(and (symbolp constant)
(not (null (symbol-package constant)))))))
-;;; somewhat akin to DEFAULT-INITARGS (SLOT-CLASS T T), but just
-;;; collecting the defaulted initargs for the call.
+;;; Somewhat akin to DEFAULT-INITARGS, but just collecting the defaulted
+;;; initargs for the call.
(defun ctor-default-initkeys (supplied-initargs class-default-initargs)
(loop for (key) in class-default-initargs
when (eq (getf supplied-initargs key '.not-there.) '.not-there.)
collect key))
+
+;;; Like DEFAULT-INITARGS, but return a list that can be spliced into source,
+;;; instead of a list with values already evaluated.
+(defun ctor-default-initargs (supplied-initargs class-default-initargs)
+ (loop for (key form fun) in class-default-initargs
+ when (eq (getf supplied-initargs key '.not-there.) '.not-there.)
+ append (list key (if (constantp form) form `(funcall ,fun)))
+ into default-initargs
+ finally
+ (return (append supplied-initargs default-initargs))))
\f
;;; *****************
;;; CTORS *********
;;; Keep this a separate function for testing.
(defun ensure-ctor (function-name class-name initargs safe-code-p)
- (unless (fboundp function-name)
- (make-ctor function-name class-name initargs safe-code-p)))
+ (with-world-lock ()
+ (if (fboundp function-name)
+ (the ctor (fdefinition function-name))
+ (make-ctor function-name class-name initargs safe-code-p))))
;;; Keep this a separate function for testing.
(defun make-ctor (function-name class-name initargs safe-p)
(without-package-locks ; for (setf symbol-function)
- (let ((ctor (%make-ctor function-name class-name nil initargs safe-p)))
- (push ctor *all-ctors*)
- (setf (fdefinition function-name) ctor)
- (install-initial-constructor ctor :force-p t)
- ctor)))
+ (let ((ctor (%make-ctor function-name class-name nil initargs safe-p)))
+ (install-initial-constructor ctor :force-p t)
+ (push ctor *all-ctors*)
+ (setf (fdefinition function-name) ctor)
+ ctor)))
\f
;;; *****************
;;; Inline CTOR cache
(setf table (nth-value 1 (put-ctor ctor table))))
table))
-(defun ctor-for-caching (class-name initargs safe-code-p)
- (let ((name (make-ctor-function-name class-name initargs safe-code-p)))
- (or (ensure-ctor name class-name initargs safe-code-p)
- (fdefinition name))))
-
(defun ensure-cached-ctor (class-name store initargs safe-code-p)
- (if (listp store)
- (multiple-value-bind (ctor list) (find-ctor class-name store)
- (if ctor
- (values ctor list)
- (let ((ctor (ctor-for-caching class-name initargs safe-code-p)))
- (if (< (length list) +ctor-list-max-size+)
- (values ctor (cons ctor list))
- (values ctor (ctor-list-to-table list))))))
- (let ((ctor (get-ctor class-name store)))
- (if ctor
- (values ctor store)
- (put-ctor (ctor-for-caching class-name initargs safe-code-p)
- store)))))
+ (flet ((maybe-ctor-for-caching ()
+ (if (typep class-name '(or symbol class))
+ (let ((name (make-ctor-function-name class-name initargs safe-code-p)))
+ (ensure-ctor name class-name initargs safe-code-p))
+ ;; Invalid first argument: let MAKE-INSTANCE worry about it.
+ (return-from ensure-cached-ctor
+ (values (lambda (&rest ctor-parameters)
+ (let (mi-initargs)
+ (doplist (key value) initargs
+ (push key mi-initargs)
+ (push (if (constantp value)
+ value
+ (pop ctor-parameters))
+ mi-initargs))
+ (apply #'make-instance class-name (nreverse mi-initargs))))
+ store)))))
+ (if (listp store)
+ (multiple-value-bind (ctor list) (find-ctor class-name store)
+ (if ctor
+ (values ctor list)
+ (let ((ctor (maybe-ctor-for-caching)))
+ (if (< (length list) +ctor-list-max-size+)
+ (values ctor (cons ctor list))
+ (values ctor (ctor-list-to-table list))))))
+ (let ((ctor (get-ctor class-name store)))
+ (if ctor
+ (values ctor store)
+ (put-ctor (maybe-ctor-for-caching) store))))))
\f
;;; ***********************************************
;;; Compile-Time Expansion of MAKE-INSTANCE *******
(function (&rest t) t))
,function-name))
(funcall (function ,function-name) ,@value-forms))))
- (when class-arg
+ (when (and class-arg (not (constantp class-arg)))
;; Build an inline cache: a CONS, with the actual cache in the CDR.
`(locally (declare (disable-package-locks .cache. .class-arg. .store. .fun.
make-instance))
(constructor-function-form ctor)
(apply
(let ((*compiling-optimized-constructor* t))
- (compile nil `(lambda ,names ,form)))
+ (handler-bind ((compiler-note #'muffle-warning))
+ (compile nil `(lambda ,names ,form))))
locations))))))
(defun constructor-function-form (ctor)
;; *COMPILING-OPTIMIZED-CONSTRUCTOR* which is bound around compilation of
;; the constructor, hence avoiding the possibility of endless recursion.
(make-instance ,class ,@initargs))
- `(lambda ,lambda-list
- (declare #.*optimize-speed*)
- (fast-make-instance ,class ,@initargs)))))
+ (let ((defaults (class-default-initargs class)))
+ (when defaults
+ (setf initargs (ctor-default-initargs initargs defaults)))
+ `(lambda ,lambda-list
+ (declare #.*optimize-speed*)
+ (fast-make-instance ,class ,@initargs))))))
;;; Not as good as the real optimizing generator, but faster than going
;;; via MAKE-INSTANCE: 1 GF call less, and no need to check initargs.
(flet ((class-of-1st-method-param (method)
(type-class (first (method-specializers method)))))
(case (generic-function-name generic-function)
- ((make-instance allocate-instance
- initialize-instance shared-initialize)
+ ((make-instance allocate-instance)
+ ;; FIXME: I can't see a way of working out which classes a
+ ;; given metaclass specializer are applicable to short of
+ ;; iterating and testing with class-of. It would be good
+ ;; to not invalidate caches of system classes at this
+ ;; point (where it is not legal to define a method
+ ;; applicable to them on system functions). -- CSR,
+ ;; 2010-07-13
+ (reset (find-class 'standard-object) t t))
+ ((initialize-instance shared-initialize)
(reset (class-of-1st-method-param method) t t))
((reinitialize-instance)
(reset (class-of-1st-method-param method) t nil))
(defun check-ri-initargs (instance initargs)
(let* ((class (class-of instance))
(keys (plist-keys initargs))
- (cached (assoc keys (plist-value class 'ri-initargs)
- :test #'equal))
+ (cache (plist-value class 'ri-initargs))
+ (cached (assoc keys cache :test #'equal))
(invalid-keys
(if (consp cached)
(cdr cached)
(list* 'shared-initialize instance nil initargs))
t nil)))
(setf (plist-value class 'ri-initargs)
- (acons keys invalid cached))
+ (acons keys invalid cache))
invalid))))
(when invalid-keys
(error 'initarg-error :class class :initargs invalid-keys))))