;;; clos.lisp ;;; ;;; Copyright (C) 2003-2007 Peter Graves ;;; Copyright (C) 2010-2013 Mark Evenson ;;; $Id$ ;;; ;;; This program is free software; you can redistribute it and/or ;;; modify it under the terms of the GNU General Public License ;;; as published by the Free Software Foundation; either version 2 ;;; of the License, or (at your option) any later version. ;;; ;;; This program is distributed in the hope that it will be useful, ;;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;;; GNU General Public License for more details. ;;; ;;; You should have received a copy of the GNU General Public License ;;; along with this program; if not, write to the Free Software ;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ;;; ;;; As a special exception, the copyright holders of this library give you ;;; permission to link this library with independent modules to produce an ;;; executable, regardless of the license terms of these independent ;;; modules, and to copy and distribute the resulting executable under ;;; terms of your choice, provided that you also meet, for each linked ;;; independent module, the terms and conditions of the license of that ;;; module. An independent module is a module which is not derived from ;;; or based on this library. If you modify this library, you may extend ;;; this exception to your version of the library, but you are not ;;; obligated to do so. If you do not wish to do so, delete this ;;; exception statement from your version. ;;; Originally based on Closette. ;;; Closette Version 1.0 (February 10, 1991) ;;; ;;; Copyright (c) 1990, 1991 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. ;;; ;;; Closette is an implementation of a subset of CLOS with a metaobject ;;; protocol as described in "The Art of The Metaobject Protocol", ;;; MIT Press, 1991. (in-package #:mop) (export '(%defgeneric canonicalize-direct-superclasses)) ;; ;; ;; ;; In order to bootstrap CLOS, first implement the required API as ;; normal functions which only apply to the "root" metaclass ;; STANDARD-CLASS. ;; ;; After putting the normal functions in place, the building blocks ;; are in place to gradually swap the normal functions with ;; generic functions and methods. ;; ;; Some functionality implemented in the temporary regular functions ;; needs to be available later as a method definition to be dispatched ;; to for the standard case, e.g. with arguments of type STANDARD-CLASS ;; or STANDARD-GENERIC-FUNCTION. To prevent repeated code, the ;; functions are implemented in functions by the same name as the API ;; functions, but with the STD- prefix. These functions are sometimes ;; used in regular code as well, either in a "fast path" or to break a ;; circularity (e.g., within compute-discriminating-function when the ;; user adds a method to compute-discriminating-function). ;; ;; When hacking this file, note that some important parts are implemented ;; in the Java world. These Java bits can be found in the files ;; ;; * LispClass.java ;; * SlotClass.java ;; * StandardClass.java ;; * BuiltInClass.java ;; * StandardObject.java ;; * StandardObjectFunctions.java ;; * FuncallableStandardObject.java ;; * Layout.java ;; ;; In case of function names, those defined on the Java side can be ;; recognized by their prefixed percent (%) sign. ;; ;; The API functions need to be declaimed NOTINLINE explicitly, because ;; that prevents inlining in the current FASL (which is allowed by the ;; CLHS without the declaration); this is a hard requirement to in order ;; to be able to swap the symbol's function slot with a generic function ;; later on - with it actually being used. ;; ;; ;; ;; ### Note that the "declares all API functions as regular functions" ;; isn't true when I write the above, but it's definitely the target. ;; ;; A note about AMOP: the first chapters (and the sample Closette ;; implementation) of the book sometimes deviate from the specification. ;; For example, in the examples slot-value-using-class has the slot name ;; as third argument where in the specification it is the effective slot ;; definition. When in doubt, we aim to follow the specification, the ;; MOP test suite at http://common-lisp.net/project/closer/features.html ;; and the behavior of other CL implementations in preference to ;; chapters 1-4 and appendix D. (defconstant +the-standard-class+ (find-class 'standard-class)) (defconstant +the-funcallable-standard-class+ (find-class 'funcallable-standard-class)) (defconstant +the-standard-object-class+ (find-class 'standard-object)) (defconstant +the-funcallable-standard-object-class+ (find-class 'funcallable-standard-object)) (defconstant +the-standard-method-class+ (find-class 'standard-method)) (defconstant +the-T-class+ (find-class 'T)) (defconstant +the-standard-slot-definition-class+ (find-class 'standard-slot-definition)) (defconstant +the-standard-direct-slot-definition-class+ (find-class 'standard-direct-slot-definition)) (defconstant +the-standard-effective-slot-definition-class+ (find-class 'standard-effective-slot-definition)) ;; Don't use DEFVAR, because that disallows loading clos.lisp ;; after compiling it: the binding won't get assigned to T anymore (defparameter *clos-booting* t) (defmacro define-class->%class-forwarder (name) (let* (($name (if (consp name) (cadr name) name)) (%name (intern (concatenate 'string "%" (if (consp name) (symbol-name 'set-) "") (symbol-name $name)) (symbol-package $name)))) `(progn (declaim (notinline ,name)) (defun ,name (&rest args) (apply #',%name args))))) ;; ;; DEFINE PLACE HOLDER FUNCTIONS ;; (define-class->%class-forwarder class-name) (define-class->%class-forwarder (setf class-name)) (define-class->%class-forwarder class-slots) (define-class->%class-forwarder (setf class-slots)) (define-class->%class-forwarder class-direct-slots) (define-class->%class-forwarder (setf class-direct-slots)) (define-class->%class-forwarder class-layout) (define-class->%class-forwarder (setf class-layout)) (define-class->%class-forwarder class-direct-superclasses) (define-class->%class-forwarder (setf class-direct-superclasses)) (define-class->%class-forwarder class-direct-subclasses) (define-class->%class-forwarder (setf class-direct-subclasses)) (define-class->%class-forwarder class-direct-methods) (define-class->%class-forwarder (setf class-direct-methods)) (define-class->%class-forwarder class-precedence-list) (define-class->%class-forwarder (setf class-precedence-list)) (define-class->%class-forwarder class-finalized-p) (define-class->%class-forwarder (setf class-finalized-p)) (define-class->%class-forwarder class-default-initargs) (define-class->%class-forwarder (setf class-default-initargs)) (define-class->%class-forwarder class-direct-default-initargs) (define-class->%class-forwarder (setf class-direct-default-initargs)) (declaim (notinline add-direct-subclass remove-direct-subclass)) (defun add-direct-subclass (superclass subclass) (setf (class-direct-subclasses superclass) (adjoin subclass (class-direct-subclasses superclass)))) (defun remove-direct-subclass (superclass subclass) (setf (class-direct-subclasses superclass) (remove subclass (class-direct-subclasses superclass)))) (defun fixup-standard-class-hierarchy () ;; Make the result of class-direct-subclasses for the pre-built ;; classes agree with AMOP Table 5.1 (pg. 141). This could be done in ;; StandardClass.java where these classes are defined, but it's less ;; painful to do it Lisp-side. (flet ((add-subclasses (class subclasses) (when (atom subclasses) (setf subclasses (list subclasses))) (setf (class-direct-subclasses (find-class class)) (union (class-direct-subclasses (find-class class)) (mapcar #'find-class subclasses))))) (add-subclasses t 'standard-object) (add-subclasses 'function 'funcallable-standard-object) (add-subclasses 'standard-object '(funcallable-standard-object metaobject)) (add-subclasses 'metaobject '(method slot-definition specializer)) (add-subclasses 'specializer '(class)) (add-subclasses 'method 'standard-method) (add-subclasses 'slot-definition '(direct-slot-definition effective-slot-definition standard-slot-definition)) (add-subclasses 'standard-slot-definition '(standard-direct-slot-definition standard-effective-slot-definition)) (add-subclasses 'direct-slot-definition 'standard-direct-slot-definition) (add-subclasses 'effective-slot-definition 'standard-effective-slot-definition) (add-subclasses 'class '(built-in-class standard-class funcallable-standard-class)))) (fixup-standard-class-hierarchy) (defun std-class-p (class) (let ((metaclass (class-of class))) (or (eq metaclass +the-standard-class+) (eq metaclass +the-funcallable-standard-class+)))) (defun no-applicable-method (generic-function &rest args) (error "There is no applicable method for the generic function ~S when called with arguments ~S." generic-function args)) (defun function-keywords (method) (std-function-keywords method)) (declaim (notinline map-dependents)) (defun map-dependents (metaobject function) ;; stub, will be redefined later (declare (ignore metaobject function)) nil) (defmacro push-on-end (value location) `(setf ,location (nconc ,location (list ,value)))) ;;; (SETF GETF*) is like (SETF GETF) except that it always changes the list, ;;; which must be non-nil. (defun (setf getf*) (new-value plist key) (block body (do ((x plist (cddr x))) ((null x)) (when (eq (car x) key) (setf (car (cdr x)) new-value) (return-from body new-value))) (push-on-end key plist) (push-on-end new-value plist) new-value)) (defun mapappend (fun &rest args) (if (some #'null args) () (append (apply fun (mapcar #'car args)) (apply #'mapappend fun (mapcar #'cdr args))))) (defun mapplist (fun x) (if (null x) () (cons (funcall fun (car x) (cadr x)) (mapplist fun (cddr x))))) (defsetf std-slot-value set-std-slot-value) (defsetf std-instance-layout %set-std-instance-layout) (defsetf standard-instance-access %set-standard-instance-access) (defun funcallable-standard-instance-access (instance location) (standard-instance-access instance location)) (defsetf funcallable-standard-instance-access %set-standard-instance-access) (defun (setf find-class) (new-value symbol &optional errorp environment) (declare (ignore errorp environment)) (%set-find-class symbol new-value)) (defun canonicalize-direct-slots (direct-slots) `(list ,@(mapcar #'canonicalize-direct-slot direct-slots))) (defun canonicalize-direct-slot (spec) (if (symbolp spec) `(list :name ',spec) (let ((name (car spec)) (initfunction nil) (initform nil) (initargs ()) (type nil) (allocation nil) (documentation nil) (readers ()) (writers ()) (other-options ()) (non-std-options ())) (do ((olist (cdr spec) (cddr olist))) ((null olist)) (case (car olist) (:initform (when initform (error 'program-error "duplicate slot option :INITFORM for slot named ~S" name)) (setq initfunction t) (setq initform (cadr olist))) (:initarg (push-on-end (cadr olist) initargs)) (:allocation (when allocation (error 'program-error "duplicate slot option :ALLOCATION for slot named ~S" name)) (setf allocation (cadr olist)) (push-on-end (car olist) other-options) (push-on-end (cadr olist) other-options)) (:type (when type (error 'program-error "duplicate slot option :TYPE for slot named ~S" name)) (setf type (cadr olist))) (:documentation (when documentation (error 'program-error "duplicate slot option :DOCUMENTATION for slot named ~S" name)) (setf documentation (cadr olist))) (:reader (maybe-note-name-defined (cadr olist)) (push-on-end (cadr olist) readers)) (:writer (maybe-note-name-defined (cadr olist)) (push-on-end (cadr olist) writers)) (:accessor (maybe-note-name-defined (cadr olist)) (push-on-end (cadr olist) readers) (push-on-end `(setf ,(cadr olist)) writers)) (t (push-on-end (cadr olist) (getf non-std-options (car olist)))))) `(list :name ',name ,@(when initfunction `(:initform ',initform :initfunction ,(if (eq allocation :class) ;; CLHS specifies the initform for a ;; class allocation level slot needs ;; to be evaluated in the dynamic ;; extent of the DEFCLASS form (let ((var (gensym))) `(let ((,var ,initform)) (lambda () ,var))) `(lambda () ,initform)))) ,@(when initargs `(:initargs ',initargs)) ,@(when readers `(:readers ',readers)) ,@(when writers `(:writers ',writers)) ,@(when type `(:type ',type)) ,@(when documentation `(:documentation ',documentation)) ,@other-options ,@(mapcar #'(lambda (opt) (if (or (atom opt) (/= 1 (length opt))) `',opt `',(car opt))) non-std-options))))) (defun maybe-note-name-defined (name) (when (fboundp 'note-name-defined) (note-name-defined name))) (defun canonicalize-defclass-options (options) (mapappend #'canonicalize-defclass-option options)) (defun canonicalize-defclass-option (option) (case (car option) (:metaclass (list ':metaclass `(find-class ',(cadr option)))) (:default-initargs (list ':direct-default-initargs `(list ,@(mapplist #'(lambda (key value) `(list ',key ',value ,(make-initfunction value))) (cdr option))))) ((:documentation :report) (list (car option) `',(cadr option))) (t (list `(quote ,(car option)) `(quote ,(cdr option)))))) (defun make-initfunction (initform) `(function (lambda () ,initform))) (defun slot-definition-allocation (slot-definition) (std-slot-value slot-definition 'sys::allocation)) (declaim (notinline (setf slot-definition-allocation))) (defun (setf slot-definition-allocation) (value slot-definition) (setf (std-slot-value slot-definition 'sys::allocation) value)) (defun slot-definition-initargs (slot-definition) (std-slot-value slot-definition 'sys::initargs)) (declaim (notinline (setf slot-definition-initargs))) (defun (setf slot-definition-initargs) (value slot-definition) (setf (std-slot-value slot-definition 'sys::initargs) value)) (defun slot-definition-initform (slot-definition) (std-slot-value slot-definition 'sys::initform)) (declaim (notinline (setf slot-definition-initform))) (defun (setf slot-definition-initform) (value slot-definition) (setf (std-slot-value slot-definition 'sys::initform) value)) (defun slot-definition-initfunction (slot-definition) (std-slot-value slot-definition 'sys::initfunction)) (declaim (notinline (setf slot-definition-initfunction))) (defun (setf slot-definition-initfunction) (value slot-definition) (setf (std-slot-value slot-definition 'sys::initfunction) value)) (defun slot-definition-name (slot-definition) (std-slot-value slot-definition 'sys:name)) (declaim (notinline (setf slot-definition-name))) (defun (setf slot-definition-name) (value slot-definition) (setf (std-slot-value slot-definition 'sys:name) value)) (defun slot-definition-readers (slot-definition) (std-slot-value slot-definition 'sys::readers)) (declaim (notinline (setf slot-definition-readers))) (defun (setf slot-definition-readers) (value slot-definition) (setf (std-slot-value slot-definition 'sys::readers) value)) (defun slot-definition-writers (slot-definition) (std-slot-value slot-definition 'sys::writers)) (declaim (notinline (setf slot-definition-writers))) (defun (setf slot-definition-writers) (value slot-definition) (setf (std-slot-value slot-definition 'sys::writers) value)) (defun slot-definition-allocation-class (slot-definition) (std-slot-value slot-definition 'sys::allocation-class)) (declaim (notinline (setf slot-definition-allocation-class))) (defun (setf slot-definition-allocation-class) (value slot-definition) (setf (std-slot-value slot-definition 'sys::allocation-class) value)) (defun slot-definition-location (slot-definition) (std-slot-value slot-definition 'sys::location)) (declaim (notinline (setf slot-definition-location-class))) (defun (setf slot-definition-location) (value slot-definition) (setf (std-slot-value slot-definition 'sys::location) value)) (defun slot-definition-type (slot-definition) (std-slot-value slot-definition 'sys::%type)) (declaim (notinline (setf slot-definition-type))) (defun (setf slot-definition-type) (value slot-definition) (setf (std-slot-value slot-definition 'sys::%type) value)) (defun slot-definition-documentation (slot-definition) (std-slot-value slot-definition 'sys:%documentation)) (declaim (notinline (setf slot-definition-documentation))) (defun (setf slot-definition-documentation) (value slot-definition) (setf (std-slot-value slot-definition 'sys:%documentation) value)) (defun init-slot-definition (slot &key name (initargs ()) (initform nil) (initfunction nil) (readers ()) (writers ()) (allocation :instance) (allocation-class nil) (type t) (documentation nil)) (setf (slot-definition-name slot) name) (setf (slot-definition-initargs slot) initargs) (setf (slot-definition-initform slot) initform) (setf (slot-definition-initfunction slot) initfunction) (setf (slot-definition-readers slot) readers) (setf (slot-definition-writers slot) writers) (setf (slot-definition-allocation slot) allocation) (setf (slot-definition-allocation-class slot) allocation-class) (setf (slot-definition-type slot) type) (setf (slot-definition-documentation slot) documentation) slot) (declaim (notinline direct-slot-definition-class)) (defun direct-slot-definition-class (class &rest args) (declare (ignore class args)) +the-standard-direct-slot-definition-class+) (defun make-direct-slot-definition (class &rest args) (let ((slot-class (apply #'direct-slot-definition-class class args))) (if (eq slot-class +the-standard-direct-slot-definition-class+) (let ((slot (%make-slot-definition +the-standard-direct-slot-definition-class+))) (apply #'init-slot-definition slot :allocation-class class args) slot) (progn (let ((slot (apply #'make-instance slot-class :allocation-class class args))) slot))))) (declaim (notinline effective-slot-definition-class)) (defun effective-slot-definition-class (class &rest args) (declare (ignore class args)) +the-standard-effective-slot-definition-class+) (defun make-effective-slot-definition (class &rest args) (let ((slot-class (apply #'effective-slot-definition-class class args))) (if (eq slot-class +the-standard-effective-slot-definition-class+) (let ((slot (%make-slot-definition +the-standard-effective-slot-definition-class+))) (apply #'init-slot-definition slot args) slot) (progn (let ((slot (apply #'make-instance slot-class args))) slot))))) ;;; finalize-inheritance (declaim (notinline compute-default-initargs)) (defun compute-default-initargs (class) (std-compute-default-initargs class)) (defun std-compute-default-initargs (class) (delete-duplicates (mapcan #'(lambda (c) (copy-list (class-direct-default-initargs c))) (class-precedence-list class)) :key #'car :from-end t)) (defun std-finalize-inheritance (class) ;; In case the class is already finalized, return ;; immediately, as per AMOP. (when (class-finalized-p class) (return-from std-finalize-inheritance)) (setf (class-precedence-list class) (funcall (if (std-class-p class) #'std-compute-class-precedence-list #'compute-class-precedence-list) class)) (setf (class-slots class) (funcall (if (std-class-p class) #'std-compute-slots #'compute-slots) class)) (let ((old-layout (class-layout class)) (length 0) (instance-slots '()) (shared-slots '())) (dolist (slot (class-slots class)) (case (slot-definition-allocation slot) (:instance (setf (slot-definition-location slot) length) (incf length) (push (slot-definition-name slot) instance-slots)) (:class (unless (slot-definition-location slot) (let ((allocation-class (slot-definition-allocation-class slot))) (if (eq allocation-class class) ;; We initialize class slots here so they can be ;; accessed without creating a dummy instance. (let ((initfunction (slot-definition-initfunction slot))) (setf (slot-definition-location slot) (cons (slot-definition-name slot) (if initfunction (funcall initfunction) +slot-unbound+)))) (setf (slot-definition-location slot) (slot-location allocation-class (slot-definition-name slot)))))) (push (slot-definition-location slot) shared-slots)))) (when old-layout ;; Redefined class: initialize added shared slots. (dolist (location shared-slots) (let* ((slot-name (car location)) (old-location (layout-slot-location old-layout slot-name))) (unless old-location (let* ((slot-definition (find slot-name (class-slots class) :key 'slot-definition-name)) (initfunction (slot-definition-initfunction slot-definition))) (when initfunction (setf (cdr location) (funcall initfunction)))))))) (setf (class-layout class) (make-layout class (nreverse instance-slots) (nreverse shared-slots)))) (setf (class-default-initargs class) (compute-default-initargs class)) (setf (class-finalized-p class) t)) (declaim (notinline finalize-inheritance)) (defun finalize-inheritance (class) (std-finalize-inheritance class)) ;;; Class precedence lists (defun std-compute-class-precedence-list (class) (let ((classes-to-order (collect-superclasses* class))) (dolist (super classes-to-order) (when (typep super 'forward-referenced-class) (error "Can't compute class precedence list for class ~A ~ which depends on forward referenced class ~A." class super))) (topological-sort classes-to-order (remove-duplicates (mapappend #'local-precedence-ordering classes-to-order)) #'std-tie-breaker-rule))) ;;; topological-sort implements the standard algorithm for topologically ;;; sorting an arbitrary set of elements while honoring the precedence ;;; constraints given by a set of (X,Y) pairs that indicate that element ;;; X must precede element Y. The tie-breaker procedure is called when it ;;; is necessary to choose from multiple minimal elements; both a list of ;;; candidates and the ordering so far are provided as arguments. (defun topological-sort (elements constraints tie-breaker) (let ((remaining-constraints constraints) (remaining-elements elements) (result ())) (loop (let ((minimal-elements (remove-if #'(lambda (class) (member class remaining-constraints :key #'cadr)) remaining-elements))) (when (null minimal-elements) (if (null remaining-elements) (return-from topological-sort result) (error "Inconsistent precedence graph."))) (let ((choice (if (null (cdr minimal-elements)) (car minimal-elements) (funcall tie-breaker minimal-elements result)))) (setq result (append result (list choice))) (setq remaining-elements (remove choice remaining-elements)) (setq remaining-constraints (remove choice remaining-constraints :test #'member))))))) ;;; In the event of a tie while topologically sorting class precedence lists, ;;; the CLOS Specification says to "select the one that has a direct subclass ;;; rightmost in the class precedence list computed so far." The same result ;;; is obtained by inspecting the partially constructed class precedence list ;;; from right to left, looking for the first minimal element to show up among ;;; the direct superclasses of the class precedence list constituent. ;;; (There's a lemma that shows that this rule yields a unique result.) (defun std-tie-breaker-rule (minimal-elements cpl-so-far) (dolist (cpl-constituent (reverse cpl-so-far)) (let* ((supers (class-direct-superclasses cpl-constituent)) (common (intersection minimal-elements supers))) (when (not (null common)) (return-from std-tie-breaker-rule (car common)))))) ;;; This version of collect-superclasses* isn't bothered by cycles in the class ;;; hierarchy, which sometimes happen by accident. (defun collect-superclasses* (class) (labels ((all-superclasses-loop (seen superclasses) (let ((to-be-processed (set-difference superclasses seen))) (if (null to-be-processed) superclasses (let ((class-to-process (car to-be-processed))) (all-superclasses-loop (cons class-to-process seen) (union (class-direct-superclasses class-to-process) superclasses))))))) (all-superclasses-loop () (list class)))) ;;; The local precedence ordering of a class C with direct superclasses C_1, ;;; C_2, ..., C_n is the set ((C C_1) (C_1 C_2) ...(C_n-1 C_n)). (defun local-precedence-ordering (class) (mapcar #'list (cons class (butlast (class-direct-superclasses class))) (class-direct-superclasses class))) ;;; Slot inheritance (defun std-compute-slots (class) (let* ((all-slots (mapappend #'(lambda (c) (class-direct-slots c)) ;; Slots of base class must come first (reverse (class-precedence-list class)))) (all-names (delete-duplicates (mapcar 'slot-definition-name all-slots) :from-end t))) (mapcar #'(lambda (name) (funcall (if (std-class-p class) #'std-compute-effective-slot-definition #'compute-effective-slot-definition) class name ;; Slot of inherited class must override initfunction, ;; documentation of base class (nreverse (remove name all-slots :key 'slot-definition-name :test-not #'eq)))) all-names))) (defun std-compute-effective-slot-definition (class name direct-slots) (let ((initer (find-if-not #'null direct-slots :key 'slot-definition-initfunction)) (documentation-slot (find-if-not #'null direct-slots :key 'slot-definition-documentation)) (types (delete-duplicates (delete t (mapcar #'slot-definition-type direct-slots)) :test #'equal))) (make-effective-slot-definition class :name name :initform (if initer (slot-definition-initform initer) nil) :initfunction (if initer (slot-definition-initfunction initer) nil) :initargs (remove-duplicates (mapappend 'slot-definition-initargs direct-slots)) :allocation (slot-definition-allocation (car direct-slots)) :allocation-class (when (slot-boundp (car direct-slots) 'sys::allocation-class) ;;for some classes created in Java ;;(e.g. SimpleCondition) this slot is unbound (slot-definition-allocation-class (car direct-slots))) :type (cond ((null types) t) ((= 1 (length types)) types) (t (list* 'and types))) :documentation (if documentation-slot (documentation documentation-slot t) nil)))) ;;; Standard instance slot access ;;; N.B. The location of the effective-slots slots in the class metaobject for ;;; standard-class must be determined without making any further slot ;;; references. (defun find-slot-definition (class slot-name) (dolist (slot (class-slots class) nil) (when (eq slot-name (slot-definition-name slot)) (return slot)))) (defun slot-location (class slot-name) (let ((slot (find-slot-definition class slot-name))) (if slot (slot-definition-location slot) nil))) (defun instance-slot-location (instance slot-name) (let ((layout (std-instance-layout instance))) (and layout (layout-slot-location layout slot-name)))) (defun slot-value (object slot-name) (let* ((class (class-of object)) (metaclass (class-of class))) (if (or (eq metaclass +the-standard-class+) (eq metaclass +the-structure-class+) (eq metaclass +the-funcallable-standard-class+)) (std-slot-value object slot-name) (slot-value-using-class class object (find-slot-definition class slot-name))))) (defun %set-slot-value (object slot-name new-value) (let* ((class (class-of object)) (metaclass (class-of class))) (if (or (eq metaclass +the-standard-class+) (eq metaclass +the-structure-class+) (eq metaclass +the-funcallable-standard-class+)) (setf (std-slot-value object slot-name) new-value) (setf (slot-value-using-class class object (find-slot-definition class slot-name)) new-value)))) (defsetf slot-value %set-slot-value) (defun slot-boundp (object slot-name) (let ((class (class-of object))) (if (std-class-p class) (std-slot-boundp object slot-name) (slot-boundp-using-class class object (find-slot-definition class slot-name))))) (defun std-slot-makunbound (instance slot-name) (let ((location (instance-slot-location instance slot-name))) (cond ((fixnump location) (setf (standard-instance-access instance location) +slot-unbound+)) ((consp location) (setf (cdr location) +slot-unbound+)) (t (slot-missing (class-of instance) instance slot-name 'slot-makunbound)))) instance) (defun slot-makunbound (object slot-name) (let ((class (class-of object))) (if (std-class-p class) (std-slot-makunbound object slot-name) (slot-makunbound-using-class class object (find-slot-definition class slot-name))))) (defun std-slot-exists-p (instance slot-name) (not (null (find slot-name (class-slots (class-of instance)) :key 'slot-definition-name)))) (defun slot-exists-p (object slot-name) (let ((class (class-of object))) (if (std-class-p class) (std-slot-exists-p object slot-name) (slot-exists-p-using-class class object slot-name)))) (defun instance-slot-p (slot) (eq (slot-definition-allocation slot) :instance)) (defun std-allocate-instance (class) (sys::%std-allocate-instance class)) (defun allocate-funcallable-instance (class) (let ((instance (sys::%allocate-funcallable-instance class))) ;; KLUDGE: without this, the build fails with unbound-slot (when (or (eq class +the-standard-generic-function-class+) (subtypep class +the-standard-generic-function-class+)) (setf (std-slot-value instance 'sys::method-class) +the-standard-method-class+)) (set-funcallable-instance-function instance #'(lambda (&rest args) (declare (ignore args)) (error 'program-error "Called a funcallable-instance with unset function."))) instance)) (declaim (notinline class-prototype)) (defun class-prototype (class) (unless (class-finalized-p class) (error "Class ~A not finalized" (class-name class))) (std-allocate-instance class)) (defun maybe-finalize-class-subtree (class) (when (every #'class-finalized-p (class-direct-superclasses class)) (finalize-inheritance class) (dolist (subclass (class-direct-subclasses class)) (maybe-finalize-class-subtree subclass)))) (defun make-instance-standard-class (metaclass &rest initargs &key name direct-superclasses direct-slots direct-default-initargs documentation) (declare (ignore metaclass)) (let ((class (std-allocate-instance +the-standard-class+))) (unless *clos-booting* (check-initargs (list #'allocate-instance #'initialize-instance) (list* class initargs) class t initargs *make-instance-initargs-cache* 'make-instance)) (%set-class-name name class) ;; KLUDGE: necessary in define-primordial-class, otherwise ;; StandardClass.getClassLayout() throws an error (unless *clos-booting* (%set-class-layout nil class)) (%set-class-direct-subclasses () class) (%set-class-direct-methods () class) (%set-class-documentation class documentation) (std-after-initialization-for-classes class :direct-superclasses direct-superclasses :direct-slots direct-slots :direct-default-initargs direct-default-initargs) class)) (defun make-or-find-instance-funcallable-standard-class (metaclass &rest initargs &key name direct-superclasses direct-slots direct-default-initargs documentation) (declare (ignore metaclass initargs)) (or (find-class name nil) (let ((class (std-allocate-instance +the-funcallable-standard-class+))) (%set-class-name name class) (unless *clos-booting* (%set-class-layout nil class)) (%set-class-direct-subclasses () class) (%set-class-direct-methods () class) (%set-class-documentation class documentation) (std-after-initialization-for-classes class :direct-superclasses direct-superclasses :direct-slots direct-slots :direct-default-initargs direct-default-initargs) class))) ;(defun convert-to-direct-slot-definition (class canonicalized-slot) ; (apply #'make-instance ; (apply #'direct-slot-definition-class ; class canonicalized-slot) ; canonicalized-slot)) (defun canonicalize-direct-superclass-list (class direct-superclasses) (cond (direct-superclasses) ((subtypep (class-of class) +the-funcallable-standard-class+) (list +the-funcallable-standard-object-class+)) ((subtypep (class-of class) +the-standard-class+) (list +the-standard-object-class+)))) (defun std-after-initialization-for-classes (class &key direct-superclasses direct-slots direct-default-initargs &allow-other-keys) (let ((supers (canonicalize-direct-superclass-list class direct-superclasses))) (setf (class-direct-superclasses class) supers) (dolist (superclass supers) (add-direct-subclass superclass class))) (let ((slots (mapcar #'(lambda (slot-properties) (apply #'make-direct-slot-definition class slot-properties)) direct-slots))) (setf (class-direct-slots class) slots) (dolist (direct-slot slots) (dolist (reader (slot-definition-readers direct-slot)) (add-reader-method class reader direct-slot)) (dolist (writer (slot-definition-writers direct-slot)) (add-writer-method class writer direct-slot)))) (setf (class-direct-default-initargs class) direct-default-initargs) (maybe-finalize-class-subtree class) (values)) (defmacro define-primordial-class (name superclasses direct-slots) "Primitive class definition tool. No non-standard metaclasses, accessor methods, duplicate slots, non-existent superclasses, default initargs, or other complicated stuff. Handle with care." (let ((class (gensym))) `(let ((,class (make-instance-standard-class nil :name ',name :direct-superclasses ',(mapcar #'find-class superclasses) :direct-slots ,(canonicalize-direct-slots direct-slots)))) (%set-find-class ',name ,class) ,class))) (defmacro define-funcallable-primordial-class (name superclasses direct-slots) "Primitive funcallable class definition tool. No non-standard metaclasses, accessor methods, duplicate slots, non-existent superclasses, default initargs, or other complicated stuff. Handle with care. Will not modify existing classes to avoid breaking std-generic-function-p." (let ((class (gensym))) `(let ((,class (make-or-find-instance-funcallable-standard-class nil :name ',name :direct-superclasses ',(mapcar #'find-class superclasses) :direct-slots ,(canonicalize-direct-slots direct-slots)))) (%set-find-class ',name ,class) ,class))) (define-primordial-class eql-specializer (specializer) ((object :initform nil) (direct-methods :initform nil))) (define-primordial-class method-combination (metaobject) ((sys::name :initarg :name :initform nil) (sys::%documentation :initarg :documentation :initform nil) (options :initarg :options :initform nil))) (define-primordial-class short-method-combination (method-combination) ((operator :initarg :operator) (identity-with-one-argument :initarg :identity-with-one-argument))) (define-primordial-class long-method-combination (method-combination) ((sys::lambda-list :initarg :lambda-list) (method-group-specs :initarg :method-group-specs) (args-lambda-list :initarg :args-lambda-list) (generic-function-symbol :initarg :generic-function-symbol) (function :initarg :function) (arguments :initarg :arguments) (declarations :initarg :declarations) (forms :initarg :forms))) (define-primordial-class standard-accessor-method (standard-method) ((sys::%slot-definition :initarg :slot-definition :initform nil))) (define-primordial-class standard-reader-method (standard-accessor-method) ()) (defconstant +the-standard-reader-method-class+ (find-class 'standard-reader-method)) (define-primordial-class standard-writer-method (standard-accessor-method) ()) (defconstant +the-standard-writer-method-class+ (find-class 'standard-writer-method)) (define-primordial-class structure-class (class) ()) (defconstant +the-structure-class+ (find-class 'structure-class)) (define-primordial-class forward-referenced-class (class) ;; The standard-class layout. Not all of these slots are necessary, ;; but at least NAME and DIRECT-SUBCLASSES are. ((sys::name :initarg :name :initform nil) (sys::layout :initform nil) (sys::direct-superclasses :initform nil) (sys::direct-subclasses :initform nil) (sys::precedence-list :initform nil) (sys::direct-methods :initform nil) (sys::direct-slots :initform nil) (sys::slots :initform nil) (sys::direct-default-initargs :initform nil) (sys::default-initargs :initform nil) (sys::finalized-p :initform nil) (sys::%documentation :initform nil))) (defconstant +the-forward-referenced-class+ (find-class 'forward-referenced-class)) (define-funcallable-primordial-class generic-function (metaobject funcallable-standard-object) ()) (defvar *extensible-built-in-classes* (list (find-class 'sequence) (find-class 'java:java-object))) (defvar *make-instance-initargs-cache* (make-hash-table :test #'eq) "Cached sets of allowable initargs, keyed on the class they belong to.") (defvar *reinitialize-instance-initargs-cache* (make-hash-table :test #'eq) "Cached sets of allowable initargs, keyed on the class they belong to.") (defun expand-long-defcombin (name args) (destructuring-bind (lambda-list method-groups &rest body) args `(apply #'define-long-form-method-combination ',name ',lambda-list (list ,@(mapcar #'canonicalize-method-group-spec method-groups)) ',body))) ;;; The class method-combination and its subclasses are defined in ;;; StandardClass.java, but we cannot use make-instance and slot-value ;;; yet. (defun %make-long-method-combination (&key name documentation lambda-list method-group-specs args-lambda-list generic-function-symbol function arguments declarations forms) (let ((instance (std-allocate-instance (find-class 'long-method-combination)))) (setf (std-slot-value instance 'sys::name) name) (setf (std-slot-value instance 'sys:%documentation) documentation) (setf (std-slot-value instance 'sys::lambda-list) lambda-list) (setf (std-slot-value instance 'method-group-specs) method-group-specs) (setf (std-slot-value instance 'args-lambda-list) args-lambda-list) (setf (std-slot-value instance 'generic-function-symbol) generic-function-symbol) (setf (std-slot-value instance 'function) function) (setf (std-slot-value instance 'arguments) arguments) (setf (std-slot-value instance 'declarations) declarations) (setf (std-slot-value instance 'forms) forms) (setf (std-slot-value instance 'options) nil) instance)) (defun method-combination-name (method-combination) (check-type method-combination method-combination) (std-slot-value method-combination 'sys::name)) (defun method-combination-documentation (method-combination) (check-type method-combination method-combination) (std-slot-value method-combination 'sys:%documentation)) (defun short-method-combination-operator (method-combination) (check-type method-combination short-method-combination) (std-slot-value method-combination 'operator)) (defun short-method-combination-identity-with-one-argument (method-combination) (check-type method-combination short-method-combination) (std-slot-value method-combination 'identity-with-one-argument)) (defun long-method-combination-lambda-list (method-combination) (check-type method-combination long-method-combination) (std-slot-value method-combination 'sys::lambda-list)) (defun long-method-combination-method-group-specs (method-combination) (check-type method-combination long-method-combination) (std-slot-value method-combination 'method-group-specs)) (defun long-method-combination-args-lambda-list (method-combination) (check-type method-combination long-method-combination) (std-slot-value method-combination 'args-lambda-list)) (defun long-method-combination-generic-function-symbol (method-combination) (check-type method-combination long-method-combination) (std-slot-value method-combination 'generic-function-symbol)) (defun long-method-combination-function (method-combination) (check-type method-combination long-method-combination) (std-slot-value method-combination 'function)) (defun long-method-combination-arguments (method-combination) (check-type method-combination long-method-combination) (std-slot-value method-combination 'arguments)) (defun long-method-combination-declarations (method-combination) (check-type method-combination long-method-combination) (std-slot-value method-combination 'declarations)) (defun long-method-combination-forms (method-combination) (check-type method-combination long-method-combination) (std-slot-value method-combination 'forms)) (defun expand-short-defcombin (whole) (let* ((name (cadr whole)) (documentation (getf (cddr whole) :documentation "")) (identity-with-one-arg (getf (cddr whole) :identity-with-one-argument nil)) (operator (getf (cddr whole) :operator name))) `(progn (let ((instance (std-allocate-instance (find-class 'short-method-combination)))) (setf (std-slot-value instance 'sys::name) ',name) (setf (std-slot-value instance 'sys:%documentation) ',documentation) (setf (std-slot-value instance 'operator) ',operator) (setf (std-slot-value instance 'identity-with-one-argument) ',identity-with-one-arg) (setf (std-slot-value instance 'options) nil) (setf (get ',name 'method-combination-object) instance) ',name)))) (defmacro define-method-combination (&whole form name &rest args) (if (and (cddr form) (listp (caddr form))) (expand-long-defcombin name args) (expand-short-defcombin form))) (define-method-combination + :identity-with-one-argument t) (define-method-combination and :identity-with-one-argument t) (define-method-combination append :identity-with-one-argument nil) (define-method-combination list :identity-with-one-argument nil) (define-method-combination max :identity-with-one-argument t) (define-method-combination min :identity-with-one-argument t) (define-method-combination nconc :identity-with-one-argument t) (define-method-combination or :identity-with-one-argument t) (define-method-combination progn :identity-with-one-argument t) ;;; ;;; long form of define-method-combination (from Sacla and XCL) ;;; (defun method-group-p (selecter qualifiers) ;; selecter::= qualifier-pattern | predicate (etypecase selecter (list (or (equal selecter qualifiers) (let ((last (last selecter))) (when (eq '* (cdr last)) (let* ((prefix `(,@(butlast selecter) ,(car last))) (pos (mismatch prefix qualifiers))) (or (null pos) (= pos (length prefix)))))))) ((eql *) t) (symbol (funcall (symbol-function selecter) qualifiers)))) (defun check-variable-name (name) (flet ((valid-variable-name-p (name) (and (symbolp name) (not (constantp name))))) (assert (valid-variable-name-p name)))) (defun canonicalize-method-group-spec (spec) ;; spec ::= (name {qualifier-pattern+ | predicate} [[long-form-option]]) ;; long-form-option::= :description description | :order order | ;; :required required-p ;; a canonicalized-spec is a simple plist. (let* ((rest spec) (name (prog2 (check-variable-name (car rest)) (car rest) (setq rest (cdr rest)))) (option-names '(:description :order :required)) (selecters (let ((end (or (position-if #'(lambda (it) (member it option-names)) rest) (length rest)))) (prog1 (subseq rest 0 end) (setq rest (subseq rest end))))) (description (getf rest :description "")) (order (getf rest :order :most-specific-first)) (required-p (getf rest :required))) `(list :name ',name :predicate (lambda (qualifiers) (loop for item in ',selecters thereis (method-group-p item qualifiers))) :description ',description :order ',order :required ',required-p :*-selecter ,(equal selecters '(*))))) (defun extract-required-part (lambda-list) (flet ((skip (key lambda-list) (if (eq (first lambda-list) key) (cddr lambda-list) lambda-list))) (let* ((trimmed-lambda-list (skip '&environment (skip '&whole lambda-list))) (after-required-lambda-list (member-if #'(lambda (it) (member it lambda-list-keywords)) trimmed-lambda-list))) (if after-required-lambda-list (ldiff trimmed-lambda-list after-required-lambda-list) trimmed-lambda-list)))) (defun extract-specified-part (key lambda-list) (case key ((&eval &whole) (list (second (member key lambda-list)))) (t (let ((here (cdr (member key lambda-list)))) (ldiff here (member-if #'(lambda (it) (member it lambda-list-keywords)) here)))))) (defun extract-optional-part (lambda-list) (extract-specified-part '&optional lambda-list)) (defun parse-define-method-combination-args-lambda-list (lambda-list) ;; Define-method-combination Arguments Lambda Lists ;; http://www.lispworks.com/reference/HyperSpec/Body/03_dj.htm (let ((required (extract-required-part lambda-list)) (whole (extract-specified-part '&whole lambda-list)) (optional (extract-specified-part '&optional lambda-list)) (rest (extract-specified-part '&rest lambda-list)) (keys (extract-specified-part '&key lambda-list)) (aux (extract-specified-part '&aux lambda-list))) (values (first whole) required (mapcar #'(lambda (spec) (if (consp spec) `(,(first spec) ,(second spec) ,@(cddr spec)) `(,spec nil))) optional) (first rest) (mapcar #'(lambda (spec) (let ((key (if (consp spec) (car spec) spec)) (rest (when (consp spec) (rest spec)))) `(,(if (consp key) key `(,(make-keyword key) ,key)) ,(car rest) ,@(cdr rest)))) keys) (mapcar #'(lambda (spec) (if (consp spec) `(,(first spec) ,(second spec)) `(,spec nil))) aux)))) (defun wrap-with-call-method-macro (gf args-var emf-form) `(macrolet ((call-method (method &optional next-method-list) `(funcall ,(cond ((listp method) (assert (eq (first method) 'make-method)) ;; by generating an inline expansion we prevent allocation ;; of a method instance which will be discarded immediately ;; after reading the METHOD-FUNCTION slot (compute-method-function `(lambda (&rest ,(gensym)) ;; the MAKE-METHOD body form gets evaluated in ;; the null lexical environment augmented ;; with a binding for CALL-METHOD ,(wrap-with-call-method-macro ,gf ',args-var (second method))))) (t (method-function method))) ,',args-var ,(unless (null next-method-list) ;; by not generating an emf when there are no next methods, ;; we ensure next-method-p returns NIL (compute-effective-method ,gf (generic-function-method-combination ,gf) (process-next-method-list next-method-list)))))) ,emf-form)) (defun assert-unambiguous-method-sorting (group-name methods) (let ((specializers (make-hash-table :test 'equal))) (dolist (method methods) (push method (gethash (method-specializers method) specializers))) (loop for specializer-methods being each hash-value of specializers using (hash-key method-specializers) unless (= 1 (length specializer-methods)) do (error "Ambiguous method sorting in method group ~A due to multiple ~ methods with specializers ~S: ~S" group-name method-specializers specializer-methods)))) (defmacro with-method-groups (method-group-specs methods-form &body forms) (flet ((grouping-form (spec methods-var) (let ((predicate (coerce-to-function (getf spec :predicate))) (group (gensym)) (leftovers (gensym)) (method (gensym))) `(let ((,group '()) (,leftovers '())) (dolist (,method ,methods-var) (if (funcall ,predicate (method-qualifiers ,method)) (push ,method ,group) (push ,method ,leftovers))) (ecase ,(getf spec :order) (:most-specific-last ) (:most-specific-first (setq ,group (nreverse ,group)))) ,@(when (getf spec :required) `((when (null ,group) (error "Method group ~S must not be empty." ',(getf spec :name))))) (setq ,methods-var (nreverse ,leftovers)) ,group)))) (let ((rest (gensym)) (method (gensym))) `(let* ((,rest ,methods-form) ,@(mapcar #'(lambda (spec) `(,(getf spec :name) ,(grouping-form spec rest))) method-group-specs)) (dolist (,method ,rest) (invalid-method-error ,method "Method ~S with qualifiers ~S does not belong to any method group." ,method (method-qualifiers ,method))) ,@(unless (and (= 1 (length method-group-specs)) (getf (car method-group-specs) :*-selecter)) (mapcar #'(lambda (spec) `(assert-unambiguous-method-sorting ',(getf spec :name) ,(getf spec :name))) method-group-specs)) ,@forms)))) (defun method-combination-type-lambda-with-args-emf (&key args-lambda-list generic-function-symbol forms &allow-other-keys) (multiple-value-bind (whole required optional rest keys aux) (parse-define-method-combination-args-lambda-list args-lambda-list) (unless rest (when keys (setf rest (gensym)))) (let* ((gf-lambda-list (gensym)) (args-var (gensym)) (args-len-var (gensym)) (binding-forms (gensym)) (needs-args-len-var (gensym)) (emf-form (gensym))) `(let* ((,gf-lambda-list (slot-value ,generic-function-symbol 'sys::lambda-list)) (nreq (length (extract-required-part ,gf-lambda-list))) (nopt (length (extract-optional-part ,gf-lambda-list))) (,binding-forms) (,needs-args-len-var) (,emf-form (let* (,@(when whole `((,whole (progn (push `(,',whole ,',args-var) ,binding-forms) ',args-var)))) ,@(when rest ;; ### TODO: use a fresh symbol for the rest ;; binding being generated and pushed into binding-forms `((,rest (progn (push `(,',rest (subseq ,',args-var ,(+ nreq nopt))) ,binding-forms) ',rest)))) ,@(loop for var in required and i upfrom 0 for var-binding = (gensym) collect `(,var (when (< ,i nreq) (push `(,',var-binding (nth ,,i ,',args-var)) ,binding-forms) ',var-binding))) ,@(loop for (var initform supplied-var) in optional and i upfrom 0 for supplied-binding = (or supplied-var (gensym)) for var-binding = (gensym) ;; check for excess parameters ;; only assign initform if the parameter ;; isn't in excess: the spec says explicitly ;; to bind parameters in excess to forms evaluating ;; to nil. ;; This leaves initforms to be used with ;; parameters not supplied in excess, but ;; not available in the arguments list ;; ;; Also, if specified, bind "supplied-p" collect `(,supplied-binding (when (< ,i nopt) (setq ,needs-args-len-var t) ;; ### TODO: use a fresh symbol for the supplied binding ;; binding being generated and pushed into binding-forms (push `(,',supplied-binding (< ,(+ ,i nreq) ,',args-len-var)) ,binding-forms) ',supplied-binding)) collect `(,var (when (< ,i nopt) (push `(,',var-binding (if ,',supplied-binding (nth ,(+ ,i nreq) ,',args-var) ,',initform)) ,binding-forms) ',var-binding))) ,@(loop for ((key var) initform supplied-var) in keys for supplied-binding = (or supplied-var (gensym)) for var-binding = (gensym) ;; Same as optional parameters: ;; even though keywords can't be supplied in ;; excess, we should bind "supplied-p" in case ;; the key isn't supplied in the arguments list collect `(,supplied-binding (progn ;; ### TODO: use a fresh symbol for the rest ;; binding being generated and pushed into binding-forms (push `(,',supplied-binding (member ,',key ,',rest)) ,binding-forms) ',supplied-binding)) collect `(,var (progn (push `(,',var-binding (if ,',supplied-binding (cadr ,',supplied-binding) ,',initform)) ,binding-forms) ',var-binding))) ,@(loop for (var initform) in aux for var-binding = (gensym) collect `(,var (progn (push '(,var-binding ,initform) ,binding-forms) ',var-binding)))) ,@forms))) `(lambda (,',args-var) ;; set up bindings to ensure the expressions to which the ;; variables of the arguments option have been bound are ;; evaluated exactly once. (let* (,@(when ,needs-args-len-var `((,',args-len-var (length ,',args-var)))) ,@(reverse ,binding-forms)) ;; This is the lambda which *is* the effective method ;; hence gets called on every method invocation ;; be as efficient in this method as we can be ,(wrap-with-call-method-macro ,generic-function-symbol ',args-var ,emf-form))))))) (defun method-combination-type-lambda (&rest all-args &key name lambda-list args-lambda-list generic-function-symbol method-group-specs declarations forms &allow-other-keys) (declare (ignore name)) (let ((methods (gensym)) (args-var (gensym)) (emf-form (gensym))) `(lambda (,generic-function-symbol ,methods ,@lambda-list) ;; This is the lambda which computes the effective method ,@declarations (with-method-groups ,method-group-specs ,methods ,(if (null args-lambda-list) `(let ((,emf-form (progn ,@forms))) `(lambda (,',args-var) ;; This is the lambda which *is* the effective method ;; hence gets called on every method invocation ;; be as efficient in this method as we can be ,(wrap-with-call-method-macro ,generic-function-symbol ',args-var ,emf-form))) (apply #'method-combination-type-lambda-with-args-emf all-args)))))) (defun declarationp (expr) (and (consp expr) (eq (car expr) 'DECLARE))) (defun long-form-method-combination-args (args) ;; define-method-combination name lambda-list (method-group-specifier*) args ;; args ::= [(:arguments . args-lambda-list)] ;; [(:generic-function generic-function-symbol)] ;; [[declaration* | documentation]] form* (let ((rest args)) (labels ((nextp (key) (and (consp (car rest)) (eq key (caar rest)))) (args-lambda-list () (when (nextp :arguments) (prog1 (cdr (car rest)) (setq rest (cdr rest))))) (generic-function-symbol () (if (nextp :generic-function) (prog1 (second (car rest)) (setq rest (cdr rest))) (gensym))) (declaration* () (let ((end (position-if-not #'declarationp rest))) (when end (prog1 (subseq rest 0 end) (setq rest (nthcdr end rest)))))) (documentation? () (when (stringp (car rest)) (prog1 (car rest) (setq rest (cdr rest))))) (form* () rest)) (let ((declarations '())) `(:args-lambda-list ,(args-lambda-list) :generic-function-symbol ,(generic-function-symbol) :documentation ,(prog2 (setq declarations (declaration*)) (documentation?)) :declarations (,@declarations ,@(declaration*)) :forms ,(form*)))))) (defun define-long-form-method-combination (name lambda-list method-group-specs &rest args) (let* ((initargs `(:name ,name :lambda-list ,lambda-list :method-group-specs ,method-group-specs ,@(long-form-method-combination-args args))) (lambda-expression (apply #'method-combination-type-lambda initargs))) (setf (get name 'method-combination-object) (apply '%make-long-method-combination :function (coerce-to-function lambda-expression) initargs)) name)) (defun std-find-method-combination (gf name options) (declare (ignore gf)) (when (and (eql name 'standard) options) ;; CLHS DEFGENERIC (error "The standard method combination does not accept any arguments.")) (let ((mc (get name 'method-combination-object))) (cond ((null mc) (error "Method combination ~S not found" name)) ((null options) mc) ((typep mc 'short-method-combination) (make-instance 'short-method-combination :name name :documentation (method-combination-documentation mc) :operator (short-method-combination-operator mc) :identity-with-one-argument (short-method-combination-identity-with-one-argument mc) :options options)) ((typep mc 'long-method-combination) (make-instance 'long-method-combination :name name :documentation (method-combination-documentation mc) :lambda-list (long-method-combination-lambda-list mc) :method-group-specs (long-method-combination-method-group-specs mc) :args-lambda-list (long-method-combination-args-lambda-list mc) :generic-function-symbol (long-method-combination-generic-function-symbol mc) :function (long-method-combination-function mc) :arguments (long-method-combination-arguments mc) :declarations (long-method-combination-declarations mc) :forms (long-method-combination-forms mc) :options options))))) (declaim (notinline find-method-combination)) (defun find-method-combination (gf name options) (std-find-method-combination gf name options)) (defconstant +the-standard-method-combination+ (let ((instance (std-allocate-instance (find-class 'method-combination)))) (setf (std-slot-value instance 'sys::name) 'standard) (setf (std-slot-value instance 'sys:%documentation) "The standard method combination.") (setf (std-slot-value instance 'options) nil) instance) "The standard method combination. Do not use this object for identity since it changes between compile-time and run-time. To detect the standard method combination, compare the method combination name to the symbol 'standard.") (setf (get 'standard 'method-combination-object) +the-standard-method-combination+) (define-funcallable-primordial-class standard-generic-function (generic-function) ((sys::name :initarg :name :initform nil) (sys::lambda-list :initarg :lambda-list :initform nil) (sys::required-args :initarg :required-args :initform nil) (sys::optional-args :initarg :optional-args :initform nil) (sys::initial-methods :initarg :initial-methods :initform nil) (sys::methods :initarg :methods :initform nil) (sys::method-class :initarg :method-class :initform +the-standard-method-class+) (sys::%method-combination :initarg :method-combination :initform +the-standard-method-combination+) (sys::argument-precedence-order :initarg :argument-precedence-order :initform nil) (sys::declarations :initarg :declarations :initform nil) (sys::%documentation :initarg :documentation :initform nil))) (defconstant +the-standard-generic-function-class+ (find-class 'standard-generic-function)) (defun std-generic-function-p (gf) (eq (class-of gf) +the-standard-generic-function-class+)) (defparameter *eql-specializer-table* (make-hash-table :test 'eql)) (defun intern-eql-specializer (object) (or (gethash object *eql-specializer-table*) (setf (gethash object *eql-specializer-table*) ;; we will be called during generic function invocation ;; setup, so have to rely on plain functions here. (let ((instance (std-allocate-instance (find-class 'eql-specializer)))) (setf (std-slot-value instance 'object) object) (setf (std-slot-value instance 'direct-methods) nil) instance)))) (defun eql-specializer-object (eql-specializer) (check-type eql-specializer eql-specializer) (std-slot-value eql-specializer 'object)) ;;; Initial versions of some method metaobject readers. Defined on ;;; AMOP pg. 218ff, will be redefined when generic functions are set up. (defun std-method-function (method) (std-slot-value method 'sys::%function)) (defun std-method-generic-function (method) (std-slot-value method 'sys::%generic-function)) (defun std-method-specializers (method) (std-slot-value method 'sys::specializers)) (defun std-method-qualifiers (method) (std-slot-value method 'sys::qualifiers)) (defun std-accessor-method-slot-definition (accessor-method) (std-slot-value accessor-method 'sys::%slot-definition)) ;;; Additional method readers (defun std-method-fast-function (method) (std-slot-value method 'sys::fast-function)) (defun std-function-keywords (method) (values (std-slot-value method 'sys::keywords) (std-slot-value method 'sys::other-keywords-p))) ;;; Preliminary accessor definitions, will be redefined as generic ;;; functions later in this file (declaim (notinline method-generic-function)) (defun method-generic-function (method) (std-method-generic-function method)) (declaim (notinline method-function)) (defun method-function (method) (std-method-function method)) (declaim (notinline method-specializers)) (defun method-specializers (method) (std-method-specializers method)) (declaim (notinline method-qualifiers)) (defun method-qualifiers (method) (std-method-qualifiers method)) ;;; MOP (p. 216) specifies the following reader generic functions: ;;; generic-function-argument-precedence-order ;;; generic-function-declarations ;;; generic-function-lambda-list ;;; generic-function-method-class ;;; generic-function-method-combination ;;; generic-function-methods ;;; generic-function-name ;;; Additionally, we define the following reader functions: ;;; generic-function-required-arguments ;;; generic-function-optional-arguments ;;; These are defined as functions here and redefined as generic ;;; functions via atomic-defgeneric once we're all set up. (defun generic-function-name (gf) (std-slot-value gf 'sys::name)) (defun generic-function-lambda-list (gf) (std-slot-value gf 'sys::lambda-list)) (defun generic-function-methods (gf) (std-slot-value gf 'sys::methods)) (defun generic-function-method-class (gf) (std-slot-value gf 'sys::method-class)) (defun generic-function-method-combination (gf) (std-slot-value gf 'sys::%method-combination)) (defun generic-function-argument-precedence-order (gf) (std-slot-value gf 'sys::argument-precedence-order)) (defun generic-function-required-arguments (gf) (std-slot-value gf 'sys::required-args)) (defun generic-function-optional-arguments (gf) (std-slot-value gf 'sys::optional-args)) (defun (setf method-lambda-list) (new-value method) (setf (std-slot-value method 'sys::lambda-list) new-value)) (defun (setf method-qualifiers) (new-value method) (setf (std-slot-value method 'sys::qualifiers) new-value)) (defun method-documentation (method) (std-slot-value method 'sys:%documentation)) (defun (setf method-documentation) (new-value method) (setf (std-slot-value method 'sys:%documentation) new-value)) ;;; defgeneric (defmacro defgeneric (function-name lambda-list &rest options-and-method-descriptions) (let ((options ()) (methods ()) (declarations ()) (documentation nil)) (dolist (item options-and-method-descriptions) (case (car item) (declare (setf declarations (append declarations (cdr item)))) (:documentation (when documentation (error 'program-error :format-control "Documentation option was specified twice for generic function ~S." :format-arguments (list function-name))) (setf documentation t) (push item options)) (:method ;; KLUDGE (rudi 2013-04-02): this only works with subclasses ;; of standard-generic-function, since the initial-methods ;; slot is not mandated by AMOP (push `(push (defmethod ,function-name ,@(cdr item)) (std-slot-value (fdefinition ',function-name) 'sys::initial-methods)) methods)) (t (push item options)))) (when declarations (push (list :declarations declarations) options)) (setf options (nreverse options) methods (nreverse methods)) ;; Since DEFGENERIC currently shares its argument parsing with ;; DEFMETHOD, we perform this check here. (when (find '&aux lambda-list) (error 'program-error :format-control "&AUX is not allowed in a generic function lambda list: ~S" :format-arguments (list lambda-list))) `(prog1 (%defgeneric ',function-name :lambda-list ',lambda-list ,@(canonicalize-defgeneric-options options)) ,@methods))) (defun canonicalize-defgeneric-options (options) (mapappend #'canonicalize-defgeneric-option options)) (defun canonicalize-defgeneric-option (option) (case (car option) (:generic-function-class (list :generic-function-class `(find-class ',(cadr option)))) (:method-class (list :method-class `(find-class ',(cadr option)))) (:method-combination (list :method-combination `',(cdr option))) (:argument-precedence-order (list :argument-precedence-order `',(cdr option))) (t (list `',(car option) `',(cadr option))))) ;; From OpenMCL (called canonicalize-argument-precedence-order there, ;; but AMOP specifies argument-precedence-order to return a permutation ;; of the required arguments, not a list of indices, so we calculate ;; them on demand). (defun argument-precedence-order-indices (apo req) (cond ((equal apo req) nil) ((not (eql (length apo) (length req))) (error 'program-error :format-control "Specified argument precedence order ~S does not match lambda list." :format-arguments (list apo))) (t (let ((res nil)) (dolist (arg apo (nreverse res)) (let ((index (position arg req))) (if (or (null index) (memq index res)) (error 'program-error :format-control "Specified argument precedence order ~S does not match lambda list." :format-arguments (list apo))) (push index res))))))) (defun find-generic-function (name &optional (errorp t)) (let ((function (and (fboundp name) (fdefinition name)))) (when function (when (typep function 'generic-function) (return-from find-generic-function function)) (when (and *traced-names* (find name *traced-names* :test #'equal)) (setf function (untraced-function name)) (when (typep function 'generic-function) (return-from find-generic-function function))))) (if errorp (error "There is no generic function named ~S." name) nil)) (defun lambda-lists-congruent-p (lambda-list1 lambda-list2) (let* ((plist1 (analyze-lambda-list lambda-list1)) (args1 (getf plist1 :required-args)) (plist2 (analyze-lambda-list lambda-list2)) (args2 (getf plist2 :required-args))) (= (length args1) (length args2)))) (defun %defgeneric (function-name &rest all-keys) (when (fboundp function-name) (let ((gf (fdefinition function-name))) (when (typep gf 'standard-generic-function) ;; Remove methods defined by previous DEFGENERIC forms, as ;; specified by CLHS, 7.7 (Macro DEFGENERIC). KLUDGE: only ;; works for subclasses of standard-generic-function. Since ;; AMOP doesn't specify a reader for initial methods, we have to ;; skip this step otherwise. (dolist (method (std-slot-value gf 'sys::initial-methods)) (std-remove-method gf method) (map-dependents gf #'(lambda (dep) (update-dependent gf dep 'remove-method method)))) (setf (std-slot-value gf 'sys::initial-methods) '())))) (apply 'ensure-generic-function function-name all-keys)) ;;; Bootstrap version of ensure-generic-function, handling only ;;; standard-generic-function. This function is replaced later. (declaim (notinline ensure-generic-function)) (defun ensure-generic-function (function-name &rest all-keys &key (lambda-list nil lambda-list-supplied-p) (generic-function-class +the-standard-generic-function-class+) (method-class +the-standard-method-class+) (method-combination +the-standard-method-combination+ mc-p) argument-precedence-order (documentation nil documentation-supplied-p) &allow-other-keys) (setf all-keys (copy-list all-keys)) ; since we modify it (remf all-keys :generic-function-class) (let ((gf (find-generic-function function-name nil))) (if gf (progn (when lambda-list-supplied-p (unless (or (null (generic-function-methods gf)) (lambda-lists-congruent-p lambda-list (generic-function-lambda-list gf))) (error 'simple-error :format-control "The lambda list ~S is incompatible with the existing methods of ~S." :format-arguments (list lambda-list gf))) (setf (std-slot-value gf 'sys::lambda-list) lambda-list) (let* ((plist (analyze-lambda-list lambda-list)) (required-args (getf plist ':required-args))) (setf (std-slot-value gf 'sys::required-args) required-args) (setf (std-slot-value gf 'sys::optional-args) (getf plist :optional-args)))) (setf (std-slot-value gf 'sys::argument-precedence-order) (or argument-precedence-order (generic-function-required-arguments gf))) (when documentation-supplied-p (setf (std-slot-value gf 'sys::%documentation) documentation)) (finalize-standard-generic-function gf) gf) (progn (when (and (null *clos-booting*) (and (fboundp function-name) ;; since we're overwriting an autoloader, ;; we're probably meant to redefine it, ;; so throwing an error here might be a bad idea. ;; also, resolving the symbol isn't ;; a good option either: we've seen that lead to ;; recursive loading of the same file (and (not (autoloadp function-name)) (and (consp function-name) (eq 'setf (first function-name)) (not (autoload-ref-p (second function-name))))))) (error 'program-error :format-control "~A already names an ordinary function, macro, or special operator." :format-arguments (list function-name))) (when mc-p (error "Preliminary ensure-method does not support :method-combination argument.")) (apply #'make-instance-standard-generic-function generic-function-class :name function-name :method-class method-class :method-combination method-combination all-keys))))) (defun collect-eql-specializer-objects (generic-function) (let ((result nil)) (dolist (method (generic-function-methods generic-function)) (dolist (specializer (method-specializers method)) (when (typep specializer 'eql-specializer) (pushnew (eql-specializer-object specializer) result :test 'eql)))) result)) (defun finalize-standard-generic-function (gf) (%reinit-emf-cache gf (collect-eql-specializer-objects gf)) (set-funcallable-instance-function gf (if (std-generic-function-p gf) (std-compute-discriminating-function gf) (compute-discriminating-function gf))) ;; FIXME Do we need to warn on redefinition somewhere else? (let ((*warn-on-redefinition* nil)) (setf (fdefinition (generic-function-name gf)) gf)) (values)) (defun make-instance-standard-generic-function (generic-function-class &key name lambda-list (method-class +the-standard-method-class+) (method-combination +the-standard-method-combination+) argument-precedence-order declarations documentation) ;; to avoid circularities, we do not call generic functions in here. (declare (ignore generic-function-class)) (check-argument-precedence-order lambda-list argument-precedence-order) (let ((gf (allocate-funcallable-instance +the-standard-generic-function-class+))) (unless (classp method-class) (setf method-class (find-class method-class))) (unless (typep method-combination 'method-combination) (setf method-combination (find-method-combination gf (car method-combination) (cdr method-combination)))) (setf (std-slot-value gf 'sys::name) name) (setf (std-slot-value gf 'sys::lambda-list) lambda-list) (setf (std-slot-value gf 'sys::initial-methods) ()) (setf (std-slot-value gf 'sys::methods) ()) (setf (std-slot-value gf 'sys::method-class) method-class) (setf (std-slot-value gf 'sys::%method-combination) method-combination) (setf (std-slot-value gf 'sys::declarations) declarations) (setf (std-slot-value gf 'sys::%documentation) documentation) (let* ((plist (analyze-lambda-list (generic-function-lambda-list gf))) (required-args (getf plist ':required-args))) (setf (std-slot-value gf 'sys::required-args) required-args) (setf (std-slot-value gf 'sys::optional-args) (getf plist :optional-args)) (setf (std-slot-value gf 'sys::argument-precedence-order) (or argument-precedence-order required-args))) (finalize-standard-generic-function gf) gf)) (defun canonicalize-specializers (specializers) (mapcar #'canonicalize-specializer specializers)) (defun canonicalize-specializer (specializer) (cond ((classp specializer) specializer) ((typep specializer 'eql-specializer) specializer) ((symbolp specializer) (find-class specializer)) ((and (consp specializer) (eq (car specializer) 'eql)) (let ((object (cadr specializer))) (when (and (consp object) (eq (car object) 'quote)) (setf object (cadr object))) (intern-eql-specializer object))) ((and (consp specializer) (eq (car specializer) 'java:jclass)) (let ((jclass (eval specializer))) (java::ensure-java-class jclass))) (t (error "Unknown specializer: ~S" specializer)))) (defun parse-defmethod (args) (let ((function-name (car args)) (qualifiers ()) (specialized-lambda-list ()) (body ()) (parse-state :qualifiers)) (dolist (arg (cdr args)) (ecase parse-state (:qualifiers (if (and (atom arg) (not (null arg))) (push arg qualifiers) (progn (setf specialized-lambda-list arg) (setf parse-state :body)))) (:body (push arg body)))) (setf qualifiers (nreverse qualifiers) body (nreverse body)) (multiple-value-bind (real-body declarations documentation) (parse-body body) (values function-name qualifiers (extract-lambda-list specialized-lambda-list) (extract-specializer-names specialized-lambda-list) documentation declarations (list* 'block (fdefinition-block-name function-name) real-body))))) (defun required-portion (gf args) (let ((number-required (length (generic-function-required-arguments gf)))) (when (< (length args) number-required) (error 'program-error :format-control "Not enough arguments for generic function ~S." :format-arguments (list (generic-function-name gf)))) (subseq args 0 number-required))) (defun extract-lambda-list (specialized-lambda-list) (let* ((plist (analyze-lambda-list specialized-lambda-list)) (requireds (getf plist :required-names)) (rv (getf plist :rest-var)) (ks (getf plist :key-args)) (keysp (getf plist :keysp)) (aok (getf plist :allow-other-keys)) (opts (getf plist :optional-args)) (auxs (getf plist :auxiliary-args))) `(,@requireds ,@(if opts `(&optional ,@opts) ()) ,@(if rv `(&rest ,rv) ()) ,@(if (or ks keysp aok) `(&key ,@ks) ()) ,@(if aok '(&allow-other-keys) ()) ,@(if auxs `(&aux ,@auxs) ())))) (defun extract-specializer-names (specialized-lambda-list) (let ((plist (analyze-lambda-list specialized-lambda-list))) (getf plist ':specializers))) (defun get-keyword-from-arg (arg) (if (listp arg) (if (listp (car arg)) (caar arg) (make-keyword (car arg))) (make-keyword arg))) (defun analyze-lambda-list (lambda-list) (let ((keys ()) ; Just the keywords (key-args ()) ; Keywords argument specs (keysp nil) ; (required-names ()) ; Just the variable names (required-args ()) ; Variable names & specializers (specializers ()) ; Just the specializers (rest-var nil) (optionals ()) (auxs ()) (allow-other-keys nil) (state :required)) (dolist (arg lambda-list) (if (member arg lambda-list-keywords) (ecase arg (&optional (unless (eq state :required) (error 'program-error :format-control "~A followed by &OPTIONAL not allowed ~ in lambda list ~S" :format-arguments (list state lambda-list))) (setq state '&optional)) (&rest (unless (or (eq state :required) (eq state '&optional)) (error 'program-error :format-control "~A followed by &REST not allowed ~ in lambda list ~S" :format-arguments (list state lambda-list))) (setq state '&rest)) (&key (unless (or (eq state :required) (eq state '&optional) (eq state '&rest)) (error 'program-error :format-control "~A followed by &KEY not allowed in lambda list ~S" :format-arguments (list state lambda-list))) (setq keysp t) (setq state '&key)) (&allow-other-keys (unless (eq state '&key) (error 'program-error :format-control "&ALLOW-OTHER-KEYS not allowed while parsing ~A in lambda list ~S" :format-arguments (list state lambda-list))) (setq allow-other-keys 't)) (&aux ;; &aux comes last; any other previous state is fine (setq state '&aux))) (case state (:required (push-on-end arg required-args) (if (listp arg) (progn (push-on-end (car arg) required-names) (push-on-end (cadr arg) specializers)) (progn (push-on-end arg required-names) (push-on-end 't specializers)))) (&optional (push-on-end arg optionals)) (&rest (setq rest-var arg)) (&key (push-on-end (get-keyword-from-arg arg) keys) (push-on-end arg key-args)) (&aux (push-on-end arg auxs))))) (list :required-names required-names :required-args required-args :specializers specializers :rest-var rest-var :keywords keys :key-args key-args :keysp keysp :auxiliary-args auxs :optional-args optionals :allow-other-keys allow-other-keys))) #+nil (defun check-method-arg-info (gf arg-info method) (multiple-value-bind (nreq nopt keysp restp allow-other-keys-p keywords) (analyze-lambda-list (if (consp method) (early-method-lambda-list method) (method-lambda-list method))) (flet ((lose (string &rest args) (error 'simple-program-error :format-control "~@" :format-arguments (list method gf string args))) (comparison-description (x y) (if (> x y) "more" "fewer"))) (let ((gf-nreq (arg-info-number-required arg-info)) (gf-nopt (arg-info-number-optional arg-info)) (gf-key/rest-p (arg-info-key/rest-p arg-info)) (gf-keywords (arg-info-keys arg-info))) (unless (= nreq gf-nreq) (lose "the method has ~A required arguments than the generic function." (comparison-description nreq gf-nreq))) (unless (= nopt gf-nopt) (lose "the method has ~A optional arguments than the generic function." (comparison-description nopt gf-nopt))) (unless (eq (or keysp restp) gf-key/rest-p) (lose "the method and generic function differ in whether they accept~_~ &REST or &KEY arguments.")) (when (consp gf-keywords) (unless (or (and restp (not keysp)) allow-other-keys-p (every (lambda (k) (memq k keywords)) gf-keywords)) (lose "the method does not accept each of the &KEY arguments~2I~_~ ~S." gf-keywords))))))) (defun check-method-lambda-list (name method-lambda-list gf-lambda-list) (let* ((gf-restp (not (null (memq '&rest gf-lambda-list)))) (gf-plist (analyze-lambda-list gf-lambda-list)) (gf-keysp (getf gf-plist :keysp)) (gf-keywords (getf gf-plist :keywords)) (method-plist (analyze-lambda-list method-lambda-list)) (method-restp (not (null (memq '&rest method-lambda-list)))) (method-keysp (getf method-plist :keysp)) (method-keywords (getf method-plist :keywords)) (method-allow-other-keys-p (getf method-plist :allow-other-keys))) (unless (= (length (getf gf-plist :required-args)) (length (getf method-plist :required-args))) (error "The method-lambda-list ~S ~ has the wrong number of required arguments ~ for the generic function ~S." method-lambda-list name)) (unless (= (length (getf gf-plist :optional-args)) (length (getf method-plist :optional-args))) (error "The method-lambda-list ~S ~ has the wrong number of optional arguments ~ for the generic function ~S." method-lambda-list name)) (unless (eq (or gf-restp gf-keysp) (or method-restp method-keysp)) (error "The method-lambda-list ~S ~ and the generic function ~S ~ differ in whether they accept &REST or &KEY arguments." method-lambda-list name)) (when (consp gf-keywords) (unless (or (and method-restp (not method-keysp)) method-allow-other-keys-p (every (lambda (k) (memq k method-keywords)) gf-keywords)) (error "The method-lambda-list ~S does not accept ~ all of the keyword arguments defined for the ~ generic function." method-lambda-list name))))) (defun check-argument-precedence-order (lambda-list argument-precedence-order) (when argument-precedence-order (if lambda-list ;; raising the required program-errors is a side-effect of ;; calculating the given permutation of apo vs req (argument-precedence-order-indices argument-precedence-order (getf (analyze-lambda-list lambda-list) :required-args)) ;; AMOP pg. 198 (error 'program-error "argument precedence order specified without lambda list")))) (defvar *gf-initialize-instance* nil "Cached value of the INITIALIZE-INSTANCE generic function. Initialized with the true value near the end of the file.") (defvar *gf-allocate-instance* nil "Cached value of the ALLOCATE-INSTANCE generic function. Initialized with the true value near the end of the file.") (defvar *gf-shared-initialize* nil "Cached value of the SHARED-INITIALIZE generic function. Initialized with the true value near the end of the file.") (defvar *gf-reinitialize-instance* nil "Cached value of the REINITIALIZE-INSTANCE generic function. Initialized with the true value near the end of the file.") (declaim (ftype (function * method) ensure-method)) (defun ensure-method (name &rest all-keys) (let ((method-lambda-list (getf all-keys :lambda-list)) (gf (find-generic-function name nil))) (when (or (eq gf *gf-initialize-instance*) (eq gf *gf-allocate-instance*) (eq gf *gf-shared-initialize*) (eq gf *gf-reinitialize-instance*)) ;; ### Clearly, this can be targeted much more exact ;; as we only need to remove the specializing class and all ;; its subclasses from the hash. (clrhash *make-instance-initargs-cache*) (clrhash *reinitialize-instance-initargs-cache*)) (if gf (check-method-lambda-list name method-lambda-list (generic-function-lambda-list gf)) (setf gf (ensure-generic-function name :lambda-list method-lambda-list))) (let ((method (if (eq (generic-function-method-class gf) +the-standard-method-class+) (apply #'make-instance-standard-method gf all-keys) (apply #'make-instance (generic-function-method-class gf) all-keys)))) (if (and (eq (generic-function-method-class gf) +the-standard-method-class+) (std-generic-function-p gf)) (progn (std-add-method gf method) (map-dependents gf #'(lambda (dep) (update-dependent gf dep 'add-method method)))) (add-method gf method)) method))) (defun make-instance-standard-method (gf &key lambda-list qualifiers specializers documentation function fast-function) (declare (ignore gf)) (let ((method (std-allocate-instance +the-standard-method-class+)) (analyzed-args (analyze-lambda-list lambda-list))) (setf (method-lambda-list method) lambda-list) (setf (method-qualifiers method) qualifiers) (setf (std-slot-value method 'sys::specializers) (canonicalize-specializers specializers)) (setf (method-documentation method) documentation) (setf (std-slot-value method 'sys::%generic-function) nil) ; set by add-method (setf (std-slot-value method 'sys::%function) function) (setf (std-slot-value method 'sys::fast-function) fast-function) (setf (std-slot-value method 'sys::keywords) (getf analyzed-args :keywords)) (setf (std-slot-value method 'sys::other-keywords-p) (getf analyzed-args :allow-other-keys)) method)) ;;; To be redefined as generic functions later (declaim (notinline add-direct-method)) (defun add-direct-method (specializer method) (if (typep specializer 'eql-specializer) (pushnew method (std-slot-value specializer 'direct-methods)) (pushnew method (class-direct-methods specializer)))) (declaim (notinline remove-direct-method)) (defun remove-direct-method (specializer method) (if (typep specializer 'eql-specializer) (setf (std-slot-value specializer 'direct-methods) (remove method (std-slot-value specializer 'direct-methods))) (setf (class-direct-methods specializer) (remove method (class-direct-methods specializer))))) (defun std-add-method (gf method) ;; calls sites need to make sure that method is either a method of the ;; given gf or does not have a gf. (let ((old-method (%find-method gf (std-method-qualifiers method) (method-specializers method) nil))) (when old-method (if (and (std-generic-function-p gf) (eq (class-of old-method) +the-standard-method-class+)) (std-remove-method gf old-method) (remove-method gf old-method)))) (setf (std-slot-value method 'sys::%generic-function) gf) (push method (std-slot-value gf 'sys::methods)) (dolist (specializer (method-specializers method)) (add-direct-method specializer method)) (finalize-standard-generic-function gf) gf) (defun std-remove-method (gf method) (setf (std-slot-value gf 'sys::methods) (remove method (generic-function-methods gf))) (setf (std-slot-value method 'sys::%generic-function) nil) (dolist (specializer (method-specializers method)) (remove-direct-method specializer method)) (finalize-standard-generic-function gf) gf) (defun %find-method (gf qualifiers specializers &optional (errorp t)) ;; "If the specializers argument does not correspond in length to the number ;; of required arguments of the generic-function, an an error of type ERROR ;; is signaled." (unless (= (length specializers) (length (generic-function-required-arguments gf))) (error "The specializers argument has length ~S, but ~S has ~S required parameters." (length specializers) gf (length (generic-function-required-arguments gf)))) (let* ((canonical-specializers (canonicalize-specializers specializers)) (method (find-if #'(lambda (method) (and (equal qualifiers (method-qualifiers method)) (equal canonical-specializers (method-specializers method)))) (generic-function-methods gf)))) (if (and (null method) errorp) (error "No such method for ~S." (generic-function-name gf)) method))) (defun fast-callable-p (gf) (and (eq (method-combination-name (generic-function-method-combination gf)) 'standard) (null (intersection (generic-function-lambda-list gf) '(&rest &optional &key &allow-other-keys &aux))))) (defun std-compute-discriminating-function (gf) ;; In this function, we know that gf is of class ;; standard-generic-function, so we can access the instance's slots ;; via std-slot-value. This breaks circularities when redefining ;; generic function accessors. (let ((methods (std-slot-value gf 'sys::methods))) (cond ((and (= (length methods) 1) (eq (type-of (car methods)) 'standard-reader-method) (eq (type-of (car (std-method-specializers (car methods)))) 'standard-class)) (let* ((method (first methods)) (slot-definition (std-slot-value method 'sys::%slot-definition)) (slot-name (std-slot-value slot-definition 'sys:name)) (class (car (std-method-specializers method)))) #'(lambda (instance) ;; TODO: elide this test for low values of SAFETY (unless (typep instance class) (no-applicable-method gf (list instance))) ;; hash table lookup for slot position in Layout object via ;; StandardObject.SLOT_VALUE, so should be reasonably fast (std-slot-value instance slot-name)))) ((and (= (length methods) 1) (eq (type-of (car methods)) 'standard-writer-method) (eq (type-of (second (std-method-specializers (car methods)))) 'standard-class)) (let* ((method (first methods)) (slot-definition (std-slot-value method 'sys::%slot-definition)) (slot-name (std-slot-value slot-definition 'sys:name)) (class (car (std-method-specializers method)))) #'(lambda (new-value instance) ;; TODO: elide this test for low values of SAFETY (unless (typep instance class) (no-applicable-method gf (list new-value instance))) ;; hash table lookup for slot position in Layout object via ;; StandardObject.SET_SLOT_VALUE, so should be reasonably fast (setf (std-slot-value instance slot-name) new-value)))) (t (let* ((number-required (length (generic-function-required-arguments gf))) (lambda-list (generic-function-lambda-list gf)) (exact (null (intersection lambda-list '(&rest &optional &key &allow-other-keys)))) (no-aux (null (some (lambda (method) (find '&aux (std-slot-value method 'sys::lambda-list))) methods)))) (if (and exact no-aux) (cond ((= number-required 1) (cond ((and (eq (method-combination-name (std-slot-value gf 'sys::%method-combination)) 'standard) (= (length methods) 1) (std-method-fast-function (%car methods))) (let* ((method (%car methods)) (specializer (car (std-method-specializers method))) (function (std-method-fast-function method))) (if (typep specializer 'eql-specializer) (let ((specializer-object (eql-specializer-object specializer))) #'(lambda (arg) (declare (optimize speed)) (if (eql arg specializer-object) (funcall function arg) (no-applicable-method gf (list arg))))) #'(lambda (arg) (declare (optimize speed)) (unless (simple-typep arg specializer) ;; FIXME no applicable method (error 'simple-type-error :datum arg :expected-type specializer)) (funcall function arg))))) (t #'(lambda (arg) (declare (optimize speed)) (let* ((args (list arg)) (emfun (get-cached-emf gf args))) (if emfun (funcall emfun args) (slow-method-lookup gf args))))))) ((= number-required 2) #'(lambda (arg1 arg2) (declare (optimize speed)) (let* ((args (list arg1 arg2)) (emfun (get-cached-emf gf args))) (if emfun (funcall emfun args) (slow-method-lookup gf args))))) ((= number-required 3) #'(lambda (arg1 arg2 arg3) (declare (optimize speed)) (let* ((args (list arg1 arg2 arg3)) (emfun (get-cached-emf gf args))) (if emfun (funcall emfun args) (slow-method-lookup gf args))))) (t #'(lambda (&rest args) (declare (optimize speed)) (let ((len (length args))) (unless (= len number-required) (error 'program-error :format-control "Not enough arguments for generic function ~S." :format-arguments (list (generic-function-name gf))))) (let ((emfun (get-cached-emf gf args))) (if emfun (funcall emfun args) (slow-method-lookup gf args)))))) #'(lambda (&rest args) (declare (optimize speed)) (let ((len (length args))) (unless (>= len number-required) (error 'program-error :format-control "Not enough arguments for generic function ~S." :format-arguments (list (generic-function-name gf))))) (let ((emfun (get-cached-emf gf args))) (if emfun (funcall emfun args) (slow-method-lookup gf args)))))))))) (defun sort-methods (methods gf required-classes) (if (or (null methods) (null (%cdr methods))) methods (sort methods (if (std-generic-function-p gf) (let ((method-indices (argument-precedence-order-indices (generic-function-argument-precedence-order gf) (getf (analyze-lambda-list (generic-function-lambda-list gf)) ':required-args)))) #'(lambda (m1 m2) (std-method-more-specific-p m1 m2 required-classes method-indices))) #'(lambda (m1 m2) (method-more-specific-p gf m1 m2 required-classes)))))) (defun method-applicable-p (method args) (do* ((specializers (method-specializers method) (cdr specializers)) (args args (cdr args))) ((null specializers) t) (let ((specializer (car specializers))) (if (typep specializer 'eql-specializer) (unless (eql (car args) (eql-specializer-object specializer)) (return nil)) (unless (subclassp (class-of (car args)) specializer) (return nil)))))) (defun std-compute-applicable-methods (gf args) (let ((required-classes (mapcar #'class-of (required-portion gf args))) (methods '())) (dolist (method (generic-function-methods gf)) (when (method-applicable-p method args) (push method methods))) (sort-methods methods gf required-classes))) (declaim (notinline compute-applicable-methods)) (defun compute-applicable-methods (gf args) (std-compute-applicable-methods gf args)) ;;; METHOD-APPLICABLE-USING-CLASSES-P ;;; ;;; If the first return value is T, METHOD is definitely applicable to ;;; arguments that are instances of CLASSES. If the first value is ;;; NIL and the second value is T, METHOD is definitely not applicable ;;; to arguments that are instances of CLASSES; if the second value is ;;; NIL the applicability of METHOD cannot be determined by inspecting ;;; the classes of its arguments only. ;;; (defun method-applicable-using-classes-p (method classes) (do* ((specializers (method-specializers method) (cdr specializers)) (classes classes (cdr classes)) (knownp t)) ((null specializers) (if knownp (values t t) (values nil nil))) (let ((specializer (car specializers))) (if (typep specializer 'eql-specializer) (if (eql (class-of (eql-specializer-object specializer)) (car classes)) (setf knownp nil) (return (values nil t))) (unless (subclassp (car classes) specializer) (return (values nil t))))))) (defun check-applicable-method-keyword-args (gf args keyword-args applicable-keywords) (when (oddp (length keyword-args)) (error 'program-error :format-control "Odd number of keyword arguments in call to ~S ~ with arguments list ~S" :format-arguments (list gf args))) (unless (getf keyword-args :allow-other-keys) (loop for key in keyword-args by #'cddr unless (or (member key applicable-keywords) (eq key :allow-other-keys)) do (error 'program-error :format-control "Invalid keyword argument ~S in call ~ to ~S with argument list ~S." :format-arguments (list key gf args))))) (defun compute-applicable-keywords (gf applicable-methods) (let ((applicable-keywords (getf (analyze-lambda-list (generic-function-lambda-list gf)) :keywords))) (loop for method in applicable-methods do (multiple-value-bind (keywords allow-other-keys) (function-keywords method) (when allow-other-keys (setf applicable-keywords :any) (return)) (setf applicable-keywords (union applicable-keywords keywords)))) applicable-keywords)) (defun wrap-emfun-for-keyword-args-check (gf emfun non-keyword-args applicable-keywords) #'(lambda (args) (check-applicable-method-keyword-args gf args (nthcdr non-keyword-args args) applicable-keywords) (funcall emfun args))) (defun slow-method-lookup (gf args) (let ((applicable-methods (if (std-generic-function-p gf) (std-compute-applicable-methods gf args) (or (compute-applicable-methods-using-classes gf (mapcar #'class-of args)) (compute-applicable-methods gf args))))) (if applicable-methods (let* ((emfun (funcall (if (std-generic-function-p gf) #'std-compute-effective-method #'compute-effective-method) gf (generic-function-method-combination gf) applicable-methods)) (non-keyword-args (+ (length (generic-function-required-arguments gf)) (length (generic-function-optional-arguments gf)))) (gf-lambda-list (generic-function-lambda-list gf)) (checks-required (and (member '&key gf-lambda-list) (not (member '&allow-other-keys gf-lambda-list)))) (applicable-keywords (when checks-required ;; Don't do applicable keyword checks when this is ;; one of the 'exceptional four' or when the gf allows ;; other keywords. (compute-applicable-keywords gf applicable-methods)))) (when (and checks-required (not (eq applicable-keywords :any))) (setf emfun (wrap-emfun-for-keyword-args-check gf emfun non-keyword-args applicable-keywords))) (cache-emf gf args emfun) (funcall emfun args)) (apply #'no-applicable-method gf args)))) (defun sub-specializer-p (c1 c2 c-arg) (find c2 (cdr (memq c1 (%class-precedence-list c-arg))))) (defun std-method-more-specific-p (method1 method2 required-classes argument-precedence-order) (if argument-precedence-order (let ((specializers-1 (std-method-specializers method1)) (specializers-2 (std-method-specializers method2))) (dolist (index argument-precedence-order) (let ((spec1 (nth index specializers-1)) (spec2 (nth index specializers-2))) (unless (eq spec1 spec2) (cond ((typep spec1 'eql-specializer) (return t)) ((typep spec2 'eql-specializer) (return nil)) (t (return (sub-specializer-p spec1 spec2 (nth index required-classes))))))))) (do ((specializers-1 (std-method-specializers method1) (cdr specializers-1)) (specializers-2 (std-method-specializers method2) (cdr specializers-2)) (classes required-classes (cdr classes))) ((null specializers-1) nil) (let ((spec1 (car specializers-1)) (spec2 (car specializers-2))) (unless (eq spec1 spec2) (cond ((typep spec1 'eql-specializer) (return t)) ((typep spec2 'eql-specializer) (return nil)) (t (return (sub-specializer-p spec1 spec2 (car classes)))))))))) (defun primary-method-p (method) (null (intersection '(:before :after :around) (method-qualifiers method)))) (defun before-method-p (method) (equal '(:before) (method-qualifiers method))) (defun after-method-p (method) (equal '(:after) (method-qualifiers method))) (defun around-method-p (method) (equal '(:around) (method-qualifiers method))) (defun process-next-method-list (next-method-list) (mapcar #'(lambda (next-method-form) (cond ((listp next-method-form) (assert (eq (first next-method-form) 'make-method)) (let* ((rest-sym (gensym))) (make-instance-standard-method nil ;; ignored :lambda-list (list '&rest rest-sym) :function (compute-method-function `(lambda (&rest ,rest-sym) ,(second next-method-form)))))) (t (assert (typep next-method-form 'method)) next-method-form))) next-method-list)) (defun std-compute-effective-method (gf method-combination methods) (assert (typep method-combination 'method-combination)) (let* ((mc-name (method-combination-name method-combination)) (options (slot-value method-combination 'options)) (order (car options)) (primaries '()) (arounds '()) around emf-form (long-method-combination-p (typep method-combination 'long-method-combination))) (unless long-method-combination-p (dolist (m methods) (let ((qualifiers (method-qualifiers m))) (cond ((null qualifiers) (if (eq mc-name 'standard) (push m primaries) (error "Method combination type mismatch: missing qualifier for method combination ~S." method-combination))) ((cdr qualifiers) (error "Invalid method qualifiers.")) ((eq (car qualifiers) :around) (push m arounds)) ((eq (car qualifiers) mc-name) (push m primaries)) ((memq (car qualifiers) '(:before :after))) (t (error "Invalid method qualifiers.")))))) (unless (eq order :most-specific-last) (setf primaries (nreverse primaries))) (setf arounds (nreverse arounds)) (setf around (car arounds)) (when (and (null primaries) (not long-method-combination-p)) (error "No primary methods for the generic function ~S." gf)) (cond (around (let ((next-emfun (funcall (if (std-generic-function-p gf) #'std-compute-effective-method #'compute-effective-method) gf method-combination (remove around methods)))) (setf emf-form (generate-emf-lambda (method-function around) next-emfun)))) ((eq mc-name 'standard) (let* ((next-emfun (compute-primary-emfun (cdr primaries))) (befores (remove-if-not #'before-method-p methods)) (reverse-afters (reverse (remove-if-not #'after-method-p methods)))) (setf emf-form (cond ((and (null befores) (null reverse-afters)) (let ((fast-function (std-method-fast-function (car primaries)))) (if fast-function (ecase (length (generic-function-required-arguments gf)) (1 #'(lambda (args) (declare (optimize speed)) (funcall fast-function (car args)))) (2 #'(lambda (args) (declare (optimize speed)) (funcall fast-function (car args) (cadr args))))) (generate-emf-lambda (std-method-function (car primaries)) next-emfun)))) (t (let ((method-function (method-function (car primaries)))) #'(lambda (args) (declare (optimize speed)) (dolist (before befores) (funcall (method-function before) args nil)) (multiple-value-prog1 (funcall method-function args next-emfun) (dolist (after reverse-afters) (funcall (method-function after) args nil)))))))))) (long-method-combination-p (let ((function (long-method-combination-function method-combination)) (arguments (slot-value method-combination 'options))) (assert function) (setf emf-form (if arguments (apply function gf methods arguments) (funcall function gf methods))))) (t (unless (typep method-combination 'short-method-combination) (error "Unsupported method combination type ~A." mc-name)) (let ((operator (short-method-combination-operator method-combination)) (ioa (short-method-combination-identity-with-one-argument method-combination))) (setf emf-form (if (and ioa (null (cdr primaries))) (generate-emf-lambda (method-function (car primaries)) nil) `(lambda (args) (,operator ,@(mapcar (lambda (primary) `(funcall ,(method-function primary) args nil)) primaries)))))))) (assert (not (null emf-form))) (or #+nil (ignore-errors (autocompile emf-form)) (coerce-to-function emf-form)))) (defun generate-emf-lambda (method-function next-emfun) #'(lambda (args) (declare (optimize speed)) (funcall method-function args next-emfun))) ;;; compute an effective method function from a list of primary methods: (defun compute-primary-emfun (methods) (if (null methods) nil (let ((next-emfun (compute-primary-emfun (cdr methods)))) #'(lambda (args) (funcall (std-method-function (car methods)) args next-emfun))))) (defvar *call-next-method-p*) (defvar *next-method-p-p*) (defun walk-form (form) (cond ((atom form) (cond ((eq form 'call-next-method) (setf *call-next-method-p* t)) ((eq form 'next-method-p) (setf *next-method-p-p* t)))) (t (walk-form (%car form)) (walk-form (%cdr form))))) (defun compute-method-function (lambda-expression) (let ((lambda-list (allow-other-keys (cadr lambda-expression))) (body (cddr lambda-expression)) (*call-next-method-p* nil) (*next-method-p-p* nil)) (multiple-value-bind (body declarations) (parse-body body) (let ((ignorable-vars '())) (dolist (var lambda-list) (if (memq var lambda-list-keywords) (return) (push var ignorable-vars))) (push `(declare (ignorable ,@ignorable-vars)) declarations)) (walk-form body) (cond ((or *call-next-method-p* *next-method-p-p*) `(lambda (args next-emfun) (flet ((call-next-method (&rest cnm-args) (if (null next-emfun) (error "No next method for generic function.") (funcall next-emfun (or cnm-args args)))) (next-method-p () (not (null next-emfun)))) (declare (ignorable (function call-next-method) (function next-method-p))) (apply #'(lambda ,lambda-list ,@declarations ,@body) args)))) ((null (intersection lambda-list '(&rest &optional &key &allow-other-keys &aux))) ;; Required parameters only. (case (length lambda-list) (1 `(lambda (args next-emfun) (declare (ignore next-emfun)) (let ((,(%car lambda-list) (%car args))) (declare (ignorable ,(%car lambda-list))) ,@declarations ,@body))) (2 `(lambda (args next-emfun) (declare (ignore next-emfun)) (let ((,(%car lambda-list) (%car args)) (,(%cadr lambda-list) (%cadr args))) (declare (ignorable ,(%car lambda-list) ,(%cadr lambda-list))) ,@declarations ,@body))) (3 `(lambda (args next-emfun) (declare (ignore next-emfun)) (let ((,(%car lambda-list) (%car args)) (,(%cadr lambda-list) (%cadr args)) (,(%caddr lambda-list) (%caddr args))) (declare (ignorable ,(%car lambda-list) ,(%cadr lambda-list) ,(%caddr lambda-list))) ,@declarations ,@body))) (t `(lambda (args next-emfun) (declare (ignore next-emfun)) (apply #'(lambda ,lambda-list ,@declarations ,@body) args))))) (t `(lambda (args next-emfun) (declare (ignore next-emfun)) (apply #'(lambda ,lambda-list ,@declarations ,@body) args))))))) (defun compute-method-fast-function (lambda-expression) (let ((lambda-list (allow-other-keys (cadr lambda-expression)))) (when (intersection lambda-list '(&rest &optional &key &allow-other-keys &aux)) (return-from compute-method-fast-function nil)) ;; Only required args. (let ((body (cddr lambda-expression)) (*call-next-method-p* nil) (*next-method-p-p* nil)) (multiple-value-bind (body declarations) (parse-body body) (walk-form body) (when (or *call-next-method-p* *next-method-p-p*) (return-from compute-method-fast-function nil)) (let ((decls `(declare (ignorable ,@lambda-list)))) (setf lambda-expression (list* (car lambda-expression) (cadr lambda-expression) decls (cddr lambda-expression)))) (case (length lambda-list) (1 ;; `(lambda (args next-emfun) ;; (let ((,(%car lambda-list) (%car args))) ;; (declare (ignorable ,(%car lambda-list))) ;; ,@declarations ,@body))) lambda-expression) (2 ;; `(lambda (args next-emfun) ;; (let ((,(%car lambda-list) (%car args)) ;; (,(%cadr lambda-list) (%cadr args))) ;; (declare (ignorable ,(%car lambda-list) ;; ,(%cadr lambda-list))) ;; ,@declarations ,@body))) lambda-expression) ;; (3 ;; `(lambda (args next-emfun) ;; (let ((,(%car lambda-list) (%car args)) ;; (,(%cadr lambda-list) (%cadr args)) ;; (,(%caddr lambda-list) (%caddr args))) ;; (declare (ignorable ,(%car lambda-list) ;; ,(%cadr lambda-list) ;; ,(%caddr lambda-list))) ;; ,@declarations ,@body))) (t nil)))))) (declaim (notinline make-method-lambda)) (defun make-method-lambda (generic-function method lambda-expression env) (declare (ignore generic-function method env)) (values (compute-method-function lambda-expression) nil)) ;; From CLHS section 7.6.5: ;; "When a generic function or any of its methods mentions &key in a lambda ;; list, the specific set of keyword arguments accepted by the generic function ;; varies according to the applicable methods. The set of keyword arguments ;; accepted by the generic function for a particular call is the union of the ;; keyword arguments accepted by all applicable methods and the keyword ;; arguments mentioned after &key in the generic function definition, if any." ;; Adapted from Sacla. (defun allow-other-keys (lambda-list) (if (and (member '&key lambda-list) (not (member '&allow-other-keys lambda-list))) (let* ((key-end (or (position '&aux lambda-list) (length lambda-list))) (aux-part (subseq lambda-list key-end))) `(,@(subseq lambda-list 0 key-end) &allow-other-keys ,@aux-part)) lambda-list)) (defmacro defmethod (&rest args &environment env) (multiple-value-bind (function-name qualifiers lambda-list specializers documentation declarations body) (parse-defmethod args) (let* ((specializers-form '()) (lambda-expression `(lambda ,lambda-list ,@declarations ,body)) (gf (or (find-generic-function function-name nil) (class-prototype (find-class 'standard-generic-function)))) (method-function (make-method-lambda gf (class-prototype (generic-function-method-class gf)) lambda-expression env)) (fast-function (compute-method-fast-function lambda-expression)) ) (dolist (specializer specializers) (cond ((and (consp specializer) (eq (car specializer) 'eql)) (push `(list 'eql ,(cadr specializer)) specializers-form)) (t (push `',specializer specializers-form)))) (setf specializers-form `(list ,@(nreverse specializers-form))) `(progn (ensure-method ',function-name :lambda-list ',lambda-list :qualifiers ',qualifiers :specializers (canonicalize-specializers ,specializers-form) ,@(if documentation `(:documentation ,documentation)) :function (function ,method-function) ,@(if fast-function `(:fast-function (function ,fast-function))) ))))) ;;; Reader and writer methods (defun make-instance-standard-accessor-method (method-class &key lambda-list qualifiers specializers documentation function fast-function slot-definition) (let ((method (std-allocate-instance method-class))) (setf (method-lambda-list method) lambda-list) (setf (method-qualifiers method) qualifiers) (setf (std-slot-value method 'sys::specializers) (canonicalize-specializers specializers)) (setf (method-documentation method) documentation) (setf (std-slot-value method 'sys::%generic-function) nil) (setf (std-slot-value method 'sys::%function) function) (setf (std-slot-value method 'sys::fast-function) fast-function) (setf (std-slot-value method 'sys::%slot-definition) slot-definition) (setf (std-slot-value method 'sys::keywords) nil) (setf (std-slot-value method 'sys::other-keywords-p) nil) method)) (defun add-reader-method (class function-name slot-definition) (let* ((slot-name (slot-definition-name slot-definition)) (lambda-expression (if (std-class-p class) `(lambda (object) (std-slot-value object ',slot-name)) `(lambda (object) (slot-value object ',slot-name)))) (method-function (compute-method-function lambda-expression)) (fast-function (compute-method-fast-function lambda-expression)) (method-lambda-list '(object)) (gf (find-generic-function function-name nil)) (initargs `(:lambda-list ,method-lambda-list :qualifiers () :specializers (,class) :function ,(if (autoloadp 'compile) method-function (autocompile method-function)) :fast-function ,(if (autoloadp 'compile) fast-function (autocompile fast-function)) :slot-definition ,slot-definition)) (method-class (if (std-class-p class) +the-standard-reader-method-class+ (apply #'reader-method-class class slot-definition initargs)))) ;; required by AMOP pg. 225 (assert (subtypep method-class +the-standard-reader-method-class+)) (if gf (check-method-lambda-list function-name method-lambda-list (generic-function-lambda-list gf)) (setf gf (ensure-generic-function function-name :lambda-list method-lambda-list))) (let ((method (if (eq method-class +the-standard-reader-method-class+) (apply #'make-instance-standard-accessor-method method-class initargs) (apply #'make-instance method-class :generic-function nil ; handled by add-method initargs)))) (if (std-generic-function-p gf) (progn (std-add-method gf method) (map-dependents gf #'(lambda (dep) (update-dependent gf dep 'add-method method)))) (add-method gf method)) method))) (defun add-writer-method (class function-name slot-definition) (let* ((slot-name (slot-definition-name slot-definition)) (lambda-expression (if (std-class-p class) `(lambda (new-value object) (setf (std-slot-value object ',slot-name) new-value)) `(lambda (new-value object) (setf (slot-value object ',slot-name) new-value)))) (method-function (compute-method-function lambda-expression)) (fast-function (compute-method-fast-function lambda-expression)) (method-lambda-list '(new-value object)) (gf (find-generic-function function-name nil)) (initargs `(:lambda-list ,method-lambda-list :qualifiers () :specializers (,+the-T-class+ ,class) :function ,(if (autoloadp 'compile) method-function (autocompile method-function)) :fast-function ,(if (autoloadp 'compile) fast-function (autocompile fast-function)) :slot-definition ,slot-definition)) (method-class (if (std-class-p class) +the-standard-writer-method-class+ (apply #'writer-method-class class slot-definition initargs)))) ;; required by AMOP pg. 242 (assert (subtypep method-class +the-standard-writer-method-class+)) (if gf (check-method-lambda-list function-name method-lambda-list (generic-function-lambda-list gf)) (setf gf (ensure-generic-function function-name :lambda-list method-lambda-list))) (let ((method (if (eq method-class +the-standard-writer-method-class+) (apply #'make-instance-standard-accessor-method method-class initargs) (apply #'make-instance method-class :generic-function nil ; handled by add-method initargs)))) (if (std-generic-function-p gf) (progn (std-add-method gf method) (map-dependents gf #'(lambda (dep) (update-dependent gf dep 'add-method method)))) (add-method gf method)) method))) (defmacro atomic-defgeneric (function-name &rest rest) "Macro to define a generic function and 'swap it into place' after it's been fully defined with all its methods. Note: the user should really use the (:method ..) method description way of defining methods; there's not much use in atomically defining generic functions without providing sensible behaviour." (let ((temp-sym (gensym))) `(progn (defgeneric ,temp-sym ,@rest) (let ((gf (symbol-function ',temp-sym))) ;; FIXME (rudi 2012-07-08): fset gets the source location info ;; to charpos 23 always (but (setf fdefinition) leaves the ;; outdated source position in place, which is even worse). (fset ',function-name gf) (setf (std-slot-value gf 'sys::name) ',function-name) (fmakunbound ',temp-sym) gf)))) (defmacro redefine-class-forwarder (name slot &optional body-alist) "Define a generic function on a temporary symbol as an accessor for the slot `slot'. Then, when definition is complete (including allocation of methods), swap the definition in place. `body-alist' can be used to override the default method bodies for given metaclasses. In substitute method bodies, `class' names the class instance and, for setters, `new-value' the new value." (let* ((setterp (consp name)) (%name (intern (concatenate 'string "%" (if setterp (symbol-name 'set-) "") (symbol-name (if setterp (cadr name) name))) (find-package "SYS"))) (bodies (append body-alist (if setterp `((built-in-class . (,%name new-value class)) (forward-referenced-class . (,%name new-value class)) (structure-class . (,%name new-value class)) (standard-class . (setf (slot-value class ',slot) new-value)) (funcallable-standard-class . (setf (slot-value class ',slot) new-value))) `((built-in-class . (,%name class)) (forward-referenced-class . (,%name class)) (structure-class . (,%name class)) (standard-class . (slot-value class ',slot)) (funcallable-standard-class . (slot-value class ',slot))))))) `(atomic-defgeneric ,name (,@(when setterp (list 'new-value)) class) ,@(mapcar #'(lambda (class-name) `(:method (,@(when setterp (list 'new-value)) (class ,class-name)) ,(cdr (assoc class-name bodies)))) '(built-in-class forward-referenced-class structure-class standard-class funcallable-standard-class))))) ;;; The slot names here must agree with the ones defined in ;;; StandardClass.java:layoutStandardClass. (redefine-class-forwarder class-name sys:name) ;;; AMOP pg. 230 (redefine-class-forwarder (setf class-name) sys:name ((standard-class . (progn (reinitialize-instance class :name new-value) new-value)) (funcallable-standard-class . (progn (reinitialize-instance class :name new-value) new-value)))) (redefine-class-forwarder class-slots sys:slots) (redefine-class-forwarder (setf class-slots) sys:slots) (redefine-class-forwarder class-direct-slots sys:direct-slots) (redefine-class-forwarder (setf class-direct-slots) sys:direct-slots) (redefine-class-forwarder class-layout sys:layout) (redefine-class-forwarder (setf class-layout) sys:layout) (redefine-class-forwarder class-direct-superclasses sys:direct-superclasses) (redefine-class-forwarder (setf class-direct-superclasses) sys:direct-superclasses) (redefine-class-forwarder class-direct-subclasses sys:direct-subclasses) (redefine-class-forwarder (setf class-direct-subclasses) sys:direct-subclasses) (redefine-class-forwarder class-direct-methods sys:direct-methods) (redefine-class-forwarder (setf class-direct-methods) sys:direct-methods) (redefine-class-forwarder class-precedence-list sys:precedence-list) (redefine-class-forwarder (setf class-precedence-list) sys:precedence-list) (redefine-class-forwarder class-finalized-p sys:finalized-p) (redefine-class-forwarder (setf class-finalized-p) sys:finalized-p) (redefine-class-forwarder class-default-initargs sys:default-initargs) (redefine-class-forwarder (setf class-default-initargs) sys:default-initargs) (redefine-class-forwarder class-direct-default-initargs sys:direct-default-initargs) (redefine-class-forwarder (setf class-direct-default-initargs) sys:direct-default-initargs) ;;; Class definition (defun check-duplicate-slots (slots) (flet ((canonical-slot-name (canonical-slot) (getf canonical-slot :name))) (dolist (s1 slots) (let ((name1 (canonical-slot-name s1))) (dolist (s2 (cdr (memq s1 slots))) (when (eq name1 (canonical-slot-name s2)) (error 'program-error "Duplicate slot ~S" name1))))))) (defun check-duplicate-default-initargs (initargs) (let ((names ())) (dolist (initarg initargs) (push (car initarg) names)) (do* ((names names (cdr names)) (name (car names) (car names))) ((null names)) (when (memq name (cdr names)) (error 'program-error :format-control "Duplicate initialization argument name ~S in :DEFAULT-INITARGS." :format-arguments (list name)))))) (defun canonicalize-direct-superclasses (direct-superclasses) (let ((classes '())) (dolist (class-specifier direct-superclasses) (let ((class (if (classp class-specifier) class-specifier (find-class class-specifier nil)))) (unless class (setf class (make-instance +the-forward-referenced-class+ :name class-specifier)) (setf (find-class class-specifier) class)) (when (and (typep class 'built-in-class) (not (member class *extensible-built-in-classes*))) (error "Attempt to define a subclass of built-in-class ~S." class-specifier)) (push class classes))) (nreverse classes))) (atomic-defgeneric add-direct-subclass (superclass subclass) (:method ((superclass class) (subclass class)) (setf (class-direct-subclasses superclass) (adjoin subclass (class-direct-subclasses superclass))))) (atomic-defgeneric remove-direct-subclass (superclass subclass) (:method ((superclass class) (subclass class)) (setf (class-direct-subclasses superclass) (remove subclass (class-direct-subclasses superclass))))) ;;; AMOP pg. 182 (defun ensure-class (name &rest all-keys &key &allow-other-keys) (let ((class (find-class name nil))) ;; CLHS DEFCLASS: "If a class with the same proper name already ;; exists [...] the existing class is redefined." Ansi-tests ;; CLASS-0309 and CLASS-0310.1 demand this behavior. (if (and class (eql (class-name class) name)) (apply #'ensure-class-using-class class name all-keys) (apply #'ensure-class-using-class nil name all-keys)))) ;;; AMOP pg. 183ff. (defgeneric ensure-class-using-class (class name &key direct-default-initargs direct-slots direct-superclasses metaclass &allow-other-keys)) (defmethod ensure-class-using-class :before (class name &key direct-slots direct-default-initargs &allow-other-keys) (check-duplicate-slots direct-slots) (check-duplicate-default-initargs direct-default-initargs)) (defmethod ensure-class-using-class ((class null) name &rest all-keys &key (metaclass +the-standard-class+) direct-superclasses &allow-other-keys) (setf all-keys (copy-list all-keys)) ; since we modify it (remf all-keys :metaclass) (unless (classp metaclass) (setf metaclass (find-class metaclass))) (let ((class (apply (if (eq metaclass +the-standard-class+) #'make-instance-standard-class #'make-instance) metaclass :name name :direct-superclasses (canonicalize-direct-superclasses direct-superclasses) all-keys))) (%set-find-class name class) class)) (defmethod ensure-class-using-class ((class built-in-class) name &rest all-keys &key &allow-other-keys) (declare (ignore all-keys)) (error "The symbol ~S names a built-in class." name)) (defmethod ensure-class-using-class ((class forward-referenced-class) name &rest all-keys &key (metaclass +the-standard-class+) direct-superclasses &allow-other-keys) (setf all-keys (copy-list all-keys)) ; since we modify it (remf all-keys :metaclass) (unless (classp metaclass) (setf metaclass (find-class metaclass))) (apply #'change-class class metaclass all-keys) (apply #'reinitialize-instance class :name name :direct-superclasses (canonicalize-direct-superclasses direct-superclasses) all-keys) class) (defmethod ensure-class-using-class ((class class) name &rest all-keys &key (metaclass +the-standard-class+ metaclassp) direct-superclasses &allow-other-keys) (declare (ignore name)) (setf all-keys (copy-list all-keys)) ; since we modify it (remf all-keys :metaclass) (unless (classp metaclass) (setf metaclass (find-class metaclass))) (when (and metaclassp (not (eq (class-of class) metaclass))) (error 'program-error "Trying to redefine class ~S with different metaclass." (class-name class))) (apply #'reinitialize-instance class :direct-superclasses (canonicalize-direct-superclasses direct-superclasses) all-keys) class) (defmacro defclass (&whole form name direct-superclasses direct-slots &rest options) (unless (>= (length form) 3) (error 'program-error "Wrong number of arguments for DEFCLASS.")) (check-declaration-type name) `(ensure-class ',name :direct-superclasses (canonicalize-direct-superclasses ',direct-superclasses) :direct-slots ,(canonicalize-direct-slots direct-slots) ,@(canonicalize-defclass-options options))) ;;; AMOP pg. 180 (defgeneric direct-slot-definition-class (class &rest initargs)) (defmethod direct-slot-definition-class ((class class) &rest initargs) (declare (ignore initargs)) +the-standard-direct-slot-definition-class+) ;;; AMOP pg. 181 (defgeneric effective-slot-definition-class (class &rest initargs)) (defmethod effective-slot-definition-class ((class class) &rest initargs) (declare (ignore initargs)) +the-standard-effective-slot-definition-class+) ;;; AMOP pg. 224 (defgeneric reader-method-class (class direct-slot &rest initargs)) (defmethod reader-method-class ((class standard-class) (direct-slot standard-direct-slot-definition) &rest initargs) (declare (ignore initargs)) +the-standard-reader-method-class+) (defmethod reader-method-class ((class funcallable-standard-class) (direct-slot standard-direct-slot-definition) &rest initargs) (declare (ignore initargs)) +the-standard-reader-method-class+) ;;; AMOP pg. 242 (defgeneric writer-method-class (class direct-slot &rest initargs)) (defmethod writer-method-class ((class standard-class) (direct-slot standard-direct-slot-definition) &rest initargs) (declare (ignore initargs)) +the-standard-writer-method-class+) (defmethod writer-method-class ((class funcallable-standard-class) (direct-slot standard-direct-slot-definition) &rest initargs) (declare (ignore initargs)) +the-standard-writer-method-class+) ;;; Applicable methods (atomic-defgeneric compute-applicable-methods (gf args) (:method ((gf standard-generic-function) args) (std-compute-applicable-methods gf args))) (defgeneric compute-applicable-methods-using-classes (gf classes) (:method ((gf standard-generic-function) classes) (let ((methods '())) (dolist (method (generic-function-methods gf)) (multiple-value-bind (applicable knownp) (method-applicable-using-classes-p method classes) (cond (applicable (push method methods)) ((not knownp) (return-from compute-applicable-methods-using-classes (values nil nil)))))) (values (sort-methods methods gf classes) t)))) ;;; Slot access ;;; ;;; See AMOP pg. 156ff. for an overview. ;;; ;;; AMOP specifies these generic functions to dispatch on slot objects ;;; (with the exception of slot-exists-p-using-class), although its ;;; sample implementation Closette dispatches on slot names. We let ;;; slot-value and friends call their gf counterparts with the effective ;;; slot definition, but leave the definitions dispatching on slot name ;;; in place for user convenience. ;;; AMOP pg. 235 (defgeneric slot-value-using-class (class instance slot)) (defmethod slot-value-using-class ((class standard-class) instance (slot symbol)) (std-slot-value instance slot)) (defmethod slot-value-using-class ((class standard-class) instance (slot standard-effective-slot-definition)) (let* ((location (slot-definition-location slot)) (value (if (consp location) (cdr location) ; :allocation :class (standard-instance-access instance location)))) (if (eq value +slot-unbound+) ;; fix SLOT-UNBOUND.5 from ansi test suite (nth-value 0 (slot-unbound class instance (slot-definition-name slot))) value))) (defmethod slot-value-using-class ((class funcallable-standard-class) instance (slot symbol)) (std-slot-value instance slot)) (defmethod slot-value-using-class ((class funcallable-standard-class) instance (slot standard-effective-slot-definition)) (let* ((location (slot-definition-location slot)) (value (if (consp location) (cdr location) ; :allocation :class (funcallable-standard-instance-access instance location)))) (if (eq value +slot-unbound+) ;; fix SLOT-UNBOUND.5 from ansi test suite (nth-value 0 (slot-unbound class instance (slot-definition-name slot))) value))) (defmethod slot-value-using-class ((class structure-class) instance (slot symbol)) (std-slot-value instance slot)) (defmethod slot-value-using-class ((class structure-class) instance (slot standard-effective-slot-definition)) (std-slot-value instance (slot-definition-name slot))) ;;; AMOP pg. 231 (defgeneric (setf slot-value-using-class) (new-value class instance slot)) (defmethod (setf slot-value-using-class) (new-value (class standard-class) instance (slot symbol)) (setf (std-slot-value instance slot) new-value)) (defmethod (setf slot-value-using-class) (new-value (class standard-class) instance (slot standard-effective-slot-definition)) (let ((location (slot-definition-location slot))) (if (consp location) ; :allocation :class (setf (cdr location) new-value) (setf (standard-instance-access instance location) new-value)))) (defmethod (setf slot-value-using-class) (new-value (class funcallable-standard-class) instance (slot symbol)) (setf (std-slot-value instance slot) new-value)) (defmethod (setf slot-value-using-class) (new-value (class funcallable-standard-class) instance (slot standard-effective-slot-definition)) (let ((location (slot-definition-location slot))) (if (consp location) ; :allocation :class (setf (cdr location) new-value) (setf (funcallable-standard-instance-access instance location) new-value)))) (defmethod (setf slot-value-using-class) (new-value (class structure-class) instance (slot symbol)) (setf (std-slot-value instance slot) new-value)) (defmethod (setf slot-value-using-class) (new-value (class structure-class) instance (slot standard-effective-slot-definition)) (setf (std-slot-value instance (slot-definition-name slot)) new-value)) ;;; slot-exists-p-using-class is not specified by AMOP, and obviously ;;; cannot be specialized on the slot type. Hence, its implementation ;;; differs from slot-(boundp|makunbound|value)-using-class (defgeneric slot-exists-p-using-class (class instance slot-name)) (defmethod slot-exists-p-using-class (class instance slot-name) nil) (defmethod slot-exists-p-using-class ((class standard-class) instance slot-name) (std-slot-exists-p instance slot-name)) (defmethod slot-exists-p-using-class ((class funcallable-standard-class) instance slot-name) (std-slot-exists-p instance slot-name)) (defmethod slot-exists-p-using-class ((class structure-class) instance slot-name) (dolist (dsd (class-slots class)) (when (eq (sys::dsd-name dsd) slot-name) (return-from slot-exists-p-using-class t))) nil) (defgeneric slot-boundp-using-class (class instance slot)) (defmethod slot-boundp-using-class ((class standard-class) instance (slot symbol)) (std-slot-boundp instance slot)) (defmethod slot-boundp-using-class ((class standard-class) instance (slot standard-effective-slot-definition)) (let ((location (slot-definition-location slot))) (if (consp location) (not (eq (cdr location) +slot-unbound+)) ; :allocation :class (not (eq (standard-instance-access instance location) +slot-unbound+))))) (defmethod slot-boundp-using-class ((class funcallable-standard-class) instance (slot symbol)) (std-slot-boundp instance slot)) (defmethod slot-boundp-using-class ((class funcallable-standard-class) instance (slot standard-effective-slot-definition)) (let ((location (slot-definition-location slot))) (if (consp location) (not (eq (cdr location) +slot-unbound+)) ; :allocation :class (not (eq (funcallable-standard-instance-access instance location) +slot-unbound+))))) (defmethod slot-boundp-using-class ((class structure-class) instance slot) "Structure slots can't be unbound, so this method always returns T." (declare (ignore class instance slot)) t) (defgeneric slot-makunbound-using-class (class instance slot)) (defmethod slot-makunbound-using-class ((class standard-class) instance (slot symbol)) (std-slot-makunbound instance slot)) (defmethod slot-makunbound-using-class ((class standard-class) instance (slot standard-effective-slot-definition)) (let ((location (slot-definition-location slot))) (if (consp location) (setf (cdr location) +slot-unbound+) (setf (standard-instance-access instance location) +slot-unbound+)))) (defmethod slot-makunbound-using-class ((class funcallable-standard-class) instance (slot symbol)) (std-slot-makunbound instance slot)) (defmethod slot-makunbound-using-class ((class funcallable-standard-class) instance (slot symbol)) (let ((location (slot-definition-location slot))) (if (consp location) (setf (cdr location) +slot-unbound+) (setf (funcallable-standard-instance-access instance location) +slot-unbound+)))) (defmethod slot-makunbound-using-class ((class structure-class) instance slot) (declare (ignore class instance slot)) (error "Structure slots can't be unbound")) (defgeneric slot-missing (class instance slot-name operation &optional new-value)) (defmethod slot-missing ((class t) instance slot-name operation &optional new-value) (declare (ignore new-value)) (error "The slot ~S is missing from the class ~S." slot-name class)) (defgeneric slot-unbound (class instance slot-name)) (defmethod slot-unbound ((class t) instance slot-name) (error 'unbound-slot :instance instance :name slot-name)) ;;; Instance creation and initialization ;;; AMOP pg. 168ff. (defgeneric allocate-instance (class &rest initargs &key &allow-other-keys)) (defmethod allocate-instance ((class standard-class) &rest initargs) (declare (ignore initargs)) (std-allocate-instance class)) (defmethod allocate-instance ((class funcallable-standard-class) &rest initargs) (declare (ignore initargs)) (allocate-funcallable-instance class)) (defmethod allocate-instance ((class structure-class) &rest initargs) (declare (ignore initargs)) (%make-structure (class-name class) (make-list (length (class-slots class)) :initial-element +slot-unbound+))) (defmethod allocate-instance ((class built-in-class) &rest initargs) (declare (ignore initargs)) (error "Cannot allocate instances of a built-in class: ~S" class)) (defmethod allocate-instance :before ((class class) &rest initargs) (declare (ignore initargs)) (unless (class-finalized-p class) (finalize-inheritance class))) ;; "The set of valid initialization arguments for a class is the set of valid ;; initialization arguments that either fill slots or supply arguments to ;; methods, along with the predefined initialization argument :ALLOW-OTHER-KEYS." ;; 7.1.2 (defun calculate-allowable-initargs (gf-list args instance shared-initialize-param initargs) (let* ((methods (nconc (std-compute-applicable-methods #'shared-initialize (list* instance shared-initialize-param initargs)) (mapcan #'(lambda (gf) (if (std-generic-function-p gf) (std-compute-applicable-methods gf args) (compute-applicable-methods gf args))) gf-list))) (method-keyword-args (reduce #'merge-initargs-sets (mapcar #'method-lambda-list methods) :key #'extract-lambda-list-keywords :initial-value nil)) (slots-initargs (mapappend #'slot-definition-initargs (class-slots (class-of instance))))) (merge-initargs-sets (merge-initargs-sets slots-initargs method-keyword-args) '(:allow-other-keys)))) ;; allow-other-keys is always allowed (defun check-initargs (gf-list args instance shared-initialize-param initargs cache call-site) "Checks the validity of `initargs' for the generic functions in `gf-list' when called with `args' by calculating the applicable methods for each gf. The applicable methods for SHARED-INITIALIZE based on `instance', `shared-initialize-param' and `initargs' are added to the list of applicable methods." (when (oddp (length initargs)) (error 'program-error :format-control "Odd number of keyword arguments.")) (unless (getf initargs :allow-other-keys) (multiple-value-bind (allowable-initargs present-p) (when cache (gethash (class-of instance) cache)) (unless present-p (setf allowable-initargs (calculate-allowable-initargs gf-list args instance shared-initialize-param initargs)) (when cache (setf (gethash (class-of instance) cache) allowable-initargs))) (unless (eq t allowable-initargs) (do* ((tail initargs (cddr tail)) (initarg (car tail) (car tail))) ((null tail)) (unless (memq initarg allowable-initargs) (error 'program-error :format-control "Invalid initarg ~S in call to ~S with arglist ~S." :format-arguments (list initarg call-site args)))))))) (defun merge-initargs-sets (list1 list2) (cond ((eq list1 t) t) ((eq list2 t) t) (t (union list1 list2)))) (defun extract-lambda-list-keywords (lambda-list) "Returns a list of keywords acceptable as keyword arguments, or T when any keyword is acceptable due to presence of &allow-other-keys." (when (member '&allow-other-keys lambda-list) (return-from extract-lambda-list-keywords t)) (loop with keyword-args = (cdr (memq '&key lambda-list)) for key in keyword-args when (eq key '&aux) do (loop-finish) when (eq key '&allow-other-keys) do (return t) when (listp key) do (setq key (car key)) collect (if (symbolp key) (make-keyword key) (car key)))) (defgeneric make-instance (class &rest initargs &key &allow-other-keys)) (defmethod make-instance :before ((class class) &rest initargs) (when (oddp (length initargs)) (error 'program-error :format-control "Odd number of keyword arguments.")) (unless (class-finalized-p class) (finalize-inheritance class))) (defun augment-initargs-with-defaults (class initargs) (let ((default-initargs '())) (dolist (initarg (class-default-initargs class)) (let ((key (first initarg)) (fn (third initarg))) (when (eq (getf initargs key +slot-unbound+) +slot-unbound+) (push key default-initargs) (push (funcall fn) default-initargs)))) (append initargs (nreverse default-initargs)))) (defmethod make-instance ((class standard-class) &rest initargs) (setf initargs (augment-initargs-with-defaults class initargs)) (let ((instance (std-allocate-instance class))) (check-initargs (list #'allocate-instance #'initialize-instance) (list* instance initargs) instance t initargs *make-instance-initargs-cache* 'make-instance) (apply #'initialize-instance instance initargs) instance)) (defmethod make-instance ((class funcallable-standard-class) &rest initargs) (setf initargs (augment-initargs-with-defaults class initargs)) (let ((instance (allocate-funcallable-instance class))) (check-initargs (list #'allocate-instance #'initialize-instance) (list* instance initargs) instance t initargs *make-instance-initargs-cache* 'make-instance) (apply #'initialize-instance instance initargs) instance)) (defmethod make-instance ((class symbol) &rest initargs) (apply #'make-instance (find-class class) initargs)) (defgeneric initialize-instance (instance &rest initargs &key &allow-other-keys)) (defmethod initialize-instance ((instance standard-object) &rest initargs) (apply #'shared-initialize instance t initargs)) (defgeneric reinitialize-instance (instance &rest initargs &key &allow-other-keys)) ;; "The system-supplied primary method for REINITIALIZE-INSTANCE checks the ;; validity of initargs and signals an error if an initarg is supplied that is ;; not declared as valid. The method then calls the generic function SHARED- ;; INITIALIZE with the following arguments: the instance, nil (which means no ;; slots should be initialized according to their initforms), and the initargs ;; it received." (defmethod reinitialize-instance ((instance standard-object) &rest initargs) (check-initargs (list #'reinitialize-instance) (list* instance initargs) instance () initargs *reinitialize-instance-initargs-cache* 'reinitialize-instance) (apply #'shared-initialize instance () initargs)) (defun std-shared-initialize (instance slot-names all-keys) (when (oddp (length all-keys)) (error 'program-error :format-control "Odd number of keyword arguments.")) ;; do a quick scan of the arguments list to see if it's a real ;; 'initialization argument list' (which is not the same as ;; checking initarg validity (do* ((tail all-keys (cddr tail)) (initarg (car tail) (car tail))) ((null tail)) (unless (symbolp initarg) (error 'program-error :format-control "Initarg ~S not a symbol." :format-arguments (list initarg)))) (dolist (slot (class-slots (class-of instance))) (let ((slot-name (slot-definition-name slot))) (multiple-value-bind (init-key init-value foundp) (get-properties all-keys (slot-definition-initargs slot)) (if foundp (setf (std-slot-value instance slot-name) init-value) (unless (std-slot-boundp instance slot-name) (let ((initfunction (slot-definition-initfunction slot))) (when (and initfunction (or (eq slot-names t) (memq slot-name slot-names))) (setf (std-slot-value instance slot-name) (funcall initfunction))))))))) instance) (defgeneric shared-initialize (instance slot-names &rest initargs &key &allow-other-keys)) (defmethod shared-initialize ((instance standard-object) slot-names &rest initargs) (std-shared-initialize instance slot-names initargs)) (defmethod shared-initialize ((slot slot-definition) slot-names &rest args &key name initargs initform initfunction readers writers allocation &allow-other-keys) ;;Keyword args are duplicated from init-slot-definition only to have ;;them checked. (declare (ignore slot-names)) ;;TODO? (declare (ignore name initargs initform initfunction readers writers allocation)) ;;For built-in slots (apply #'init-slot-definition slot :allow-other-keys t args) ;;For user-defined slots (call-next-method)) ;;; change-class (defgeneric change-class (instance new-class &key &allow-other-keys)) (defmethod change-class ((old-instance standard-object) (new-class standard-class) &rest initargs) (let ((old-slots (class-slots (class-of old-instance))) (new-slots (class-slots new-class)) (new-instance (allocate-instance new-class))) ;; "The values of local slots specified by both the class CTO and the class ;; CFROM are retained. If such a local slot was unbound, it remains ;; unbound." (dolist (new-slot new-slots) (when (instance-slot-p new-slot) (let* ((slot-name (slot-definition-name new-slot)) (old-slot (find slot-name old-slots :key 'slot-definition-name))) ;; "The values of slots specified as shared in the class CFROM and as ;; local in the class CTO are retained." (when (and old-slot (slot-boundp old-instance slot-name)) (setf (slot-value new-instance slot-name) (slot-value old-instance slot-name)))))) (swap-slots old-instance new-instance) (rotatef (std-instance-layout new-instance) (std-instance-layout old-instance)) (apply #'update-instance-for-different-class new-instance old-instance initargs) old-instance)) (defmethod change-class ((instance standard-object) (new-class symbol) &rest initargs) (apply #'change-class instance (find-class new-class) initargs)) (defgeneric update-instance-for-different-class (old new &rest initargs &key &allow-other-keys)) (defmethod update-instance-for-different-class ((old standard-object) (new standard-object) &rest initargs) (let ((added-slots (remove-if #'(lambda (slot-name) (slot-exists-p old slot-name)) (mapcar 'slot-definition-name (class-slots (class-of new)))))) (check-initargs (list #'update-instance-for-different-class) (list old new initargs) new added-slots initargs nil 'update-instance-for-different-class) (apply #'shared-initialize new added-slots initargs))) ;;; make-instances-obsolete (defgeneric make-instances-obsolete (class)) (defmethod make-instances-obsolete ((class standard-class)) (%make-instances-obsolete class)) (defmethod make-instances-obsolete ((class funcallable-standard-class)) (%make-instances-obsolete class)) (defmethod make-instances-obsolete ((class symbol)) (make-instances-obsolete (find-class class)) class) ;;; update-instance-for-redefined-class (defgeneric update-instance-for-redefined-class (instance added-slots discarded-slots property-list &rest initargs &key &allow-other-keys)) (defmethod update-instance-for-redefined-class ((instance standard-object) added-slots discarded-slots property-list &rest initargs) (check-initargs (list #'update-instance-for-redefined-class) (list* instance added-slots discarded-slots property-list initargs) instance added-slots initargs nil 'update-instance-for-redefined-class) (apply #'shared-initialize instance added-slots initargs)) ;;; Methods having to do with class metaobjects. (defmethod initialize-instance :after ((class standard-class) &rest args) (apply #'std-after-initialization-for-classes class args)) (defmethod initialize-instance :after ((class funcallable-standard-class) &rest args) (apply #'std-after-initialization-for-classes class args)) (defmethod reinitialize-instance :before ((class standard-class) &rest all-keys &key direct-superclasses) (check-initargs (list #'allocate-instance #'initialize-instance) (list* class all-keys) class t all-keys nil 'reinitialize-instance) (dolist (superclass (set-difference (class-direct-superclasses class) direct-superclasses)) (remove-direct-subclass superclass class)) (dolist (superclass (set-difference direct-superclasses (class-direct-superclasses class))) (add-direct-subclass superclass class))) (defmethod reinitialize-instance :before ((class funcallable-standard-class) &rest all-keys &key direct-superclasses) (check-initargs (list #'allocate-instance #'initialize-instance) (list* class all-keys) class t all-keys nil 'reinitialize-instance) (dolist (superclass (set-difference (class-direct-superclasses class) direct-superclasses)) (remove-direct-subclass superclass class)) (dolist (superclass (set-difference direct-superclasses (class-direct-superclasses class))) (add-direct-subclass superclass class))) (defun std-after-reinitialization-for-classes (class &rest all-keys &key (direct-superclasses nil direct-superclasses-p) (direct-slots nil direct-slots-p) (direct-default-initargs nil direct-default-initargs-p) &allow-other-keys) (remhash class *make-instance-initargs-cache*) (remhash class *reinitialize-instance-initargs-cache*) (%make-instances-obsolete class) (setf (class-finalized-p class) nil) (when direct-superclasses-p (let* ((old-supers (class-direct-superclasses class)) (new-supers (canonicalize-direct-superclass-list class direct-superclasses))) (setf (class-direct-superclasses class) new-supers) (dolist (old-superclass (set-difference old-supers new-supers)) (remove-direct-subclass old-superclass class)) (dolist (new-superclass (set-difference new-supers old-supers)) (add-direct-subclass new-superclass class)))) (when direct-slots-p ;; FIXME: maybe remove old reader and writer methods? (let ((slots (mapcar #'(lambda (slot-properties) (apply #'make-direct-slot-definition class slot-properties)) direct-slots))) (setf (class-direct-slots class) slots) (dolist (direct-slot slots) (dolist (reader (slot-definition-readers direct-slot)) (add-reader-method class reader direct-slot)) (dolist (writer (slot-definition-writers direct-slot)) (add-writer-method class writer direct-slot))))) (when direct-default-initargs-p (setf (class-direct-default-initargs class) direct-default-initargs)) (maybe-finalize-class-subtree class) (map-dependents class #'(lambda (dep) (update-dependent class dep all-keys)))) (defmethod reinitialize-instance :after ((class standard-class) &rest all-keys) (apply #'std-after-reinitialization-for-classes class all-keys)) (defmethod reinitialize-instance :after ((class funcallable-standard-class) &rest all-keys) (apply #'std-after-reinitialization-for-classes class all-keys)) (defmethod reinitialize-instance :before ((gf standard-generic-function) &key (lambda-list nil lambda-list-supplied-p) &allow-other-keys) (when lambda-list-supplied-p (unless (or (null (generic-function-methods gf)) (lambda-lists-congruent-p lambda-list (generic-function-lambda-list gf))) (error "The lambda list ~S is incompatible with the existing methods of ~S." lambda-list gf)))) (defmethod reinitialize-instance :after ((gf standard-generic-function) &rest all-keys) (map-dependents gf #'(lambda (dep) (update-dependent gf dep all-keys)))) ;;; Finalize inheritance (atomic-defgeneric finalize-inheritance (class) (:method ((class standard-class)) (std-finalize-inheritance class)) (:method ((class funcallable-standard-class)) (std-finalize-inheritance class))) ;;; Default initargs ;;; AMOP pg. 174 (atomic-defgeneric compute-default-initargs (class) (:method ((class standard-class)) (std-compute-default-initargs class)) (:method ((class funcallable-standard-class)) (std-compute-default-initargs class))) ;;; Class precedence lists (defgeneric compute-class-precedence-list (class)) (defmethod compute-class-precedence-list ((class standard-class)) (std-compute-class-precedence-list class)) (defmethod compute-class-precedence-list ((class funcallable-standard-class)) (std-compute-class-precedence-list class)) ;;; Slot inheritance (defgeneric compute-slots (class)) (defmethod compute-slots ((class standard-class)) (std-compute-slots class)) (defmethod compute-slots ((class funcallable-standard-class)) (std-compute-slots class)) (defgeneric compute-effective-slot-definition (class name direct-slots)) (defmethod compute-effective-slot-definition ((class standard-class) name direct-slots) (std-compute-effective-slot-definition class name direct-slots)) (defmethod compute-effective-slot-definition ((class funcallable-standard-class) name direct-slots) (std-compute-effective-slot-definition class name direct-slots)) ;;; Methods having to do with generic function invocation. (defgeneric compute-discriminating-function (gf)) (defmethod compute-discriminating-function ((gf standard-generic-function)) (std-compute-discriminating-function gf)) (defgeneric method-more-specific-p (gf method1 method2 required-classes)) (defmethod method-more-specific-p ((gf standard-generic-function) method1 method2 required-classes) (let ((method-indices (argument-precedence-order-indices (generic-function-argument-precedence-order gf) (getf (analyze-lambda-list (generic-function-lambda-list gf)) ':required-args)))) (std-method-more-specific-p method1 method2 required-classes method-indices))) ;;; AMOP pg. 176 (defgeneric compute-effective-method (gf method-combination methods)) (defmethod compute-effective-method ((gf standard-generic-function) method-combination methods) (std-compute-effective-method gf method-combination methods)) (defgeneric compute-applicable-methods (gf args)) (defmethod compute-applicable-methods ((gf standard-generic-function) args) (std-compute-applicable-methods gf args)) ;;; AMOP pg. 207 (atomic-defgeneric make-method-lambda (generic-function method lambda-expression environment) (:method ((generic-function standard-generic-function) (method standard-method) lambda-expression environment) (declare (ignore environment)) (values (compute-method-function lambda-expression) nil))) ;;; Slot definition accessors (defmacro slot-definition-dispatch (slot-definition std-form generic-form) `(let (($cl (class-of ,slot-definition))) (case $cl ((+the-standard-slot-definition-class+ +the-standard-direct-slot-definition-class+ +the-standard-effective-slot-definition-class+) ,std-form) (t ,generic-form)))) (atomic-defgeneric slot-definition-allocation (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys::allocation) (slot-value slot-definition 'sys::allocation)))) (atomic-defgeneric (setf slot-definition-allocation) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys::allocation) value) (setf (slot-value slot-definition 'sys::allocation) value)))) (atomic-defgeneric slot-definition-initargs (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys::initargs) (slot-value slot-definition 'sys::initargs)))) (atomic-defgeneric (setf slot-definition-initargs) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys::initargs) value) (setf (slot-value slot-definition 'sys::initargs) value)))) (atomic-defgeneric slot-definition-initform (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys::initform) (slot-value slot-definition 'sys::initform)))) (atomic-defgeneric (setf slot-definition-initform) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys::initform) value) (setf (slot-value slot-definition 'sys::initform) value)))) (atomic-defgeneric slot-definition-initfunction (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys::initfunction) (slot-value slot-definition 'sys::initfunction)))) (atomic-defgeneric (setf slot-definition-initfunction) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys::initfunction) value) (setf (slot-value slot-definition 'sys::initfunction) value)))) (atomic-defgeneric slot-definition-name (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys:name) (slot-value slot-definition 'sys:name)))) (atomic-defgeneric (setf slot-definition-name) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys:name) value) (setf (slot-value slot-definition 'sys:name) value)))) (atomic-defgeneric slot-definition-readers (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys::readers) (slot-value slot-definition 'sys::readers)))) (atomic-defgeneric (setf slot-definition-readers) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys::readers) value) (setf (slot-value slot-definition 'sys::readers) value)))) (atomic-defgeneric slot-definition-writers (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys::writers) (slot-value slot-definition 'sys::writers)))) (atomic-defgeneric (setf slot-definition-writers) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys::writers) value) (setf (slot-value slot-definition 'sys::writers) value)))) (atomic-defgeneric slot-definition-allocation-class (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys::allocation-class) (slot-value slot-definition 'sys::allocation-class)))) (atomic-defgeneric (setf slot-definition-allocation-class) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys::allocation-class) value) (setf (slot-value slot-definition 'sys::allocation-class) value)))) (atomic-defgeneric slot-definition-location (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys::location) (slot-value slot-definition 'sys::location)))) (atomic-defgeneric (setf slot-definition-location) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys::location) value) (setf (slot-value slot-definition 'sys::location) value)))) (atomic-defgeneric slot-definition-type (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys::%type) (slot-value slot-definition 'sys::%type)))) (atomic-defgeneric (setf slot-definition-type) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys::%type) value) (setf (slot-value slot-definition 'sys::%type) value)))) (atomic-defgeneric slot-definition-documentation (slot-definition) (:method ((slot-definition slot-definition)) (slot-definition-dispatch slot-definition (std-slot-value slot-definition 'sys:%documentation) (slot-value slot-definition 'sys:%documentation)))) (atomic-defgeneric (setf slot-definition-documentation) (value slot-definition) (:method (value (slot-definition slot-definition)) (slot-definition-dispatch slot-definition (setf (std-slot-value slot-definition 'sys:%documentation) value) (setf (slot-value slot-definition 'sys:%documentation) value)))) ;;; Conditions. (defmacro define-condition (name (&rest parent-types) (&rest slot-specs) &body options) (let ((parent-types (or parent-types '(condition))) (report nil)) (dolist (option options) (when (eq (car option) :report) (setf report (cadr option)) (setf options (delete option options :test #'equal)) (return))) (typecase report (null `(progn (defclass ,name ,parent-types ,slot-specs ,@options) ',name)) (string `(progn (defclass ,name ,parent-types ,slot-specs ,@options) (defmethod print-object ((condition ,name) stream) (if *print-escape* (call-next-method) (progn (write-string ,report stream) condition))) ',name)) (t `(progn (defclass ,name ,parent-types ,slot-specs ,@options) (defmethod print-object ((condition ,name) stream) (if *print-escape* (call-next-method) (funcall #',report condition stream))) ',name))))) (defun make-condition (type &rest initargs) (or (%make-condition type initargs) (let ((class (if (symbolp type) (find-class type) type))) (apply #'make-instance class initargs)))) ;; Adapted from SBCL. ;; Originally defined in signal.lisp. Redefined here now that we have MAKE-CONDITION. (defun coerce-to-condition (datum arguments default-type fun-name) (cond ((typep datum 'condition) (when arguments (error 'simple-type-error :datum arguments :expected-type 'null :format-control "You may not supply additional arguments when giving ~S to ~S." :format-arguments (list datum fun-name))) datum) ((symbolp datum) (apply #'make-condition datum arguments)) ((or (stringp datum) (functionp datum)) (make-condition default-type :format-control datum :format-arguments arguments)) (t (error 'simple-type-error :datum datum :expected-type '(or symbol string) :format-control "Bad argument to ~S: ~S." :format-arguments (list fun-name datum))))) (defgeneric make-load-form (object &optional environment)) (defmethod make-load-form ((object t) &optional environment) (declare (ignore environment)) (apply #'no-applicable-method #'make-load-form (list object))) (defmethod make-load-form ((class class) &optional environment) (declare (ignore environment)) (let ((name (class-name class))) (unless (and name (eq (find-class name nil) class)) (error 'simple-type-error :format-control "Can't use anonymous or undefined class as a constant: ~S." :format-arguments (list class))) `(find-class ',name))) (defun invalid-method-error (method format-control &rest args) (let ((message (apply #'format nil format-control args))) (error "Invalid method error for ~S:~% ~A" method message))) (defun method-combination-error (format-control &rest args) (let ((message (apply #'format nil format-control args))) (error "Method combination error in CLOS dispatch:~% ~A" message))) (atomic-defgeneric no-applicable-method (generic-function &rest args) (:method (generic-function &rest args) (error "There is no applicable method for the generic function ~S ~ when called with arguments ~S." generic-function args))) ;;; FIXME (rudi 2012-01-28): this can be a function, it only needs to ;;; use standard accessor functions (defgeneric find-method (generic-function qualifiers specializers &optional errorp)) (defmethod find-method ((generic-function standard-generic-function) qualifiers specializers &optional (errorp t)) (%find-method generic-function qualifiers specializers errorp)) (defgeneric find-method ((generic-function symbol) qualifiers specializers &optional (errorp t)) (find-method (find-generic-function generic-function errorp) qualifiers specializers errorp)) ;;; AMOP pg. 167 (defgeneric add-method (generic-function method)) (defmethod add-method :before ((generic-function generic-function) (method method)) (when (and (method-generic-function method) (not (eql generic-function (method-generic-function method)))) (error 'simple-error :format-control "~S is already a method of ~S, cannot add to ~S." :format-arguments (list method (method-generic-function method) generic-function))) (check-method-lambda-list (generic-function-name generic-function) (method-lambda-list method) (generic-function-lambda-list generic-function))) (defmethod add-method ((generic-function standard-generic-function) (method standard-method)) (std-add-method generic-function method)) (defmethod add-method :after ((generic-function generic-function) (method method)) (map-dependents generic-function #'(lambda (dep) (update-dependent generic-function dep 'add-method method)))) (defgeneric remove-method (generic-function method)) (defmethod remove-method ((generic-function standard-generic-function) (method standard-method)) (std-remove-method generic-function method)) (defmethod remove-method :after ((generic-function generic-function) (method method)) (map-dependents generic-function #'(lambda (dep) (update-dependent generic-function dep 'remove-method method)))) ;; See describe.lisp. (defgeneric describe-object (object stream)) ;; FIXME (defgeneric no-next-method (generic-function method &rest args)) (atomic-defgeneric function-keywords (method) (:method ((method standard-method)) (std-function-keywords method))) (setf *gf-initialize-instance* (symbol-function 'initialize-instance)) (setf *gf-allocate-instance* (symbol-function 'allocate-instance)) (setf *gf-shared-initialize* (symbol-function 'shared-initialize)) (setf *gf-reinitialize-instance* (symbol-function 'reinitialize-instance)) (setf *clos-booting* nil) (atomic-defgeneric class-prototype (class) (:method ((class standard-class)) (allocate-instance class)) (:method ((class funcallable-standard-class)) (allocate-instance class)) (:method ((class structure-class)) (allocate-instance class)) (:method :before (class) (unless (class-finalized-p class) (error "~@<~S is not finalized.~:@>" class)))) (defmethod shared-initialize :before ((instance generic-function) slot-names &key lambda-list argument-precedence-order &allow-other-keys) (check-argument-precedence-order lambda-list argument-precedence-order)) (defmethod shared-initialize :after ((instance standard-generic-function) slot-names &key lambda-list argument-precedence-order (method-combination '(standard)) &allow-other-keys) (let* ((plist (analyze-lambda-list lambda-list)) (required-args (getf plist ':required-args))) (setf (std-slot-value instance 'sys::required-args) required-args) (setf (std-slot-value instance 'sys::optional-args) (getf plist :optional-args)) (setf (std-slot-value instance 'sys::argument-precedence-order) (or argument-precedence-order required-args))) (unless (typep (generic-function-method-combination instance) 'method-combination) ;; this fixes (make-instance 'standard-generic-function) -- the ;; constructor of StandardGenericFunction sets this slot to '(standard) (setf (std-slot-value instance 'sys::%method-combination) (find-method-combination instance (car method-combination) (cdr method-combination)))) (finalize-standard-generic-function instance)) ;;; Readers for generic function metaobjects ;;; AMOP pg. 216ff. (atomic-defgeneric generic-function-argument-precedence-order (generic-function) (:method ((generic-function standard-generic-function)) (std-slot-value generic-function 'sys::argument-precedence-order))) (atomic-defgeneric generic-function-declarations (generic-function) (:method ((generic-function standard-generic-function)) (std-slot-value generic-function 'sys::declarations))) (atomic-defgeneric generic-function-lambda-list (generic-function) (:method ((generic-function standard-generic-function)) (std-slot-value generic-function 'sys::lambda-list))) (atomic-defgeneric generic-function-method-class (generic-function) (:method ((generic-function standard-generic-function)) (std-slot-value generic-function 'sys::method-class))) (atomic-defgeneric generic-function-method-combination (generic-function) (:method ((generic-function standard-generic-function)) (std-slot-value generic-function 'sys::%method-combination))) (atomic-defgeneric generic-function-methods (generic-function) (:method ((generic-function standard-generic-function)) (std-slot-value generic-function 'sys::methods))) (atomic-defgeneric generic-function-name (generic-function) (:method ((generic-function standard-generic-function)) (slot-value generic-function 'sys::name))) (atomic-defgeneric generic-function-required-arguments (generic-function) (:method ((generic-function standard-generic-function)) (std-slot-value generic-function 'sys::required-args))) (atomic-defgeneric generic-function-optional-arguments (generic-function) (:method ((generic-function standard-generic-function)) (std-slot-value generic-function 'sys::optional-args))) ;;; AMOP pg. 231 (defgeneric (setf generic-function-name) (new-value gf) (:method (new-value (gf generic-function)) (reinitialize-instance gf :name new-value))) ;;; Readers for Method Metaobjects ;;; AMOP pg. 218ff. (atomic-defgeneric method-function (method) (:method ((method standard-method)) (std-method-function method))) (atomic-defgeneric method-generic-function (method) (:method ((method standard-method)) (std-method-generic-function method))) (atomic-defgeneric method-lambda-list (method) (:method ((method standard-method)) (std-slot-value method 'sys::lambda-list))) (atomic-defgeneric method-specializers (method) (:method ((method standard-method)) (std-method-specializers method))) (atomic-defgeneric method-qualifiers (method) (:method ((method standard-method)) (std-method-qualifiers method))) (atomic-defgeneric accessor-method-slot-definition (method) (:method ((method standard-accessor-method)) (std-accessor-method-slot-definition method))) ;;; find-method-combination ;;; AMOP pg. 191 (atomic-defgeneric find-method-combination (gf name options) (:method (gf (name symbol) options) (std-find-method-combination gf name options))) ;;; specializer-direct-method and friends. ;;; AMOP pg. 237 (defgeneric specializer-direct-generic-functions (specializer)) (defmethod specializer-direct-generic-functions ((specializer class)) (delete-duplicates (mapcar #'method-generic-function (class-direct-methods specializer)))) (defmethod specializer-direct-generic-functions ((specializer eql-specializer)) (delete-duplicates (mapcar #'method-generic-function (slot-value specializer 'direct-methods)))) ;;; AMOP pg. 238 (defgeneric specializer-direct-methods (specializer)) (defmethod specializer-direct-methods ((specializer class)) (class-direct-methods specializer)) (defmethod specializer-direct-methods ((specializer eql-specializer)) (slot-value specializer 'direct-methods)) ;;; AMOP pg. 165 (atomic-defgeneric add-direct-method (specializer method) (:method ((specializer class) (method method)) (pushnew method (class-direct-methods specializer))) (:method ((specializer eql-specializer) (method method)) (pushnew method (slot-value specializer 'direct-methods)))) ;;; AMOP pg. 227 (atomic-defgeneric remove-direct-method (specializer method) (:method ((specializer class) (method method)) (setf (class-direct-methods specializer) (remove method (class-direct-methods specializer)))) (:method ((specializer eql-specializer) (method method)) (setf (slot-value specializer 'direct-methods) (remove method (slot-value specializer 'direct-methods))))) ;;; The Dependent Maintenance Protocol (AMOP pg. 160ff.) (defvar *dependents* (make-hash-table :test 'eq :weakness :key)) ;;; AMOP pg. 164 (defgeneric add-dependent (metaobject dependent)) (defmethod add-dependent ((metaobject standard-class) dependent) (pushnew dependent (gethash metaobject *dependents* nil))) (defmethod add-dependent ((metaobject funcallable-standard-class) dependent) (pushnew dependent (gethash metaobject *dependents* nil))) (defmethod add-dependent ((metaobject standard-generic-function) dependent) (pushnew dependent (gethash metaobject *dependents* nil))) ;;; AMOP pg. 225 (defgeneric remove-dependent (metaobject dependent)) (defmethod remove-dependent ((metaobject standard-class) dependent) (setf (gethash metaobject *dependents*) (delete dependent (gethash metaobject *dependents* nil) :test #'eq))) (defmethod remove-dependent ((metaobject funcallable-standard-class) dependent) (setf (gethash metaobject *dependents*) (delete dependent (gethash metaobject *dependents* nil) :test #'eq))) (defmethod remove-dependent ((metaobject standard-generic-function) dependent) (setf (gethash metaobject *dependents*) (delete dependent (gethash metaobject *dependents* nil) :test #'eq))) ;;; AMOP pg. 210 (atomic-defgeneric map-dependents (metaobject function) (:method ((metaobject standard-class) function) (dolist (dependent (gethash metaobject *dependents* nil)) (funcall function dependent))) (:method ((metaobject funcallable-standard-class) function) (dolist (dependent (gethash metaobject *dependents* nil)) (funcall function dependent))) (:method ((metaobject standard-generic-function) function) (dolist (dependent (gethash metaobject *dependents* nil)) (funcall function dependent)))) ;;; AMOP pg. 239 (defgeneric update-dependent (metaobject dependent &rest initargs)) ;;; ensure-generic-function(-using-class), AMOP pg. 185ff. (defgeneric ensure-generic-function-using-class (generic-function function-name &key argument-precedence-order declarations documentation generic-function-class lambda-list method-class method-combination name &allow-other-keys)) (defmethod ensure-generic-function-using-class ((generic-function generic-function) function-name &rest all-keys &key (generic-function-class (class-of generic-function)) (method-class (generic-function-method-class generic-function)) (method-combination (generic-function-method-combination generic-function)) &allow-other-keys) (setf all-keys (copy-list all-keys)) ; since we modify it (remf all-keys :generic-function-class) (unless (classp generic-function-class) (setf generic-function-class (find-class generic-function-class))) (unless (classp method-class) (setf method-class (find-class method-class))) (unless (eq generic-function-class (class-of generic-function)) (error "The class ~S is incompatible with the existing class (~S) of ~S." generic-function-class (class-of generic-function) generic-function)) ;; We used to check for changes in method class here, but CLHS says: ;; "If function-name specifies a generic function that has a different ;; value for the :method-class argument, the value is changed, but any ;; existing methods are not changed." (unless (typep method-combination 'method-combination) (setf method-combination (find-method-combination generic-function (car method-combination) (cdr method-combination)))) (apply #'reinitialize-instance generic-function :method-combination method-combination :method-class method-class all-keys) generic-function) (defmethod ensure-generic-function-using-class ((generic-function null) function-name &rest all-keys &key (generic-function-class +the-standard-generic-function-class+) &allow-other-keys) (setf all-keys (copy-list all-keys)) ; since we modify it (remf all-keys :generic-function-class) (unless (classp generic-function-class) (setf generic-function-class (find-class generic-function-class))) (when (and (null *clos-booting*) (fboundp function-name)) (if (or (autoloadp function-name) (and (consp function-name) (eq 'setf (first function-name)) (autoload-ref-p (second function-name)))) (fmakunbound function-name) (error 'program-error :format-control "~A already names an ordinary function, macro, or special operator." :format-arguments (list function-name)))) (apply (if (eq generic-function-class +the-standard-generic-function-class+) #'make-instance-standard-generic-function #'make-instance) generic-function-class :name function-name all-keys)) (defun ensure-generic-function (function-name &rest all-keys &key lambda-list generic-function-class method-class method-combination argument-precedence-order declarations documentation &allow-other-keys) (declare (ignore lambda-list generic-function-class method-class method-combination argument-precedence-order declarations documentation)) (apply #'ensure-generic-function-using-class (find-generic-function function-name nil) function-name all-keys)) ;;; SLIME compatibility functions. (defun %method-generic-function (method) (method-generic-function method)) (defun %method-function (method) (method-function method)) (eval-when (:compile-toplevel :load-toplevel :execute) (require "MOP")) (provide "CLOS")