;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; This software is derived from software originally released by Xerox ;;;; Corporation. Copyright and release statements follow. Later modifications ;;;; to the software are in the public domain and are provided with ;;;; absolutely no warranty. See the COPYING and CREDITS files for more ;;;; information. ;;;; copyright information from original PCL sources: ;;;; ;;;; Copyright (c) 1985, 1986, 1987, 1988, 1989, 1990 Xerox Corporation. ;;;; All rights reserved. ;;;; ;;;; Use and copying of this software and preparation of derivative works based ;;;; upon this software are permitted. Any distribution of this software or ;;;; derivative works must comply with all applicable United States export ;;;; control laws. ;;;; ;;;; This software is made available AS IS, and Xerox Corporation makes no ;;;; warranty about the software, its performance or its conformity to any ;;;; specification. (in-package "SB-PCL") (defmethod slot-accessor-function ((slotd effective-slot-definition) type) (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) (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) (defconstant +slotd-boundp-function-std-p+ 4) (defconstant +slotd-all-function-std-p+ 7) (defmethod slot-accessor-std-p ((slotd effective-slot-definition) type) (let ((flags (slot-value slotd 'accessor-flags))) (declare (type fixnum flags)) (if (eq type 'all) (eql +slotd-all-function-std-p+ flags) (let ((mask (ecase type (reader +slotd-reader-function-std-p+) (writer +slotd-writer-function-std-p+) (boundp +slotd-boundp-function-std-p+)))) (declare (type fixnum mask)) (not (zerop (the fixnum (logand mask flags)))))))) (defmethod (setf slot-accessor-std-p) (value (slotd effective-slot-definition) type) (let ((mask (ecase type (reader +slotd-reader-function-std-p+) (writer +slotd-writer-function-std-p+) (boundp +slotd-boundp-function-std-p+))) (flags (slot-value slotd 'accessor-flags))) (declare (type fixnum mask flags)) (setf (slot-value slotd 'accessor-flags) (if value (the fixnum (logior mask flags)) (the fixnum (logand (the fixnum (lognot mask)) flags))))) value) (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)) (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))) ;; 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: ;;; ;;; Compute an effective method for SLOT-VALUE-USING-CLASS, (SETF ;;; SLOT-VALUE-USING-CLASS) or SLOT-BOUNDP-USING-CLASS for reading/ ;;; writing/testing effective slot SLOTD. ;;; ;;; TYPE is one of the symbols READER, WRITER or BOUNDP, depending on ;;; GF. Store the effective method in the effective slot definition ;;; object itself; these GFs have special dispatch functions calling ;;; effective methods directly retrieved from effective slot ;;; definition objects, as an optimization. ;;; ;;; FIXME: Change the function name to COMPUTE-SVUC-SLOTD-FUNCTION, ;;; or some such. (defmethod compute-slot-accessor-info ((slotd effective-slot-definition) type gf) (let* ((name (slot-value slotd 'name)) (class (slot-value slotd '%class))) (multiple-value-bind (function std-p) (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) (setf (slot-accessor-function slotd type) function)))) (defmethod slot-definition-allocation ((slotd structure-slot-definition)) :instance) ;;;; various class accessors that are a little more complicated than can be ;;;; done with automatically generated reader methods (defmethod class-prototype :before (class) (unless (class-finalized-p class) (error "~@<~S is not finalized.~:@>" class))) ;;; KLUDGE: For some reason factoring the common body into a function ;;; breaks PCL bootstrapping, so just generate it with a macrolet for ;;; all. (macrolet ((def (class) `(defmethod class-prototype ((class ,class)) (with-slots (prototype) class (or prototype (setf prototype (allocate-instance class))))))) (def std-class) (def condition-class) (def structure-class)) (defmethod class-direct-default-initargs ((class slot-class)) (plist-value class 'direct-default-initargs)) (defmethod class-default-initargs ((class slot-class)) (plist-value class 'default-initargs)) (defmethod class-slot-cells ((class std-class)) (plist-value class 'class-slot-cells)) (defmethod (setf class-slot-cells) (new-value (class std-class)) (setf (plist-value class 'class-slot-cells) new-value)) ;;;; class accessors that are even a little bit more complicated than those ;;;; above. These have a protocol for updating them, we must implement that ;;;; protocol. ;;; Maintaining the direct subclasses backpointers. The update methods are ;;; 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 :test #'eq) subclass)) (defmethod remove-direct-subclass ((class class) (subclass class)) (with-slots (direct-subclasses) class (setq direct-subclasses (remove subclass direct-subclasses)) subclass)) ;;; Maintaining the direct-methods and direct-generic-functions backpointers. ;;; ;;; There are four generic functions involved, each has one method for the ;;; class case and another method for the damned EQL specializers. All of ;;; these are specified methods and appear in their specified place in the ;;; class graph. ;;; ;;; ADD-DIRECT-METHOD ;;; REMOVE-DIRECT-METHOD ;;; SPECIALIZER-DIRECT-METHODS ;;; SPECIALIZER-DIRECT-GENERIC-FUNCTIONS ;;; ;;; In each case, we maintain one value which is a cons. The car is the list ;;; methods. The cdr is a list of the generic functions. The cdr is always ;;; computed lazily. ;;; 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-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-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-system-lock (*specializer-lock*) (call-next-method))) (defmethod add-direct-method ((specializer class) (method method)) (let ((cell (slot-value specializer 'direct-methods))) ;; We need to first smash the CDR, because a parallel read may ;; 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) :test #'eq))) method) (defmethod remove-direct-method ((specializer class) (method method)) (let ((cell (slot-value specializer 'direct-methods))) ;; We need to first smash the CDR, because a parallel read may ;; be in progress, and because if an interrupt catches us we ;; need to have a consistent state. (setf (cdr cell) () (car cell) (remove method (car cell)))) method) (defmethod specializer-direct-methods ((specializer class)) (with-slots (direct-methods) specializer (car direct-methods))) (defmethod specializer-direct-generic-functions ((specializer class)) (let ((cell (slot-value specializer 'direct-methods))) ;; If an ADD/REMOVE-METHOD is in progress, no matter: either ;; 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-mutex (*specializer-lock*) (setf (cdr cell) (let (collect) (dolist (m (car cell)) ;; the old PCL code used COLLECTING-ONCE which used ;; #'EQ to check for newness (pushnew (method-generic-function m) collect :test #'eq)) (nreverse collect))))))) ;;; 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. ;;; ;;; 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*) (defmethod specializer-method-table ((specializer class-eq-specializer)) *class-eq-specializer-methods*) (defmethod add-direct-method ((specializer specializer-with-object) (method method)) (let* ((object (specializer-object specializer)) (table (specializer-method-table specializer)) (entry (gethash object table))) (unless entry (setf entry (setf (gethash object table) (cons nil nil)))) ;; We need to first smash the CDR, because a parallel read may ;; 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) :test #'eq)) method)) (defmethod remove-direct-method ((specializer specializer-with-object) (method method)) (let* ((object (specializer-object specializer)) (entry (gethash object (specializer-method-table specializer)))) (when entry ;; We need to first smash the CDR, because a parallel read may ;; be in progress, and because if an interrupt catches us we ;; need to have a consistent state. (setf (cdr entry) () (car entry) (remove method (car entry)))) method)) (defmethod specializer-direct-methods ((specializer specializer-with-object)) (car (gethash (specializer-object specializer) (specializer-method-table specializer)))) (defmethod specializer-direct-generic-functions ((specializer specializer-with-object)) (let* ((object (specializer-object specializer)) (entry (gethash object (specializer-method-table specializer)))) (when entry (or (cdr entry) (sb-thread:with-mutex (*specializer-lock*) (setf (cdr entry) (let (collect) (dolist (m (car entry)) (pushnew (method-generic-function m) collect :test #'eq)) (nreverse collect)))))))) (defun map-specializers (function) (map-all-classes (lambda (class) (funcall function (class-eq-specializer class)) (funcall function class))) (maphash (lambda (object methods) (declare (ignore methods)) (intern-eql-specializer object)) *eql-specializer-methods*) (maphash (lambda (object specl) (declare (ignore object)) (funcall function specl)) *eql-specializer-table*) nil) (defun map-all-generic-functions (function) (let ((all-generic-functions (make-hash-table :test 'eq))) (map-specializers (lambda (specl) (dolist (gf (specializer-direct-generic-functions specl)) (unless (gethash gf all-generic-functions) (setf (gethash gf all-generic-functions) t) (funcall function gf)))))) nil) (defmethod shared-initialize :after ((specl class-eq-specializer) slot-names &key) (declare (ignore slot-names)) (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) `(eql ,(specializer-object specl))) (setf (info :type :translator specl) (constantly (make-member-type :members (list (specializer-object specl)))))) (defun real-load-defclass (name metaclass-name supers slots other readers writers slot-names source-location safe-p) (with-single-package-locked-error (:symbol name "defining ~S as a class") (%compiler-defclass name readers writers slot-names) (let ((res (apply #'ensure-class name :metaclass metaclass-name :direct-superclasses supers :direct-slots slots :definition-source source-location 'safe-p safe-p other))) res))) (setf (gdefinition 'load-defclass) #'real-load-defclass) (defun ensure-class (name &rest 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) (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) (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) (flet ((frob-superclass (s) (cond ((classp s) s) ((legal-class-name-p s) (or (find-class s nil) (ensure-class s :metaclass 'forward-referenced-class))) (t (error "Not a class or a legal class name: ~S." s))))) (doplist (key val) args (cond ((eq key :metaclass) (unless metaclassp (setf metaclass val metaclassp key))) (t (when (eq key :direct-superclasses) (setf val (mapcar #'frob-superclass val))) (setf reversed-plist (list* val key reversed-plist))))) (values (cond (metaclassp (if (classp metaclass) metaclass (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)) (defmethod shared-initialize :after ((class std-class) slot-names &key (direct-superclasses nil direct-superclasses-p) (direct-slots nil direct-slots-p) (direct-default-initargs nil direct-default-initargs-p) definition-source) (cond (direct-superclasses-p (setq direct-superclasses (or direct-superclasses (list (if (funcallable-standard-class-p class) *the-class-funcallable-standard-object* *the-class-standard-object*)))) (dolist (superclass direct-superclasses) (unless (validate-superclass class superclass) (error "~@" 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)))) (setq direct-slots (if direct-slots-p (setf (slot-value class 'direct-slots) (mapcar (lambda (pl) (make-direct-slotd class pl)) direct-slots)) (slot-value class 'direct-slots))) (if direct-default-initargs-p (setf (plist-value class 'direct-default-initargs) direct-default-initargs) (setq direct-default-initargs (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)) ;; see CLHS 4.3.6 (let* ((name (slot-definition-name dslotd)) (old (assoc name old-class-slot-cells))) (if (or (not old) (eq t slot-names) (member name slot-names :test #'eq)) (let* ((initfunction (slot-definition-initfunction dslotd)) (value (if initfunction (call-initfun initfunction dslotd safe) +slot-unbound+))) (push (cons name value) collect)) (push old collect))))) (nreverse collect))) (add-direct-subclasses class direct-superclasses) (if (class-finalized-p class) ;; required by AMOP, "Reinitialization of Class Metaobjects" (finalize-inheritance class) (update-class class nil)) (add-slot-accessors class direct-slots definition-source) (make-preliminary-layout class)) (defmethod shared-initialize :after ((class forward-referenced-class) slot-names &key &allow-other-keys) (declare (ignore slot-names)) (make-preliminary-layout class)) (defvar *allow-forward-referenced-classes-in-cpl-p* nil) ;;; Give CLASS a preliminary layout if it doesn't have one already, to ;;; make it known to the type system. (defun make-preliminary-layout (class) (flet ((compute-preliminary-cpl (root) (let ((*allow-forward-referenced-classes-in-cpl-p* t)) (compute-class-precedence-list root)))) (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) (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 'class-eq-specializer) (make-instance 'class-eq-specializer :class class))) (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))) (defmethod reinitialize-instance :after ((class slot-class) &rest initargs &key) (map-dependents class (lambda (dependent) (apply #'update-dependent class dependent initargs)))) (defmethod reinitialize-instance :after ((class condition-class) &key) (let* ((name (class-name class)) (classoid (find-classoid name)) (slots (condition-classoid-slots classoid))) ;; to balance the REMOVE-SLOT-ACCESSORS call in ;; REINITIALIZE-INSTANCE :BEFORE (SLOT-CLASS). (dolist (slot slots) (let ((slot-name (condition-slot-name slot))) (dolist (reader (condition-slot-readers slot)) ;; FIXME: see comment in SHARED-INITIALIZE :AFTER ;; (CONDITION-CLASS T), below. -- CSR, 2005-11-18 (sb-kernel::install-condition-slot-reader reader name slot-name)) (dolist (writer (condition-slot-writers slot)) (sb-kernel::install-condition-slot-writer writer name slot-name)))))) (defmethod shared-initialize :after ((class condition-class) slot-names &key direct-slots direct-superclasses) (declare (ignore slot-names)) (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) 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) (setf (layout-slot-table wrapper) (make-slot-table class slots))))) ;; Comment from Gerd's PCL, 2003-05-15: ;; ;; We don't ADD-SLOT-ACCESSORS here because we don't want to ;; override condition accessors with generic functions. We do this ;; differently. ;; ;; ??? What does the above comment mean and why is it a good idea? ;; CMUCL (which still as of 2005-11-18 uses this code and has this ;; comment) loses slot information in its condition classes: ;; DIRECT-SLOTS is always NIL. We have the right information, so we ;; remove slot accessors but never put them back. I've added a ;; REINITIALIZE-INSTANCE :AFTER (CONDITION-CLASS) method, but what ;; was meant to happen? -- CSR, 2005-11-18 ) (defmethod direct-slot-definition-class ((class condition-class) &rest initargs) (declare (ignore initargs)) (find-class 'condition-direct-slot-definition)) (defmethod effective-slot-definition-class ((class condition-class) &rest initargs) (declare (ignore initargs)) (find-class 'condition-effective-slot-definition)) (defmethod finalize-inheritance ((class condition-class)) (aver (slot-value class 'finalized-p)) nil) (defmethod compute-effective-slot-definition ((class condition-class) slot-name dslotds) (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-info-writer info) (lambda (v x) (condition-writer-function x v slot-name))) (setf (slot-info-boundp info) (lambda (x) (multiple-value-bind (v c) (ignore-errors (condition-reader-function x slot-name)) (declare (ignore v)) (null c)))) slotd)) (defmethod compute-slots ((class condition-class)) (mapcan (lambda (superclass) (mapcar (lambda (dslotd) (compute-effective-slot-definition class (slot-definition-name dslotd) (list dslotd))) (class-direct-slots superclass))) (reverse (slot-value class '%class-precedence-list)))) (defmethod compute-slots :around ((class condition-class)) (let ((eslotds (call-next-method))) (mapc #'finalize-internal-slot-functions eslotds) eslotds)) (defmethod shared-initialize :after ((slotd structure-slot-definition) slot-names &key (allocation :instance) allocation-class) (declare (ignore slot-names allocation-class)) (unless (eq allocation :instance) (error "Structure slots must have :INSTANCE allocation."))) (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)) (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 (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 ,defstruct ,@readers-init ,@writers-init (cons nil nil)))) (values defstruct-form constructor reader-names writer-names)))) (defun make-defstruct-allocation-function (name) ;; FIXME: Why don't we go class->layout->info == 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 (direct-superclasses nil direct-superclasses-p) (direct-slots nil direct-slots-p) direct-default-initargs definition-source) (declare (ignore slot-names direct-default-initargs)) (if direct-superclasses-p (setf (slot-value class 'direct-superclasses) (or direct-superclasses (setq direct-superclasses (and (not (eq (slot-value class 'name) 'structure-object)) (list *the-class-structure-object*))))) (setq direct-superclasses (slot-value class 'direct-superclasses))) (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 'direct-slots) (setq direct-slots (mapcar (lambda (pl) (when defstruct-p (let* ((slot-name (getf pl :name)) (accessor (format-symbol *package* "~S structure class ~A" name slot-name))) (setq pl (list* :defstruct-accessor-symbol accessor pl)))) (make-direct-slotd class pl)) direct-slots))) (setq direct-slots (slot-value class 'direct-slots))) (if defstruct-p (let ((include (car (slot-value class 'direct-superclasses)))) (multiple-value-bind (defstruct-form constructor reader-names writer-names) (make-structure-class-defstruct-form name direct-slots include) (unless (structure-type-p name) (eval defstruct-form)) (mapc (lambda (dslotd reader-name writer-name) (let* ((reader (gdefinition reader-name)) (writer (when (fboundp writer-name) (gdefinition writer-name)))) (setf (slot-value dslotd 'internal-reader-function) reader) (setf (slot-value dslotd 'internal-writer-function) writer))) direct-slots reader-names writer-names) (setf (slot-value class 'defstruct-form) defstruct-form) (setf (slot-value class 'defstruct-constructor) constructor))) (setf (slot-value class 'defstruct-constructor) ;; 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 (slot-value class 'name))) (layout (classoid-layout lclass))) (setf (classoid-pcl-class lclass) class) (setf (slot-value class 'wrapper) layout) (setf (layout-slot-table layout) (make-slot-table class slots)))) (setf (slot-value class 'finalized-p) t) (add-slot-accessors class direct-slots definition-source))) (defmethod direct-slot-definition-class ((class structure-class) &rest initargs) (declare (ignore initargs)) (find-class 'structure-direct-slot-definition)) (defmethod finalize-inheritance ((class structure-class)) nil) ; always finalized (defun add-slot-accessors (class dslotds &optional source-location) (fix-slot-accessors class dslotds 'add source-location)) (defun remove-slot-accessors (class dslotds) (fix-slot-accessors class dslotds 'remove)) (defun fix-slot-accessors (class dslotds add/remove &optional source-location) (flet ((fix (gfspec name r/w doc) (let ((gf (cond ((eq add/remove 'add) (or (find-generic-function gfspec nil) (ensure-generic-function gfspec :lambda-list (case r/w (r '(object)) (w '(new-value object)))))) (t (find-generic-function gfspec nil))))) (when gf (case r/w (r (if (eq add/remove 'add) (add-reader-method class gf name doc source-location) (remove-reader-method class gf))) (w (if (eq add/remove 'add) (add-writer-method class gf name doc source-location) (remove-writer-method class gf)))))))) (dolist (dslotd dslotds) (let ((slot-name (slot-definition-name dslotd)) (slot-doc (%slot-definition-documentation dslotd))) (dolist (r (slot-definition-readers dslotd)) (fix r slot-name 'r slot-doc)) (dolist (w (slot-definition-writers dslotd)) (fix w slot-name 'w slot-doc)))))) (defun add-direct-subclasses (class supers) (dolist (super supers) (unless (memq class (class-direct-subclasses class)) (add-direct-subclass super class)))) (defmethod finalize-inheritance ((class std-class)) (update-class class t)) (defmethod finalize-inheritance ((class forward-referenced-class)) ;; FIXME: should we not be thinking a bit about what kinds of error ;; we're throwing? Maybe we need a clos-error type to mix in? Or ;; possibly a forward-referenced-class-error, though that's ;; difficult given e.g. class precedence list calculations... (error "~@" class)) (defun class-has-a-forward-referenced-superclass-p (class) (or (when (forward-referenced-class-p class) class) (some #'class-has-a-forward-referenced-superclass-p (class-direct-superclasses 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) (without-package-locks (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) (cpl :initarg :cpl :reader cpl-protocol-violation-cpl)) (:default-initargs :references (list '(:sbcl :node "Metaobject Protocol"))) (:report (lambda (c s) (format s "~@" (class-name (class-of (cpl-protocol-violation-class c))) (cpl-protocol-violation-class c) (eq (class-of (cpl-protocol-violation-class c)) *the-class-funcallable-standard-class*) (find-class 'function) (cpl-protocol-violation-cpl c))))) (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))) (when (eq (class-of class) *the-class-funcallable-standard-class*) (unless (find (find-class 'function) cpl) (error 'cpl-protocol-violation :class class :cpl cpl))) (if (class-finalized-p class) (unless (and (equal (class-precedence-list class) cpl) (dolist (c cpl t) (when (position :class (class-direct-slots c) :key #'slot-definition-allocation) (return nil)))) ;; 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 'cpl-available-p) t) (%force-cache-flushes class)) (progn (setf (slot-value class '%class-precedence-list) cpl) (setf (slot-value class 'cpl-available-p) t))) (update-class-can-precede-p cpl)) (defun update-class-can-precede-p (cpl) (when cpl (let ((first (car cpl))) (dolist (c (cdr cpl)) (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) :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 "~@~@:>" 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)) ((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-length nwrapper) nslots (slot-value class 'wrapper) nwrapper) (style-warn-about-duplicate-slots class) (setf (slot-value class 'finalized-p) t) (unless (eq owrapper nwrapper) (maybe-update-standard-slot-locations class))))) (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 :test #'eq) (member *the-class-standard-effective-slot-definition* cpl :test #'eq)))) (let ((gf-table (make-hash-table :test 'eq))) (labels ((collect-gfs (class) (dolist (gf (specializer-direct-generic-functions class)) (setf (gethash gf gf-table) t)) (mapc #'collect-gfs (class-direct-superclasses class)))) (collect-gfs class) (maphash (lambda (gf ignore) (declare (ignore ignore)) (update-gf-dfun class gf)) gf-table))))) (defmethod compute-default-initargs ((class slot-class)) (let ((initargs (loop for c in (class-precedence-list class) append (class-direct-default-initargs c)))) (delete-duplicates initargs :test #'eq :key #'car :from-end t))) ;;;; protocols for constructing direct and effective slot definitions (defmethod direct-slot-definition-class ((class std-class) &rest initargs) (declare (ignore initargs)) (find-class 'standard-direct-slot-definition)) (defun make-direct-slotd (class initargs) (apply #'make-instance (apply #'direct-slot-definition-class class initargs) :class class initargs)) ;;; I (CSR) am not sure, but I believe that the particular order of ;;; slots is quite important: it is ideal to attempt to have a ;;; constant slot location for the same notional slots as much as ;;; possible, so that clever discriminating functions (ONE-INDEX et ;;; al.) have a chance of working. The below at least walks through ;;; the slots predictably, but maybe it would be good to compute some ;;; kind of optimal slot layout by looking at locations of slots in ;;; superclasses? (defun std-compute-slots (class) ;; As specified, we must call COMPUTE-EFFECTIVE-SLOT-DEFINITION once ;; for each different slot name we find in our superclasses. Each ;; call receives the class and a list of the dslotds with that name. ;; The list is in most-specific-first order. (let ((name-dslotds-alist ())) (dolist (c (reverse (class-precedence-list class))) (dolist (slot (class-direct-slots c)) (let* ((name (slot-definition-name slot)) (entry (assq name name-dslotds-alist))) (if entry (push slot (cdr entry)) (push (list name slot) name-dslotds-alist))))) (mapcar (lambda (direct) (compute-effective-slot-definition class (car direct) (cdr direct))) (nreverse name-dslotds-alist)))) (defmethod compute-slots ((class standard-class)) (std-compute-slots class)) (defmethod compute-slots ((class funcallable-standard-class)) (std-compute-slots class)) (defun std-compute-slots-around (class eslotds) (let ((location -1) (safe (safe-p class))) (dolist (eslotd eslotds eslotds) (setf (slot-definition-location eslotd) (case (slot-definition-allocation eslotd) (:instance (incf location)) (:class (let* ((name (slot-definition-name eslotd)) (from-class (or (slot-definition-allocation-class eslotd) ;; we get here if the user adds an extra slot ;; himself... (setf (slot-definition-allocation-class eslotd) class))) ;; which raises the question of what we should ;; do if we find that said user has added a slot ;; with the same name as another slot... (cell (or (assq name (class-slot-cells from-class)) (let ((c (cons name +slot-unbound+))) (push c (class-slot-cells from-class)) c)))) (aver (consp cell)) (if (eq +slot-unbound+ (cdr cell)) ;; 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 (call-initfun initfun eslotd safe)) cell)) cell))))) (unless (slot-definition-class eslotd) (setf (slot-definition-class eslotd) class)) (initialize-internal-slot-functions eslotd)))) (defmethod compute-slots :around ((class standard-class)) (let ((eslotds (call-next-method))) (std-compute-slots-around class eslotds))) (defmethod compute-slots :around ((class funcallable-standard-class)) (let ((eslotds (call-next-method))) (std-compute-slots-around class eslotds))) (defmethod compute-slots ((class structure-class)) (mapcan (lambda (superclass) (mapcar (lambda (dslotd) (compute-effective-slot-definition class (slot-definition-name dslotd) (list dslotd))) (class-direct-slots superclass))) (reverse (slot-value class '%class-precedence-list)))) (defmethod compute-slots :around ((class structure-class)) (let ((eslotds (call-next-method))) (mapc #'finalize-internal-slot-functions eslotds) eslotds)) (defmethod compute-effective-slot-definition ((class slot-class) name dslotds) (let* ((initargs (compute-effective-slot-definition-initargs class dslotds)) (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)) (find-class 'standard-effective-slot-definition)) (defmethod effective-slot-definition-class ((class structure-class) &rest initargs) (declare (ignore initargs)) (find-class 'structure-effective-slot-definition)) (defmethod compute-effective-slot-definition-initargs ((class slot-class) direct-slotds) (let* ((name nil) (initfunction nil) (initform nil) (initargs nil) (allocation nil) (allocation-class nil) (type t) (documentation nil) (documentationp nil) (namep nil) (initp nil) (allocp nil)) (dolist (slotd direct-slotds) (when slotd (unless namep (setq name (slot-definition-name slotd) namep t)) (unless initp (awhen (slot-definition-initfunction slotd) (setq initform (slot-definition-initform slotd) initfunction it initp t))) (unless documentationp (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 ((slotd-type (slot-definition-type slotd))) (setq type (cond ((eq type t) slotd-type) ;; This pairwise type intersection is perhaps a ;; little inefficient and inelegant, but it's ;; unlikely to lie on the critical path. Shout ;; if I'm wrong. -- CSR, 2005-11-24 (t (type-specifier (specifier-type `(and ,type ,slotd-type))))))))) (list :name name :initform initform :initfunction initfunction :initargs initargs :allocation allocation :allocation-class allocation-class :type type :class class :documentation documentation))) (defmethod compute-effective-slot-definition-initargs :around ((class structure-class) direct-slotds) (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 (slot-definition-internal-writer-function slotd) (call-next-method)))) ;;; NOTE: For bootstrapping considerations, these can't use MAKE-INSTANCE ;;; to make the method object. They have to use make-a-method which ;;; is a specially bootstrapped mechanism for making standard methods. (defmethod reader-method-class ((class slot-class) direct-slot &rest initargs) (declare (ignore direct-slot initargs)) (find-class 'standard-reader-method)) (defmethod add-reader-method ((class slot-class) generic-function slot-name slot-documentation source-location) (add-method generic-function (make-a-method 'standard-reader-method () (list (or (class-name class) 'object)) (list class) (make-reader-method-function class slot-name) (or slot-documentation "automatically generated reader method") :slot-name slot-name :object-class class :method-class-function #'reader-method-class :definition-source source-location))) (defmethod writer-method-class ((class slot-class) direct-slot &rest initargs) (declare (ignore direct-slot initargs)) (find-class 'standard-writer-method)) (defmethod add-writer-method ((class slot-class) generic-function slot-name slot-documentation source-location) (add-method generic-function (make-a-method 'standard-writer-method () (list 'new-value (or (class-name class) 'object)) (list *the-class-t* class) (make-writer-method-function class slot-name) (or slot-documentation "automatically generated writer method") :slot-name slot-name :object-class class :method-class-function #'writer-method-class :definition-source source-location))) (defmethod add-boundp-method ((class slot-class) generic-function slot-name slot-documentation source-location) (add-method generic-function (make-a-method (constantly (find-class 'standard-boundp-method)) class () (list (or (class-name class) 'object)) (list class) (make-boundp-method-function class slot-name) (or slot-documentation "automatically generated boundp method") :slot-name slot-name :definition-source source-location))) (defmethod remove-reader-method ((class slot-class) generic-function) (let ((method (get-method generic-function () (list class) nil))) (when method (remove-method generic-function method)))) (defmethod remove-writer-method ((class slot-class) generic-function) (let ((method (get-method generic-function () (list *the-class-t* class) nil))) (when method (remove-method generic-function method)))) (defmethod remove-boundp-method ((class slot-class) generic-function) (let ((method (get-method generic-function () (list class) nil))) (when method (remove-method generic-function method)))) ;;; MAKE-READER-METHOD-FUNCTION and MAKE-WRITER-METHOD-FUNCTION ;;; function are NOT part of the standard protocol. They are however ;;; useful; PCL makes use of them internally and documents them for ;;; PCL users. (FIXME: but SBCL certainly doesn't) ;;; ;;; *** This needs work to make type testing by the writer functions which ;;; *** do type testing faster. The idea would be to have one constructor ;;; *** for each possible type test. ;;; ;;; *** There is a subtle bug here which is going to have to be fixed. ;;; *** Namely, the simplistic use of the template has to be fixed. We ;;; *** have to give the OPTIMIZE-SLOT-VALUE method the user might have ;;; *** defined for this metaclass a chance to run. (defmethod make-reader-method-function ((class slot-class) slot-name) (make-std-reader-method-function class slot-name)) (defmethod make-writer-method-function ((class slot-class) slot-name) (make-std-writer-method-function class slot-name)) (defmethod make-boundp-method-function ((class slot-class) slot-name) (make-std-boundp-method-function class slot-name)) (defmethod compatible-meta-class-change-p (class proto-new-class) (eq (class-of class) (class-of proto-new-class))) (defmethod validate-superclass ((class class) (superclass class)) (or (eq superclass *the-class-t*) (eq (class-of class) (class-of superclass)) (and (eq (class-of superclass) *the-class-standard-class*) (eq (class-of class) *the-class-funcallable-standard-class*)) (and (eq (class-of superclass) *the-class-funcallable-standard-class*) (eq (class-of class) *the-class-standard-class*)))) ;;; What this does depends on which of the four possible values of ;;; LAYOUT-INVALID the PCL wrapper has; the simplest case is when it ;;; is (:FLUSH ) or (:OBSOLETE ), when there is ;;; nothing to do, as the new wrapper has already been created. If ;;; LAYOUT-INVALID returns NIL, then we invalidate it (setting it to ;;; (:FLUSH ); UPDATE-SLOTS later gets to choose whether or ;;; not to "upgrade" this to (:OBSOLETE ). ;;; ;;; This leaves the case where LAYOUT-INVALID returns T, which happens ;;; when REGISTER-LAYOUT has invalidated a superclass of CLASS (which ;;; invalidated all the subclasses in SB-KERNEL land). Again, here we ;;; must flush the caches and allow UPDATE-SLOTS to decide whether to ;;; obsolete the wrapper. ;;; ;;; FIXME: either here or in INVALID-WRAPPER-P looks like a good place ;;; for (AVER (NOT (EQ (LAYOUT-INVALID OWRAPPER) ;;; :UNINITIALIZED))) ;;; ;;; Thanks to Gerd Moellmann for the explanation. -- CSR, 2002-10-29 (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 ;; both of those will already be doing what we want. In ;; particular, we must be sure we never change an OBSOLETE into a ;; FLUSH since OBSOLETE means do what FLUSH does and then some. (when (or (not (invalid-wrapper-p owrapper)) ;; KLUDGE: despite the observations above, this remains ;; a violation of locality or what might be considered ;; good style. There has to be a better way! -- CSR, ;; 2002-10-29 (eq (layout-invalid owrapper) t)) (let ((nwrapper (make-wrapper (layout-length owrapper) 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) ;; 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)))))) ;;; 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)) (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) class))) (defmethod make-instances-obsolete ((class symbol)) (make-instances-obsolete (find-class class)) ;; ANSI wants the class name when called with a symbol. class) ;;; OBSOLETE-INSTANCE-TRAP is the internal trap that is called when we ;;; see an obsolete instance. The times when it is called are: ;;; - when the instance is involved in method lookup ;;; - when attempting to access a slot of an instance ;;; ;;; It is not called by class-of, wrapper-of, or any of the low-level ;;; instance access macros. ;;; ;;; Of course these times when it is called are an internal ;;; implementation detail of PCL and are not part of the documented ;;; description of when the obsolete instance update happens. The ;;; documented description is as it appears in 88-002R. ;;; ;;; This has to return the new wrapper, so it counts on all the ;;; methods on obsolete-instance-trap-internal to return the new ;;; wrapper. It also does a little internal error checking to make ;;; sure that the traps are only happening when they should, and that ;;; the trap methods are computing appropriate new wrappers. ;;; OBSOLETE-INSTANCE-TRAP might be called on structure instances ;;; after a structure is redefined. In most cases, ;;; OBSOLETE-INSTANCE-TRAP will not be able to fix the old instance, ;;; so it must signal an error. The hard part of this is that the ;;; error system and debugger might cause OBSOLETE-INSTANCE-TRAP to be ;;; called again, so in that case, we have to return some reasonable ;;; wrapper, instead. (defvar *in-obsolete-instance-trap* nil) (defvar *the-wrapper-of-structure-object* (class-wrapper (find-class 'structure-object))) (define-condition obsolete-structure (error) ((datum :reader obsolete-structure-datum :initarg :datum)) (:report (lambda (condition stream) ;; Don't try to print the structure, since it probably won't work. (format stream "~@" (type-of (obsolete-structure-datum condition)))))) (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* ((class (wrapper-class* nwrapper)) (copy (allocate-instance class)) ;??? allocate-instance ??? (oslots (get-slots instance)) (nslots (get-slots copy)) (added ()) (discarded ()) (plist ()) (safe (safe-p class))) ;; local --> local transfer value, check type ;; local --> shared discard value, discard slot ;; local --> -- discard slot ;; 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 -- ;; -- --> 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) "~@" 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 discarded plist) nwrapper))) (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-slots (get-slots instance)) (new-slots (get-slots copy)) (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) "~@" (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) (apply #'update-instance-for-different-class copy instance initargs) instance)) (defmethod change-class ((instance standard-object) (new-class standard-class) &rest 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 "~@" :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) (with-world-lock () (let ((cpl (class-precedence-list new-class))) (dolist (class cpl (error 'metaobject-initialization-violation :format-control "~@" :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) (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 "~@" :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) &rest initargs) (declare (ignore initargs)) (error "You can't change the class of ~S to ~S~@ because it isn't already an instance with metaclass ~S." instance new-class 'standard-class)) (defmethod change-class ((instance funcallable-standard-object) (new-class standard-class) &rest initargs) (declare (ignore initargs)) (error "You can't change the class of ~S to ~S~@ because it isn't already an instance with metaclass ~S." instance new-class 'funcallable-standard-class)) (defmethod change-class ((instance t) (new-class-name symbol) &rest initargs) (apply #'change-class instance (find-class new-class-name) initargs)) ;;;; The metaclass BUILT-IN-CLASS ;;;; ;;;; This metaclass is something of a weird creature. By this point, all ;;;; instances of it which will exist have been created, and no instance ;;;; is ever created by calling MAKE-INSTANCE. ;;;; ;;;; But, there are other parts of the protocol we must follow and those ;;;; definitions appear here. (macrolet ((def (name args control) `(defmethod ,name ,args (declare (ignore initargs)) (error 'metaobject-initialization-violation :format-control ,(format nil "~@<~A~@:>" control) :format-arguments (list ',name) :references (list '(:amop :initialization "Class")))))) (def initialize-instance ((class built-in-class) &rest initargs) "Cannot ~S an instance of BUILT-IN-CLASS.") (def reinitialize-instance ((class built-in-class) &rest initargs) "Cannot ~S an instance of BUILT-IN-CLASS.")) (macrolet ((def (name) `(defmethod ,name ((class built-in-class)) nil))) (def class-direct-slots) (def class-slots) (def class-direct-default-initargs) (def class-default-initargs)) (defmethod validate-superclass ((c class) (s built-in-class)) (or (eq s *the-class-t*) (eq s *the-class-stream*) ;; FIXME: bad things happen if someone tries to mix in both ;; FILE-STREAM and STRING-STREAM (as they have the same ;; layout-depthoid). Is there any way we can provide a useful ;; error message? -- CSR, 2005-05-03 (eq s *the-class-file-stream*) (eq s *the-class-string-stream*) ;; This probably shouldn't be mixed in with certain other ;; classes, too, but it seems to work both with STANDARD-OBJECT ;; and FUNCALLABLE-STANDARD-OBJECT (eq s *the-class-sequence*))) ;;; Some necessary methods for FORWARD-REFERENCED-CLASS (defmethod class-direct-slots ((class forward-referenced-class)) ()) (defmethod class-direct-default-initargs ((class forward-referenced-class)) ()) (macrolet ((def (method) `(defmethod ,method ((class forward-referenced-class)) (error "~@<~I~S was called on a forward referenced class:~2I~_~S~:>" ',method class)))) (def class-default-initargs) (def class-precedence-list) (def class-slots)) (defmethod validate-superclass ((c slot-class) (f forward-referenced-class)) t) (defmethod add-dependent ((metaobject dependent-update-mixin) dependent) (pushnew dependent (plist-value metaobject 'dependents) :test #'eq)) (defmethod remove-dependent ((metaobject dependent-update-mixin) dependent) (setf (plist-value metaobject 'dependents) (delete dependent (plist-value metaobject 'dependents)))) (defmethod map-dependents ((metaobject dependent-update-mixin) function) (dolist (dependent (plist-value metaobject 'dependents)) (funcall function dependent)))