;; :SEALED = We can't even add subclasses.
;; NIL = Anything could happen.
(state nil :type (member nil :read-only :sealed))
- ;; direct superclasses of this class
+ ;; direct superclasses of this class. Always NIL for CLOS classes.
(direct-superclasses () :type list)
;; representation of all of the subclasses (direct or indirect) of
;; this class. This is NIL if no subclasses or not initalized yet;
(:make-load-form-fun (lambda (c)
`(find-classoid-cell
',(classoid-cell-name c)
- :errorp t)))
+ :create t)))
#-no-ansi-print-object
(:print-object (lambda (s stream)
(print-unreadable-object (s stream :type t)
(defun find-classoid-cell (name &key create errorp)
(let ((table *classoid-cells*)
(real-name (uncross name)))
- (or (with-locked-hash-table (table)
+ (or (with-locked-system-table (table)
(or (gethash real-name table)
(when create
(setf (gethash real-name table) (make-classoid-cell real-name)))))
;; getting a different cell for a classoid with the same name
;; just would not do.
- ;; Remove the proper name of the classoid.
- (setf (classoid-name (classoid-cell-classoid cell)) nil)
+ ;; Remove the proper name of the classoid, if this was it.
+ (let* ((classoid (classoid-cell-classoid cell))
+ (proper-name (classoid-name classoid)))
+ (when (eq proper-name name)
+ (setf (classoid-name classoid) nil)))
+
;; Clear the cell.
(setf (classoid-cell-classoid cell) nil
(classoid-cell-pcl-class cell) nil))
(defun insured-find-classoid (name predicate constructor)
(declare (type function predicate constructor))
(let ((table *forward-referenced-layouts*))
- (with-locked-hash-table (table)
+ (with-locked-system-table (table)
(let* ((old (find-classoid name nil))
(res (if (and old (funcall predicate old))
old
;;; We might be passed classoids with invalid layouts; in any pairwise
;;; class comparison, we must ensure that both are valid before
;;; proceeding.
-(defun %ensure-classoid-valid (classoid layout)
+(defun %ensure-classoid-valid (classoid layout error-context)
(aver (eq classoid (layout-classoid layout)))
- (when (layout-invalid layout)
- (if (typep classoid 'standard-classoid)
- (let ((class (classoid-pcl-class classoid)))
- (cond
- ((sb!pcl:class-finalized-p class)
- (sb!pcl::%force-cache-flushes class))
- ((sb!pcl::class-has-a-forward-referenced-superclass-p class)
- (error "Invalid, unfinalizeable class ~S (classoid ~S)."
- class classoid))
- (t
- (sb!pcl:finalize-inheritance class))))
- (error "Don't know how to ensure validity of ~S (not ~
- a STANDARD-CLASSOID)." classoid))))
-
-(defun %ensure-both-classoids-valid (class1 class2)
+ (or (not (layout-invalid layout))
+ (if (typep classoid 'standard-classoid)
+ (let ((class (classoid-pcl-class classoid)))
+ (cond
+ ((sb!pcl:class-finalized-p class)
+ (sb!pcl::%force-cache-flushes class)
+ t)
+ ((sb!pcl::class-has-a-forward-referenced-superclass-p class)
+ (when error-context
+ (bug "~@<Invalid class ~S with forward-referenced superclass ~
+ ~S in ~A.~%~:@>"
+ class
+ (sb!pcl::class-has-a-forward-referenced-superclass-p class)
+ error-context))
+ nil)
+ (t
+ (sb!pcl:finalize-inheritance class)
+ t)))
+ (bug "~@<Don't know how to ensure validity of ~S (not a STANDARD-CLASSOID) ~
+ for ~A.~%~:@>"
+ classoid (or error-context 'subtypep)))))
+
+(defun %ensure-both-classoids-valid (class1 class2 &optional errorp)
(do ((layout1 (classoid-layout class1) (classoid-layout class1))
(layout2 (classoid-layout class2) (classoid-layout class2))
(i 0 (+ i 1)))
- ((and (not (layout-invalid layout1)) (not (layout-invalid layout2))))
+ ((and (not (layout-invalid layout1)) (not (layout-invalid layout2)))
+ t)
(aver (< i 2))
- (%ensure-classoid-valid class1 layout1)
- (%ensure-classoid-valid class2 layout2)))
+ (unless (and (%ensure-classoid-valid class1 layout1 errorp)
+ (%ensure-classoid-valid class2 layout2 errorp))
+ (return-from %ensure-both-classoids-valid nil))))
(defun update-object-layout-or-invalid (object layout)
- (if (typep (classoid-of object) 'standard-classoid)
+ (if (layout-for-std-class-p (layout-of object))
(sb!pcl::check-wrapper-validity object)
(sb!c::%layout-invalid-error object layout)))
(!define-type-method (classoid :simple-subtypep) (class1 class2)
(aver (not (eq class1 class2)))
(with-world-lock ()
- (%ensure-both-classoids-valid class1 class2)
- (let ((subclasses (classoid-subclasses class2)))
- (if (and subclasses (gethash class1 subclasses))
- (values t t)
- (values nil t)))))
+ (if (%ensure-both-classoids-valid class1 class2)
+ (let ((subclasses2 (classoid-subclasses class2)))
+ (if (and subclasses2 (gethash class1 subclasses2))
+ (values t t)
+ (if (and (typep class1 'standard-classoid)
+ (typep class2 'standard-classoid)
+ (or (sb!pcl::class-has-a-forward-referenced-superclass-p
+ (classoid-pcl-class class1))
+ (sb!pcl::class-has-a-forward-referenced-superclass-p
+ (classoid-pcl-class class2))))
+ ;; If there's a forward-referenced class involved we don't know for sure.
+ ;; (There are cases which we /could/ figure out, but that doesn't seem
+ ;; to be required or important, really.)
+ (values nil nil)
+ (values nil t))))
+ (values nil nil))))
;;; When finding the intersection of a sealed class and some other
;;; class (not hierarchically related) the intersection is the union
(!define-type-method (classoid :simple-intersection2) (class1 class2)
(declare (type classoid class1 class2))
(with-world-lock ()
- (%ensure-both-classoids-valid class1 class2)
+ (%ensure-both-classoids-valid class1 class2 "type intersection")
(cond ((eq class1 class2)
class1)
;; If one is a subclass of the other, then that is the
:inherits (complex number)
:codes (#.sb!vm:complex-long-float-widetag)
:prototype-form (complex 42l0 42l0))
+ #!+sb-simd-pack
+ (simd-pack
+ :translation simd-pack
+ :codes (#.sb!vm:simd-pack-widetag)
+ :prototype-form (%make-simd-pack-ub64 42 42))
(real :translation real :inherits (number))
(float
:translation float
:translation (integer #.sb!xc:most-negative-fixnum
#.sb!xc:most-positive-fixnum)
:inherits (integer rational real number)
- :codes (#.sb!vm:even-fixnum-lowtag #.sb!vm:odd-fixnum-lowtag)
+ :codes #.(mapcar #'symbol-value sb!vm::fixnum-lowtags)
:prototype-form 42)
(bignum
:translation (and integer (not fixnum))
:direct-superclasses (vector simple-array)
:inherits (vector simple-array array sequence)
:prototype-form (make-array 0 :element-type '(unsigned-byte 16)))
- #!+#.(cl:if (cl:= 32 sb!vm:n-word-bits) '(and) '(or))
- (simple-array-unsigned-byte-29
- :translation (simple-array (unsigned-byte 29) (*))
- :codes (#.sb!vm:simple-array-unsigned-byte-29-widetag)
+
+ (simple-array-unsigned-fixnum
+ :translation (simple-array (unsigned-byte #.sb!vm:n-positive-fixnum-bits) (*))
+ :codes (#.sb!vm:simple-array-unsigned-fixnum-widetag)
:direct-superclasses (vector simple-array)
:inherits (vector simple-array array sequence)
- :prototype-form (make-array 0 :element-type '(unsigned-byte 29)))
+ :prototype-form (make-array 0
+ :element-type '(unsigned-byte #.sb!vm:n-positive-fixnum-bits)))
+
(simple-array-unsigned-byte-31
:translation (simple-array (unsigned-byte 31) (*))
:codes (#.sb!vm:simple-array-unsigned-byte-31-widetag)
:inherits (vector simple-array array sequence)
:prototype-form (make-array 0 :element-type '(unsigned-byte 32)))
#!+#.(cl:if (cl:= 64 sb!vm:n-word-bits) '(and) '(or))
- (simple-array-unsigned-byte-60
- :translation (simple-array (unsigned-byte 60) (*))
- :codes (#.sb!vm:simple-array-unsigned-byte-60-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence)
- :prototype-form (make-array 0 :element-type '(unsigned-byte 60)))
- #!+#.(cl:if (cl:= 64 sb!vm:n-word-bits) '(and) '(or))
(simple-array-unsigned-byte-63
:translation (simple-array (unsigned-byte 63) (*))
:codes (#.sb!vm:simple-array-unsigned-byte-63-widetag)
:direct-superclasses (vector simple-array)
:inherits (vector simple-array array sequence)
:prototype-form (make-array 0 :element-type '(signed-byte 16)))
- #!+#.(cl:if (cl:= 32 sb!vm:n-word-bits) '(and) '(or))
- (simple-array-signed-byte-30
- :translation (simple-array (signed-byte 30) (*))
- :codes (#.sb!vm:simple-array-signed-byte-30-widetag)
+
+ (simple-array-fixnum
+ :translation (simple-array (signed-byte #.sb!vm:n-fixnum-bits)
+ (*))
+ :codes (#.sb!vm:simple-array-fixnum-widetag)
:direct-superclasses (vector simple-array)
:inherits (vector simple-array array sequence)
- :prototype-form (make-array 0 :element-type '(signed-byte 30)))
+ :prototype-form (make-array 0
+ :element-type
+ '(signed-byte #.sb!vm:n-fixnum-bits)))
+
(simple-array-signed-byte-32
:translation (simple-array (signed-byte 32) (*))
:codes (#.sb!vm:simple-array-signed-byte-32-widetag)
:inherits (vector simple-array array sequence)
:prototype-form (make-array 0 :element-type '(signed-byte 32)))
#!+#.(cl:if (cl:= 64 sb!vm:n-word-bits) '(and) '(or))
- (simple-array-signed-byte-61
- :translation (simple-array (signed-byte 61) (*))
- :codes (#.sb!vm:simple-array-signed-byte-61-widetag)
- :direct-superclasses (vector simple-array)
- :inherits (vector simple-array array sequence)
- :prototype-form (make-array 0 :element-type '(signed-byte 61)))
- #!+#.(cl:if (cl:= 64 sb!vm:n-word-bits) '(and) '(or))
(simple-array-signed-byte-64
:translation (simple-array (signed-byte 64) (*))
:codes (#.sb!vm:simple-array-signed-byte-64-widetag)