(defvar *finalizer-store* nil)
-(defvar *finalizer-store-lock*
+(defvar *finalizer-store-lock*
(sb!thread:make-mutex :name "Finalizer store lock."))
-(defun finalize (object function)
- #!+sb-doc
+(defmacro with-finalizer-store-lock (&body body)
+ `(sb!thread::with-system-mutex (*finalizer-store-lock* :without-gcing t)
+ ,@body))
+
+(defun finalize (object function &key dont-save)
+ #!+sb-doc
"Arrange for the designated FUNCTION to be called when there
are no more references to OBJECT, including references in
FUNCTION itself.
+If DONT-SAVE is true, the finalizer will be cancelled when
+SAVE-LISP-AND-DIE is called: this is useful for finalizers
+deallocating system memory, which might otherwise be called
+with addresses from the old image.
+
In a multithreaded environment FUNCTION may be called in any
thread. In both single and multithreaded environments FUNCTION
may be called in any dynamic scope: consequences are unspecified
Examples:
- ;;; good
+ ;;; good (assumes RELEASE-HANDLE is re-entrant)
(let* ((handle (get-handle))
(object (make-object handle)))
- ;; assumes RELEASE-HANDLE is re-entrant
(finalize object (lambda () (release-handle handle)))
object)
(defvar *rec* nil)
(defun oops ()
- (when *rec*
+ (when *rec*
(error \"recursive OOPS\"))
(let ((*rec* t))
(gc))) ; or just cons enough to cause one
- (progn
+ (progn
(finalize \"oops\" #'oops)
(oops)) ; causes GC and re-entry to #'oops due to the finalizer
; -> ERROR, caught, WARNING signalled"
- (sb!sys:without-gcing
- (sb!thread:with-mutex (*finalizer-store-lock*)
- (push (cons (make-weak-pointer object) function)
- *finalizer-store*)))
+ (unless object
+ (error "Cannot finalize NIL."))
+ (with-finalizer-store-lock
+ (push (list (make-weak-pointer object) function dont-save)
+ *finalizer-store*))
object)
+(defun deinit-finalizers ()
+ ;; remove :dont-save finalizers
+ (with-finalizer-store-lock
+ (setf *finalizer-store* (delete-if #'third *finalizer-store*)))
+ nil)
+
(defun cancel-finalization (object)
#!+sb-doc
"Cancel any finalization for OBJECT."
;; Check for NIL to avoid deleting finalizers that are waiting to be
;; run.
(when object
- (sb!sys:without-gcing
- (sb!thread:with-mutex (*finalizer-store-lock*)
- (setf *finalizer-store*
- (delete object *finalizer-store*
- :key (lambda (pair)
- (weak-pointer-value (car pair)))))))
+ (with-finalizer-store-lock
+ (setf *finalizer-store*
+ (delete object *finalizer-store*
+ :key (lambda (list)
+ (weak-pointer-value (car list))))))
object))
(defun run-pending-finalizers ()
(let (pending)
- (sb!sys:without-gcing
- (sb!thread:with-mutex (*finalizer-store-lock*)
- (setf *finalizer-store*
- (delete-if (lambda (pair)
- (when (null (weak-pointer-value (car pair)))
- (push (cdr pair) pending)
- t))
- *finalizer-store*))))
+ (with-finalizer-store-lock
+ (setf *finalizer-store*
+ (delete-if (lambda (list)
+ (when (null (weak-pointer-value (car list)))
+ (push (second list) pending)
+ t))
+ *finalizer-store*)))
;; We want to run the finalizer bodies outside the lock in case
;; finalization of X causes finalization to be added for Y.
(dolist (fun pending)
(handler-case
- (funcall fun)
- (error (c)
- (warn "Error calling finalizer ~S:~% ~S" fun c)))))
+ (funcall fun)
+ (error (c)
+ (warn "Error calling finalizer ~S:~% ~S" fun c)))))
nil)