\f
;;;; the CONDITION class
+(/show0 "late-target-error.lisp 20")
+
(eval-when (:compile-toplevel :load-toplevel :execute)
(def!struct (condition-class (:include slot-class)
(defun make-condition-class (&rest rest)
(apply #'bare-make-condition-class
- (rename-keyword-args '((:name :%name)) rest)))
+ (rename-key-args '((:name :%name)) rest)))
) ; EVAL-WHEN
condition-class
make-condition-class)
(:copier nil))
-
- (function-name nil)
;; actual initargs supplied to MAKE-CONDITION
(actual-initargs (required-argument) :type list)
- ;; plist mapping slot names to any values that were assigned or
+ ;; a plist mapping slot names to any values that were assigned or
;; defaulted after creation
(assigned-slots () :type list))
-(defstruct condition-slot
+(defstruct (condition-slot (:copier nil))
(name (required-argument) :type symbol)
;; list of all applicable initargs
(initargs (required-argument) :type list)
;; If ALLOCATION is :CLASS, this is a cons whose car holds the value.
(cell nil :type (or cons null)))
-(eval-when (#-sb-xc :compile-toplevel :load-toplevel :execute)
- ;; the appropriate initialization value for the CPL slot of a CONDITION,
- ;; calculated by looking at the INHERITS information in the LAYOUT
- ;; of the CONDITION
- (defun condition-class-cpl-from-layout (condition)
- (declare (type condition condition))
- (let* ((class (sb!xc:find-class condition))
- (layout (class-layout class))
- (superset (map 'list #'identity (layout-inherits layout))))
- (delete-if (lambda (superclass)
- (not (typep superclass 'condition-class)))
- superset))))
-
;;; KLUDGE: It's not clear to me why CONDITION-CLASS has itself listed
;;; in its CPL, while other classes derived from CONDITION-CLASS don't
;;; have themselves listed in their CPLs. This behavior is inherited
parent-types)))))
(cond-layout (info :type :compiler-layout 'condition))
(olayout (info :type :compiler-layout name))
+ ;; FIXME: Does this do the right thing in case of multiple
+ ;; inheritance? A quick look at DEFINE-CONDITION didn't make
+ ;; it obvious what ANSI intends to be done in the case of
+ ;; multiple inheritance, so it's not actually clear what the
+ ;; right thing is..
(new-inherits
- (concatenate 'simple-vector
- (layout-inherits cond-layout)
- (mapcar #'class-layout cpl))))
+ (order-layout-inherits (concatenate 'simple-vector
+ (layout-inherits cond-layout)
+ (mapcar #'class-layout cpl)))))
(if (and olayout
(not (mismatch (layout-inherits olayout) new-inherits)))
olayout
\f
;;;; slots of CONDITION objects
-(defvar *empty-slot* '(empty))
+(defvar *empty-condition-slot* '(empty))
(defun find-slot-default (class slot)
(let ((initargs (condition-slot-initargs slot))
(dolist (class cpl)
(let ((default-initargs (condition-class-default-initargs class)))
(dolist (initarg initargs)
- (let ((val (getf default-initargs initarg *empty-slot*)))
- (unless (eq val *empty-slot*)
+ (let ((val (getf default-initargs initarg *empty-condition-slot*)))
+ (unless (eq val *empty-condition-slot*)
(return-from find-slot-default
(if (functionp val)
(funcall val)
initform))
(error "unbound condition slot: ~S" (condition-slot-name slot)))))
-(defun find-slot (classes name)
- (dolist (sclass classes nil)
+(defun find-condition-class-slot (condition-class slot-name)
+ (dolist (sclass
+ (condition-class-cpl condition-class)
+ (error "There is no slot named ~S in ~S."
+ slot-name condition-class))
(dolist (slot (condition-class-slots sclass))
- (when (eq (condition-slot-name slot) name)
- (return-from find-slot slot)))))
+ (when (eq (condition-slot-name slot) slot-name)
+ (return-from find-condition-class-slot slot)))))
(defun condition-writer-function (condition new-value name)
(dolist (cslot (condition-class-class-slots
(car (condition-slot-cell cslot)))))
(let ((val (getf (condition-assigned-slots condition) name
- *empty-slot*)))
- (if (eq val *empty-slot*)
+ *empty-condition-slot*)))
+ (if (eq val *empty-condition-slot*)
(let ((actual-initargs (condition-actual-initargs condition))
- (slot (find-slot (condition-class-cpl class) name)))
+ (slot (find-condition-class-slot class name)))
+ (unless slot
+ (error "missing slot ~S of ~S" name condition))
(dolist (initarg (condition-slot-initargs slot))
- (let ((val (getf actual-initargs initarg *empty-slot*)))
- (unless (eq val *empty-slot*)
+ (let ((val (getf actual-initargs
+ initarg
+ *empty-condition-slot*)))
+ (unless (eq val *empty-condition-slot*)
(return-from condition-reader-function
(setf (getf (condition-assigned-slots condition)
name)
;; Set any class slots with initargs present in this call.
(dolist (cslot (condition-class-class-slots class))
(dolist (initarg (condition-slot-initargs cslot))
- (let ((val (getf args initarg *empty-slot*)))
- (unless (eq val *empty-slot*)
+ (let ((val (getf args initarg *empty-condition-slot*)))
+ (unless (eq val *empty-condition-slot*)
(setf (car (condition-slot-cell cslot)) val)))))
;; Default any slots with non-constant defaults now.
(dolist (hslot (condition-class-hairy-slots class))
(when (dolist (initarg (condition-slot-initargs hslot) t)
- (unless (eq (getf args initarg *empty-slot*) *empty-slot*)
+ (unless (eq (getf args initarg *empty-condition-slot*)
+ *empty-condition-slot*)
(return nil)))
(setf (getf (condition-assigned-slots res) (condition-slot-name hslot))
(find-slot-default class hslot))))
(setf (sb!xc:find-class name) class)
- ;; Initialize CPL slot from layout.
- (collect ((cpl))
- (cpl class)
- (let ((inherits (layout-inherits layout)))
- (do ((i (1- (length inherits)) (1- i)))
- ((minusp i))
- (let ((super (sb!xc:find-class
- (sb!xc:class-name
- (layout-class (svref inherits i))))))
- (when (typep super 'condition-class)
- (cpl super)))))
- (setf (condition-class-cpl class) (cpl))))
-
+ ;; Initialize CPL slot.
+ (setf (condition-class-cpl class)
+ (remove-if-not #'condition-class-p
+ (std-compute-class-precedence-list class))))
(values))
) ; EVAL-WHEN
#'(lambda (new-value condition)
(condition-writer-function condition new-value name))))))
- ;; Compute effective slots and set up the class and hairy slots (subsets of
- ;; the effective slots.)
+ ;; Compute effective slots and set up the class and hairy slots
+ ;; (subsets of the effective slots.)
(let ((eslots (compute-effective-slots class))
(e-def-initargs
(reduce #'append
(if (functionp initform)
(funcall initform)
initform))
- *empty-slot*))))
+ *empty-condition-slot*))))
(push slot (condition-class-class-slots class)))
((:instance nil)
(setf (condition-slot-allocation slot) :instance)
(define-condition style-warning (warning) ())
(defun simple-condition-printer (condition stream)
- ;; FIXME: Why use APPLY instead of an ordinary form? To stop the optimizer
- ;; from doing something?
- (apply #'format stream (simple-condition-format-control condition)
- (simple-condition-format-arguments condition)))
+ (apply #'format
+ stream
+ (simple-condition-format-control condition)
+ (simple-condition-format-arguments condition)))
(define-condition simple-condition ()
((format-control :reader simple-condition-format-control
(define-condition simple-warning (simple-condition warning) ())
-(defun print-simple-error (condition stream)
- (format stream
- "~&~@<error in function ~S: ~3I~:_~?~:>"
- (condition-function-name condition)
- (simple-condition-format-control condition)
- (simple-condition-format-arguments condition)))
-
-(define-condition simple-error (simple-condition error) ()
- ;; This is the condition type used by ERROR and CERROR when
- ;; a format-control string is supplied as the first argument.
- (:report print-simple-error))
+(define-condition simple-error (simple-condition error) ())
(define-condition storage-condition (serious-condition) ())
-;;; FIXME: Should we really be reporting CONDITION-FUNCTION-NAME data on an
-;;; ad hoc basis, for some conditions and not others? Why not standardize
-;;; it somehow? perhaps by making the debugger report it?
-
(define-condition type-error (error)
((datum :reader type-error-datum :initarg :datum)
(expected-type :reader type-error-expected-type :initarg :expected-type))
(:report
(lambda (condition stream)
(format stream
- "~@<TYPE-ERROR in ~S: ~3I~:_~S is not of type ~S~:>."
- (condition-function-name condition)
+ "~@<The value ~2I~:_~S ~I~_is not of type ~2I~_~S.~:>"
(type-error-datum condition)
(type-error-expected-type condition)))))
+(define-condition simple-type-error (simple-condition type-error) ())
+
(define-condition program-error (error) ())
(define-condition parse-error (error) ())
(define-condition control-error (error) ())
(:report
(lambda (condition stream)
(format stream
- "END-OF-FILE on ~S"
+ "end of file on ~S"
(stream-error-stream condition)))))
(define-condition file-error (error)
(:report
(lambda (condition stream)
(format stream
- "~&~@<FILE-ERROR in function ~S: ~3i~:_~?~:>"
- (condition-function-name condition)
+ "~@<error on file ~_~S: ~2I~:_~?~:>"
+ (file-error-pathname condition)
+ ;; FIXME: ANSI's FILE-ERROR doesn't have FORMAT-CONTROL and
+ ;; FORMAT-ARGUMENTS, and the inheritance here doesn't seem
+ ;; to give us FORMAT-CONTROL or FORMAT-ARGUMENTS either.
+ ;; So how does this work?
(serious-condition-format-control condition)
(serious-condition-format-arguments condition)))))
(:report
(lambda (condition stream)
(format stream
- "error in ~S: The variable ~S is unbound."
- (condition-function-name condition)
+ "The variable ~S is unbound."
(cell-error-name condition)))))
(define-condition undefined-function (cell-error) ()
(:report
(lambda (condition stream)
(format stream
- "error in ~S: The function ~S is undefined."
- (condition-function-name condition)
+ "The function ~S is undefined."
(cell-error-name condition)))))
(define-condition arithmetic-error (error)
(format stream "~S cannot be printed readably." obj)))))
(define-condition reader-error (parse-error stream-error)
- ;; FIXME: Do we need FORMAT-CONTROL and FORMAT-ARGUMENTS when
- ;; we have an explicit :REPORT function? I thought we didn't..
((format-control
:reader reader-error-format-control
:initarg :format-control)
(:report
(lambda (condition stream)
(format stream
- "error in ~S: ~S: index too large"
- (condition-function-name condition)
+ "The index ~S is too large."
(type-error-datum condition)))))
(define-condition io-timeout (stream-error)
(lambda (condition stream)
(declare (type stream stream))
(format stream
- "IO-TIMEOUT ~(~A~)ing ~S"
+ "I/O timeout ~(~A~)ing ~S"
(io-timeout-direction condition)
(stream-error-stream condition)))))
:initform nil)
(namestring :reader namestring-parse-error-namestring :initarg :namestring)
(offset :reader namestring-parse-error-offset :initarg :offset))
- (:report %print-namestring-parse-error))
+ (:report
+ (lambda (condition stream)
+ (format stream
+ "parse error in namestring: ~?~% ~A~% ~V@T^"
+ (namestring-parse-error-complaint condition)
+ (namestring-parse-error-arguments condition)
+ (namestring-parse-error-namestring condition)
+ (namestring-parse-error-offset condition)))))
(define-condition simple-package-error (simple-condition package-error) ())
(:report
(lambda (condition stream)
(format stream
- "unexpected EOF on ~S ~A"
+ "unexpected end of file on ~S ~A"
(stream-error-stream condition)
(reader-eof-error-context condition)))))
\f
"Transfer control to a restart named ABORT, signalling a CONTROL-ERROR if
none exists."
(invoke-restart (find-restart 'abort condition))
- ;; ABORT signals an error in case there was a restart named ABORT that did
- ;; not transfer control dynamically. This could happen with RESTART-BIND.
+ ;; ABORT signals an error in case there was a restart named ABORT
+ ;; that did not transfer control dynamically. This could happen with
+ ;; RESTART-BIND.
(error 'abort-failure))
(defun muffle-warning (&optional condition)
(define-nil-returning-restart use-value (value)
"Transfer control and VALUE to a restart named USE-VALUE, or return NIL if
none exists."))
+
+(/show0 "late-target-error.lisp end of file")
+