(/show0 "condition.lisp 24")
-(def!struct (condition-classoid (:include slot-classoid)
- (:constructor make-condition-classoid))
+(def!struct (condition-classoid (:include classoid)
+ (:constructor make-condition-classoid))
;; list of CONDITION-SLOT structures for the direct slots of this
;; class
(slots nil :type list)
(!defstruct-with-alternate-metaclass condition
:slot-names (actual-initargs assigned-slots)
:boa-constructor %make-condition-object
- :superclass-name instance
+ :superclass-name t
:metaclass-name condition-classoid
:metaclass-constructor make-condition-classoid
:dd-type structure)
(eval-when (:compile-toplevel :load-toplevel :execute)
(/show0 "condition.lisp 103")
(let ((condition-class (locally
- ;; KLUDGE: There's a DEFTRANSFORM
- ;; FIND-CLASSOID for constant class names
- ;; which creates fast but
- ;; non-cold-loadable, non-compact code. In
- ;; this context, we'd rather have compact,
- ;; cold-loadable code. -- WHN 19990928
- (declare (notinline find-classoid))
- (find-classoid 'condition))))
+ ;; KLUDGE: There's a DEFTRANSFORM
+ ;; FIND-CLASSOID for constant class names
+ ;; which creates fast but
+ ;; non-cold-loadable, non-compact code. In
+ ;; this context, we'd rather have compact,
+ ;; cold-loadable code. -- WHN 19990928
+ (declare (notinline find-classoid))
+ (find-classoid 'condition))))
(setf (condition-classoid-cpl condition-class)
- (list condition-class)))
+ (list condition-class)))
(/show0 "condition.lisp 103"))
(setf (condition-classoid-report (locally
- ;; KLUDGE: There's a DEFTRANSFORM
- ;; FIND-CLASSOID for constant class
- ;; names which creates fast but
- ;; non-cold-loadable, non-compact
- ;; code. In this context, we'd
- ;; rather have compact,
- ;; cold-loadable code. -- WHN
- ;; 19990928
- (declare (notinline find-classoid))
- (find-classoid 'condition)))
+ ;; KLUDGE: There's a DEFTRANSFORM
+ ;; FIND-CLASSOID for constant class
+ ;; names which creates fast but
+ ;; non-cold-loadable, non-compact
+ ;; code. In this context, we'd
+ ;; rather have compact,
+ ;; cold-loadable code. -- WHN
+ ;; 19990928
+ (declare (notinline find-classoid))
+ (find-classoid 'condition)))
(lambda (cond stream)
- (format stream "Condition ~S was signalled." (type-of cond))))
+ (format stream "Condition ~S was signalled." (type-of cond))))
(eval-when (:compile-toplevel :load-toplevel :execute)
(defun find-condition-layout (name parent-types)
(let* ((cpl (remove-duplicates
- (reverse
- (reduce #'append
- (mapcar (lambda (x)
- (condition-classoid-cpl
- (find-classoid x)))
- 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
- (order-layout-inherits (concatenate 'simple-vector
- (layout-inherits cond-layout)
- (mapcar #'classoid-layout cpl)))))
+ (reverse
+ (reduce #'append
+ (mapcar (lambda (x)
+ (condition-classoid-cpl
+ (find-classoid x)))
+ 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
+ (order-layout-inherits (concatenate 'simple-vector
+ (layout-inherits cond-layout)
+ (mapcar #'classoid-layout cpl)))))
(if (and olayout
- (not (mismatch (layout-inherits olayout) new-inherits)))
- olayout
- (make-layout :classoid (make-undefined-classoid name)
- :inherits new-inherits
- :depthoid -1
- :length (layout-length cond-layout)))))
+ (not (mismatch (layout-inherits olayout) new-inherits)))
+ olayout
+ (make-layout :classoid (make-undefined-classoid name)
+ :inherits new-inherits
+ :depthoid -1
+ :length (layout-length cond-layout)))))
) ; EVAL-WHEN
;;; The current code doesn't seem to quite match that.
(def!method print-object ((x condition) stream)
(if *print-escape*
- (print-unreadable-object (x stream :type t :identity t))
+ (if (and (typep x 'simple-condition) (slot-value x 'format-control))
+ (print-unreadable-object (x stream :type t :identity t)
+ (write (simple-condition-format-control x)
+ :stream stream
+ :lines 1))
+ (print-unreadable-object (x stream :type t :identity t)))
;; KLUDGE: A comment from CMU CL here said
;; 7/13/98 BUG? CPL is not sorted and results here depend on order of
;; superclasses in define-condition call!
(dolist (class (condition-classoid-cpl (classoid-of x))
- (error "no REPORT? shouldn't happen!"))
- (let ((report (condition-classoid-report class)))
- (when report
- (return (funcall report x stream)))))))
+ (error "no REPORT? shouldn't happen!"))
+ (let ((report (condition-classoid-report class)))
+ (when report
+ (return (funcall report x stream)))))))
\f
;;;; slots of CONDITION objects
(defun find-slot-default (class slot)
(let ((initargs (condition-slot-initargs slot))
- (cpl (condition-classoid-cpl class)))
+ (cpl (condition-classoid-cpl class)))
(dolist (class cpl)
(let ((default-initargs (condition-classoid-default-initargs class)))
- (dolist (initarg initargs)
- (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)
- val)))))))
+ (dolist (initarg initargs)
+ (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)
+ val)))))))
(if (condition-slot-initform-p slot)
- (let ((initform (condition-slot-initform slot)))
- (if (functionp initform)
- (funcall initform)
- initform))
- (error "unbound condition slot: ~S" (condition-slot-name slot)))))
+ (let ((initform (condition-slot-initform slot)))
+ (if (functionp initform)
+ (funcall initform)
+ initform))
+ (error "unbound condition slot: ~S" (condition-slot-name slot)))))
(defun find-condition-class-slot (condition-class slot-name)
(dolist (sclass
- (condition-classoid-cpl condition-class)
- (error "There is no slot named ~S in ~S."
- slot-name condition-class))
+ (condition-classoid-cpl condition-class)
+ (error "There is no slot named ~S in ~S."
+ slot-name condition-class))
(dolist (slot (condition-classoid-slots sclass))
(when (eq (condition-slot-name slot) slot-name)
- (return-from find-condition-class-slot slot)))))
+ (return-from find-condition-class-slot slot)))))
(defun condition-writer-function (condition new-value name)
(dolist (cslot (condition-classoid-class-slots
- (layout-classoid (%instance-layout condition)))
- (setf (getf (condition-assigned-slots condition) name)
- new-value))
+ (layout-classoid (%instance-layout condition)))
+ (setf (getf (condition-assigned-slots condition) name)
+ new-value))
(when (eq (condition-slot-name cslot) name)
(return (setf (car (condition-slot-cell cslot)) new-value)))))
(let ((class (layout-classoid (%instance-layout condition))))
(dolist (cslot (condition-classoid-class-slots class))
(when (eq (condition-slot-name cslot) name)
- (return-from condition-reader-function
- (car (condition-slot-cell cslot)))))
+ (return-from condition-reader-function
+ (car (condition-slot-cell cslot)))))
(let ((val (getf (condition-assigned-slots condition) name
- *empty-condition-slot*)))
+ *empty-condition-slot*)))
(if (eq val *empty-condition-slot*)
- (let ((actual-initargs (condition-actual-initargs condition))
- (slot (find-condition-class-slot class name)))
+ (let ((actual-initargs (condition-actual-initargs condition))
+ (slot (find-condition-class-slot class name)))
(unless slot
- (error "missing slot ~S of ~S" name condition))
- (do ((initargs actual-initargs (cddr initargs)))
- ((endp initargs)
- (setf (getf (condition-assigned-slots condition) name)
- (find-slot-default class slot)))
- (when (member (car initargs) (condition-slot-initargs slot))
- (return-from condition-reader-function
- (setf (getf (condition-assigned-slots condition)
- name)
- (cadr initargs))))))
- val))))
+ (error "missing slot ~S of ~S" name condition))
+ (do ((initargs actual-initargs (cddr initargs)))
+ ((endp initargs)
+ (setf (getf (condition-assigned-slots condition) name)
+ (find-slot-default class slot)))
+ (when (member (car initargs) (condition-slot-initargs slot))
+ (return-from condition-reader-function
+ (setf (getf (condition-assigned-slots condition)
+ name)
+ (cadr initargs))))))
+ val))))
\f
;;;; MAKE-CONDITION
-(defun make-condition (thing &rest args)
+(defun make-condition (type &rest args)
#!+sb-doc
"Make an instance of a condition object using the specified initargs."
;; Note: ANSI specifies no exceptional situations in this function.
;; signalling simple-type-error would not be wrong.
- (let* ((thing (if (symbolp thing)
- (find-classoid thing)
- thing))
- (class (typecase thing
- (condition-classoid thing)
- (classoid
- (error 'simple-type-error
- :datum thing
- :expected-type 'condition-class
- :format-control "~S is not a condition class."
- :format-arguments (list thing)))
- (t
- (error 'simple-type-error
- :datum thing
- :expected-type 'condition-class
- :format-control "bad thing for class argument:~% ~S"
- :format-arguments (list thing)))))
- (res (make-condition-object args)))
+ (let* ((type (or (and (symbolp type) (find-classoid type nil))
+ type))
+ (class (typecase type
+ (condition-classoid type)
+ (class
+ ;; Punt to CLOS.
+ (return-from make-condition
+ (apply #'make-instance type args)))
+ (classoid
+ (error 'simple-type-error
+ :datum type
+ :expected-type 'condition-class
+ :format-control "~S is not a condition class."
+ :format-arguments (list type)))
+ (t
+ (error 'simple-type-error
+ :datum type
+ :expected-type 'condition-class
+ :format-control
+ "~s doesn't designate a condition class."
+ :format-arguments (list type)))))
+ (res (make-condition-object args)))
(setf (%instance-layout res) (classoid-layout class))
;; Set any class slots with initargs present in this call.
(dolist (cslot (condition-classoid-class-slots class))
(dolist (initarg (condition-slot-initargs cslot))
- (let ((val (getf args initarg *empty-condition-slot*)))
- (unless (eq val *empty-condition-slot*)
- (setf (car (condition-slot-cell cslot)) val)))))
+ (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-classoid-hairy-slots class))
(when (dolist (initarg (condition-slot-initargs hslot) t)
- (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))))
-
+ (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))))
res))
\f
;;;; DEFINE-CONDITION
(eval-when (:compile-toplevel :load-toplevel :execute)
(defun %compiler-define-condition (name direct-supers layout
- all-readers all-writers)
- (sb!xc:proclaim `(ftype (function (t) t) ,@all-readers))
- (sb!xc:proclaim `(ftype (function (t t) t) ,@all-writers))
- (multiple-value-bind (class old-layout)
- (insured-find-classoid name
- #'condition-classoid-p
- #'make-condition-classoid)
- (setf (layout-classoid layout) class)
- (setf (classoid-direct-superclasses class)
- (mapcar #'find-classoid direct-supers))
- (cond ((not old-layout)
- (register-layout layout))
- ((not *type-system-initialized*)
- (setf (layout-classoid old-layout) class)
- (setq layout old-layout)
- (unless (eq (classoid-layout class) layout)
- (register-layout layout)))
- ((redefine-layout-warning "current"
- old-layout
- "new"
- (layout-length layout)
- (layout-inherits layout)
- (layout-depthoid layout))
- (register-layout layout :invalidate t))
- ((not (classoid-layout class))
- (register-layout layout)))
-
- (setf (layout-info layout)
- (locally
- ;; KLUDGE: There's a FIND-CLASS DEFTRANSFORM for constant class
- ;; names which creates fast but non-cold-loadable, non-compact
- ;; code. In this context, we'd rather have compact, cold-loadable
- ;; code. -- WHN 19990928
- (declare (notinline find-classoid))
- (layout-info (classoid-layout (find-classoid 'condition)))))
-
- (setf (find-classoid name) class)
-
- ;; Initialize CPL slot.
- (setf (condition-classoid-cpl class)
- (remove-if-not #'condition-classoid-p
- (std-compute-class-precedence-list class))))
+ all-readers all-writers)
+ (with-single-package-locked-error
+ (:symbol name "defining ~A as a condition")
+ (sb!xc:proclaim `(ftype (function (t) t) ,@all-readers))
+ (sb!xc:proclaim `(ftype (function (t t) t) ,@all-writers))
+ (multiple-value-bind (class old-layout)
+ (insured-find-classoid name
+ #'condition-classoid-p
+ #'make-condition-classoid)
+ (setf (layout-classoid layout) class)
+ (setf (classoid-direct-superclasses class)
+ (mapcar #'find-classoid direct-supers))
+ (cond ((not old-layout)
+ (register-layout layout))
+ ((not *type-system-initialized*)
+ (setf (layout-classoid old-layout) class)
+ (setq layout old-layout)
+ (unless (eq (classoid-layout class) layout)
+ (register-layout layout)))
+ ((redefine-layout-warning "current"
+ old-layout
+ "new"
+ (layout-length layout)
+ (layout-inherits layout)
+ (layout-depthoid layout)
+ (layout-n-untagged-slots layout))
+ (register-layout layout :invalidate t))
+ ((not (classoid-layout class))
+ (register-layout layout)))
+
+ (setf (layout-info layout)
+ (locally
+ ;; KLUDGE: There's a FIND-CLASS DEFTRANSFORM for constant class
+ ;; names which creates fast but non-cold-loadable, non-compact
+ ;; code. In this context, we'd rather have compact, cold-loadable
+ ;; code. -- WHN 19990928
+ (declare (notinline find-classoid))
+ (layout-info (classoid-layout (find-classoid 'condition)))))
+
+ (setf (find-classoid name) class)
+
+ ;; Initialize CPL slot.
+ (setf (condition-classoid-cpl class)
+ (remove-if-not #'condition-classoid-p
+ (std-compute-class-precedence-list class)))))
(values))
) ; EVAL-WHEN
(collect ((res (copy-list (condition-classoid-slots class))))
(dolist (sclass (cdr (condition-classoid-cpl class)))
(dolist (sslot (condition-classoid-slots sclass))
- (let ((found (find (condition-slot-name sslot) (res)
+ (let ((found (find (condition-slot-name sslot) (res)
:key #'condition-slot-name)))
- (cond (found
- (setf (condition-slot-initargs found)
- (union (condition-slot-initargs found)
- (condition-slot-initargs sslot)))
- (unless (condition-slot-initform-p found)
- (setf (condition-slot-initform-p found)
- (condition-slot-initform-p sslot))
- (setf (condition-slot-initform found)
- (condition-slot-initform sslot)))
- (unless (condition-slot-allocation found)
- (setf (condition-slot-allocation found)
- (condition-slot-allocation sslot))))
- (t
- (res (copy-structure sslot)))))))
+ (cond (found
+ (setf (condition-slot-initargs found)
+ (union (condition-slot-initargs found)
+ (condition-slot-initargs sslot)))
+ (unless (condition-slot-initform-p found)
+ (setf (condition-slot-initform-p found)
+ (condition-slot-initform-p sslot))
+ (setf (condition-slot-initform found)
+ (condition-slot-initform sslot)))
+ (unless (condition-slot-allocation found)
+ (setf (condition-slot-allocation found)
+ (condition-slot-allocation sslot))))
+ (t
+ (res (copy-structure sslot)))))))
(res)))
;;; Early definitions of slot accessor creators.
(lambda (new-value condition)
(condition-writer-function condition new-value slot-name))))
+(defvar *define-condition-hooks* nil)
+
+(defun %set-condition-report (name report)
+ (setf (condition-classoid-report (find-classoid name))
+ report))
+
(defun %define-condition (name parent-types layout slots documentation
- report default-initargs all-readers all-writers)
- (%compiler-define-condition name parent-types layout all-readers all-writers)
- (let ((class (find-classoid name)))
- (setf (condition-classoid-slots class) slots)
- (setf (condition-classoid-report class) report)
- (setf (condition-classoid-default-initargs class) default-initargs)
- (setf (fdocumentation name 'type) documentation)
-
- (dolist (slot slots)
-
- ;; Set up reader and writer functions.
- (let ((slot-name (condition-slot-name slot)))
- (dolist (reader (condition-slot-readers slot))
- (install-condition-slot-reader reader name slot-name))
- (dolist (writer (condition-slot-writers slot))
- (install-condition-slot-writer writer name slot-name))))
-
- ;; 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
- (mapcar #'condition-classoid-default-initargs
- (condition-classoid-cpl class)))))
- (dolist (slot eslots)
- (ecase (condition-slot-allocation slot)
- (:class
- (unless (condition-slot-cell slot)
- (setf (condition-slot-cell slot)
- (list (if (condition-slot-initform-p slot)
- (let ((initform (condition-slot-initform slot)))
- (if (functionp initform)
- (funcall initform)
- initform))
- *empty-condition-slot*))))
- (push slot (condition-classoid-class-slots class)))
- ((:instance nil)
- (setf (condition-slot-allocation slot) :instance)
- (when (or (functionp (condition-slot-initform slot))
- (dolist (initarg (condition-slot-initargs slot) nil)
- (when (functionp (getf e-def-initargs initarg))
- (return t))))
- (push slot (condition-classoid-hairy-slots class))))))))
- name)
+ default-initargs all-readers all-writers
+ source-location)
+ (with-single-package-locked-error
+ (:symbol name "defining ~A as a condition")
+ (%compiler-define-condition name parent-types layout all-readers all-writers)
+ (sb!c:with-source-location (source-location)
+ (setf (layout-source-location layout)
+ source-location))
+ (let ((class (find-classoid name)))
+ (setf (condition-classoid-slots class) slots)
+ (setf (condition-classoid-default-initargs class) default-initargs)
+ (setf (fdocumentation name 'type) documentation)
+
+ (dolist (slot slots)
+
+ ;; Set up reader and writer functions.
+ (let ((slot-name (condition-slot-name slot)))
+ (dolist (reader (condition-slot-readers slot))
+ (install-condition-slot-reader reader name slot-name))
+ (dolist (writer (condition-slot-writers slot))
+ (install-condition-slot-writer writer name slot-name))))
+
+ ;; 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
+ (mapcar #'condition-classoid-default-initargs
+ (condition-classoid-cpl class)))))
+ (dolist (slot eslots)
+ (ecase (condition-slot-allocation slot)
+ (:class
+ (unless (condition-slot-cell slot)
+ (setf (condition-slot-cell slot)
+ (list (if (condition-slot-initform-p slot)
+ (let ((initform (condition-slot-initform slot)))
+ (if (functionp initform)
+ (funcall initform)
+ initform))
+ *empty-condition-slot*))))
+ (push slot (condition-classoid-class-slots class)))
+ ((:instance nil)
+ (setf (condition-slot-allocation slot) :instance)
+ (when (or (functionp (condition-slot-initform slot))
+ (dolist (initarg (condition-slot-initargs slot) nil)
+ (when (functionp (getf e-def-initargs initarg))
+ (return t))))
+ (push slot (condition-classoid-hairy-slots class)))))))
+ (when (boundp '*define-condition-hooks*)
+ (dolist (fun *define-condition-hooks*)
+ (funcall fun class))))
+ name))
(defmacro define-condition (name (&rest parent-types) (&rest slot-specs)
- &body options)
+ &body options)
#!+sb-doc
"DEFINE-CONDITION Name (Parent-Type*) (Slot-Spec*) Option*
Define NAME as a condition type. This new type inherits slots and its
CLtL2) are neither STANDARD-OBJECTs nor STRUCTURE-OBJECTs. WITH-SLOTS and
SLOT-VALUE may not be used on condition objects."
(let* ((parent-types (or parent-types '(condition)))
- (layout (find-condition-layout name parent-types))
- (documentation nil)
- (report nil)
- (default-initargs ()))
+ (layout (find-condition-layout name parent-types))
+ (documentation nil)
+ (report nil)
+ (default-initargs ()))
(collect ((slots)
- (all-readers nil append)
- (all-writers nil append))
+ (all-readers nil append)
+ (all-writers nil append))
(dolist (spec slot-specs)
- (when (keywordp spec)
- (warn "Keyword slot name indicates probable syntax error:~% ~S"
- spec))
- (let* ((spec (if (consp spec) spec (list spec)))
- (slot-name (first spec))
- (allocation :instance)
- (initform-p nil)
- documentation
- initform)
- (collect ((initargs)
- (readers)
- (writers))
- (do ((options (rest spec) (cddr options)))
- ((null options))
- (unless (and (consp options) (consp (cdr options)))
- (error "malformed condition slot spec:~% ~S." spec))
- (let ((arg (second options)))
- (case (first options)
- (:reader (readers arg))
- (:writer (writers arg))
- (:accessor
- (readers arg)
- (writers `(setf ,arg)))
- (:initform
- (when initform-p
- (error "more than one :INITFORM in ~S" spec))
- (setq initform-p t)
- (setq initform arg))
- (:initarg (initargs arg))
- (:allocation
- (setq allocation arg))
- (:documentation
- (when documentation
- (error "more than one :DOCUMENTATION in ~S" spec))
- (unless (stringp arg)
- (error "slot :DOCUMENTATION argument is not a string: ~S"
- arg))
- (setq documentation arg))
- (:type)
- (t
- (error "unknown slot option:~% ~S" (first options))))))
-
- (all-readers (readers))
- (all-writers (writers))
- (slots `(make-condition-slot
- :name ',slot-name
- :initargs ',(initargs)
- :readers ',(readers)
- :writers ',(writers)
- :initform-p ',initform-p
- :documentation ',documentation
- :initform
- ,(if (constantp initform)
- `',(eval initform)
- `#'(lambda () ,initform)))))))
+ (when (keywordp spec)
+ (warn "Keyword slot name indicates probable syntax error:~% ~S"
+ spec))
+ (let* ((spec (if (consp spec) spec (list spec)))
+ (slot-name (first spec))
+ (allocation :instance)
+ (initform-p nil)
+ documentation
+ initform)
+ (collect ((initargs)
+ (readers)
+ (writers))
+ (do ((options (rest spec) (cddr options)))
+ ((null options))
+ (unless (and (consp options) (consp (cdr options)))
+ (error "malformed condition slot spec:~% ~S." spec))
+ (let ((arg (second options)))
+ (case (first options)
+ (:reader (readers arg))
+ (:writer (writers arg))
+ (:accessor
+ (readers arg)
+ (writers `(setf ,arg)))
+ (:initform
+ (when initform-p
+ (error "more than one :INITFORM in ~S" spec))
+ (setq initform-p t)
+ (setq initform arg))
+ (:initarg (initargs arg))
+ (:allocation
+ (setq allocation arg))
+ (:documentation
+ (when documentation
+ (error "more than one :DOCUMENTATION in ~S" spec))
+ (unless (stringp arg)
+ (error "slot :DOCUMENTATION argument is not a string: ~S"
+ arg))
+ (setq documentation arg))
+ (:type)
+ (t
+ (error "unknown slot option:~% ~S" (first options))))))
+
+ (all-readers (readers))
+ (all-writers (writers))
+ (slots `(make-condition-slot
+ :name ',slot-name
+ :initargs ',(initargs)
+ :readers ',(readers)
+ :writers ',(writers)
+ :initform-p ',initform-p
+ :documentation ',documentation
+ :initform
+ ,(if (sb!xc:constantp initform)
+ `',(constant-form-value initform)
+ `#'(lambda () ,initform)))))))
(dolist (option options)
- (unless (consp option)
- (error "bad option:~% ~S" option))
- (case (first option)
- (:documentation (setq documentation (second option)))
- (:report
- (let ((arg (second option)))
- (setq report
- (if (stringp arg)
- `#'(lambda (condition stream)
- (declare (ignore condition))
- (write-string ,arg stream))
- `#'(lambda (condition stream)
- (funcall #',arg condition stream))))))
- (:default-initargs
- (do ((initargs (rest option) (cddr initargs)))
- ((endp initargs))
- (let ((val (second initargs)))
- (setq default-initargs
- (list* `',(first initargs)
- (if (constantp val)
- `',(eval val)
- `#'(lambda () ,val))
- default-initargs)))))
- (t
- (error "unknown option: ~S" (first option)))))
+ (unless (consp option)
+ (error "bad option:~% ~S" option))
+ (case (first option)
+ (:documentation (setq documentation (second option)))
+ (:report
+ (let ((arg (second option)))
+ (setq report
+ (if (stringp arg)
+ `#'(lambda (condition stream)
+ (declare (ignore condition))
+ (write-string ,arg stream))
+ `#'(lambda (condition stream)
+ (funcall #',arg condition stream))))))
+ (:default-initargs
+ (do ((initargs (rest option) (cddr initargs)))
+ ((endp initargs))
+ (let ((val (second initargs)))
+ (setq default-initargs
+ (list* `',(first initargs)
+ (if (sb!xc:constantp val)
+ `',(constant-form-value val)
+ `#'(lambda () ,val))
+ default-initargs)))))
+ (t
+ (error "unknown option: ~S" (first option)))))
`(progn
- (eval-when (:compile-toplevel)
- (%compiler-define-condition ',name ',parent-types ',layout
- ',(all-readers) ',(all-writers)))
- (eval-when (:load-toplevel :execute)
- (%define-condition ',name
- ',parent-types
- ',layout
- (list ,@(slots))
- ,documentation
- ,report
- (list ,@default-initargs)
- ',(all-readers)
- ',(all-writers)))))))
-\f
-;;;; DESCRIBE on CONDITIONs
-
-;;; a function to be used as the guts of DESCRIBE-OBJECT (CONDITION T)
-;;; eventually (once we get CLOS up and running so that we can define
-;;; methods)
-(defun describe-condition (condition stream)
- (format stream
- "~&~@<~S ~_is a ~S. ~_Its slot values are ~_~S.~:>~%"
- condition
- (type-of condition)
- (concatenate 'list
- (condition-actual-initargs condition)
- (condition-assigned-slots condition))))
+ (eval-when (:compile-toplevel)
+ (%compiler-define-condition ',name ',parent-types ',layout
+ ',(all-readers) ',(all-writers)))
+ (eval-when (:load-toplevel :execute)
+ (%define-condition ',name
+ ',parent-types
+ ',layout
+ (list ,@(slots))
+ ,documentation
+ (list ,@default-initargs)
+ ',(all-readers)
+ ',(all-writers)
+ (sb!c:source-location))
+ ;; This needs to be after %DEFINE-CONDITION in case :REPORT
+ ;; is a lambda referring to condition slot accessors:
+ ;; they're not proclaimed as functions before it has run if
+ ;; we're under EVAL or loaded as source.
+ (%set-condition-report ',name ,report)
+ ',name)))))
\f
;;;; various CONDITIONs specified by ANSI
(define-condition style-warning (warning) ())
(defun simple-condition-printer (condition stream)
- (apply #'format
- stream
- (simple-condition-format-control condition)
- (simple-condition-format-arguments condition)))
+ (let ((control (simple-condition-format-control condition)))
+ (if control
+ (apply #'format stream
+ control
+ (simple-condition-format-arguments condition))
+ (error "No format-control for ~S" condition))))
(define-condition simple-condition ()
((format-control :reader simple-condition-format-control
- :initarg :format-control
+ :initarg :format-control
+ :initform nil
:type format-control)
(format-arguments :reader simple-condition-format-arguments
- :initarg :format-arguments
- :initform '()
+ :initarg :format-arguments
+ :initform nil
:type list))
(:report simple-condition-printer))
(:report
(lambda (condition stream)
(format stream
- "~@<The value ~2I~:_~S ~I~_is not of type ~2I~_~S.~:>"
- (type-error-datum condition)
- (type-error-expected-type condition)))))
+ "~@<The value ~2I~:_~S ~I~_is not of type ~2I~_~S.~:>"
+ (type-error-datum condition)
+ (type-error-expected-type condition)))))
+(def!method print-object ((condition type-error) stream)
+ (if *print-escape*
+ (flet ((maybe-string (thing)
+ (ignore-errors
+ (write-to-string thing :lines 1 :readably nil :array nil :pretty t))))
+ (let ((type (maybe-string (type-error-expected-type condition)))
+ (datum (maybe-string (type-error-datum condition))))
+ (if (and type datum)
+ (print-unreadable-object (condition stream :type t)
+ (format stream "~@<expected-type: ~A ~_datum: ~A~:@>" type datum))
+ (call-next-method))))
+ (call-next-method)))
+
+;;; not specified by ANSI, but too useful not to have around.
+(define-condition simple-style-warning (simple-condition style-warning) ())
(define-condition simple-type-error (simple-condition type-error) ())
+;; Can't have a function called SIMPLE-TYPE-ERROR or TYPE-ERROR...
+(declaim (ftype (sfunction (t t t &rest t) nil) bad-type))
+(defun bad-type (datum type control &rest arguments)
+ (error 'simple-type-error
+ :datum datum
+ :expected-type type
+ :format-control control
+ :format-arguments arguments))
+
(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"
- (stream-error-stream condition)))))
+ "end of file on ~S"
+ (stream-error-stream condition)))))
+
+(define-condition closed-stream-error (stream-error) ()
+ (:report
+ (lambda (condition stream)
+ (format stream "~S is closed" (stream-error-stream condition)))))
(define-condition file-error (error)
((pathname :reader file-error-pathname :initarg :pathname))
(define-condition cell-error (error)
((name :reader cell-error-name :initarg :name)))
+(def!method print-object ((condition cell-error) stream)
+ (if (and *print-escape* (slot-boundp condition 'name))
+ (print-unreadable-object (condition stream :type t :identity t)
+ (princ (cell-error-name condition) stream))
+ (call-next-method)))
+
(define-condition unbound-variable (cell-error) ()
(:report
(lambda (condition stream)
(format stream
- "The variable ~S is unbound."
- (cell-error-name condition)))))
+ "The variable ~S is unbound."
+ (cell-error-name condition)))))
(define-condition undefined-function (cell-error) ()
(:report
(lambda (condition stream)
(format stream
- "The function ~S is undefined."
- (cell-error-name condition)))))
+ "The function ~/sb-impl::print-symbol-with-prefix/ is undefined."
+ (cell-error-name condition)))))
(define-condition special-form-function (undefined-function) ()
(:report
(lambda (condition stream)
(format stream
- "Cannot FUNCALL the SYMBOL-FUNCTION of special operator ~S."
- (cell-error-name condition)))))
+ "Cannot FUNCALL the SYMBOL-FUNCTION of special operator ~S."
+ (cell-error-name condition)))))
(define-condition arithmetic-error (error)
((operation :reader arithmetic-error-operation
- :initarg :operation
- :initform nil)
+ :initarg :operation
+ :initform nil)
(operands :reader arithmetic-error-operands
- :initarg :operands))
+ :initarg :operands))
(:report (lambda (condition stream)
- (format stream
- "arithmetic error ~S signalled"
- (type-of condition))
- (when (arithmetic-error-operation condition)
- (format stream
- "~%Operation was ~S, operands ~S."
- (arithmetic-error-operation condition)
- (arithmetic-error-operands condition))))))
+ (format stream
+ "arithmetic error ~S signalled"
+ (type-of condition))
+ (when (arithmetic-error-operation condition)
+ (format stream
+ "~%Operation was ~S, operands ~S."
+ (arithmetic-error-operation condition)
+ (arithmetic-error-operands condition))))))
(define-condition division-by-zero (arithmetic-error) ())
(define-condition floating-point-overflow (arithmetic-error) ())
(:report
(lambda (condition stream)
(let ((obj (print-not-readable-object condition))
- (*print-array* nil))
+ (*print-array* nil))
(format stream "~S cannot be printed readably." obj)))))
-(define-condition reader-error (parse-error stream-error)
- ((format-control
- :reader reader-error-format-control
- :initarg :format-control)
- (format-arguments
- :reader reader-error-format-arguments
- :initarg :format-arguments
- :initform '()))
- (:report
- (lambda (condition stream)
- (let* ((error-stream (stream-error-stream condition))
- (pos (file-position error-stream)))
- (let (lineno colno)
- (when (and pos
- (< pos sb!xc:array-dimension-limit)
- ;; KLUDGE: lseek() (which is what FILE-POSITION
- ;; reduces to on file-streams) is undefined on
- ;; "some devices", which in practice means that it
- ;; can claim to succeed on /dev/stdin on Darwin
- ;; and Solaris. This is obviously bad news,
- ;; because the READ-SEQUENCE below will then
- ;; block, not complete, and the report will never
- ;; be printed. As a workaround, we exclude
- ;; interactive streams from this attempt to report
- ;; positions. -- CSR, 2003-08-21
- (not (interactive-stream-p error-stream))
- (file-position error-stream :start))
- (let ((string
- (make-string pos
- :element-type (stream-element-type error-stream))))
- (when (= pos (read-sequence string error-stream))
- (setq lineno (1+ (count #\Newline string))
- colno (- pos
- (or (position #\Newline string :from-end t) -1)
- 1))))
- (file-position error-stream pos))
- (format stream
- "READER-ERROR ~@[at ~W ~]~
- ~@[(line ~W~]~@[, column ~W) ~]~
- on ~S:~%~?"
- pos lineno colno error-stream
- (reader-error-format-control condition)
- (reader-error-format-arguments condition)))))))
-\f
-;;;; various other (not specified by ANSI) CONDITIONs
-;;;;
-;;;; These might logically belong in other files; they're here, after
-;;;; setup of CONDITION machinery, only because that makes it easier to
-;;;; get cold init to work.
-
-(define-condition simple-style-warning (simple-condition style-warning) ())
-
-(define-condition values-type-error (type-error)
- ()
- (:report
- (lambda (condition stream)
- (format stream
- "~@<The values set ~2I~:_[~{~S~^ ~}] ~I~_is not of type ~2I~_~S.~:>"
- (type-error-datum condition)
- (type-error-expected-type condition)))))
-
-;;; KLUDGE: a condition for floating point errors when we can't or
-;;; won't figure out what type they are. (In FreeBSD and OpenBSD we
-;;; don't know how, at least as of sbcl-0.6.7; in Linux we probably
-;;; know how but the old code was broken by the conversion to POSIX
-;;; signal handling and hasn't been fixed as of sbcl-0.6.7.)
-;;;
-;;; FIXME: Perhaps this should also be a base class for all
-;;; floating point exceptions?
-(define-condition floating-point-exception (arithmetic-error)
- ((flags :initarg :traps
- :initform nil
- :reader floating-point-exception-traps))
+(define-condition reader-error (parse-error stream-error) ()
(:report (lambda (condition stream)
- (format stream
- "An arithmetic error ~S was signalled.~%"
- (type-of condition))
- (let ((traps (floating-point-exception-traps condition)))
- (if traps
- (format stream
- "Trapping conditions are: ~%~{ ~S~^~}~%"
- traps)
- (write-line
- "No traps are enabled? How can this be?"
- stream))))))
-
-(define-condition index-too-large-error (type-error)
- ()
- (:report
- (lambda (condition stream)
- (format stream
- "The index ~S is too large."
- (type-error-datum condition)))))
+ (%report-reader-error condition stream))))
-(define-condition bounding-indices-bad-error (type-error)
- ((object :reader bounding-indices-bad-object :initarg :object))
- (:report
- (lambda (condition stream)
- (let* ((datum (type-error-datum condition))
- (start (car datum))
- (end (cdr datum))
- (object (bounding-indices-bad-object condition)))
- (etypecase object
- (sequence
- (format stream
- "The bounding indices ~S and ~S are bad for a sequence of length ~S."
- start end (length object)))
- (array
- ;; from WITH-ARRAY-DATA
- (format stream
- "The START and END parameters ~S and ~S are bad for an array of total size ~S."
- start end (array-total-size object))))))))
-
-(define-condition nil-array-accessed-error (type-error)
+;;; a READER-ERROR whose REPORTing is controlled by FORMAT-CONTROL and
+;;; FORMAT-ARGS (the usual case for READER-ERRORs signalled from
+;;; within SBCL itself)
+;;;
+;;; (Inheriting CL:SIMPLE-CONDITION here isn't quite consistent with
+;;; the letter of the ANSI spec: this is not a condition signalled by
+;;; SIGNAL when a format-control is supplied by the function's first
+;;; argument. It seems to me (WHN) to be basically in the spirit of
+;;; the spec, but if not, it'd be straightforward to do our own
+;;; DEFINE-CONDITION SB-INT:SIMPLISTIC-CONDITION with
+;;; FORMAT-CONTROL and FORMAT-ARGS slots, and use that condition in
+;;; place of CL:SIMPLE-CONDITION here.)
+(define-condition simple-reader-error (reader-error simple-condition)
()
(:report (lambda (condition stream)
- (declare (ignore condition))
- (format stream
- "An attempt to access an array of element-type ~
- NIL was made. Congratulations!"))))
-
-(define-condition io-timeout (stream-error)
- ((direction :reader io-timeout-direction :initarg :direction))
- (:report
- (lambda (condition stream)
- (declare (type stream stream))
- (format stream
- "I/O timeout ~(~A~)ing ~S"
- (io-timeout-direction condition)
- (stream-error-stream condition)))))
+ (%report-reader-error condition stream :simple t))))
-(define-condition namestring-parse-error (parse-error)
- ((complaint :reader namestring-parse-error-complaint :initarg :complaint)
- (args :reader namestring-parse-error-args :initarg :args :initform nil)
- (namestring :reader namestring-parse-error-namestring :initarg :namestring)
- (offset :reader namestring-parse-error-offset :initarg :offset))
- (:report
- (lambda (condition stream)
- (format stream
- "parse error in namestring: ~?~% ~A~% ~V@T^"
- (namestring-parse-error-complaint condition)
- (namestring-parse-error-args condition)
- (namestring-parse-error-namestring condition)
- (namestring-parse-error-offset condition)))))
-
-(define-condition simple-package-error (simple-condition package-error) ())
-
-(define-condition reader-package-error (reader-error) ())
-
-(define-condition reader-eof-error (end-of-file)
- ((context :reader reader-eof-error-context :initarg :context))
- (:report
- (lambda (condition stream)
- (format stream
- "unexpected end of file on ~S ~A"
- (stream-error-stream condition)
- (reader-eof-error-context condition)))))
-
-(define-condition reader-impossible-number-error (reader-error)
- ((error :reader reader-impossible-number-error-error :initarg :error))
- (:report
- (lambda (condition stream)
- (let ((error-stream (stream-error-stream condition)))
- (format stream "READER-ERROR ~@[at ~W ~]on ~S:~%~?~%Original error: ~A"
- (file-position error-stream) error-stream
- (reader-error-format-control condition)
- (reader-error-format-arguments condition)
- (reader-impossible-number-error-error condition))))))
-
-(define-condition timeout (serious-condition) ())
+;;; base REPORTing of a READER-ERROR
+;;;
+;;; When SIMPLE, we expect and use SIMPLE-CONDITION-ish FORMAT-CONTROL
+;;; and FORMAT-ARGS slots.
+(defun %report-reader-error (condition stream &key simple position)
+ (let ((error-stream (stream-error-stream condition)))
+ (pprint-logical-block (stream nil)
+ (if simple
+ (apply #'format stream
+ (simple-condition-format-control condition)
+ (simple-condition-format-arguments condition))
+ (prin1 (class-name (class-of condition)) stream))
+ (format stream "~2I~@[~_~_~:{~:(~A~): ~S~:^, ~:_~}~]~_~_Stream: ~S"
+ (stream-error-position-info error-stream position)
+ error-stream))))
\f
;;;; special SBCL extension conditions
(:report
(lambda (condition stream)
(format stream
- "~@< ~? ~:@_~?~:>"
- (simple-condition-format-control condition)
- (simple-condition-format-arguments condition)
- "~@<This is probably a bug in SBCL itself. (Alternatively, ~
+ "~@< ~? ~:@_~?~:>"
+ (simple-condition-format-control condition)
+ (simple-condition-format-arguments condition)
+ "~@<This is probably a bug in SBCL itself. (Alternatively, ~
SBCL might have been corrupted by bad user code, e.g. by an ~
undefined Lisp operation like ~S, or by stray pointers from ~
alien code or from unsafe Lisp code; or there might be a bug ~
about it. Bug reports are welcome on the SBCL ~
mailing lists, which you can find at ~
<http://sbcl.sourceforge.net/>.~:@>"
- '((fmakunbound 'compile))))))
+ '((fmakunbound 'compile))))))
+
+(define-condition simple-storage-condition (storage-condition simple-condition)
+ ())
;;; a condition for use in stubs for operations which aren't supported
;;; on some platforms
;;; By signalling a standard condition in this case, we make it
;;; possible for test code to distinguish between (1) intentionally
;;; unimplemented and (2) unintentionally just screwed up somehow.
-;;; (Before this condition was defined, test code tried to deal with
+;;; (Before this condition was defined, test code tried to deal with
;;; this by checking for FBOUNDP, but that didn't work reliably. In
-;;; sbcl-0.7.0, a a package screwup left the definition of
+;;; sbcl-0.7.0, a package screwup left the definition of
;;; LOAD-FOREIGN in the wrong package, so it was unFBOUNDP even on
;;; architectures where it was supposed to be supported, and the
;;; regression tests cheerfully passed because they assumed that
;;; unFBOUNDPness meant they were running on an system which didn't
;;; support the extension.)
-(define-condition unsupported-operator (cell-error) ()
- (:report
- (lambda (condition stream)
- (format stream
- "unsupported on this platform (OS, CPU, whatever): ~S"
- (cell-error-name condition)))))
+(define-condition unsupported-operator (simple-error) ())
\f
;;; (:ansi-cl :function remove)
;;; (:ansi-cl :section (a b c))
;;; (:ansi-cl :glossary "similar")
;;;
;;; (:sbcl :node "...")
+;;; (:sbcl :variable *ed-functions*)
;;;
;;; FIXME: this is not the right place for this.
(defun print-reference (reference stream)
(ecase (car reference)
+ (:amop
+ (format stream "AMOP")
+ (format stream ", ")
+ (destructuring-bind (type data) (cdr reference)
+ (ecase type
+ (:readers "Readers for ~:(~A~) Metaobjects"
+ (substitute #\ #\- (symbol-name data)))
+ (:initialization
+ (format stream "Initialization of ~:(~A~) Metaobjects"
+ (substitute #\ #\- (symbol-name data))))
+ (:generic-function (format stream "Generic Function ~S" data))
+ (:function (format stream "Function ~S" data))
+ (:section (format stream "Section ~{~D~^.~}" data)))))
(:ansi-cl
(format stream "The ANSI Standard")
(format stream ", ")
(destructuring-bind (type data) (cdr reference)
(ecase type
- (:function (format stream "Function ~S" data))
- (:special-operator (format stream "Special Operator ~S" data))
- (:macro (format stream "Macro ~S" data))
- (:section (format stream "Section ~{~D~^.~}" data))
- (:glossary (format stream "Glossary Entry ~S" data)))))
+ (:function (format stream "Function ~S" data))
+ (:special-operator (format stream "Special Operator ~S" data))
+ (:macro (format stream "Macro ~S" data))
+ (:section (format stream "Section ~{~D~^.~}" data))
+ (:glossary (format stream "Glossary entry for ~S" data))
+ (:issue (format stream "writeup for Issue ~A" data)))))
(:sbcl
(format stream "The SBCL Manual")
(format stream ", ")
(destructuring-bind (type data) (cdr reference)
(ecase type
- (:node (format stream "Node ~S" data)))))
- ;; FIXME: other documents (e.g. AMOP, Franz documentation :-)
+ (:node (format stream "Node ~S" data))
+ (:variable (format stream "Variable ~S" data))
+ (:function (format stream "Function ~S" data)))))
+ ;; FIXME: other documents (e.g. CLIM, Franz documentation :-)
))
(define-condition reference-condition ()
((references :initarg :references :reader reference-condition-references)))
(def!method print-object :around ((o reference-condition) s)
(call-next-method)
(unless (or *print-escape* *print-readably*)
- (when *print-condition-references*
+ (when (and *print-condition-references*
+ (reference-condition-references o))
(format s "~&See also:~%")
(pprint-logical-block (s nil :per-line-prefix " ")
- (do* ((rs (reference-condition-references o) (cdr rs))
- (r (car rs) (car rs)))
- ((null rs))
- (print-reference r s)
- (unless (null (cdr rs))
- (terpri s)))))))
-
+ (do* ((rs (reference-condition-references o) (cdr rs))
+ (r (car rs) (car rs)))
+ ((null rs))
+ (print-reference r s)
+ (unless (null (cdr rs))
+ (terpri s)))))))
+
+(define-condition simple-reference-error (reference-condition simple-error)
+ ())
+
+(define-condition simple-reference-warning (reference-condition simple-warning)
+ ())
+
+(define-condition arguments-out-of-domain-error
+ (arithmetic-error reference-condition)
+ ())
+
(define-condition duplicate-definition (reference-condition warning)
((name :initarg :name :reader duplicate-definition-name))
(:report (lambda (c s)
- (format s "~@<Duplicate definition for ~S found in ~
+ (format s "~@<Duplicate definition for ~S found in ~
one file.~@:>"
- (duplicate-definition-name c))))
+ (duplicate-definition-name c))))
(:default-initargs :references (list '(:ansi-cl :section (3 2 2 3)))))
-(define-condition package-at-variance (reference-condition simple-warning)
+(define-condition constant-modified (reference-condition warning)
+ ((fun-name :initarg :fun-name :reader constant-modified-fun-name))
+ (:report (lambda (c s)
+ (format s "~@<Destructive function ~S called on ~
+ constant data.~@:>"
+ (constant-modified-fun-name c))))
+ (:default-initargs :references (list '(:ansi-cl :special-operator quote)
+ '(:ansi-cl :section (3 2 2 3)))))
+
+(define-condition package-at-variance (reference-condition simple-warning)
()
(:default-initargs :references (list '(:ansi-cl :macro defpackage))))
(:report
(lambda (condition stream)
(format stream
- "~@<The constant ~S is being redefined (from ~S to ~S)~@:>"
- (defconstant-uneql-name condition)
- (defconstant-uneql-old-value condition)
- (defconstant-uneql-new-value condition))))
+ "~@<The constant ~S is being redefined (from ~S to ~S)~@:>"
+ (defconstant-uneql-name condition)
+ (defconstant-uneql-old-value condition)
+ (defconstant-uneql-new-value condition))))
(:default-initargs :references (list '(:ansi-cl :macro defconstant)
- '(:sbcl :node "Idiosyncrasies"))))
+ '(:sbcl :node "Idiosyncrasies"))))
-(define-condition array-initial-element-mismatch
+(define-condition array-initial-element-mismatch
(reference-condition simple-warning)
()
- (:default-initargs
- :references (list '(:ansi-cl :function make-array)
- '(:ansi-cl :function upgraded-array-element-type))))
-
-(define-condition displaced-to-array-too-small-error
- (reference-condition simple-error)
- ()
(:default-initargs
- :references (list '(:ansi-cl :function adjust-array))))
+ :references (list
+ '(:ansi-cl :function make-array)
+ '(:ansi-cl :function sb!xc:upgraded-array-element-type))))
(define-condition type-warning (reference-condition simple-warning)
()
(:default-initargs :references (list '(:sbcl :node "Handling of Types"))))
+(define-condition type-style-warning (reference-condition simple-style-warning)
+ ()
+ (:default-initargs :references (list '(:sbcl :node "Handling of Types"))))
(define-condition local-argument-mismatch (reference-condition simple-warning)
()
()
(:default-initargs :references (list '(:ansi-cl :section (22 3 10 2)))))
-(define-condition format-too-few-args-warning
+(define-condition format-too-few-args-warning
(format-args-mismatch simple-warning)
())
(define-condition format-too-many-args-warning
(format-args-mismatch simple-style-warning)
())
+
+(define-condition implicit-generic-function-warning (style-warning)
+ ((name :initarg :name :reader implicit-generic-function-name))
+ (:report
+ (lambda (condition stream)
+ (let ((*package* (find-package :keyword)))
+ (format stream "~@<Implicitly creating new generic function ~S.~:@>"
+ (implicit-generic-function-name condition))))))
+
+(define-condition extension-failure (reference-condition simple-error)
+ ())
+
+(define-condition structure-initarg-not-keyword
+ (reference-condition simple-style-warning)
+ ()
+ (:default-initargs :references (list '(:ansi-cl :section (2 4 8 13)))))
+
+#!+sb-package-locks
+(progn
+
+(define-condition package-lock-violation (package-error
+ reference-condition
+ simple-condition)
+ ((current-package :initform *package*
+ :reader package-lock-violation-in-package))
+ (:report
+ (lambda (condition stream)
+ (let ((control (simple-condition-format-control condition))
+ (error-package (package-name (package-error-package condition)))
+ (current-package (package-name (package-lock-violation-in-package condition))))
+ (if control
+ (apply #'format stream
+ (format nil "~~@<Lock on package ~A violated when ~A while in package ~A.~~:@>"
+ error-package
+ control
+ current-package)
+ (simple-condition-format-arguments condition))
+ (format stream "~@<Lock on package ~A violated while in package ~A.~:@>"
+ error-package
+ current-package)))))
+ ;; no :default-initargs -- reference-stuff provided by the
+ ;; signalling form in target-package.lisp
+ #!+sb-doc
+ (:documentation
+ "Subtype of CL:PACKAGE-ERROR. A subtype of this error is signalled
+when a package-lock is violated."))
+
+(define-condition package-locked-error (package-lock-violation) ()
+ #!+sb-doc
+ (:documentation
+ "Subtype of SB-EXT:PACKAGE-LOCK-VIOLATION. An error of this type is
+signalled when an operation on a package violates a package lock."))
+
+(define-condition symbol-package-locked-error (package-lock-violation)
+ ((symbol :initarg :symbol :reader package-locked-error-symbol))
+ #!+sb-doc
+ (:documentation
+ "Subtype of SB-EXT:PACKAGE-LOCK-VIOLATION. An error of this type is
+signalled when an operation on a symbol violates a package lock. The
+symbol that caused the violation is accessed by the function
+SB-EXT:PACKAGE-LOCKED-ERROR-SYMBOL."))
+
+) ; progn
+
+(define-condition undefined-alien-error (cell-error) ()
+ (:report
+ (lambda (condition stream)
+ (if (slot-boundp condition 'name)
+ (format stream "Undefined alien: ~S" (cell-error-name condition))
+ (format stream "Undefined alien symbol.")))))
+
+(define-condition undefined-alien-variable-error (undefined-alien-error) ()
+ (:report
+ (lambda (condition stream)
+ (declare (ignore condition))
+ (format stream "Attempt to access an undefined alien variable."))))
+
+(define-condition undefined-alien-function-error (undefined-alien-error) ()
+ (:report
+ (lambda (condition stream)
+ (declare (ignore condition))
+ (format stream "Attempt to call an undefined alien function."))))
+
+\f
+;;;; various other (not specified by ANSI) CONDITIONs
+;;;;
+;;;; These might logically belong in other files; they're here, after
+;;;; setup of CONDITION machinery, only because that makes it easier to
+;;;; get cold init to work.
+
+;;; OAOOM warning: see cross-condition.lisp
+(define-condition encapsulated-condition (condition)
+ ((condition :initarg :condition :reader encapsulated-condition)))
+
+;;; KLUDGE: a condition for floating point errors when we can't or
+;;; won't figure out what type they are. (In FreeBSD and OpenBSD we
+;;; don't know how, at least as of sbcl-0.6.7; in Linux we probably
+;;; know how but the old code was broken by the conversion to POSIX
+;;; signal handling and hasn't been fixed as of sbcl-0.6.7.)
+;;;
+;;; FIXME: Perhaps this should also be a base class for all
+;;; floating point exceptions?
+(define-condition floating-point-exception (arithmetic-error)
+ ((flags :initarg :traps
+ :initform nil
+ :reader floating-point-exception-traps))
+ (:report (lambda (condition stream)
+ (format stream
+ "An arithmetic error ~S was signalled.~%"
+ (type-of condition))
+ (let ((traps (floating-point-exception-traps condition)))
+ (if traps
+ (format stream
+ "Trapping conditions are: ~%~{ ~S~^~}~%"
+ traps)
+ (write-line
+ "No traps are enabled? How can this be?"
+ stream))))))
+
+(define-condition invalid-array-index-error (type-error)
+ ((array :initarg :array :reader invalid-array-index-error-array)
+ (axis :initarg :axis :reader invalid-array-index-error-axis))
+ (:report
+ (lambda (condition stream)
+ (let ((array (invalid-array-index-error-array condition)))
+ (format stream "Index ~W out of bounds for ~@[axis ~W of ~]~S, ~
+ should be nonnegative and <~W."
+ (type-error-datum condition)
+ (when (> (array-rank array) 1)
+ (invalid-array-index-error-axis condition))
+ (type-of array)
+ ;; Extract the bound from (INTEGER 0 (BOUND))
+ (caaddr (type-error-expected-type condition)))))))
+
+(define-condition invalid-array-error (reference-condition type-error) ()
+ (:report
+ (lambda (condition stream)
+ (let ((*print-array* nil))
+ (format stream
+ "~@<Displaced array originally of type ~S has been invalidated ~
+ due its displaced-to array ~S having become too small to hold ~
+ it: the displaced array's dimensions have all been set to zero ~
+ to trap accesses to it.~:@>"
+ (type-error-expected-type condition)
+ (array-displacement (type-error-datum condition))))))
+ (:default-initargs
+ :references
+ (list '(:ansi-cl :function adjust-array))))
+
+(define-condition index-too-large-error (type-error)
+ ()
+ (:report
+ (lambda (condition stream)
+ (format stream
+ "The index ~S is too large."
+ (type-error-datum condition)))))
+
+(define-condition bounding-indices-bad-error (reference-condition type-error)
+ ((object :reader bounding-indices-bad-object :initarg :object))
+ (:report
+ (lambda (condition stream)
+ (let* ((datum (type-error-datum condition))
+ (start (car datum))
+ (end (cdr datum))
+ (object (bounding-indices-bad-object condition)))
+ (etypecase object
+ (sequence
+ (format stream
+ "The bounding indices ~S and ~S are bad ~
+ for a sequence of length ~S."
+ start end (length object)))
+ (array
+ ;; from WITH-ARRAY-DATA
+ (format stream
+ "The START and END parameters ~S and ~S are ~
+ bad for an array of total size ~S."
+ start end (array-total-size object)))))))
+ (:default-initargs
+ :references
+ (list '(:ansi-cl :glossary "bounding index designator")
+ '(:ansi-cl :issue "SUBSEQ-OUT-OF-BOUNDS:IS-AN-ERROR"))))
+
+(define-condition nil-array-accessed-error (reference-condition type-error)
+ ()
+ (:report (lambda (condition stream)
+ (declare (ignore condition))
+ (format stream
+ "An attempt to access an array of element-type ~
+ NIL was made. Congratulations!")))
+ (:default-initargs
+ :references (list '(:ansi-cl :function sb!xc:upgraded-array-element-type)
+ '(:ansi-cl :section (15 1 2 1))
+ '(:ansi-cl :section (15 1 2 2)))))
+
+(define-condition namestring-parse-error (parse-error)
+ ((complaint :reader namestring-parse-error-complaint :initarg :complaint)
+ (args :reader namestring-parse-error-args :initarg :args :initform nil)
+ (namestring :reader namestring-parse-error-namestring :initarg :namestring)
+ (offset :reader namestring-parse-error-offset :initarg :offset))
+ (:report
+ (lambda (condition stream)
+ (format stream
+ "parse error in namestring: ~?~% ~A~% ~V@T^"
+ (namestring-parse-error-complaint condition)
+ (namestring-parse-error-args condition)
+ (namestring-parse-error-namestring condition)
+ (namestring-parse-error-offset condition)))))
+
+(define-condition simple-package-error (simple-condition package-error) ())
+
+(define-condition simple-reader-package-error (simple-reader-error package-error) ())
+
+(define-condition reader-eof-error (end-of-file)
+ ((context :reader reader-eof-error-context :initarg :context))
+ (:report
+ (lambda (condition stream)
+ (format stream
+ "unexpected end of file on ~S ~A"
+ (stream-error-stream condition)
+ (reader-eof-error-context condition)))))
+
+(define-condition reader-impossible-number-error (simple-reader-error)
+ ((error :reader reader-impossible-number-error-error :initarg :error))
+ (:report
+ (lambda (condition stream)
+ (let ((error-stream (stream-error-stream condition)))
+ (format stream
+ "READER-ERROR ~@[at ~W ~]on ~S:~%~?~%Original error: ~A"
+ (file-position-or-nil-for-error error-stream) error-stream
+ (simple-condition-format-control condition)
+ (simple-condition-format-arguments condition)
+ (reader-impossible-number-error-error condition))))))
+
+(define-condition standard-readtable-modified-error (reference-condition error)
+ ((operation :initarg :operation :reader standard-readtable-modified-operation))
+ (:report (lambda (condition stream)
+ (format stream "~S would modify the standard readtable."
+ (standard-readtable-modified-operation condition))))
+ (:default-initargs :references `((:ansi-cl :section (2 1 1 2))
+ (:ansi-cl :glossary "standard readtable"))))
+
+(define-condition standard-pprint-dispatch-table-modified-error
+ (reference-condition error)
+ ((operation :initarg :operation
+ :reader standard-pprint-dispatch-table-modified-operation))
+ (:report (lambda (condition stream)
+ (format stream "~S would modify the standard pprint dispatch table."
+ (standard-pprint-dispatch-table-modified-operation
+ condition))))
+ (:default-initargs
+ :references `((:ansi-cl :glossary "standard pprint dispatch table"))))
+
+(define-condition timeout (serious-condition)
+ ((seconds :initarg :seconds :initform nil :reader timeout-seconds))
+ (:report (lambda (condition stream)
+ (format stream "Timeout occurred~@[ after ~A seconds~]."
+ (timeout-seconds condition)))))
+
+(define-condition io-timeout (stream-error timeout)
+ ((direction :reader io-timeout-direction :initarg :direction))
+ (:report
+ (lambda (condition stream)
+ (declare (type stream stream))
+ (format stream
+ "I/O timeout while doing ~(~A~) on ~S."
+ (io-timeout-direction condition)
+ (stream-error-stream condition)))))
+
+(define-condition deadline-timeout (timeout) ()
+ (:report (lambda (condition stream)
+ (format stream "A deadline was reached after ~A seconds."
+ (timeout-seconds condition)))))
+
+(define-condition declaration-type-conflict-error (reference-condition
+ simple-error)
+ ()
+ (:default-initargs
+ :format-control "symbol ~S cannot be both the name of a type and the name of a declaration"
+ :references (list '(:ansi-cl :section (3 8 21)))))
+
+;;; Single stepping conditions
+
+(define-condition step-condition ()
+ ((form :initarg :form :reader step-condition-form))
+
+ #!+sb-doc
+ (:documentation "Common base class of single-stepping conditions.
+STEP-CONDITION-FORM holds a string representation of the form being
+stepped."))
+
+#!+sb-doc
+(setf (fdocumentation 'step-condition-form 'function)
+ "Form associated with the STEP-CONDITION.")
+
+(define-condition step-form-condition (step-condition)
+ ((args :initarg :args :reader step-condition-args))
+ (:report
+ (lambda (condition stream)
+ (let ((*print-circle* t)
+ (*print-pretty* t)
+ (*print-readably* nil))
+ (format stream
+ "Evaluating call:~%~< ~@;~A~:>~%~
+ ~:[With arguments:~%~{ ~S~%~}~;With unknown arguments~]~%"
+ (list (step-condition-form condition))
+ (eq (step-condition-args condition) :unknown)
+ (step-condition-args condition)))))
+ #!+sb-doc
+ (:documentation "Condition signalled by code compiled with
+single-stepping information when about to execute a form.
+STEP-CONDITION-FORM holds the form, STEP-CONDITION-PATHNAME holds the
+pathname of the original file or NIL, and STEP-CONDITION-SOURCE-PATH
+holds the source-path to the original form within that file or NIL.
+Associated with this condition are always the restarts STEP-INTO,
+STEP-NEXT, and STEP-CONTINUE."))
+
+(define-condition step-result-condition (step-condition)
+ ((result :initarg :result :reader step-condition-result)))
+
+#!+sb-doc
+(setf (fdocumentation 'step-condition-result 'function)
+ "Return values associated with STEP-VALUES-CONDITION as a list,
+or the variable value associated with STEP-VARIABLE-CONDITION.")
+
+(define-condition step-values-condition (step-result-condition)
+ ()
+ #!+sb-doc
+ (:documentation "Condition signalled by code compiled with
+single-stepping information after executing a form.
+STEP-CONDITION-FORM holds the form, and STEP-CONDITION-RESULT holds
+the values returned by the form as a list. No associated restarts."))
+
+(define-condition step-finished-condition (step-condition)
+ ()
+ (:report
+ (lambda (condition stream)
+ (declare (ignore condition))
+ (format stream "Returning from STEP")))
+ #!+sb-doc
+ (:documentation "Condition signaled when STEP returns."))
+\f
+;;; A knob for muffling warnings, mostly for use while loading files.
+(defvar *muffled-warnings* 'uninteresting-redefinition
+ "A type that ought to specify a subtype of WARNING. Whenever a
+warning is signaled, if the warning if of this type and is not
+handled by any other handler, it will be muffled.")
+\f
+;;; Various STYLE-WARNING signaled in the system.
+;; For the moment, we're only getting into the details for function
+;; redefinitions, but other redefinitions could be done later
+;; (e.g. methods).
+(define-condition redefinition-warning (style-warning)
+ ((name
+ :initarg :name
+ :reader redefinition-warning-name)
+ (new-location
+ :initarg :new-location
+ :reader redefinition-warning-new-location)))
+
+(define-condition function-redefinition-warning (redefinition-warning)
+ ((new-function
+ :initarg :new-function
+ :reader function-redefinition-warning-new-function)))
+
+(define-condition redefinition-with-defun (function-redefinition-warning)
+ ()
+ (:report (lambda (warning stream)
+ (format stream "redefining ~/sb-impl::print-symbol-with-prefix/ ~
+ in DEFUN"
+ (redefinition-warning-name warning)))))
+
+(define-condition redefinition-with-defmacro (function-redefinition-warning)
+ ()
+ (:report (lambda (warning stream)
+ (format stream "redefining ~/sb-impl::print-symbol-with-prefix/ ~
+ in DEFMACRO"
+ (redefinition-warning-name warning)))))
+
+(define-condition redefinition-with-defgeneric (redefinition-warning)
+ ()
+ (:report (lambda (warning stream)
+ (format stream "redefining ~/sb-impl::print-symbol-with-prefix/ ~
+ in DEFGENERIC"
+ (redefinition-warning-name warning)))))
+
+(define-condition redefinition-with-defmethod (redefinition-warning)
+ ((qualifiers :initarg :qualifiers
+ :reader redefinition-with-defmethod-qualifiers)
+ (specializers :initarg :specializers
+ :reader redefinition-with-defmethod-specializers)
+ (new-location :initarg :new-location
+ :reader redefinition-with-defmethod-new-location)
+ (old-method :initarg :old-method
+ :reader redefinition-with-defmethod-old-method))
+ (:report (lambda (warning stream)
+ (format stream "redefining ~S~{ ~S~} ~S in DEFMETHOD"
+ (redefinition-warning-name warning)
+ (redefinition-with-defmethod-qualifiers warning)
+ (redefinition-with-defmethod-specializers warning)))))
+
+;;;; Deciding which redefinitions are "interesting".
+
+(defun function-file-namestring (function)
+ #!+sb-eval
+ (when (typep function 'sb!eval:interpreted-function)
+ (return-from function-file-namestring
+ (sb!c:definition-source-location-namestring
+ (sb!eval:interpreted-function-source-location function))))
+ (let* ((fun (sb!kernel:%fun-fun function))
+ (code (sb!kernel:fun-code-header fun))
+ (debug-info (sb!kernel:%code-debug-info code))
+ (debug-source (when debug-info
+ (sb!c::debug-info-source debug-info)))
+ (namestring (when debug-source
+ (sb!c::debug-source-namestring debug-source))))
+ namestring))
+
+(defun interesting-function-redefinition-warning-p (warning old)
+ (let ((new (function-redefinition-warning-new-function warning))
+ (source-location (redefinition-warning-new-location warning)))
+ (or
+ ;; Compiled->Interpreted is interesting.
+ (and (typep old 'compiled-function)
+ (typep new '(not compiled-function)))
+ ;; FIN->Regular is interesting.
+ (and (typep old 'funcallable-instance)
+ (typep new '(not funcallable-instance)))
+ ;; Different file or unknown location is interesting.
+ (let* ((old-namestring (function-file-namestring old))
+ (new-namestring
+ (or (function-file-namestring new)
+ (when source-location
+ (sb!c::definition-source-location-namestring source-location)))))
+ (and (or (not old-namestring)
+ (not new-namestring)
+ (not (string= old-namestring new-namestring))))))))
+
+(defun uninteresting-ordinary-function-redefinition-p (warning)
+ (and
+ ;; There's garbage in various places when the first DEFUN runs in
+ ;; cold-init.
+ sb!kernel::*cold-init-complete-p*
+ (typep warning 'redefinition-with-defun)
+ ;; Shared logic.
+ (let ((name (redefinition-warning-name warning)))
+ (not (interesting-function-redefinition-warning-p
+ warning (or (fdefinition name) (macro-function name)))))))
+
+(defun uninteresting-macro-redefinition-p (warning)
+ (and
+ (typep warning 'redefinition-with-defmacro)
+ ;; Shared logic.
+ (let ((name (redefinition-warning-name warning)))
+ (not (interesting-function-redefinition-warning-p
+ warning (or (macro-function name) (fdefinition name)))))))
+
+(defun uninteresting-generic-function-redefinition-p (warning)
+ (and
+ (typep warning 'redefinition-with-defgeneric)
+ ;; Can't use the shared logic above, since GF's don't get a "new"
+ ;; definition -- rather the FIN-FUNCTION is set.
+ (let* ((name (redefinition-warning-name warning))
+ (old (fdefinition name))
+ (old-location (when (typep old 'generic-function)
+ (sb!pcl::definition-source old)))
+ (old-namestring (when old-location
+ (sb!c:definition-source-location-namestring old-location)))
+ (new-location (redefinition-warning-new-location warning))
+ (new-namestring (when new-location
+ (sb!c:definition-source-location-namestring new-location))))
+ (and old-namestring
+ new-namestring
+ (string= old-namestring new-namestring)))))
+
+(defun uninteresting-method-redefinition-p (warning)
+ (and
+ (typep warning 'redefinition-with-defmethod)
+ ;; Can't use the shared logic above, since GF's don't get a "new"
+ ;; definition -- rather the FIN-FUNCTION is set.
+ (let* ((old-method (redefinition-with-defmethod-old-method warning))
+ (old-location (sb!pcl::definition-source old-method))
+ (old-namestring (when old-location
+ (sb!c:definition-source-location-namestring old-location)))
+ (new-location (redefinition-warning-new-location warning))
+ (new-namestring (when new-location
+ (sb!c:definition-source-location-namestring new-location))))
+ (and new-namestring
+ old-namestring
+ (string= new-namestring old-namestring)))))
+
+(deftype uninteresting-redefinition ()
+ '(or (satisfies uninteresting-ordinary-function-redefinition-p)
+ (satisfies uninteresting-macro-redefinition-p)
+ (satisfies uninteresting-generic-function-redefinition-p)
+ (satisfies uninteresting-method-redefinition-p)))
+
+(define-condition redefinition-with-deftransform (redefinition-warning)
+ ((transform :initarg :transform
+ :reader redefinition-with-deftransform-transform))
+ (:report (lambda (warning stream)
+ (format stream "Overwriting ~S"
+ (redefinition-with-deftransform-transform warning)))))
+\f
+;;; Various other STYLE-WARNINGS
+(define-condition dubious-asterisks-around-variable-name
+ (style-warning simple-condition)
+ ()
+ (:report (lambda (warning stream)
+ (format stream "~@?, even though the name follows~@
+the usual naming convention (names like *FOO*) for special variables"
+ (simple-condition-format-control warning)
+ (simple-condition-format-arguments warning)))))
+
+(define-condition asterisks-around-lexical-variable-name
+ (dubious-asterisks-around-variable-name)
+ ())
+
+(define-condition asterisks-around-constant-variable-name
+ (dubious-asterisks-around-variable-name)
+ ())
+
+;; We call this UNDEFINED-ALIEN-STYLE-WARNING because there are some
+;; subclasses of ERROR above having to do with undefined aliens.
+(define-condition undefined-alien-style-warning (style-warning)
+ ((symbol :initarg :symbol :reader undefined-alien-symbol))
+ (:report (lambda (warning stream)
+ (format stream "Undefined alien: ~S"
+ (undefined-alien-symbol warning)))))
+
+#!+sb-eval
+(define-condition lexical-environment-too-complex (style-warning)
+ ((form :initarg :form :reader lexical-environment-too-complex-form)
+ (lexenv :initarg :lexenv :reader lexical-environment-too-complex-lexenv))
+ (:report (lambda (warning stream)
+ (format stream
+ "~@<Native lexical environment too complex for ~
+ SB-EVAL to evaluate ~S, falling back to ~
+ SIMPLE-EVAL-IN-LEXENV. Lexenv: ~S~:@>"
+ (lexical-environment-too-complex-form warning)
+ (lexical-environment-too-complex-lexenv warning)))))
+
+;; Although this has -ERROR- in the name, it's just a STYLE-WARNING.
+(define-condition character-decoding-error-in-comment (style-warning)
+ ((stream :initarg :stream :reader decoding-error-in-comment-stream)
+ (position :initarg :position :reader decoding-error-in-comment-position))
+ (:report (lambda (warning stream)
+ (format stream
+ "Character decoding error in a ~A-comment at ~
+ position ~A reading source stream ~A, ~
+ resyncing."
+ (decoding-error-in-comment-macro warning)
+ (decoding-error-in-comment-position warning)
+ (decoding-error-in-comment-stream warning)))))
+
+(define-condition character-decoding-error-in-macro-char-comment
+ (character-decoding-error-in-comment)
+ ((char :initform #\; :initarg :char
+ :reader character-decoding-error-in-macro-char-comment-char)))
+
+(define-condition character-decoding-error-in-dispatch-macro-char-comment
+ (character-decoding-error-in-comment)
+ ;; ANSI doesn't give a way for a reader function invoked by a
+ ;; dispatch macro character to determine which dispatch character
+ ;; was used, so if a user wants to signal one of these from a custom
+ ;; comment reader, he'll have to supply the :DISP-CHAR himself.
+ ((disp-char :initform #\# :initarg :disp-char
+ :reader character-decoding-error-in-macro-char-comment-disp-char)
+ (sub-char :initarg :sub-char
+ :reader character-decoding-error-in-macro-char-comment-sub-char)))
+
+(defun decoding-error-in-comment-macro (warning)
+ (etypecase warning
+ (character-decoding-error-in-macro-char-comment
+ (character-decoding-error-in-macro-char-comment-char warning))
+ (character-decoding-error-in-dispatch-macro-char-comment
+ (format
+ nil "~C~C"
+ (character-decoding-error-in-macro-char-comment-disp-char warning)
+ (character-decoding-error-in-macro-char-comment-sub-char warning)))))
+
+(define-condition deprecated-eval-when-situations (style-warning)
+ ((situations :initarg :situations
+ :reader deprecated-eval-when-situations-situations))
+ (:report (lambda (warning stream)
+ (format stream "using deprecated EVAL-WHEN situation names~{ ~S~}"
+ (deprecated-eval-when-situations-situations warning)))))
+
+(define-condition proclamation-mismatch (style-warning)
+ ((name :initarg :name :reader proclamation-mismatch-name)
+ (old :initarg :old :reader proclamation-mismatch-old)
+ (new :initarg :new :reader proclamation-mismatch-new)))
+
+(define-condition type-proclamation-mismatch (proclamation-mismatch)
+ ()
+ (:report (lambda (warning stream)
+ (format stream
+ "The new TYPE proclamation~% ~S for ~S does not ~
+ match the old TYPE proclamation ~S"
+ (proclamation-mismatch-new warning)
+ (proclamation-mismatch-name warning)
+ (proclamation-mismatch-old warning)))))
+
+(define-condition ftype-proclamation-mismatch (proclamation-mismatch)
+ ()
+ (:report (lambda (warning stream)
+ (format stream
+ "The new FTYPE proclamation~% ~S for ~S does not ~
+ match the old FTYPE proclamation ~S"
+ (proclamation-mismatch-new warning)
+ (proclamation-mismatch-name warning)
+ (proclamation-mismatch-old warning)))))
+\f
+;;;; deprecation conditions
+
+(define-condition deprecation-condition ()
+ ((name :initarg :name :reader deprecated-name)
+ (replacements :initarg :replacements :reader deprecated-name-replacements)
+ (since :initarg :since :reader deprecated-since)
+ (runtime-error :initarg :runtime-error :reader deprecated-name-runtime-error)))
+
+(def!method print-object ((condition deprecation-condition) stream)
+ (let ((*package* (find-package :keyword)))
+ (if *print-escape*
+ (print-unreadable-object (condition stream :type t)
+ (apply #'format
+ stream "~S is deprecated.~
+ ~#[~; Use ~S instead.~; ~
+ Use ~S or ~S instead.~:; ~
+ Use~@{~#[~; or~] ~S~^,~} instead.~]"
+ (deprecated-name condition)
+ (deprecated-name-replacements condition)))
+ (apply #'format
+ stream "~@<~S has been deprecated as of SBCL ~A.~
+ ~#[~; Use ~S instead.~; ~
+ Use ~S or ~S instead.~:; ~
+ Use~@{~#[~; or~] ~S~^,~:_~} instead.~]~:@>"
+ (deprecated-name condition)
+ (deprecated-since condition)
+ (deprecated-name-replacements condition)))))
+
+(define-condition early-deprecation-warning (style-warning deprecation-condition)
+ ())
+
+(def!method print-object :after ((warning early-deprecation-warning) stream)
+ (unless *print-escape*
+ (let ((*package* (find-package :keyword)))
+ (format stream "~%~@<~:@_In future SBCL versions ~S will signal a full warning ~
+ at compile-time.~:@>"
+ (deprecated-name warning)))))
+
+(define-condition late-deprecation-warning (warning deprecation-condition)
+ ())
+
+(def!method print-object :after ((warning late-deprecation-warning) stream)
+ (unless *print-escape*
+ (when (deprecated-name-runtime-error warning)
+ (let ((*package* (find-package :keyword)))
+ (format stream "~%~@<~:@_In future SBCL versions ~S will signal a runtime error.~:@>"
+ (deprecated-name warning))))))
+
+(define-condition final-deprecation-warning (warning deprecation-condition)
+ ())
+
+(def!method print-object :after ((warning final-deprecation-warning) stream)
+ (unless *print-escape*
+ (when (deprecated-name-runtime-error warning)
+ (let ((*package* (find-package :keyword)))
+ (format stream "~%~@<~:@_An error will be signaled at runtime for ~S.~:@>"
+ (deprecated-name warning))))))
+
+(define-condition deprecation-error (error deprecation-condition)
+ ())
\f
;;;; restart definitions
CONTROL-ERROR if none exists."
(invoke-restart (find-restart-or-control-error 'muffle-warning condition)))
+(defun try-restart (name condition &rest arguments)
+ (let ((restart (find-restart name condition)))
+ (when restart
+ (apply #'invoke-restart restart arguments))))
+
(macrolet ((define-nil-returning-restart (name args doc)
- #!-sb-doc (declare (ignore doc))
- `(defun ,name (,@args &optional condition)
- #!+sb-doc ,doc
- ;; FIXME: Perhaps this shared logic should be pulled out into
- ;; FLET MAYBE-INVOKE-RESTART? See whether it shrinks code..
- (let ((restart (find-restart ',name condition)))
- (when restart
- (invoke-restart restart ,@args))))))
+ #!-sb-doc (declare (ignore doc))
+ `(defun ,name (,@args &optional condition)
+ #!+sb-doc ,doc
+ (try-restart ',name condition ,@args))))
(define-nil-returning-restart continue ()
"Transfer control to a restart named CONTINUE, or return NIL if none exists.")
(define-nil-returning-restart store-value (value)
- "Transfer control and VALUE to a restart named STORE-VALUE, or return NIL if
- none exists.")
+ "Transfer control and VALUE to a restart named STORE-VALUE, or
+return NIL if none exists.")
(define-nil-returning-restart use-value (value)
- "Transfer control and VALUE to a restart named USE-VALUE, or return NIL if
- none exists."))
+ "Transfer control and VALUE to a restart named USE-VALUE, or
+return NIL if none exists.")
+ (define-nil-returning-restart print-unreadably ()
+ "Transfer control to a restart named SB-EXT:PRINT-UNREADABLY, or
+return NIL if none exists."))
+
+;;; single-stepping restarts
+
+(macrolet ((def (name doc)
+ #!-sb-doc (declare (ignore doc))
+ `(defun ,name (condition)
+ #!+sb-doc ,doc
+ (invoke-restart (find-restart-or-control-error ',name condition)))))
+ (def step-continue
+ "Transfers control to the STEP-CONTINUE restart associated with
+the condition, continuing execution without stepping. Signals a
+CONTROL-ERROR if the restart does not exist.")
+ (def step-next
+ "Transfers control to the STEP-NEXT restart associated with the
+condition, executing the current form without stepping and continuing
+stepping with the next form. Signals CONTROL-ERROR is the restart does
+not exists.")
+ (def step-into
+ "Transfers control to the STEP-INTO restart associated with the
+condition, stepping into the current form. Signals a CONTROL-ERROR is
+the restart does not exist."))
+
+;;; Compiler macro magic
+
+(define-condition compiler-macro-keyword-problem ()
+ ((argument :initarg :argument :reader compiler-macro-keyword-argument))
+ (:report (lambda (condition stream)
+ (format stream "~@<Argument ~S in keyword position is not ~
+ a self-evaluating symbol, preventing compiler-macro ~
+ expansion.~@:>"
+ (compiler-macro-keyword-argument condition)))))
(/show0 "condition.lisp end of file")
-