reports are welcome on the SBCL ~
754 mailing lists, which you can find at ~
755 <http://sbcl.sourceforge.net/>.~:@>"
756 '((fmakunbound 'compile))))))
758 ;;; a condition for use in stubs for operations which aren't supported
759 ;;; on some platforms
761 ;;; E.g. in sbcl-0.7.0.5, it might be appropriate to do something like
762 ;;; #-(or freebsd linux)
763 ;;; (defun load-foreign (&rest rest)
764 ;;; (error 'unsupported-operator :name 'load-foreign))
765 ;;; #+(or freebsd linux)
766 ;;; (defun load-foreign ... actual definition ...)
767 ;;; By signalling a standard condition in this case, we make it
768 ;;; possible for test code to distinguish between (1) intentionally
769 ;;; unimplemented and (2) unintentionally just screwed up somehow.
770 ;;; (Before this condition was defined, test code tried to deal with
771 ;;; this by checking for FBOUNDP, but that didn't work reliably. In
772 ;;; sbcl-0.7.0, a a package screwup left the definition of
773 ;;; LOAD-FOREIGN in the wrong package, so it was unFBOUNDP even on
774 ;;; architectures where it was supposed to be supported, and the
775 ;;; regression tests cheerfully passed because they assumed that
776 ;;; unFBOUNDPness meant they were running on an system which didn't
777 ;;; support the extension.)
778 (define-condition unsupported-operator (simple-error) ())
781 ;;; (:ansi-cl :function remove)
782 ;;; (:ansi-cl :section (a b c))
783 ;;; (:ansi-cl :glossary "similar")
785 ;;; (:sbcl :node "...")
786 ;;; (:sbcl :variable *ed-functions*)
788 ;;; FIXME: this is not the right place for this.
789 (defun print-reference (reference stream)
790 (ecase (car reference)
792 (format stream "AMOP")
794 (destructuring-bind (type data) (cdr reference)
796 (:generic-function (format stream "Generic Function ~S" data))
797 (:section (format stream "Section ~{~D~^.~}" data)))))
799 (format stream "The ANSI Standard")
801 (destructuring-bind (type data) (cdr reference)
803 (:function (format stream "Function ~S" data))
804 (:special-operator (format stream "Special Operator ~S" data))
805 (:macro (format stream "Macro ~S" data))
806 (:section (format stream "Section ~{~D~^.~}" data))
807 (:glossary (format stream "Glossary entry for ~S" data))
808 (:issue (format stream "writeup for Issue ~A" data)))))
810 (format stream "The SBCL Manual")
812 (destructuring-bind (type data) (cdr reference)
814 (:node (format stream "Node ~S" data))
815 (:variable (format stream "Variable ~S" data))
816 (:function (format stream "Function ~S" data)))))
817 ;; FIXME: other documents (e.g. CLIM, Franz documentation :-)
819 (define-condition reference-condition ()
820 ((references :initarg :references :reader reference-condition-references)))
821 (defvar *print-condition-references* t)
822 (def!method print-object :around ((o reference-condition) s)
824 (unless (or *print-escape* *print-readably*)
825 (when (and *print-condition-references*
826 (reference-condition-references o))
827 (format s "~&See also:~%")
828 (pprint-logical-block (s nil :per-line-prefix " ")
829 (do* ((rs (reference-condition-references o) (cdr rs))
830 (r (car rs) (car rs)))
832 (print-reference r s)
833 (unless (null (cdr rs))
836 (define-condition duplicate-definition (reference-condition warning)
837 ((name :initarg :name :reader duplicate-definition-name))
838 (:report (lambda (c s)
839 (format s "~@<Duplicate definition for ~S found in ~
841 (duplicate-definition-name c))))
842 (:default-initargs :references (list '(:ansi-cl :section (3 2 2 3)))))
844 (define-condition package-at-variance (reference-condition simple-warning)
846 (:default-initargs :references (list '(:ansi-cl :macro defpackage))))
848 (define-condition defconstant-uneql (reference-condition error)
849 ((name :initarg :name :reader defconstant-uneql-name)
850 (old-value :initarg :old-value :reader defconstant-uneql-old-value)
851 (new-value :initarg :new-value :reader defconstant-uneql-new-value))
853 (lambda (condition stream)
855 "~@<The constant ~S is being redefined (from ~S to ~S)~@:>"
856 (defconstant-uneql-name condition)
857 (defconstant-uneql-old-value condition)
858 (defconstant-uneql-new-value condition))))
859 (:default-initargs :references (list '(:ansi-cl :macro defconstant)
860 '(:sbcl :node "Idiosyncrasies"))))
862 (define-condition array-initial-element-mismatch
863 (reference-condition simple-warning)
867 '(:ansi-cl :function make-array)
868 '(:ansi-cl :function sb!xc:upgraded-array-element-type))))
870 (define-condition displaced-to-array-too-small-error
871 (reference-condition simple-error)
874 :references (list '(:ansi-cl :function adjust-array))))
876 (define-condition type-warning (reference-condition simple-warning)
878 (:default-initargs :references (list '(:sbcl :node "Handling of Types"))))
880 (define-condition local-argument-mismatch (reference-condition simple-warning)
882 (:default-initargs :references (list '(:ansi-cl :section (3 2 2 3)))))
884 (define-condition format-args-mismatch (reference-condition)
886 (:default-initargs :references (list '(:ansi-cl :section (22 3 10 2)))))
888 (define-condition format-too-few-args-warning
889 (format-args-mismatch simple-warning)
891 (define-condition format-too-many-args-warning
892 (format-args-mismatch simple-style-warning)
895 (define-condition extension-failure (reference-condition simple-error)
901 (define-condition package-lock-violation (reference-condition package-error)
902 ((format-control :initform nil :initarg :format-control
903 :reader package-error-format-control)
904 (format-arguments :initform nil :initarg :format-arguments
905 :reader package-error-format-arguments))
907 (lambda (condition stream)
908 (let ((control (package-error-format-control condition)))
910 (apply #'format stream
911 (format nil "~~@<Lock on package ~A violated when ~A.~~:@>"
912 (package-name (package-error-package condition))
914 (package-error-format-arguments condition))
915 (format stream "~@<Lock on package ~A violated.~:@>"
916 (package-name (package-error-package condition)))))))
917 ;; no :default-initargs -- reference-stuff provided by the
918 ;; signalling form in target-package.lisp
921 "Subtype of CL:PACKAGE-ERROR. A subtype of this error is signalled
922 when a package-lock is violated."))
924 (define-condition package-locked-error (package-lock-violation) ()
927 "Subtype of SB-EXT:PACKAGE-LOCK-VIOLATION. An error of this type is
928 signalled when an operation on a package violates a package lock."))
930 (define-condition symbol-package-locked-error (package-lock-violation)
931 ((symbol :initarg :symbol :reader package-locked-error-symbol))
934 "Subtype of SB-EXT:PACKAGE-LOCK-VIOLATION. An error of this type is
935 signalled when an operation on a symbol violates a package lock. The
936 symbol that caused the violation is accessed by the function
937 SB-EXT:PACKAGE-LOCKED-ERROR-SYMBOL."))
941 ;;;; various other (not specified by ANSI) CONDITIONs
943 ;;;; These might logically belong in other files; they're here, after
944 ;;;; setup of CONDITION machinery, only because that makes it easier to
945 ;;;; get cold init to work.
947 ;;; OAOOM warning: see cross-condition.lisp
948 (define-condition encapsulated-condition (condition)
949 ((condition :initarg :condition :reader encapsulated-condition)))
951 (define-condition values-type-error (type-error)
954 (lambda (condition stream)
956 "~@<The values set ~2I~:_[~{~S~^ ~}] ~I~_is not of type ~2I~_~S.~:>"
957 (type-error-datum condition)
958 (type-error-expected-type condition)))))
960 ;;; KLUDGE: a condition for floating point errors when we can't or
961 ;;; won't figure out what type they are. (In FreeBSD and OpenBSD we
962 ;;; don't know how, at least as of sbcl-0.6.7; in Linux we probably
963 ;;; know how but the old code was broken by the conversion to POSIX
964 ;;; signal handling and hasn't been fixed as of sbcl-0.6.7.)
966 ;;; FIXME: Perhaps this should also be a base class for all
967 ;;; floating point exceptions?
968 (define-condition floating-point-exception (arithmetic-error)
969 ((flags :initarg :traps
971 :reader floating-point-exception-traps))
972 (:report (lambda (condition stream)
974 "An arithmetic error ~S was signalled.~%"
976 (let ((traps (floating-point-exception-traps condition)))
979 "Trapping conditions are: ~%~{ ~S~^~}~%"
982 "No traps are enabled? How can this be?"
985 (define-condition index-too-large-error (type-error)
988 (lambda (condition stream)
990 "The index ~S is too large."
991 (type-error-datum condition)))))
993 (define-condition bounding-indices-bad-error (reference-condition type-error)
994 ((object :reader bounding-indices-bad-object :initarg :object))
996 (lambda (condition stream)
997 (let* ((datum (type-error-datum condition))
1000 (object (bounding-indices-bad-object condition)))
1004 "The bounding indices ~S and ~S are bad ~
1005 for a sequence of length ~S."
1006 start end (length object)))
1008 ;; from WITH-ARRAY-DATA
1010 "The START and END parameters ~S and ~S are ~
1011 bad for an array of total size ~S."
1012 start end (array-total-size object)))))))
1015 (list '(:ansi-cl :glossary "bounding index designator")
1016 '(:ansi-cl :issue "SUBSEQ-OUT-OF-BOUNDS:IS-AN-ERROR"))))
1018 (define-condition nil-array-accessed-error (reference-condition type-error)
1020 (:report (lambda (condition stream)
1021 (declare (ignore condition))
1023 "An attempt to access an array of element-type ~
1024 NIL was made. Congratulations!")))
1026 :references (list '(:ansi-cl :function sb!xc:upgraded-array-element-type)
1027 '(:ansi-cl :section (15 1 2 1))
1028 '(:ansi-cl :section (15 1 2 2)))))
1030 (define-condition io-timeout (stream-error)
1031 ((direction :reader io-timeout-direction :initarg :direction))
1033 (lambda (condition stream)
1034 (declare (type stream stream))
1036 "I/O timeout ~(~A~)ing ~S"
1037 (io-timeout-direction condition)
1038 (stream-error-stream condition)))))
1040 (define-condition namestring-parse-error (parse-error)
1041 ((complaint :reader namestring-parse-error-complaint :initarg :complaint)
1042 (args :reader namestring-parse-error-args :initarg :args :initform nil)
1043 (namestring :reader namestring-parse-error-namestring :initarg :namestring)
1044 (offset :reader namestring-parse-error-offset :initarg :offset))
1046 (lambda (condition stream)
1048 "parse error in namestring: ~?~% ~A~% ~V@T^"
1049 (namestring-parse-error-complaint condition)
1050 (namestring-parse-error-args condition)
1051 (namestring-parse-error-namestring condition)
1052 (namestring-parse-error-offset condition)))))
1054 (define-condition simple-package-error (simple-condition package-error) ())
1056 (define-condition reader-package-error (reader-error) ())
1058 (define-condition reader-eof-error (end-of-file)
1059 ((context :reader reader-eof-error-context :initarg :context))
1061 (lambda (condition stream)
1063 "unexpected end of file on ~S ~A"
1064 (stream-error-stream condition)
1065 (reader-eof-error-context condition)))))
1067 (define-condition reader-impossible-number-error (reader-error)
1068 ((error :reader reader-impossible-number-error-error :initarg :error))
1070 (lambda (condition stream)
1071 (let ((error-stream (stream-error-stream condition)))
1072 (format stream "READER-ERROR ~@[at ~W ~]on ~S:~%~?~%Original error: ~A"
1073 (file-position error-stream) error-stream
1074 (reader-error-format-control condition)
1075 (reader-error-format-arguments condition)
1076 (reader-impossible-number-error-error condition))))))
1078 (define-condition timeout (serious-condition) ())
1080 ;;; Single stepping conditions
1082 (define-condition step-condition ()
1083 ((form :initarg :form :reader step-condition-form))
1085 (:documentation "Common base class of single-stepping conditions.
1086 STEP-CONDITION-FORM holds a string representation of the form being
1090 (setf (fdocumentation 'step-condition-form 'function)
1091 "Form associated with the STEP-CONDITION.")
1093 (define-condition step-form-condition (step-condition)
1094 ((source-path :initarg :source-path :reader step-condition-source-path)
1095 (pathname :initarg :pathname :reader step-condition-pathname))
1097 (:documentation "Condition signalled by code compiled with
1098 single-stepping information when about to execute a form.
1099 STEP-CONDITION-FORM holds the form, STEP-CONDITION-PATHNAME holds the
1100 pathname of the original file or NIL, and STEP-CONDITION-SOURCE-PATH
1101 holds the source-path to the original form within that file or NIL.
1102 Associated with this condition are always the restarts STEP-INTO,
1103 STEP-NEXT, and STEP-CONTINUE."))
1106 (setf (fdocumentation 'step-condition-source-path 'function)
1107 "Source-path of the original form associated with the
1108 STEP-FORM-CONDITION or NIL."
1109 (fdocumentation 'step-condition-pathname 'function)
1110 "Pathname of the original source-file associated with the
1111 STEP-FORM-CONDITION or NIL.")
1113 (define-condition step-result-condition (step-condition)
1114 ((result :initarg :result :reader step-condition-result)))
1117 (setf (fdocumentation 'step-condition-result 'function)
1118 "Return values associated with STEP-VALUES-CONDITION as a list,
1119 or the variable value associated with STEP-VARIABLE-CONDITION.")
1121 (define-condition step-values-condition (step-result-condition)
1124 (:documentation "Condition signalled by code compiled with
1125 single-stepping information after executing a form.
1126 STEP-CONDITION-FORM holds the form, and STEP-CONDITION-RESULT holds
1127 the values returned by the form as a list. No associated restarts."))
1129 (define-condition step-variable-condition (step-result-condition)
1132 (:documentation "Condition signalled by code compiled with
1133 single-stepping information when referencing a variable.
1134 STEP-CONDITION-FORM hold the symbol, and STEP-CONDITION-RESULT holds
1135 the value of the variable. No associated restarts."))
1138 ;;;; restart definitions
1140 (define-condition abort-failure (control-error) ()
1142 "An ABORT restart was found that failed to transfer control dynamically."))
1144 (defun abort (&optional condition)
1146 "Transfer control to a restart named ABORT, signalling a CONTROL-ERROR if
1148 (invoke-restart (find-restart-or-control-error 'abort condition))
1149 ;; ABORT signals an error in case there was a restart named ABORT
1150 ;; that did not transfer control dynamically. This could happen with
1152 (error 'abort-failure))
1154 (defun muffle-warning (&optional condition)
1156 "Transfer control to a restart named MUFFLE-WARNING, signalling a
1157 CONTROL-ERROR if none exists."
1158 (invoke-restart (find-restart-or-control-error 'muffle-warning condition)))
1160 (macrolet ((define-nil-returning-restart (name args doc)
1161 #!-sb-doc (declare (ignore doc))
1162 `(defun ,name (,@args &optional condition)
1164 ;; FIXME: Perhaps this shared logic should be pulled out into
1165 ;; FLET MAYBE-INVOKE-RESTART? See whether it shrinks code..
1166 (let ((restart (find-restart ',name condition)))
1168 (invoke-restart restart ,@args))))))
1169 (define-nil-returning-restart continue ()
1170 "Transfer control to a restart named CONTINUE, or return NIL if none exists.")
1171 (define-nil-returning-restart store-value (value)
1172 "Transfer control and VALUE to a restart named STORE-VALUE, or return NIL if
1174 (define-nil-returning-restart use-value (value)
1175 "Transfer control and VALUE to a restart named USE-VALUE, or return NIL if
1178 ;;; single-stepping restarts
1180 (macrolet ((def (name doc)
1181 #!-sb-doc (declare (ignore doc))
1182 `(defun ,name (condition)
1184 (invoke-restart (find-restart-or-control-error ',name condition)))))
1186 "Transfers control to the STEP-CONTINUE restart associated with
1187 the condition, continuing execution without stepping. Signals a
1188 CONTROL-ERROR if the restart does not exist.")
1190 "Transfers control to the STEP-NEXT restart associated with the
1191 condition, executing the current form without stepping and continuing
1192 stepping with the next form. Signals CONTROL-ERROR is the restart does
1195 "Transfers control to the STEP-INTO restart associated with the
1196 condition, stepping into the current form. Signals a CONTROL-ERROR is
1197 the restart does not exist."))
1199 (/show0 "condition.lisp end of file")