(defmethod initialize-internal-slot-functions ((slotd
effective-slot-definition))
(let* ((name (slot-value slotd 'name))
- (class (slot-value slotd 'class)))
- (let ((table (or (gethash name *name->class->slotd-table*)
- (setf (gethash name *name->class->slotd-table*)
- (make-hash-table :test 'eq :size 5)))))
- (setf (gethash class table) slotd))
+ (class (slot-value slotd '%class)))
(dolist (type '(reader writer boundp))
(let* ((gf-name (ecase type
(reader 'slot-value-using-class)
(defmethod compute-slot-accessor-info ((slotd effective-slot-definition)
type gf)
(let* ((name (slot-value slotd 'name))
- (class (slot-value slotd 'class))
+ (class (slot-value slotd '%class))
(old-slotd (find-slot-definition class name))
(old-std-p (and old-slotd (slot-accessor-std-p old-slotd 'all))))
(multiple-value-bind (function std-p)
slot-names
&key)
(declare (ignore slot-names))
- (setf (slot-value specl 'type) `(class-eq ,(specializer-class specl))))
+ (setf (slot-value specl '%type) `(class-eq ,(specializer-class specl))))
(defmethod shared-initialize :after ((specl eql-specializer) slot-names &key)
(declare (ignore slot-names))
- (setf (slot-value specl 'type)
+ (setf (slot-value specl '%type)
`(eql ,(specializer-object specl)))
(setf (info :type :translator specl)
(constantly (make-member-type :members (list (specializer-object specl))))))
(defmethod ensure-class-using-class ((class null) name &rest args &key)
(multiple-value-bind (meta initargs)
(ensure-class-values class args)
- (set-class-type-translation (class-prototype meta) name)
(setf class (apply #'make-instance meta :name name initargs))
(without-package-locks
(setf (find-class name) class))
(error "~S is not a class or a legal class name." s))
(t
(or (find-class s nil)
- (make-instance 'forward-referenced-class
- :name s)))))
+ (ensure-class s :metaclass 'forward-referenced-class)))))
(defun ensure-class-values (class initargs)
(let (metaclass metaclassp reversed-plist)
(without-package-locks
(unless (class-finalized-p class)
(let ((name (class-name class)))
- (setf (find-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.
- (when (and (eq *boot-state* 'complete)
- (null (find-classoid name nil)))
- (setf (find-classoid name)
- (make-standard-classoid :name name)))
- (set-class-type-translation class name)
- (let ((layout (make-wrapper 0 class))
- (classoid (find-classoid name)))
- (setf (layout-classoid layout) classoid)
- (setf (classoid-pcl-class classoid) class)
+ (let ((layout (make-wrapper 0 class)))
(setf (slot-value class 'wrapper) layout)
(let ((cpl (compute-preliminary-cpl class)))
(setf (layout-inherits layout)
(map 'simple-vector #'class-wrapper
(reverse (rest cpl))))))
(register-layout layout :invalidate t)
- (setf (classoid-layout classoid) layout)
- (mapc #'make-preliminary-layout (class-direct-subclasses class))))))))
+ (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)
(declare (ignore slot-names name))
;; FIXME: Could this just be CLASS instead of `(CLASS ,CLASS)? If not,
;; why not? (See also similar expression in !BOOTSTRAP-INITIALIZE-CLASS.)
- (setf (slot-value class 'type) `(class ,class))
+ (setf (slot-value class '%type) `(class ,class))
(setf (slot-value class 'class-eq-specializer)
(make-instance 'class-eq-specializer :class class)))
&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
+ (with-slots (wrapper %class-precedence-list cpl-available-p
prototype (direct-supers direct-superclasses))
class
(setf (slot-value class 'direct-slots)
(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 %class-precedence-list (compute-class-precedence-list class))
(setq cpl-available-p t)
(add-direct-subclasses class direct-superclasses)
(setf (slot-value class 'slots) (compute-slots class))))
(compute-effective-slot-definition
class (slot-definition-name dslotd) (list dslotd)))
(class-direct-slots superclass)))
- (reverse (slot-value class 'class-precedence-list))))
+ (reverse (slot-value class '%class-precedence-list))))
(defmethod compute-slots :around ((class condition-class))
(let ((eslotds (call-next-method)))
(setf (slot-value class 'defstruct-constructor)
(make-defstruct-allocation-function class)))
(add-direct-subclasses class direct-superclasses)
- (setf (slot-value class 'class-precedence-list)
+ (setf (slot-value class '%class-precedence-list)
(compute-class-precedence-list class))
(setf (slot-value class 'cpl-available-p) t)
(setf (slot-value class 'slots) (compute-slots class))
;;; This is called by :after shared-initialize whenever a class is initialized
;;; or reinitialized. The class may or may not be finalized.
(defun update-class (class finalizep)
- ;; Comment from Gerd Moellmann:
- ;;
- ;; Note that we can't simply delay the finalization when CLASS has
- ;; no forward referenced superclasses because that causes bootstrap
- ;; problems.
(without-package-locks
- (when (and (not finalizep)
- (not (class-finalized-p class))
- (not (class-has-a-forward-referenced-superclass-p class)))
- (finalize-inheritance class)
- (return-from update-class))
- (when (or finalizep (class-finalized-p class)
- (not (class-has-a-forward-referenced-superclass-p class)))
- (setf (find-class (class-name class)) class)
+ (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. The hoops above are to ensure that FINALIZE-INHERITANCE
- ;; is called at finalization, so that MOP programmers can hook
- ;; into the system as described in "Class Finalization Protocol"
- ;; (section 5.5.2 of AMOP).
+ ;; 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))
- (unless finalizep
- (dolist (sub (class-direct-subclasses class))
- (update-class sub nil)))))
+ (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)
;; comment from the old CMU CL sources:
;; 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 '%class-precedence-list) cpl)
(setf (slot-value class 'cpl-available-p) t)
(force-cache-flushes class))
(progn
- (setf (slot-value class 'class-precedence-list) cpl)
+ (setf (slot-value class '%class-precedence-list) cpl)
(setf (slot-value class 'cpl-available-p) t)))
(update-class-can-precede-p cpl))
(defun compute-class-slots (eslotds)
(let (collect)
- (dolist (eslotd eslotds)
- (push (assoc (slot-definition-name eslotd)
- (class-slot-cells (slot-definition-class eslotd)))
- collect))
- (nreverse 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-gfs-of-class (class)
(when (and (class-finalized-p class)
(slot-definition-name dslotd)
(list dslotd)))
(class-direct-slots superclass)))
- (reverse (slot-value class 'class-precedence-list))))
+ (reverse (slot-value class '%class-precedence-list))))
(defmethod compute-slots :around ((class structure-class))
(let ((eslotds (call-next-method)))
(let* ((owrapper (class-wrapper class))
(nwrapper (make-wrapper (wrapper-no-of-instance-slots owrapper)
class)))
- (setf (wrapper-instance-slots-layout nwrapper)
- (wrapper-instance-slots-layout owrapper))
- (setf (wrapper-class-slots nwrapper)
- (wrapper-class-slots owrapper))
- (with-pcl-lock
+ (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))
+ (with-pcl-lock
(update-lisp-class-layout class nwrapper)
- (setf (slot-value class 'wrapper) nwrapper)
- (invalidate-wrapper owrapper :obsolete nwrapper)
- class)))
+ (setf (slot-value class 'wrapper) nwrapper)
+ (invalidate-wrapper owrapper :obsolete nwrapper)
+ class)))
(defmethod make-instances-obsolete ((class symbol))
(make-instances-obsolete (find-class class))
;; -- --> local add slot
;; -- --> shared --
- ;; Collect class slots from inherited wrappers. Needed for
- ;; shared -> local transfers of inherited slots.
- (let ((inherited (layout-inherits owrapper)))
- (loop for i from (1- (length inherited)) downto 0
- for layout = (aref inherited i)
- when (typep layout 'wrapper)
- do (dolist (slot (wrapper-class-slots layout))
- (pushnew slot oclass-slots :key #'car))))
-
;; Go through all the old local slots.
(let ((opos 0))
(dolist (name olayout)
(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