(in-package "SB-PCL")
\f
(defmethod slot-accessor-function ((slotd effective-slot-definition) type)
- (ecase type
- (reader (slot-definition-reader-function slotd))
- (writer (slot-definition-writer-function slotd))
- (boundp (slot-definition-boundp-function slotd))))
+ (let ((info (slot-definition-info slotd)))
+ (ecase type
+ (reader (slot-info-reader info))
+ (writer (slot-info-writer info))
+ (boundp (slot-info-boundp info)))))
(defmethod (setf slot-accessor-function) (function
(slotd effective-slot-definition)
type)
- (ecase type
- (reader (setf (slot-definition-reader-function slotd) function))
- (writer (setf (slot-definition-writer-function slotd) function))
- (boundp (setf (slot-definition-boundp-function slotd) function))))
+ (let ((info (slot-definition-info slotd)))
+ (ecase type
+ (reader (setf (slot-info-reader info) function))
+ (writer (setf (slot-info-writer info) function))
+ (boundp (setf (slot-info-boundp info) function)))))
(defconstant +slotd-reader-function-std-p+ 1)
(defconstant +slotd-writer-function-std-p+ 2)
(the fixnum (logand (the fixnum (lognot mask)) flags)))))
value)
-(defmethod initialize-internal-slot-functions ((slotd
- effective-slot-definition))
+(defmethod initialize-internal-slot-functions
+ ((slotd effective-slot-definition))
(let* ((name (slot-value slotd 'name))
(class (slot-value slotd '%class)))
(dolist (type '(reader writer boundp))
(writer '(setf slot-value-using-class))
(boundp 'slot-boundp-using-class)))
(gf (gdefinition gf-name)))
- (compute-slot-accessor-info slotd type gf)))))
+ ;; KLUDGE: this logic is cut'n'pasted from
+ ;; GET-ACCESSOR-METHOD-FUNCTION, which (for STD-CLASSes) is
+ ;; only called later, because it does things that can't be
+ ;; computed this early in class finalization; however, we need
+ ;; this bit as early as possible. -- CSR, 2009-11-05
+ (setf (slot-accessor-std-p slotd type)
+ (let* ((std-method (standard-svuc-method type))
+ (str-method (structure-svuc-method type))
+ (types1 `((eql ,class) (class-eq ,class) (eql ,slotd)))
+ (types (if (eq type 'writer) `(t ,@types1) types1))
+ (methods (compute-applicable-methods-using-types gf types)))
+ (null (cdr methods))))
+ (setf (slot-accessor-function slotd type)
+ (lambda (&rest args)
+ (declare (dynamic-extent args))
+ ;; FIXME: a tiny amount of wasted SLOT-ACCESSOR-STD-P
+ ;; work here (see KLUDGE comment above).
+ (let ((fun (compute-slot-accessor-info slotd type gf)))
+ (apply fun args))))))))
+
+(defmethod finalize-internal-slot-functions ((slotd effective-slot-definition))
+ (dolist (type '(reader writer boundp))
+ (let* ((gf-name (ecase type
+ (reader 'slot-value-using-class)
+ (writer '(setf slot-value-using-class))
+ (boundp 'slot-boundp-using-class)))
+ (gf (gdefinition gf-name)))
+ (compute-slot-accessor-info slotd type gf))))
;;; CMUCL (Gerd PCL 2003-04-25) comment:
;;;
(defmethod compute-slot-accessor-info ((slotd effective-slot-definition)
type gf)
(let* ((name (slot-value slotd 'name))
- (class (slot-value slotd '%class))
- (old-slotd (when (class-finalized-p class)
- (find-slot-definition class name)))
- (old-std-p (and old-slotd (slot-accessor-std-p old-slotd 'all))))
+ (class (slot-value slotd '%class)))
(multiple-value-bind (function std-p)
- (if (eq *boot-state* 'complete)
+ (if (eq **boot-state** 'complete)
(get-accessor-method-function gf type class slotd)
(get-optimized-std-accessor-method-function class slotd type))
(setf (slot-accessor-std-p slotd type) std-p)
;;; here, the values are read by an automatically generated reader method.
(defmethod add-direct-subclass ((class class) (subclass class))
(with-slots (direct-subclasses) class
- (pushnew subclass direct-subclasses)
+ (pushnew subclass direct-subclasses :test #'eq)
subclass))
(defmethod remove-direct-subclass ((class class) (subclass class))
(with-slots (direct-subclasses) class
;;; This needs to be used recursively, in case a non-trivial user
;;; defined ADD/REMOVE-DIRECT-METHOD method ends up calling another
;;; function using the same lock.
-(defvar *specializer-lock* (sb-thread::make-spinlock :name "Specializer lock"))
+(defvar *specializer-lock* (sb-thread:make-mutex :name "Specializer lock"))
(defmethod add-direct-method :around ((specializer specializer) method)
;; All the actions done under this lock are done in an order
;; that is safe to unwind at any point.
- (sb-thread::with-recursive-spinlock (*specializer-lock*)
+ (sb-thread::with-recursive-system-lock (*specializer-lock*)
(call-next-method)))
(defmethod remove-direct-method :around ((specializer specializer) method)
;; All the actions done under this lock are done in an order
;; that is safe to unwind at any point.
- (sb-thread::with-recursive-spinlock (*specializer-lock*)
+ (sb-thread::with-recursive-system-lock (*specializer-lock*)
(call-next-method)))
(defmethod add-direct-method ((specializer class) (method method))
;; be in progress, and because if an interrupt catches us we
;; need to have a consistent state.
(setf (cdr cell) ()
- (car cell) (adjoin method (car cell))))
+ (car cell) (adjoin method (car cell) :test #'eq)))
method)
(defmethod remove-direct-method ((specializer class) (method method))
;; we behave as if we got just first or just after -- it's just
;; for update that we need to lock.
(or (cdr cell)
- (sb-thread::with-spinlock (*specializer-lock*)
+ (sb-thread:with-mutex (*specializer-lock*)
(setf (cdr cell)
(let (collect)
(dolist (m (car cell))
\f
;;; This hash table is used to store the direct methods and direct generic
;;; functions of EQL specializers. Each value in the table is the cons.
-(defvar *eql-specializer-methods* (make-hash-table :test 'eql))
-(defvar *class-eq-specializer-methods* (make-hash-table :test 'eq))
+;;;
+;;; These tables are shared between threads, so they need to be synchronized.
+(defvar *eql-specializer-methods* (make-hash-table :test 'eql :synchronized t))
+(defvar *class-eq-specializer-methods* (make-hash-table :test 'eq :synchronized t))
(defmethod specializer-method-table ((specializer eql-specializer))
*eql-specializer-methods*)
(let* ((object (specializer-object specializer))
(table (specializer-method-table specializer))
(entry (gethash object table)))
- ;; This table is shared between multiple specializers, but
- ;; no worries as (at least for the time being) our hash-tables
- ;; are thread safe.
(unless entry
(setf entry
(setf (gethash object table) (cons nil nil))))
;; be in progress, and because if an interrupt catches us we
;; need to have a consistent state.
(setf (cdr entry) ()
- (car entry) (adjoin method (car entry)))
+ (car entry) (adjoin method (car entry) :test #'eq))
method))
(defmethod remove-direct-method ((specializer specializer-with-object)
(entry (gethash object (specializer-method-table specializer))))
(when entry
(or (cdr entry)
- (sb-thread::with-spinlock (*specializer-lock*)
+ (sb-thread:with-mutex (*specializer-lock*)
(setf (cdr entry)
(let (collect)
(dolist (m (car entry))
(setf (gdefinition 'load-defclass) #'real-load-defclass)
(defun ensure-class (name &rest args)
- (apply #'ensure-class-using-class
- (let ((class (find-class name nil)))
- (when (and class (eq name (class-name class)))
- ;; NAME is the proper name of CLASS, so redefine it
- class))
- name
- args))
+ (with-world-lock ()
+ (apply #'ensure-class-using-class
+ (let ((class (find-class name nil)))
+ (when (and class (eq name (class-name class)))
+ ;; NAME is the proper name of CLASS, so redefine it
+ class))
+ name
+ args)))
(defmethod ensure-class-using-class ((class null) name &rest args &key)
- (multiple-value-bind (meta initargs)
- (frob-ensure-class-args args)
- (setf class (apply #'make-instance meta :name name initargs))
- (without-package-locks
- (setf (find-class name) class))
- (set-class-type-translation class name)
- class))
+ (with-world-lock ()
+ (multiple-value-bind (meta initargs)
+ (frob-ensure-class-args args)
+ (setf class (apply #'make-instance meta :name name initargs))
+ (without-package-locks
+ (setf (find-class name) class))))
+ ;; After boot (SETF FIND-CLASS) does this.
+ (unless (eq **boot-state** 'complete)
+ (%set-class-type-translation class name))
+ class)
(defmethod ensure-class-using-class ((class pcl-class) name &rest args &key)
- (multiple-value-bind (meta initargs)
- (frob-ensure-class-args args)
- (unless (eq (class-of class) meta)
- (apply #'change-class class meta initargs))
- (apply #'reinitialize-instance class initargs)
- (without-package-locks
- (setf (find-class name) class))
- (set-class-type-translation class name)
- class))
+ (with-world-lock ()
+ (multiple-value-bind (meta initargs)
+ (frob-ensure-class-args args)
+ (unless (eq (class-of class) meta)
+ (apply #'change-class class meta initargs))
+ (apply #'reinitialize-instance class initargs)
+ (without-package-locks
+ (setf (find-class name) class))))
+ ;; After boot (SETF FIND-CLASS) does this.
+ (unless (eq **boot-state** 'complete)
+ (%set-class-type-translation class name))
+ class)
(defun frob-ensure-class-args (args)
(let (metaclass metaclassp reversed-plist)
(find-class metaclass)))
(t *the-class-standard-class*))
(nreverse reversed-plist)))))
+
+;;; This is used to call initfunctions of :allocation :class slots.
+(defun call-initfun (fun slotd safe)
+ (declare (function fun))
+ (let ((value (funcall fun)))
+ (when safe
+ (let ((type (slot-definition-type slotd)))
+ (unless (or (eq t type)
+ (typep value type))
+ (error 'type-error :expected-type type :datum value))))
+ value))
\f
(defmethod shared-initialize :after
((class std-class) slot-names &key
super-class of the class ~S, ~
but the meta-classes ~S and ~S are incompatible. ~
Define a method for ~S to avoid this error.~@:>"
- superclass class (class-of superclass) (class-of class)
- 'validate-superclass)))
+ superclass class (class-of superclass) (class-of class)
+ 'validate-superclass)))
(setf (slot-value class 'direct-superclasses) direct-superclasses))
(t
(setq direct-superclasses (slot-value class 'direct-superclasses))))
(plist-value class 'direct-default-initargs)))
(setf (plist-value class 'class-slot-cells)
(let ((old-class-slot-cells (plist-value class 'class-slot-cells))
+ (safe (safe-p class))
(collect '()))
(dolist (dslotd direct-slots)
(when (eq :class (slot-definition-allocation dslotd))
(old (assoc name old-class-slot-cells)))
(if (or (not old)
(eq t slot-names)
- (member name slot-names))
+ (member name slot-names :test #'eq))
(let* ((initfunction (slot-definition-initfunction dslotd))
- (value (if initfunction
- (funcall initfunction)
- +slot-unbound+)))
+ (value
+ (if initfunction
+ (call-initfun initfunction dslotd safe)
+ +slot-unbound+)))
(push (cons name value) collect))
(push old collect)))))
(nreverse collect)))
(flet ((compute-preliminary-cpl (root)
(let ((*allow-forward-referenced-classes-in-cpl-p* t))
(compute-class-precedence-list root))))
- (without-package-locks
- (unless (class-finalized-p class)
- (let ((name (class-name class)))
- ;; KLUDGE: This is fairly horrible. We need to make a
- ;; full-fledged CLASSOID here, not just tell the compiler that
- ;; some class is forthcoming, because there are legitimate
- ;; questions one can ask of the type system, implemented in
- ;; terms of CLASSOIDs, involving forward-referenced classes. So.
- (let ((layout (make-wrapper 0 class)))
- (setf (slot-value class 'wrapper) layout)
- (let ((cpl (compute-preliminary-cpl class)))
- (setf (layout-inherits layout)
- (order-layout-inherits
- (map 'simple-vector #'class-wrapper
- (reverse (rest cpl))))))
- (register-layout layout :invalidate t)
- (set-class-type-translation class (layout-classoid layout)))))
- (mapc #'make-preliminary-layout (class-direct-subclasses class)))))
+ (with-world-lock ()
+ (without-package-locks
+ (unless (class-finalized-p class)
+ (let ((name (class-name class)))
+ ;; KLUDGE: This is fairly horrible. We need to make a
+ ;; full-fledged CLASSOID here, not just tell the compiler that
+ ;; some class is forthcoming, because there are legitimate
+ ;; questions one can ask of the type system, implemented in
+ ;; terms of CLASSOIDs, involving forward-referenced classes. So.
+ (let ((layout (make-wrapper 0 class)))
+ (setf (slot-value class 'wrapper) layout)
+ (let ((cpl (compute-preliminary-cpl class)))
+ (setf (layout-inherits layout)
+ (order-layout-inherits
+ (map 'simple-vector #'class-wrapper
+ (reverse (rest cpl))))))
+ (register-layout layout :invalidate t)
+ (%set-class-type-translation class (layout-classoid layout)))))
+ (mapc #'make-preliminary-layout (class-direct-subclasses class))))))
(defmethod shared-initialize :before ((class class) slot-names &key name)
(defmethod reinitialize-instance :before ((class slot-class) &key direct-superclasses)
(dolist (old-super (set-difference (class-direct-superclasses class) direct-superclasses))
(remove-direct-subclass old-super class))
- (remove-slot-accessors class (class-direct-slots class)))
+ (remove-slot-accessors class (class-direct-slots class)))
(defmethod reinitialize-instance :after ((class slot-class)
&rest initargs
(defmethod shared-initialize :after ((class condition-class) slot-names
&key direct-slots direct-superclasses)
(declare (ignore slot-names))
- (let ((classoid (find-classoid (class-name class))))
- (with-slots (wrapper %class-precedence-list cpl-available-p
- prototype (direct-supers direct-superclasses))
+ (let ((classoid (find-classoid (slot-value class 'name))))
+ (with-slots (wrapper
+ %class-precedence-list cpl-available-p finalized-p
+ prototype (direct-supers direct-superclasses)
+ plist)
class
(setf (slot-value class 'direct-slots)
(mapcar (lambda (pl) (make-direct-slotd class pl))
- direct-slots))
- (setf (slot-value class 'finalized-p) t)
- (setf (classoid-pcl-class classoid) class)
- (setq direct-supers direct-superclasses)
- (setq wrapper (classoid-layout classoid))
- (setq %class-precedence-list (compute-class-precedence-list class))
- (setq cpl-available-p t)
+ direct-slots)
+ finalized-p t
+ (classoid-pcl-class classoid) class
+ direct-supers direct-superclasses
+ wrapper (classoid-layout classoid)
+ %class-precedence-list (compute-class-precedence-list class)
+ cpl-available-p t
+ (getf plist 'direct-default-initargs)
+ (sb-kernel::condition-classoid-direct-default-initargs classoid))
(add-direct-subclasses class direct-superclasses)
(let ((slots (compute-slots class)))
(setf (slot-value class 'slots) slots)
(defmethod compute-effective-slot-definition
((class condition-class) slot-name dslotds)
- (let ((slotd (call-next-method)))
- (setf (slot-definition-reader-function slotd)
+ (let* ((slotd (call-next-method))
+ (info (slot-definition-info slotd)))
+ (setf (slot-info-reader info)
(lambda (x)
(handler-case (condition-reader-function x slot-name)
;; FIXME: FIND-SLOT-DEFAULT throws an error if the slot
;; is unbound; maybe it should be a CELL-ERROR of some
;; sort?
(error () (values (slot-unbound class x slot-name))))))
- (setf (slot-definition-writer-function slotd)
+ (setf (slot-info-writer info)
(lambda (v x)
(condition-writer-function x v slot-name)))
- (setf (slot-definition-boundp-function slotd)
+ (setf (slot-info-boundp info)
(lambda (x)
(multiple-value-bind (v c)
(ignore-errors (condition-reader-function x slot-name))
(defmethod compute-slots :around ((class condition-class))
(let ((eslotds (call-next-method)))
- (mapc #'initialize-internal-slot-functions eslotds)
+ (mapc #'finalize-internal-slot-functions eslotds)
eslotds))
(defmethod shared-initialize :after
(defun make-structure-class-defstruct-form (name direct-slots include)
(let* ((conc-name (format-symbol *package* "~S structure class " name))
(constructor (format-symbol *package* "~Aconstructor" conc-name))
- (defstruct `(defstruct (,name
- ,@(when include
- `((:include ,(class-name include))))
- (:predicate nil)
- (:conc-name ,conc-name)
- (:constructor ,constructor ())
- (:copier nil))
- ,@(mapcar (lambda (slot)
- `(,(slot-definition-name slot)
- +slot-unbound+))
- direct-slots)))
- (reader-names (mapcar (lambda (slotd)
- (list 'slot-accessor name
- (slot-definition-name slotd)
- 'reader))
- direct-slots))
- (writer-names (mapcar (lambda (slotd)
- (list 'slot-accessor name
- (slot-definition-name slotd)
- 'writer))
- direct-slots))
- (readers-init
- (mapcar (lambda (slotd reader-name)
- (let ((accessor
+ (included-name (class-name include))
+ (included-slots
+ (when include
+ (mapcar #'dsd-name (dd-slots (find-defstruct-description included-name)))))
+ (old-slots nil)
+ (new-slots nil)
+ (reader-names nil)
+ (writer-names nil))
+ (dolist (slotd (reverse direct-slots))
+ (let* ((slot-name (slot-definition-name slotd))
+ (initform (slot-definition-initform slotd))
+ (type (slot-definition-type slotd))
+ (desc `(,slot-name ,initform :type ,type)))
+ (push `(slot-accessor ,name ,slot-name reader)
+ reader-names)
+ (push `(slot-accessor ,name ,slot-name writer)
+ writer-names)
+ (if (member slot-name included-slots :test #'eq)
+ (push desc old-slots)
+ (push desc new-slots))))
+ (let* ((defstruct `(defstruct (,name
+ ,@(when include
+ `((:include ,included-name
+ ,@old-slots)))
+ (:constructor ,constructor ())
+ (:predicate nil)
+ (:conc-name ,conc-name)
+ (:copier nil))
+ ,@new-slots))
+ (readers-init
+ (mapcar (lambda (slotd reader-name)
+ (let ((accessor
(slot-definition-defstruct-accessor-symbol
slotd)))
- `(defun ,reader-name (obj)
- (declare (type ,name obj))
- (,accessor obj))))
- direct-slots reader-names))
- (writers-init
- (mapcar (lambda (slotd writer-name)
- (let ((accessor
+ `(defun ,reader-name (obj)
+ (declare (type ,name obj))
+ (,accessor obj))))
+ direct-slots reader-names))
+ (writers-init
+ (mapcar (lambda (slotd writer-name)
+ (let ((accessor
(slot-definition-defstruct-accessor-symbol
slotd)))
- `(defun ,writer-name (nv obj)
- (declare (type ,name obj))
- (setf (,accessor obj) nv))))
- direct-slots writer-names))
- (defstruct-form
- `(progn
+ `(defun ,writer-name (nv obj)
+ (declare (type ,name obj))
+ (setf (,accessor obj) nv))))
+ direct-slots writer-names))
+ (defstruct-form
+ `(progn
,defstruct
,@readers-init ,@writers-init
(cons nil nil))))
- (values defstruct-form constructor reader-names writer-names)))
+ (values defstruct-form constructor reader-names writer-names))))
-(defun make-defstruct-allocation-function (class)
+(defun make-defstruct-allocation-function (name)
;; FIXME: Why don't we go class->layout->info == dd
- (let ((dd (find-defstruct-description (class-name class))))
- (lambda ()
- (sb-kernel::%make-instance-with-layout
- (sb-kernel::compiler-layout-or-lose (dd-name dd))))))
+ (let ((dd (find-defstruct-description name)))
+ (ecase (dd-type dd)
+ (structure
+ (%make-structure-instance-allocator dd nil))
+ (funcallable-structure
+ (%make-funcallable-structure-instance-allocator dd nil)))))
(defmethod shared-initialize :after
((class structure-class) slot-names &key
(setf (slot-value class 'direct-superclasses)
(or direct-superclasses
(setq direct-superclasses
- (and (not (eq (class-name class) 'structure-object))
+ (and (not (eq (slot-value class 'name) 'structure-object))
(list *the-class-structure-object*)))))
(setq direct-superclasses (slot-value class 'direct-superclasses)))
- (let* ((name (class-name class))
+ (let* ((name (slot-value class 'name))
(from-defclass-p (slot-value class 'from-defclass-p))
(defstruct-p (or from-defclass-p (not (structure-type-p name)))))
(if direct-slots-p
(setf (slot-value class 'defstruct-form) defstruct-form)
(setf (slot-value class 'defstruct-constructor) constructor)))
(setf (slot-value class 'defstruct-constructor)
- (make-defstruct-allocation-function class)))
+ ;; KLUDGE: not class; in fixup.lisp, can't access slots
+ ;; outside methods yet.
+ (make-defstruct-allocation-function name)))
(add-direct-subclasses class direct-superclasses)
(setf (slot-value class '%class-precedence-list)
(compute-class-precedence-list class))
(setf (slot-value class 'cpl-available-p) t)
(let ((slots (compute-slots class)))
(setf (slot-value class 'slots) slots)
- (let* ((lclass (find-classoid (class-name class)))
+ (let* ((lclass (find-classoid (slot-value class 'name)))
(layout (classoid-layout lclass)))
(setf (classoid-pcl-class lclass) class)
(setf (slot-value class 'wrapper) layout)
\f
(defun class-has-a-forward-referenced-superclass-p (class)
- (or (forward-referenced-class-p class)
+ (or (when (forward-referenced-class-p class)
+ class)
(some #'class-has-a-forward-referenced-superclass-p
(class-direct-superclasses class))))
;;; or reinitialized. The class may or may not be finalized.
(defun update-class (class finalizep)
(without-package-locks
- (when (or finalizep (class-finalized-p class))
- (update-cpl class (compute-class-precedence-list class))
- ;; This invocation of UPDATE-SLOTS, in practice, finalizes the
- ;; class.
- (update-slots class (compute-slots class))
- (update-gfs-of-class class)
- (update-initargs class (compute-default-initargs class))
- (update-ctors 'finalize-inheritance :class class))
- (dolist (sub (class-direct-subclasses class))
- (update-class sub nil))))
+ (with-world-lock ()
+ (when (or finalizep (class-finalized-p class))
+ (%update-cpl class (compute-class-precedence-list class))
+ ;; This invocation of UPDATE-SLOTS, in practice, finalizes the
+ ;; class.
+ (%update-slots class (compute-slots class))
+ (update-gfs-of-class class)
+ (setf (plist-value class 'default-initargs) (compute-default-initargs class))
+ (update-ctors 'finalize-inheritance :class class))
+ (dolist (sub (class-direct-subclasses class))
+ (update-class sub nil)))))
(define-condition cpl-protocol-violation (reference-condition error)
((class :initarg :class :reader cpl-protocol-violation-class)
(find-class 'function)
(cpl-protocol-violation-cpl c)))))
-(defun update-cpl (class cpl)
+(defun class-has-a-cpl-protocol-violation-p (class)
+ (labels ((find-in-superclasses (class classes)
+ (cond
+ ((null classes) nil)
+ ((eql class (car classes)) t)
+ (t (find-in-superclasses class (append (class-direct-superclasses (car classes)) (cdr classes)))))))
+ (let ((metaclass (class-of class)))
+ (cond
+ ((eql metaclass *the-class-standard-class*)
+ (find-in-superclasses (find-class 'function) (list class)))
+ ((eql metaclass *the-class-funcallable-standard-class*)
+ (not (find-in-superclasses (find-class 'function) (list class))))))))
+
+(defun %update-cpl (class cpl)
(when (eq (class-of class) *the-class-standard-class*)
(when (find (find-class 'function) cpl)
(error 'cpl-protocol-violation :class class :cpl cpl)))
:key #'slot-definition-allocation)
(return nil))))
;; comment from the old CMU CL sources:
- ;; Need to have the cpl setup before update-lisp-class-layout
+ ;; Need to have the cpl setup before %update-lisp-class-layout
;; is called on CMU CL.
(setf (slot-value class '%class-precedence-list) cpl)
(setf (slot-value class 'cpl-available-p) t)
- (force-cache-flushes class))
+ (%force-cache-flushes class))
(progn
(setf (slot-value class '%class-precedence-list) cpl)
(setf (slot-value class 'cpl-available-p) t)))
(when cpl
(let ((first (car cpl)))
(dolist (c (cdr cpl))
- (pushnew c (slot-value first 'can-precede-list))))
+ (pushnew c (slot-value first 'can-precede-list) :test #'eq)))
(update-class-can-precede-p (cdr cpl))))
(defun class-can-precede-p (class1 class2)
- (member class2 (class-can-precede-list class1)))
-
-(defun update-slots (class eslotds)
- (let ((instance-slots ())
- (class-slots ()))
- (dolist (eslotd eslotds)
- (let ((alloc (slot-definition-allocation eslotd)))
- (case alloc
- (:instance (push eslotd instance-slots))
- (:class (push eslotd class-slots)))))
-
- ;; If there is a change in the shape of the instances then the
- ;; old class is now obsolete.
- (let* ((nlayout (mapcar #'slot-definition-name
- (sort instance-slots #'<
- :key #'slot-definition-location)))
- (nslots (length nlayout))
- (nwrapper-class-slots (compute-class-slots class-slots))
- (owrapper (when (class-finalized-p class)
- (class-wrapper class)))
- (olayout (when owrapper
- (wrapper-instance-slots-layout owrapper)))
- (owrapper-class-slots (and owrapper (wrapper-class-slots owrapper)))
+ (member class2 (class-can-precede-list class1) :test #'eq))
+
+;;; This is called from %UPDATE-SLOTS to check if slot layouts are compatible.
+;;;
+;;; In addition to slot locations (implicit in the ordering of the slots), we
+;;; must check classes: SLOT-INFO structures from old slotds may have been
+;;; cached in permutation vectors, but new slotds have had new ones allocated
+;;; to them. This is non-problematic for standard slotds, because we know the
+;;; structure is compatible, but if a slot definition class changes, this can
+;;; change the way SLOT-VALUE-USING-CLASS should dispatch.
+;;;
+;;; Also, if the slot has a non-standard allocation, we need to check that it
+;;; doesn't change.
+(defun slot-layouts-compatible-p
+ (oslotds new-instance-slotds new-class-slotds new-custom-slotds)
+ (multiple-value-bind (old-instance-slotds old-class-slotds old-custom-slotds)
+ (classify-slotds oslotds)
+ (and
+ ;; Instance slots: name, type, and class.
+ (dolist (o old-instance-slotds (not new-instance-slotds))
+ (let ((n (pop new-instance-slotds)))
+ (unless (and n
+ (eq (slot-definition-name o) (slot-definition-name n))
+ (eq (slot-definition-type o) (slot-definition-type n))
+ (eq (class-of o) (class-of n)))
+ (return nil))))
+ ;; Class slots: name and class. (FIXME: class slots not typechecked?)
+ (dolist (o old-class-slotds (not new-class-slotds))
+ (let ((n (pop new-class-slotds)))
+ (unless (and n
+ (eq (slot-definition-name o) (slot-definition-name n))
+ (eq (class-of n) (class-of o)))
+ (return nil))))
+ ;; Custom slots: check name, type, allocation, and class. (FIXME: should we just punt?)
+ (dolist (o old-custom-slotds (not new-custom-slotds))
+ (let ((n (pop new-custom-slotds)))
+ (unless (and n
+ (eq (slot-definition-name o) (slot-definition-name n))
+ (eq (slot-definition-type o) (slot-definition-type n))
+ (eq (slot-definition-allocation o) (slot-definition-allocation n))
+ (eq (class-of o) (class-of n)))
+ (return nil)))))))
+
+(defun style-warn-about-duplicate-slots (class)
+ (do* ((slots (slot-value class 'slots) (cdr slots))
+ (dupes nil))
+ ((null slots)
+ (when dupes
+ (style-warn
+ "~@<slot names with the same SYMBOL-NAME but ~
+ different SYMBOL-PACKAGE (possible package problem) ~
+ for class ~S:~4I~@:_~<~@{~/sb-impl::print-symbol-with-prefix/~^~:@_~}~:>~@:>"
+ class dupes)))
+ (let* ((slot-name (slot-definition-name (car slots)))
+ (oslots (and (not (eq (symbol-package slot-name)
+ *pcl-package*))
+ (remove-if
+ (lambda (slot-name-2)
+ (or (eq (symbol-package slot-name-2)
+ *pcl-package*)
+ (string/= slot-name slot-name-2)))
+ (cdr slots)
+ :key #'slot-definition-name))))
+ (when oslots
+ (pushnew (cons slot-name
+ (mapcar #'slot-definition-name oslots))
+ dupes
+ :test #'string= :key #'car)))))
+
+(defun %update-slots (class eslotds)
+ (multiple-value-bind (instance-slots class-slots custom-slots)
+ (classify-slotds eslotds)
+ (let* ((nslots (length instance-slots))
+ (owrapper (when (class-finalized-p class) (class-wrapper class)))
(nwrapper
- (cond ((null owrapper)
- (make-wrapper nslots class))
- ((and (equal nlayout olayout)
- (not
- (loop for o in owrapper-class-slots
- for n in nwrapper-class-slots
- do (unless (eq (car o) (car n)) (return t)))))
- owrapper)
- (t
- ;; This will initialize the new wrapper to have the
- ;; same state as the old wrapper. We will then have
- ;; to change that. This may seem like wasted work
- ;; (and it is), but the spec requires that we call
- ;; MAKE-INSTANCES-OBSOLETE.
- (make-instances-obsolete class)
- (class-wrapper class)))))
-
- (update-lisp-class-layout class nwrapper)
+ (cond ((null owrapper)
+ (make-wrapper nslots class))
+ ((slot-layouts-compatible-p (wrapper-slots owrapper)
+ instance-slots class-slots custom-slots)
+ owrapper)
+ (t
+ ;; This will initialize the new wrapper to have the
+ ;; same state as the old wrapper. We will then have
+ ;; to change that. This may seem like wasted work
+ ;; (and it is), but the spec requires that we call
+ ;; MAKE-INSTANCES-OBSOLETE.
+ (make-instances-obsolete class)
+ (class-wrapper class)))))
+ (%update-lisp-class-layout class nwrapper)
(setf (slot-value class 'slots) eslotds
+ (wrapper-slots nwrapper) eslotds
(wrapper-slot-table nwrapper) (make-slot-table class eslotds)
- (wrapper-instance-slots-layout nwrapper) nlayout
- (wrapper-class-slots nwrapper) nwrapper-class-slots
(wrapper-length nwrapper) nslots
(slot-value class 'wrapper) nwrapper)
- (do* ((slots (slot-value class 'slots) (cdr slots))
- (dupes nil))
- ((null slots)
- (when dupes
- (style-warn
- "~@<slot names with the same SYMBOL-NAME but ~
- different SYMBOL-PACKAGE (possible package problem) ~
- for class ~S:~4I~@:_~<~@{~S~^~:@_~}~:>~@:>"
- class dupes)))
- (let* ((slot (car slots))
- (oslots (remove (slot-definition-name slot) (cdr slots)
- :test #'string/=
- :key #'slot-definition-name)))
- (when oslots
- (pushnew (cons (slot-definition-name slot)
- (mapcar #'slot-definition-name oslots))
- dupes
- :test #'string= :key #'car))))
+ (style-warn-about-duplicate-slots class)
(setf (slot-value class 'finalized-p) t)
(unless (eq owrapper nwrapper)
- (maybe-update-standard-class-locations class)))))
+ (maybe-update-standard-slot-locations class)))))
-(defun compute-class-slots (eslotds)
- (let (collect)
- (dolist (eslotd eslotds (nreverse collect))
- (let ((cell (assoc (slot-definition-name eslotd)
- (class-slot-cells
- (slot-definition-allocation-class eslotd)))))
- (aver cell)
- (push cell collect)))))
+(defun update-gf-dfun (class gf)
+ (let ((*new-class* class)
+ (arg-info (gf-arg-info gf)))
+ (cond
+ ((special-case-for-compute-discriminating-function-p gf))
+ ((gf-precompute-dfun-and-emf-p arg-info)
+ (multiple-value-bind (dfun cache info) (make-final-dfun-internal gf)
+ (update-dfun gf dfun cache info))))))
(defun update-gfs-of-class (class)
(when (and (class-finalized-p class)
(let ((cpl (class-precedence-list class)))
- (or (member *the-class-slot-class* cpl)
+ (or (member *the-class-slot-class* cpl :test #'eq)
(member *the-class-standard-effective-slot-definition*
- cpl))))
+ cpl :test #'eq))))
(let ((gf-table (make-hash-table :test 'eq)))
(labels ((collect-gfs (class)
(dolist (gf (specializer-direct-generic-functions class))
(declare (ignore ignore))
(update-gf-dfun class gf))
gf-table)))))
-
-(defun update-initargs (class inits)
- (setf (plist-value class 'default-initargs) inits))
\f
(defmethod compute-default-initargs ((class slot-class))
(let ((initargs (loop for c in (class-precedence-list class)
(std-compute-slots class))
(defun std-compute-slots-around (class eslotds)
- (let ((location -1))
+ (let ((location -1)
+ (safe (safe-p class)))
(dolist (eslotd eslotds eslotds)
(setf (slot-definition-location eslotd)
(case (slot-definition-allocation eslotd)
c))))
(aver (consp cell))
(if (eq +slot-unbound+ (cdr cell))
- ;; We may have inherited an initfunction
+ ;; We may have inherited an initfunction FIXME: Is this
+ ;; really right? Is the initialization in
+ ;; SHARED-INITIALIZE (STD-CLASS) not enough?
(let ((initfun (slot-definition-initfunction eslotd)))
(if initfun
- (rplacd cell (funcall initfun))
+ (rplacd cell (call-initfun initfun eslotd safe))
cell))
cell)))))
(unless (slot-definition-class eslotd)
(defmethod compute-slots :around ((class structure-class))
(let ((eslotds (call-next-method)))
- (mapc #'initialize-internal-slot-functions eslotds)
+ (mapc #'finalize-internal-slot-functions eslotds)
eslotds))
(defmethod compute-effective-slot-definition ((class slot-class) name dslotds)
- (declare (ignore name))
(let* ((initargs (compute-effective-slot-definition-initargs class dslotds))
- (class (apply #'effective-slot-definition-class class initargs)))
- (apply #'make-instance class initargs)))
+ (class (apply #'effective-slot-definition-class class initargs))
+ (slotd (apply #'make-instance class initargs)))
+ slotd))
(defmethod effective-slot-definition-class ((class std-class) &rest initargs)
(declare (ignore initargs))
(allocation nil)
(allocation-class nil)
(type t)
- (type-check-function nil)
(documentation nil)
(documentationp nil)
(namep nil)
(setq name (slot-definition-name slotd)
namep t))
(unless initp
- (when (slot-definition-initfunction slotd)
+ (awhen (slot-definition-initfunction slotd)
(setq initform (slot-definition-initform slotd)
- initfunction (slot-definition-initfunction slotd)
+ initfunction it
initp t)))
(unless documentationp
- (when (%slot-definition-documentation slotd)
- (setq documentation (%slot-definition-documentation slotd)
+ (awhen (%slot-definition-documentation slotd)
+ (setq documentation it
documentationp t)))
(unless allocp
(setq allocation (slot-definition-allocation slotd)
allocation-class (slot-definition-class slotd)
allocp t))
(setq initargs (append (slot-definition-initargs slotd) initargs))
- (let ((fun (slot-definition-type-check-function slotd)))
- (when fun
- (setf type-check-function
- (if type-check-function
- (let ((old-function type-check-function))
- (lambda (value)
- (funcall old-function value)
- (funcall fun value)))
- fun))))
(let ((slotd-type (slot-definition-type slotd)))
(setq type (cond
((eq type t) slotd-type)
:allocation allocation
:allocation-class allocation-class
:type type
- 'type-check-function type-check-function
:class class
:documentation documentation)))
(defmethod compute-effective-slot-definition-initargs :around
((class structure-class) direct-slotds)
- (let ((slotd (car direct-slotds)))
- (list* :defstruct-accessor-symbol
- (slot-definition-defstruct-accessor-symbol slotd)
+ (let* ((slotd (car direct-slotds))
+ (accessor (slot-definition-defstruct-accessor-symbol slotd)))
+ (list* :defstruct-accessor-symbol accessor
:internal-reader-function
(slot-definition-internal-reader-function slotd)
:internal-writer-function
;;; :UNINITIALIZED)))
;;;
;;; Thanks to Gerd Moellmann for the explanation. -- CSR, 2002-10-29
-(defun force-cache-flushes (class)
+(defun %force-cache-flushes (class)
(let* ((owrapper (class-wrapper class)))
;; We only need to do something if the wrapper is still valid. If
;; the wrapper isn't valid, state will be FLUSH or OBSOLETE, and
(eq (layout-invalid owrapper) t))
(let ((nwrapper (make-wrapper (layout-length owrapper)
class)))
- (setf (wrapper-instance-slots-layout nwrapper)
- (wrapper-instance-slots-layout owrapper))
- (setf (wrapper-class-slots nwrapper)
- (wrapper-class-slots owrapper))
+ (setf (wrapper-slots nwrapper)
+ (wrapper-slots owrapper))
(setf (wrapper-slot-table nwrapper)
(wrapper-slot-table owrapper))
- (with-pcl-lock
- (update-lisp-class-layout class nwrapper)
- (setf (slot-value class 'wrapper) nwrapper)
- ;; Use :OBSOLETE instead of :FLUSH if any superclass has
- ;; been obsoleted.
- (if (find-if (lambda (x)
- (and (consp x) (eq :obsolete (car x))))
- (layout-inherits owrapper)
- :key #'layout-invalid)
- (invalidate-wrapper owrapper :obsolete nwrapper)
- (invalidate-wrapper owrapper :flush nwrapper)))))))
-
-(defun flush-cache-trap (owrapper nwrapper instance)
- (declare (ignore owrapper))
- (set-wrapper instance nwrapper))
+ (%update-lisp-class-layout class nwrapper)
+ (setf (slot-value class 'wrapper) nwrapper)
+ ;; Use :OBSOLETE instead of :FLUSH if any superclass has
+ ;; been obsoleted.
+ (if (find-if (lambda (x)
+ (and (consp x) (eq :obsolete (car x))))
+ (layout-inherits owrapper)
+ :key #'layout-invalid)
+ (%invalidate-wrapper owrapper :obsolete nwrapper)
+ (%invalidate-wrapper owrapper :flush nwrapper))))))
\f
;;; MAKE-INSTANCES-OBSOLETE can be called by user code. It will cause
;;; the next access to the instance (as defined in 88-002R) to trap
;;; through the UPDATE-INSTANCE-FOR-REDEFINED-CLASS mechanism.
(defmethod make-instances-obsolete ((class std-class))
- (let* ((owrapper (class-wrapper class))
- (nwrapper (make-wrapper (layout-length owrapper)
- class)))
- (unless (class-finalized-p class)
- (if (class-has-a-forward-referenced-superclass-p class)
- (return-from make-instances-obsolete class)
- (update-cpl class (compute-class-precedence-list class))))
- (setf (wrapper-instance-slots-layout nwrapper)
- (wrapper-instance-slots-layout owrapper))
- (setf (wrapper-class-slots nwrapper)
- (wrapper-class-slots owrapper))
- (setf (wrapper-slot-table nwrapper)
- (wrapper-slot-table owrapper))
- (with-pcl-lock
- (update-lisp-class-layout class nwrapper)
+ (with-world-lock ()
+ (let* ((owrapper (class-wrapper class))
+ (nwrapper (make-wrapper (layout-length owrapper)
+ class)))
+ (unless (class-finalized-p class)
+ (if (class-has-a-forward-referenced-superclass-p class)
+ (return-from make-instances-obsolete class)
+ (%update-cpl class (compute-class-precedence-list class))))
+ (setf (wrapper-slots nwrapper)
+ (wrapper-slots owrapper))
+ (setf (wrapper-slot-table nwrapper)
+ (wrapper-slot-table owrapper))
+ (%update-lisp-class-layout class nwrapper)
(setf (slot-value class 'wrapper) nwrapper)
- (invalidate-wrapper owrapper :obsolete nwrapper)
+ (%invalidate-wrapper owrapper :obsolete nwrapper)
class)))
(defmethod make-instances-obsolete ((class symbol))
"~@<obsolete structure error for a structure of type ~2I~_~S~:>"
(type-of (obsolete-structure-datum condition))))))
-(defun obsolete-instance-trap (owrapper nwrapper instance)
+(defun %obsolete-instance-trap (owrapper nwrapper instance)
(if (not (layout-for-std-class-p owrapper))
(if *in-obsolete-instance-trap*
*the-wrapper-of-structure-object*
- (let ((*in-obsolete-instance-trap* t))
- (error 'obsolete-structure :datum instance)))
+ (let ((*in-obsolete-instance-trap* t))
+ (error 'obsolete-structure :datum instance)))
(let* ((class (wrapper-class* nwrapper))
(copy (allocate-instance class)) ;??? allocate-instance ???
- (olayout (wrapper-instance-slots-layout owrapper))
- (nlayout (wrapper-instance-slots-layout nwrapper))
(oslots (get-slots instance))
(nslots (get-slots copy))
- (oclass-slots (wrapper-class-slots owrapper))
(added ())
(discarded ())
- (plist ()))
+ (plist ())
+ (safe (safe-p class)))
- ;; local --> local transfer value
+ ;; local --> local transfer value, check type
;; local --> shared discard value, discard slot
;; local --> -- discard slot
- ;; shared --> local transfer value
+ ;; local --> custom XXX
+
+ ;; shared --> local transfer value, check type
;; shared --> shared -- (cf SHARED-INITIALIZE :AFTER STD-CLASS)
;; shared --> -- discard value
+ ;; shared --> custom XXX
+
;; -- --> local add slot
;; -- --> shared --
-
- ;; Go through all the old local slots.
- (let ((opos 0))
- (dolist (name olayout)
- (let ((npos (posq name nlayout)))
- (if npos
- (setf (clos-slots-ref nslots npos)
- (clos-slots-ref oslots opos))
- (progn
- (push name discarded)
- (unless (eq (clos-slots-ref oslots opos) +slot-unbound+)
- (setf (getf plist name) (clos-slots-ref oslots opos))))))
- (incf opos)))
-
- ;; Go through all the old shared slots.
- (dolist (oclass-slot-and-val oclass-slots)
- (let ((name (car oclass-slot-and-val))
- (val (cdr oclass-slot-and-val)))
- (let ((npos (posq name nlayout)))
- (when npos
- (setf (clos-slots-ref nslots npos) val)))))
-
- ;; Go through all the new local slots to compute the added slots.
- (dolist (nlocal nlayout)
- (unless (or (memq nlocal olayout)
- (assq nlocal oclass-slots))
- (push nlocal added)))
-
- (swap-wrappers-and-slots instance copy)
+ ;; -- --> custom XXX
+
+ (multiple-value-bind (new-instance-slots new-class-slots new-custom-slots)
+ (classify-slotds (wrapper-slots nwrapper))
+ (declare (ignore new-class-slots))
+ (multiple-value-bind (old-instance-slots old-class-slots old-custom-slots)
+ (classify-slotds (wrapper-slots owrapper))
+
+ (let ((layout (mapcar (lambda (slotd)
+ ;; Get the names only once.
+ (cons (slot-definition-name slotd) slotd))
+ new-instance-slots)))
+
+ (flet ((set-value (value cell)
+ (let ((name (car cell))
+ (slotd (cdr cell)))
+ (when (and safe (neq value +slot-unbound+))
+ (let ((type (slot-definition-type slotd)))
+ (assert
+ (typep value type) (value)
+ "~@<Error updating obsolete instance. Current value in slot ~
+ ~S of an instance of ~S is ~S, which does not match the new ~
+ slot type ~S.~:@>"
+ name class value type)))
+ (setf (clos-slots-ref nslots (slot-definition-location slotd)) value
+ ;; Prune from the list now that it's been dealt with.
+ layout (remove cell layout)))))
+
+ ;; Go through all the old local slots.
+ (dolist (old old-instance-slots)
+ (let* ((name (slot-definition-name old))
+ (value (clos-slots-ref oslots (slot-definition-location old))))
+ (unless (eq value +slot-unbound+)
+ (let ((new (assq name layout)))
+ (cond (new
+ (set-value value new))
+ (t
+ (push name discarded)
+ (setf (getf plist name) value)))))))
+
+ ;; Go through all the old shared slots.
+ (dolist (old old-class-slots)
+ (let* ((cell (slot-definition-location old))
+ (name (car cell))
+ (new (assq name layout)))
+ (when new
+ (set-value (cdr cell) new))))
+
+ ;; Go through all custom slots to find added ones. CLHS
+ ;; doesn't specify what to do about them, and neither does
+ ;; AMOP. We do want them to get initialized, though, so we
+ ;; list them in ADDED for the benefit of SHARED-INITIALIZE.
+ (dolist (new new-custom-slots)
+ (let* ((name (slot-definition-name new))
+ (old (find name old-custom-slots :key #'slot-definition-name)))
+ (unless old
+ (push name added))))
+
+ ;; Go through all the remaining new local slots to compute the added slots.
+ (dolist (cell layout)
+ (push (car cell) added))))))
+
+ (%swap-wrappers-and-slots instance copy)
(update-instance-for-redefined-class instance
added
plist)
nwrapper)))
\f
-(defun change-class-internal (instance new-class initargs)
+(defun %change-class (instance new-class initargs)
(let* ((old-class (class-of instance))
(copy (allocate-instance new-class))
(new-wrapper (get-wrapper copy))
(old-wrapper (class-wrapper old-class))
- (old-layout (wrapper-instance-slots-layout old-wrapper))
- (new-layout (wrapper-instance-slots-layout new-wrapper))
(old-slots (get-slots instance))
(new-slots (get-slots copy))
- (old-class-slots (wrapper-class-slots old-wrapper)))
-
- ;; "The values of local slots specified by both the class CTO and
- ;; CFROM are retained. If such a local slot was unbound, it
- ;; remains unbound."
- (let ((new-position 0))
- (dolist (new-slot new-layout)
- (let ((old-position (posq new-slot old-layout)))
- (when old-position
- (setf (clos-slots-ref new-slots new-position)
- (clos-slots-ref old-slots old-position))))
- (incf new-position)))
-
- ;; "The values of slots specified as shared in the class CFROM and
- ;; as local in the class CTO are retained."
- (dolist (slot-and-val old-class-slots)
- (let ((position (posq (car slot-and-val) new-layout)))
- (when position
- (setf (clos-slots-ref new-slots position) (cdr slot-and-val)))))
+ (safe (safe-p new-class)))
+ (multiple-value-bind (new-instance-slots new-class-slots)
+ (classify-slotds (wrapper-slots new-wrapper))
+ (multiple-value-bind (old-instance-slots old-class-slots)
+ (classify-slotds (wrapper-slots old-wrapper))
+
+ (flet ((set-value (value slotd)
+ (when safe
+ (assert (typep value (slot-definition-type slotd)) (value)
+ "~@<Error changing class. Current value in slot ~S ~
+ of an instance of ~S is ~S, which does not match the new ~
+ slot type ~S in class ~S.~:@>"
+ (slot-definition-name slotd) old-class value
+ (slot-definition-type slotd) new-class))
+ (setf (clos-slots-ref new-slots (slot-definition-location slotd)) value)))
+
+ ;; "The values of local slots specified by both the class CTO and
+ ;; CFROM are retained. If such a local slot was unbound, it
+ ;; remains unbound."
+ (dolist (new new-instance-slots)
+ (let* ((name (slot-definition-name new))
+ (old (find name old-instance-slots :key #'slot-definition-name)))
+ (when old
+ (set-value (clos-slots-ref old-slots (slot-definition-location old))
+ new))))
+
+ ;; "The values of slots specified as shared in the class CFROM and
+ ;; as local in the class CTO are retained."
+ (dolist (old old-class-slots)
+ (let* ((slot-and-val (slot-definition-location old))
+ (new (find (car slot-and-val) new-instance-slots
+ :key #'slot-definition-name)))
+ (when new
+ (set-value (cdr slot-and-val) new)))))))
;; Make the copy point to the old instance's storage, and make the
;; old instance point to the new storage.
- (swap-wrappers-and-slots instance copy)
+ (%swap-wrappers-and-slots instance copy)
(apply #'update-instance-for-different-class copy instance initargs)
+
instance))
(defmethod change-class ((instance standard-object) (new-class standard-class)
&rest initargs)
- (unless (class-finalized-p new-class)
- (finalize-inheritance new-class))
- (let ((cpl (class-precedence-list new-class)))
- (dolist (class cpl)
- (macrolet
- ((frob (class-name)
- `(when (eq class (find-class ',class-name))
- (error 'metaobject-initialization-violation
- :format-control "~@<Cannot ~S objects into ~S metaobjects.~@:>"
- :format-arguments (list 'change-class ',class-name)
- :references (list '(:amop :initialization ,class-name))))))
- (frob class)
- (frob generic-function)
- (frob method)
- (frob slot-definition))))
- (change-class-internal instance new-class initargs))
+ (with-world-lock ()
+ (unless (class-finalized-p new-class)
+ (finalize-inheritance new-class))
+ (let ((cpl (class-precedence-list new-class)))
+ (dolist (class cpl)
+ (macrolet
+ ((frob (class-name)
+ `(when (eq class (find-class ',class-name))
+ (error 'metaobject-initialization-violation
+ :format-control "~@<Cannot ~S objects into ~S metaobjects.~@:>"
+ :format-arguments (list 'change-class ',class-name)
+ :references (list '(:amop :initialization ,class-name))))))
+ (frob class)
+ (frob generic-function)
+ (frob method)
+ (frob slot-definition))))
+ (%change-class instance new-class initargs)))
(defmethod change-class ((instance forward-referenced-class)
(new-class standard-class) &rest initargs)
- (let ((cpl (class-precedence-list new-class)))
- (dolist (class cpl
- (error 'metaobject-initialization-violation
- :format-control
- "~@<Cannot ~S ~S objects into non-~S objects.~@:>"
- :format-arguments
- (list 'change-class 'forward-referenced-class 'class)
- :references
- (list '(:amop :generic-function ensure-class-using-class)
- '(:amop :initialization class))))
- (when (eq class (find-class 'class))
- (return nil))))
- (change-class-internal instance new-class initargs))
+ (with-world-lock ()
+ (let ((cpl (class-precedence-list new-class)))
+ (dolist (class cpl
+ (error 'metaobject-initialization-violation
+ :format-control
+ "~@<Cannot ~S ~S objects into non-~S objects.~@:>"
+ :format-arguments
+ (list 'change-class 'forward-referenced-class 'class)
+ :references
+ (list '(:amop :generic-function ensure-class-using-class)
+ '(:amop :initialization class))))
+ (when (eq class (find-class 'class))
+ (return nil))))
+ (%change-class instance new-class initargs)))
(defmethod change-class ((instance funcallable-standard-object)
(new-class funcallable-standard-class)
&rest initargs)
- (let ((cpl (class-precedence-list new-class)))
- (dolist (class cpl)
- (macrolet
- ((frob (class-name)
- `(when (eq class (find-class ',class-name))
- (error 'metaobject-initialization-violation
- :format-control "~@<Cannot ~S objects into ~S metaobjects.~@:>"
- :format-arguments (list 'change-class ',class-name)
- :references (list '(:amop :initialization ,class-name))))))
- (frob class)
- (frob generic-function)
- (frob method)
- (frob slot-definition))))
- (change-class-internal instance new-class initargs))
+ (with-world-lock ()
+ (let ((cpl (class-precedence-list new-class)))
+ (dolist (class cpl)
+ (macrolet
+ ((frob (class-name)
+ `(when (eq class (find-class ',class-name))
+ (error 'metaobject-initialization-violation
+ :format-control "~@<Cannot ~S objects into ~S metaobjects.~@:>"
+ :format-arguments (list 'change-class ',class-name)
+ :references (list '(:amop :initialization ,class-name))))))
+ (frob class)
+ (frob generic-function)
+ (frob method)
+ (frob slot-definition))))
+ (%change-class instance new-class initargs)))
(defmethod change-class ((instance standard-object)
(new-class funcallable-standard-class)
t)
\f
(defmethod add-dependent ((metaobject dependent-update-mixin) dependent)
- (pushnew dependent (plist-value metaobject 'dependents)))
+ (pushnew dependent (plist-value metaobject 'dependents) :test #'eq))
(defmethod remove-dependent ((metaobject dependent-update-mixin) dependent)
(setf (plist-value metaobject 'dependents)