useful when the debugger was invoked to handle an error in
deeply nested input syntax, and now the reader is confused.)")
\f
+(defmacro with-debug-io-syntax (() &body body)
+ (let ((thunk (gensym "THUNK")))
+ `(dx-flet ((,thunk ()
+ ,@body))
+ (funcall-with-debug-io-syntax #',thunk))))
;;; If LOC is an unknown location, then try to find the block start
;;; location. Used by source printing to some information instead of
\f
;;;; BACKTRACE
-(defun map-backtrace (thunk &key (start 0) (count most-positive-fixnum))
- (loop
- with result = nil
- for index upfrom 0
- for frame = (if *in-the-debugger*
- *current-frame*
- (sb!di:top-frame))
- then (sb!di:frame-down frame)
- until (null frame)
- when (<= start index) do
- (if (minusp (decf count))
- (return result)
- (setf result (funcall thunk frame)))
- finally (return result)))
-
-(defun backtrace (&optional (count most-positive-fixnum) (stream *debug-io*))
+(declaim (unsigned-byte *backtrace-frame-count*))
+(defvar *backtrace-frame-count* 1000
+ "Default number of frames to backtrace. Defaults to 1000.")
+
+(declaim (type (member :minimal :normal :full) *method-frame-style*))
+(defvar *method-frame-style* :normal
+ "Determines how frames corresponding to method functions are represented in
+backtraces. Possible values are :MINIMAL, :NORMAL, and :FULL.
+
+ :MINIMAL represents them as
+
+ (<gf-name> ...args...)
+
+ if all arguments are available, and only a single method is applicable to
+ the arguments -- otherwise behaves as :NORMAL.
+
+ :NORMAL represents them as
+
+ ((:method <gf-name> [<qualifier>*] (<specializer>*)) ...args...)
+
+ The frame is then followed by either [fast-method] or [slow-method],
+ designating the kind of method function. (See below.)
+
+ :FULL represents them using the actual funcallable method function name:
+
+ ((sb-pcl:fast-method <gf-name> [<qualifier>*] (<specializer>*)) ...args...)
+
+ or
+
+ ((sb-pcl:slow-method <gf-name> [<qualifier>*] (<specializer>*)) ...args...)
+
+ In the this case arguments may include values internal to SBCL's method
+ dispatch machinery.")
+
+(define-deprecated-variable :early "1.1.4.9" *show-entry-point-details*
+ :value nil)
+
+(defun backtrace (&optional (count *backtrace-frame-count*) (stream *debug-io*))
+ "Replaced by PRINT-BACKTRACE, will eventually be deprecated."
+ (print-backtrace :count count :stream stream))
+
+(defun backtrace-as-list (&optional (count *backtrace-frame-count*))
+ "Replaced by LIST-BACKTRACE, will eventually be deprecated."
+ (list-backtrace :count count))
+
+(defun backtrace-start-frame (frame-designator)
+ (let ((here (sb!di:top-frame)))
+ (labels ((current-frame ()
+ (let ((frame here))
+ ;; Our caller's caller.
+ (loop repeat 2
+ do (setf frame (or (sb!di:frame-down frame) frame)))
+ frame))
+ (interrupted-frame ()
+ (or (nth-value 1 (find-interrupted-name-and-frame))
+ (current-frame))))
+ (cond ((eq :current-frame frame-designator)
+ (current-frame))
+ ((eq :interrupted-frame frame-designator)
+ (interrupted-frame))
+ ((eq :debugger-frame frame-designator)
+ (if (and *in-the-debugger* *current-frame*)
+ *current-frame*
+ (interrupted-frame)))
+ ((sb!di:frame-p frame-designator)
+ frame-designator)
+ (t
+ (error "Invalid designator for initial backtrace frame: ~S"
+ frame-designator))))))
+
+(defun map-backtrace (function &key
+ (start 0)
+ (from :debugger-frame)
+ (count *backtrace-frame-count*))
+ #!+sb-doc
+ "Calls the designated FUNCTION with each frame on the call stack.
+Returns the last value returned by FUNCTION.
+
+COUNT is the number of frames to backtrace, defaulting to
+*BACKTRACE-FRAME-COUNT*.
+
+START is the number of the frame the backtrace should start from.
+
+FROM specifies the frame relative to which the frames are numbered. Possible
+values are an explicit SB-DI:FRAME object, and the
+keywords :CURRENT-FRAME, :INTERRUPTED-FRAME, and :DEBUGGER-FRAME. Default
+is :DEBUGGER-FRAME.
+
+ :CURRENT-FRAME
+ specifies the caller of MAP-BACKTRACE.
+
+ :INTERRUPTED-FRAME
+ specifies the first interrupted frame on the stack \(typically the frame
+ where the error occurred, as opposed to error handling frames) if any,
+ otherwise behaving as :CURRENT-FRAME.
+
+ :DEBUGGER-FRAME
+ specifies the currently debugged frame when inside the debugger, and
+ behaves as :INTERRUPTED-FRAME outside the debugger.
+"
+ (loop with result = nil
+ for index upfrom 0
+ for frame = (backtrace-start-frame from)
+ then (sb!di:frame-down frame)
+ until (null frame)
+ when (<= start index) do
+ (if (minusp (decf count))
+ (return result)
+ (setf result (funcall function frame)))
+ finally (return result)))
+
+(defun print-backtrace (&key
+ (stream *debug-io*)
+ (start 0)
+ (from :debugger-frame)
+ (count *backtrace-frame-count*)
+ (print-thread t)
+ (print-frame-source nil)
+ (method-frame-style *method-frame-style*))
#!+sb-doc
- "Show a listing of the call stack going down from the current frame.
-In the debugger, the current frame is indicated by the prompt. COUNT
-is how many frames to show."
- (fresh-line stream)
- (let ((*suppress-print-errors* (if (subtypep 'serious-condition *suppress-print-errors*)
- *suppress-print-errors*
- 'serious-condition))
- (*print-circle* t))
- (handler-bind ((print-not-readable #'print-unreadably))
+ "Print a listing of the call stack to STREAM, defaulting to *DEBUG-IO*.
+
+COUNT is the number of frames to backtrace, defaulting to
+*BACKTRACE-FRAME-COUNT*.
+
+START is the number of the frame the backtrace should start from.
+
+FROM specifies the frame relative to which the frames are numbered. Possible
+values are an explicit SB-DI:FRAME object, and the
+keywords :CURRENT-FRAME, :INTERRUPTED-FRAME, and :DEBUGGER-FRAME. Default
+is :DEBUGGER-FRAME.
+
+ :CURRENT-FRAME
+ specifies the caller of PRINT-BACKTRACE.
+
+ :INTERRUPTED-FRAME
+ specifies the first interrupted frame on the stack \(typically the frame
+ where the error occured, as opposed to error handling frames) if any,
+ otherwise behaving as :CURRENT-FRAME.
+
+ :DEBUGGER-FRAME
+ specifies the currently debugged frame when inside the debugger, and
+ behaves as :INTERRUPTED-FRAME outside the debugger.
+
+If PRINT-THREAD is true (default), backtrace is preceded by printing the
+thread object the backtrace is from.
+
+If PRINT-FRAME-SOURCE is true (default is false), each frame is followed by
+printing the currently executing source form in the function responsible for
+that frame, when available. Requires the function to have been compiled at
+DEBUG 2 or higher. If PRINT-FRAME-SOURCE is :ALWAYS, it also reports \"no
+source available\" for frames for which were compiled at lower debug settings.
+
+METHOD-FRAME-STYLE (defaulting to *METHOD-FRAME-STYLE*), determines how frames
+corresponding to method functions are printed. Possible values
+are :MINIMAL, :NORMAL, and :FULL. See *METHOD-FRAME-STYLE* for more
+information."
+ (with-debug-io-syntax ()
+ (fresh-line stream)
+ (when print-thread
+ (format stream "Backtrace for: ~S~%" sb!thread:*current-thread*))
+ (let ((*suppress-print-errors* (if (subtypep 'serious-condition *suppress-print-errors*)
+ *suppress-print-errors*
+ 'serious-condition))
+ (*print-circle* t)
+ (n start))
+ (handler-bind ((print-not-readable #'print-unreadably))
(map-backtrace (lambda (frame)
- (print-frame-call frame stream :number t))
+ (print-frame-call frame stream
+ :number n
+ :method-frame-style method-frame-style
+ :print-frame-source print-frame-source)
+ (incf n))
+ :from (backtrace-start-frame from)
+ :start start
:count count)))
- (fresh-line stream)
- (values))
-
-(defun backtrace-as-list (&optional (count most-positive-fixnum))
+ (fresh-line stream)
+ (values)))
+
+(defun list-backtrace (&key
+ (count *backtrace-frame-count*)
+ (start 0)
+ (from :debugger-frame)
+ (method-frame-style *method-frame-style*))
#!+sb-doc
- "Return a list representing the current BACKTRACE.
-
-Objects in the backtrace with dynamic-extent allocation by the current
-thread are represented by substitutes to avoid references to them from
-leaking outside their legal extent."
- (let ((reversed-result (list)))
- (map-backtrace (lambda (frame)
- (let ((frame-list (frame-call-as-list frame)))
- (if (listp (cdr frame-list))
- (push (mapcar #'replace-dynamic-extent-object frame-list)
- reversed-result)
- (push frame-list reversed-result))))
- :count count)
- (nreverse reversed-result)))
-
-(defun frame-call-as-list (frame)
- (multiple-value-bind (name args) (frame-call frame)
- (cons name args)))
+ "Returns a list describing the call stack. Each frame is represented
+by a sublist:
+
+ \(<name> ...args...)
+
+where the name describes the function responsible for the frame. The name
+might not be bound to the actual function object. Unavailable arguments are
+represented by dummy objects that print as #<unavailable argument>. Objects
+with dynamic-extent allocation by the current thread are represented by
+substitutes to avoid references to them from leaking outside their legal
+extent.
+
+COUNT is the number of frames to backtrace, defaulting to
+*BACKTRACE-FRAME-COUNT*.
+
+START is the number of the frame the backtrace should start from.
+
+FROM specifies the frame relative to which the frames are numbered. Possible
+values are an explicit SB-DI:FRAME object, and the
+keywords :CURRENT-FRAME, :INTERRUPTED-FRAME, and :DEBUGGER-FRAME. Default
+is :DEBUGGER-FRAME.
+
+ :CURRENT-FRAME
+ specifies the caller of LIST-BACKTRACE.
+
+ :INTERRUPTED-FRAME
+ specifies the first interrupted frame on the stack \(typically the frame
+ where the error occured, as opposed to error handling frames) if any,
+ otherwise behaving as :CURRENT-FRAME.
+
+ :DEBUGGER-FRAME
+ specifies the currently debugged frame when inside the debugger, and
+ behaves as :INTERRUPTED-FRAME outside the debugger.
+
+METHOD-FRAME-STYLE (defaulting to *METHOD-FRAME-STYLE*), determines how frames
+corresponding to method functions are printed. Possible values
+are :MINIMAL, :NORMAL, and :FULL. See *METHOD-FRAME-STYLE* for more
+information."
+ (let (rbacktrace)
+ (map-backtrace
+ (lambda (frame)
+ (push (frame-call-as-list frame :method-frame-style method-frame-style)
+ rbacktrace))
+ :count count
+ :start start
+ :from (backtrace-start-frame from))
+ (nreverse rbacktrace)))
+
+(defun frame-call-as-list (frame &key (method-frame-style *method-frame-style*))
+ (multiple-value-bind (name args info)
+ (frame-call frame :method-frame-style method-frame-style
+ :replace-dynamic-extent-objects t)
+ (values (cons name args) info)))
(defun replace-dynamic-extent-object (obj)
(if (stack-allocated-p obj)
(sb!di:lambda-list-unavailable ()
(make-unprintable-object "unavailable lambda list"))))
-(defvar *show-entry-point-details* nil)
+(defun interrupted-frame-error (frame)
+ (when (and (sb!di::compiled-frame-p frame)
+ (sb!di::compiled-frame-escaped frame))
+ (let ((error-number (sb!vm:internal-error-args
+ (sb!di::compiled-frame-escaped frame))))
+ (when (array-in-bounds-p sb!c:*backend-internal-errors* error-number)
+ (car (svref sb!c:*backend-internal-errors* error-number))))))
-(defun clean-xep (name args)
+(defun clean-xep (frame name args info)
(values (second name)
(if (consp args)
(let* ((count (first args))
(real-args (rest args)))
- (if (fixnump count)
+ (if (and (integerp count)
+ (eq (interrupted-frame-error frame)
+ 'invalid-arg-count-error))
;; So, this is a cheap trick -- but makes backtraces for
;; too-many-arguments-errors much, much easier to to
;; understand. FIXME: For :EXTERNAL frames at least we
(make-unprintable-object "unknown"))
collect arg)
real-args))
- args)))
+ args)
+ (if (eq (car name) 'sb!c::tl-xep)
+ (cons :tl info)
+ info)))
-(defun clean-&more-processor (name args)
+(defun clean-&more-processor (name args info)
(values (second name)
(if (consp args)
(let* ((more (last args 2))
(sb!c:%more-arg-values context 0 count))
(list
(make-unprintable-object "more unavailable arguments")))))
- args)))
-
-(defun clean-debug-fun-name (name &optional args)
- ;; FIXME: do we need to deal with
- ;; HAIRY-FUNCTION-ENTRY here? I can't make it or
- ;; &AUX-BINDINGS appear in backtraces, so they are
- ;; left alone for now. --NS 2005-02-28
- (if (consp name)
- (case (first name)
- ((sb!c::xep sb!c::tl-xep)
- (clean-xep name args))
- ((sb!c::&more-processor)
- (clean-&more-processor name args))
- ((sb!c::hairy-arg-processor
- sb!c::varargs-entry sb!c::&optional-processor)
- (clean-debug-fun-name (second name) args))
- (t
+ args)
+ (cons :more info)))
+
+(defun clean-fast-method (name args style info)
+ (multiple-value-bind (cname cargs)
+ (ecase style
+ (:minimal
+ (let ((gf-name (second name))
+ (real-args (cddr args)))
+ (if (and (fboundp gf-name)
+ (notany #'sb!impl::unprintable-object-p real-args)
+ (let ((methods (compute-applicable-methods
+ (fdefinition gf-name) real-args)))
+ (and methods (not (cdr methods)))))
+ (values gf-name real-args)
+ (values (cons :method (cdr name)) real-args))))
+ (:normal
+ (values (cons :method (cdr name)) (cddr args)))
+ (:full
(values name args)))
- (values name args)))
-
-(defun frame-call (frame)
- (flet ((clean-name-and-args (name args)
- (if (not *show-entry-point-details*)
- (clean-debug-fun-name name args)
- (values name args))))
- (let ((debug-fun (sb!di:frame-debug-fun frame)))
- (multiple-value-bind (name args)
- (clean-name-and-args (sb!di:debug-fun-name debug-fun)
- (frame-args-as-list frame))
- (values name args (sb!di:debug-fun-kind debug-fun))))))
+ (values cname cargs (cons :fast-method info))))
+
+(defun clean-frame-call (frame name method-frame-style info)
+ (let ((args (frame-args-as-list frame)))
+ (if (consp name)
+ (case (first name)
+ ((sb!c::xep sb!c::tl-xep)
+ (clean-xep frame name args info))
+ ((sb!c::&more-processor)
+ (clean-&more-processor name args info))
+ ((sb!c::&optional-processor)
+ (clean-frame-call frame (second name) method-frame-style
+ info))
+ ((sb!pcl::fast-method)
+ (clean-fast-method name args method-frame-style info))
+ (t
+ (values name args info)))
+ (values name args info))))
+
+(defun frame-call (frame &key (method-frame-style *method-frame-style*)
+ replace-dynamic-extent-objects)
+ "Returns as multiple values a descriptive name for the function responsible
+for FRAME, arguments that that function, and a list providing additional
+information about the frame.
+
+Unavailable arguments are represented using dummy-objects printing as
+#<unavailable argument>.
+
+METHOD-FRAME-STYLE (defaulting to *METHOD-FRAME-STYLE*), determines how frames
+corresponding to method functions are printed. Possible values
+are :MINIMAL, :NORMAL, and :FULL. See *METHOD-FRAME-STYLE* for more
+information.
+
+If REPLACE-DYNAMIC-EXTENT-OBJECTS is true, objects allocated on the stack of
+the current thread are replaced with dummy objects which can safely escape."
+ (let* ((debug-fun (sb!di:frame-debug-fun frame))
+ (kind (sb!di:debug-fun-kind debug-fun)))
+ (multiple-value-bind (name args info)
+ (clean-frame-call frame
+ (sb!di:debug-fun-name debug-fun)
+ method-frame-style
+ (when kind (list kind)))
+ (let ((args (if (and (consp args) replace-dynamic-extent-objects)
+ (mapcar #'replace-dynamic-extent-object args)
+ args)))
+ (values name args info)))))
(defun ensure-printable-object (object)
(handler-case
;;; zero indicates just printing the DEBUG-FUN's name, and one
;;; indicates displaying call-like, one-liner format with argument
;;; values.
-(defun print-frame-call (frame stream &key (verbosity 1) (number nil))
+(defun print-frame-call (frame stream
+ &key print-frame-source
+ number
+ (method-frame-style *method-frame-style*))
(when number
- (format stream "~&~S: " (sb!di:frame-number frame)))
- (if (zerop verbosity)
- (let ((*print-readably* nil))
- (prin1 frame stream))
- (multiple-value-bind (name args kind) (frame-call frame)
- (pprint-logical-block (stream nil :prefix "(" :suffix ")")
- ;; Since we go to some trouble to make nice informative function
- ;; names like (PRINT-OBJECT :AROUND (CLOWN T)), let's make sure
- ;; that they aren't truncated by *PRINT-LENGTH* and *PRINT-LEVEL*.
- ;; For the function arguments, we can just print normally.
- (let ((*print-length* nil)
- (*print-level* nil))
- (prin1 name stream))
- ;; If we hit a &REST arg, then print as many of the values
- ;; as possible, punting the loop over lambda-list variables
- ;; since any other arguments will be in the &REST arg's list
- ;; of values. Special case *PRINT-PRETTY* for eval frames:
- ;; if *PRINT-LINES* is 1, turn off pretty-printing.
- (let ((*print-pretty*
- (if (and (eql 1 *print-lines*)
- (member name '(eval simple-eval-in-lexenv)))
- nil
- *print-pretty*))))
+ (format stream "~&~S: " (if (integerp number)
+ number
+ (sb!di:frame-number frame))))
+ (multiple-value-bind (name args info)
+ (frame-call frame :method-frame-style method-frame-style)
+ (pprint-logical-block (stream nil :prefix "(" :suffix ")")
+ ;; Since we go to some trouble to make nice informative function
+ ;; names like (PRINT-OBJECT :AROUND (CLOWN T)), let's make sure
+ ;; that they aren't truncated by *PRINT-LENGTH* and *PRINT-LEVEL*.
+ ;; For the function arguments, we can just print normally.
+ (let ((*print-length* nil)
+ (*print-level* nil)
+ (*print-pretty* nil)
+ (*print-circle* t)
+ (name (ensure-printable-object name)))
+ (write name :stream stream :escape t :pretty (equal '(lambda ()) name))
+ ;; If we hit a &REST arg, then print as many of the values as
+ ;; possible, punting the loop over lambda-list variables since any
+ ;; other arguments will be in the &REST arg's list of values.
+ (let ((args (ensure-printable-object args)))
(if (listp args)
(format stream "~{ ~_~S~}" args)
- (format stream " ~S" args)))
- (when kind
- (format stream "[~S]" kind))))
- (when (>= verbosity 2)
+ (format stream " ~S" args)))))
+ (when info
+ (format stream " [~{~(~A~)~^,~}]" info)))
+ (when print-frame-source
(let ((loc (sb!di:frame-code-location frame)))
(handler-case
- (progn
- ;; FIXME: Is this call really necessary here? If it is,
- ;; then the reason for it should be unobscured.
- (sb!di:code-location-debug-block loc)
- (format stream "~%source: ")
- (prin1 (code-location-source-form loc 0) stream))
- (sb!di:debug-condition (ignore)
- ignore)
+ (let ((source (handler-case
+ (code-location-source-form loc 0)
+ (error (c)
+ (format stream "~& error finding frame source: ~A" c)))))
+ (format stream "~% source: ~S" source))
+ (sb!di:debug-condition ()
+ ;; This is mostly noise.
+ (when (eq :always print-frame-source)
+ (format stream "~& no source available for frame")))
(error (c)
- (format stream "~&error finding source: ~A" c))))))
+ (format stream "~& error printing frame source: ~A" c))))))
\f
;;;; INVOKE-DEBUGGER
(package-name *package*))
(setf *package* (find-package :cl-user))
(format *error-output*
- "The value of ~S was not an undeleted PACKAGE. It has been
-reset to ~S."
+ "The value of ~S was not an undeleted PACKAGE. It has been ~
+ reset to ~S."
'*package* *package*))
;; Before we start our own output, finish any pending output.
;;; this function is for use in *INVOKE-DEBUGGER-HOOK* when ordinary
;;; ANSI behavior has been suppressed by the "--disable-debugger"
;;; command-line option
-(defun debugger-disabled-hook (condition me)
- (declare (ignore me))
+(defun debugger-disabled-hook (condition previous-hook)
+ (declare (ignore previous-hook))
;; There is no one there to interact with, so report the
;; condition and terminate the program.
- (flet ((failure-quit (&key abort)
+ (let ((*suppress-print-errors* t)
+ (condition-error-message
+ #.(format nil "A nested error within --disable-debugger error ~
+ handling prevents displaying the original error. Attempting ~
+ to print a backtrace."))
+ (backtrace-error-message
+ #.(format nil "A nested error within --disable-debugger error ~
+ handling prevents printing the backtrace. Sorry, exiting.")))
+ (labels
+ ((failure-quit (&key abort)
(/show0 "in FAILURE-QUIT (in --disable-debugger debugger hook)")
- (exit :code 1 :abort abort)))
- ;; This HANDLER-CASE is here mostly to stop output immediately
- ;; (and fall through to QUIT) when there's an I/O error. Thus,
- ;; when we're run under a shell script or something, we can die
- ;; cleanly when the script dies (and our pipes are cut), instead
- ;; of falling into ldb or something messy like that. Similarly, we
- ;; can terminate cleanly even if BACKTRACE dies because of bugs in
- ;; user PRINT-OBJECT methods.
- (handler-case
- (progn
- (format *error-output*
- "~&~@<unhandled ~S~@[ in thread ~S~]: ~2I~_~A~:>~2%"
- (type-of condition)
- #!+sb-thread sb!thread:*current-thread*
- #!-sb-thread nil
- condition)
- ;; Flush *ERROR-OUTPUT* even before the BACKTRACE, so that
- ;; even if we hit an error within BACKTRACE (e.g. a bug in
- ;; the debugger's own frame-walking code, or a bug in a user
- ;; PRINT-OBJECT method) we'll at least have the CONDITION
- ;; printed out before we die.
- (finish-output *error-output*)
- ;; (Where to truncate the BACKTRACE is of course arbitrary, but
- ;; it seems as though we should at least truncate it somewhere.)
- (sb!debug:backtrace 128 *error-output*)
- (format
- *error-output*
- "~%unhandled condition in --disable-debugger mode, quitting~%")
- (finish-output *error-output*)
- (failure-quit))
- (condition ()
- ;; We IGNORE-ERRORS here because even %PRIMITIVE PRINT can
- ;; fail when our output streams are blown away, as e.g. when
- ;; we're running under a Unix shell script and it dies somehow
- ;; (e.g. because of a SIGINT). In that case, we might as well
- ;; just give it up for a bad job, and stop trying to notify
- ;; the user of anything.
- ;;
- ;; Actually, the only way I've run across to exercise the
- ;; problem is to have more than one layer of shell script.
- ;; I have a shell script which does
- ;; time nice -10 sh make.sh "$1" 2>&1 | tee make.tmp
- ;; and the problem occurs when I interrupt this with Ctrl-C
- ;; under Linux 2.2.14-5.0 and GNU bash, version 1.14.7(1).
- ;; I haven't figured out whether it's bash, time, tee, Linux, or
- ;; what that is responsible, but that it's possible at all
- ;; means that we should IGNORE-ERRORS here. -- WHN 2001-04-24
- (ignore-errors
- (%primitive print
- "Argh! error within --disable-debugger error handling"))
- (failure-quit :abort t)))))
+ (exit :code 1 :abort abort))
+ (display-condition ()
+ (handler-case
+ (handler-case
+ (print-condition)
+ (condition ()
+ ;; printing failed, try to describe it
+ (describe-condition)))
+ (condition ()
+ ;; ok, give up trying to display the error and inform the user about it
+ (finish-output *error-output*)
+ (%primitive print condition-error-message))))
+ (print-condition ()
+ (format *error-output*
+ "~&~@<Unhandled ~S~@[ in thread ~S~]: ~2I~_~A~:>~2%"
+ (type-of condition)
+ #!+sb-thread sb!thread:*current-thread*
+ #!-sb-thread nil
+ condition)
+ (finish-output *error-output*))
+ (describe-condition ()
+ (format *error-output*
+ "~&Unhandled ~S~@[ in thread ~S~]:~%"
+ (type-of condition)
+ #!+sb-thread sb!thread:*current-thread*
+ #!-sb-thread nil)
+ (describe condition *error-output*)
+ (finish-output *error-output*))
+ (display-backtrace ()
+ (handler-case
+ (print-backtrace :stream *error-output*
+ :from :interrupted-frame
+ :print-thread t)
+ (condition ()
+ (values)))
+ (finish-output *error-output*)))
+ ;; This HANDLER-CASE is here mostly to stop output immediately
+ ;; (and fall through to QUIT) when there's an I/O error. Thus,
+ ;; when we're run under a shell script or something, we can die
+ ;; cleanly when the script dies (and our pipes are cut), instead
+ ;; of falling into ldb or something messy like that. Similarly, we
+ ;; can terminate cleanly even if BACKTRACE dies because of bugs in
+ ;; user PRINT-OBJECT methods. Separate the error handling of the
+ ;; two phases to maximize the chance of emitting some useful
+ ;; information.
+ (handler-case
+ (progn
+ (display-condition)
+ (display-backtrace)
+ (format *error-output*
+ "~%unhandled condition in --disable-debugger mode, quitting~%")
+ (finish-output *error-output*)
+ (failure-quit))
+ (condition ()
+ ;; We IGNORE-ERRORS here because even %PRIMITIVE PRINT can
+ ;; fail when our output streams are blown away, as e.g. when
+ ;; we're running under a Unix shell script and it dies somehow
+ ;; (e.g. because of a SIGINT). In that case, we might as well
+ ;; just give it up for a bad job, and stop trying to notify
+ ;; the user of anything.
+ ;;
+ ;; Actually, the only way I've run across to exercise the
+ ;; problem is to have more than one layer of shell script.
+ ;; I have a shell script which does
+ ;; time nice -10 sh make.sh "$1" 2>&1 | tee make.tmp
+ ;; and the problem occurs when I interrupt this with Ctrl-C
+ ;; under Linux 2.2.14-5.0 and GNU bash, version 1.14.7(1).
+ ;; I haven't figured out whether it's bash, time, tee, Linux, or
+ ;; what that is responsible, but that it's possible at all
+ ;; means that we should IGNORE-ERRORS here. -- WHN 2001-04-24
+ (ignore-errors
+ (%primitive print backtrace-error-message))
+ (failure-quit :abort t))))))
(defvar *old-debugger-hook* nil)
"When set, avoid calling INVOKE-DEBUGGER recursively when errors occur while
executing in the debugger.")
-(defun debug-read (stream)
+(defun debug-read (stream eof-restart)
(declare (type stream stream))
(let* ((eof-marker (cons nil nil))
(form (read stream nil eof-marker)))
(if (eq form eof-marker)
- (abort)
+ (invoke-restart eof-restart)
form)))
(defun debug-loop-fun ()
(setf *suppress-frame-print* nil))
(t
(terpri *debug-io*)
- (print-frame-call *current-frame* *debug-io* :verbosity 2)))
+ (print-frame-call *current-frame* *debug-io* :print-frame-source t)))
(loop
(catch 'debug-loop-catcher
(handler-bind ((error (lambda (condition)
'*flush-debug-errors*)
(/show0 "throwing DEBUG-LOOP-CATCHER")
(throw 'debug-loop-catcher nil)))))
- ;; We have to bind LEVEL for the restart function created by
- ;; WITH-SIMPLE-RESTART.
+ ;; We have to bind LEVEL for the restart function created
+ ;; by WITH-SIMPLE-RESTART, and we need the explicit ABORT
+ ;; restart that exists now so that EOF from read can drop
+ ;; one debugger level.
(let ((level *debug-command-level*)
- (restart-commands (make-restart-commands)))
+ (restart-commands (make-restart-commands))
+ (abort-restart-for-eof (find-restart 'abort)))
(flush-standard-output-streams)
(debug-prompt *debug-io*)
(force-output *debug-io*)
- (let* ((exp (debug-read *debug-io*))
- (cmd-fun (debug-command-p exp restart-commands)))
- (with-simple-restart (abort
- "~@<Reduce debugger level (to debug level ~W).~@:>"
- level)
+ (with-simple-restart (abort
+ "~@<Reduce debugger level (to debug level ~W).~@:>"
+ level)
+ (let* ((exp (debug-read *debug-io* abort-restart-for-eof))
+ (cmd-fun (debug-command-p exp restart-commands)))
(cond ((not cmd-fun)
(debug-eval-print exp))
((consp cmd-fun)
(defvar *auto-eval-in-frame* t
#!+sb-doc
"When set (the default), evaluations in the debugger's command loop occur
- relative to the current frame's environment without the need of debugger
- forms that explicitly control this kind of evaluation.")
+relative to the current frame's environment without the need of debugger
+forms that explicitly control this kind of evaluation.")
(defun debug-eval (expr)
(cond ((not (and (fboundp 'compile) *auto-eval-in-frame*))
(show-restarts *debug-restarts* *debug-io*))
(!def-debug-command "BACKTRACE" ()
- (backtrace (read-if-available most-positive-fixnum)))
+ (print-backtrace :count (read-if-available most-positive-fixnum)))
(!def-debug-command "PRINT" ()
(print-frame-call *current-frame* *debug-io*))
\f
;;;; source location printing
-;;; Stuff to clean up before saving a core
-(defun debug-deinit ()
- ;; Nothing to do right now. Once there was, maybe once there
- ;; will be again.
- )
-
(defun code-location-source-form (location context &optional (errorp t))
(let* ((start-location (maybe-block-start-location location))
(form-num (sb!di:code-location-form-number start-location)))
(sb!di:debug-var-info-available
(sb!di:code-location-debug-fun
(sb!di:frame-code-location frame))))
-
-;; Hack: ensure that *U-T-F-F* has a tls index.
-#!+unwind-to-frame-and-call-vop
-(let ((sb!vm::*unwind-to-frame-function* (lambda ()))))
-
\f
;;;; debug loop command utilities