(/show "pcl/macros.lisp 119")
-(defvar *find-class* (make-hash-table :test 'eq))
-
-(defmacro find-class-cell-class (cell)
- `(car ,cell))
-
-(defmacro find-class-cell-predicate (cell)
- `(cadr ,cell))
-
-(defmacro make-find-class-cell (class-name)
- (declare (ignore class-name))
- '(list* nil #'constantly-nil nil))
-
-(defun find-class-cell (symbol &optional dont-create-p)
- (or (gethash symbol *find-class*)
- (unless dont-create-p
- (unless (legal-class-name-p symbol)
- (error "~S is not a legal class name." symbol))
- (setf (gethash symbol *find-class*) (make-find-class-cell symbol)))))
-
-(/show "pcl/macros.lisp 157")
+(declaim (inline legal-class-name-p))
+(defun legal-class-name-p (x)
+ (symbolp x))
(defvar *create-classes-from-internal-structure-definitions-p* t)
(defun find-class-from-cell (symbol cell &optional (errorp t))
- (or (find-class-cell-class cell)
- (and *create-classes-from-internal-structure-definitions-p*
- (or (structure-type-p symbol) (condition-type-p symbol))
- (ensure-non-standard-class symbol))
+ (or (when cell
+ (or (classoid-cell-pcl-class cell)
+ (when *create-classes-from-internal-structure-definitions-p*
+ (let ((classoid (classoid-cell-classoid cell)))
+ (when (and classoid
+ (or (condition-classoid-p classoid)
+ (defstruct-classoid-p classoid)))
+ (ensure-non-standard-class symbol classoid))))))
(cond ((null errorp) nil)
((legal-class-name-p symbol)
(error "There is no class named ~S." symbol))
(t
(error "~S is not a legal class name." symbol)))))
-(defun legal-class-name-p (x)
- (symbolp x))
-
(defun find-class (symbol &optional (errorp t) environment)
(declare (ignore environment))
(find-class-from-cell symbol
- (find-class-cell symbol errorp)
+ (find-classoid-cell symbol)
errorp))
\f
(constantp errorp)
(member *boot-state* '(braid complete)))
(let ((errorp (not (null (constant-form-value errorp))))
- (class-cell (make-symbol "CLASS-CELL")))
- `(let ((,class-cell (load-time-value (find-class-cell ',symbol))))
- (or (find-class-cell-class ,class-cell)
+ (cell (make-symbol "CLASSOID-CELL")))
+ `(let ((,cell (load-time-value (find-classoid-cell ',symbol :create t))))
+ (or (classoid-cell-pcl-class ,cell)
,(if errorp
- `(find-class-from-cell ',symbol ,class-cell t)
- `(and (classoid-cell-classoid
- ',(find-classoid-cell symbol))
- (find-class-from-cell ',symbol ,class-cell nil))))))
+ `(find-class-from-cell ',symbol ,cell t)
+ `(when (classoid-cell-classoid ,cell)
+ (find-class-from-cell ',symbol ,cell nil))))))
form))
+(declaim (inline class-classoid))
+(defun class-classoid (class)
+ (layout-classoid (class-wrapper class)))
+
(defun (setf find-class) (new-value name &optional errorp environment)
(declare (ignore errorp environment))
(cond ((legal-class-name-p name)
(with-single-package-locked-error
- (:symbol name "using ~A as the class-name argument in ~
+ (:symbol name "Using ~A as the class-name argument in ~
(SETF FIND-CLASS)"))
- (let* ((cell (find-class-cell name))
- (class (find-class-cell-class cell)))
- (setf (find-class-cell-class cell) new-value)
- (when (eq *boot-state* 'complete)
- (if (null new-value)
- (progn
- (setf (find-classoid name) new-value)
- (when class
- ;; KLUDGE: This horror comes about essentially
- ;; because we use the proper name of a classoid
- ;; to do TYPEP, which needs to be available
- ;; early, and also to determine whether TYPE-OF
- ;; should return the name or the class (using
- ;; CLASSOID-PROPER-NAME). So if we are removing
- ;; proper nameness, arrange for
- ;; CLASSOID-PROPER-NAME to do the right thing
- ;; too. (This is almost certainly not the right
- ;; solution; instead, CLASSOID-NAME and
- ;; FIND-CLASSOID should be direct parallels to
- ;; CLASS-NAME and FIND-CLASS, and TYPEP on
- ;; not-yet-final classes should be compileable.
- (let ((classoid (layout-classoid (slot-value class 'wrapper))))
- (setf (classoid-name classoid) nil))))
-
- (let ((classoid (layout-classoid (slot-value new-value 'wrapper))))
- (setf (find-classoid name) classoid)
- (set-class-type-translation new-value classoid))))
+ (let ((cell (find-classoid-cell name :create new-value)))
+ (cond (new-value
+ (setf (classoid-cell-pcl-class cell) new-value)
+ (when (eq *boot-state* 'complete)
+ (let ((classoid (class-classoid new-value)))
+ (setf (find-classoid name) classoid)
+ (set-class-type-translation new-value classoid))))
+ (cell
+ (clear-classoid name cell)))
(when (or (eq *boot-state* 'complete)
(eq *boot-state* 'braid))
(update-ctors 'setf-find-class :class new-value :name name))