:ref-trans %denominator
:init :arg))
+#!+#.(cl:if (cl:= sb!vm:n-word-bits 32) '(and) '(or))
(define-primitive-object (single-float :lowtag other-pointer-lowtag
:widetag single-float-widetag)
(value :c-type "float"))
(define-primitive-object (double-float :lowtag other-pointer-lowtag
:widetag double-float-widetag)
- (filler)
- (value :c-type "double" :length 2))
+ #!-x86-64 (filler)
+ (value :c-type "double" :length #!-x86-64 2 #!+x86-64 1))
#!+long-float
(define-primitive-object (long-float :lowtag other-pointer-lowtag
(define-primitive-object (array :lowtag other-pointer-lowtag
:widetag t)
+ ;; FILL-POINTER of an ARRAY is in the same place as LENGTH of a
+ ;; VECTOR -- see SHRINK-VECTOR.
(fill-pointer :type index
:ref-trans %array-fill-pointer
:ref-known (flushable foldable)
(define-primitive-object (vector :type vector
:lowtag other-pointer-lowtag
:widetag t)
+ ;; FILL-POINTER of an ARRAY is in the same place as LENGTH of a
+ ;; VECTOR -- see SHRINK-VECTOR.
(length :ref-trans sb!c::vector-length
:type index)
(data :rest-p t :c-type #!-alpha "unsigned long" #!+alpha "u32"))
(define-primitive-object (simple-fun :type function
:lowtag fun-pointer-lowtag
:widetag simple-fun-header-widetag)
- #!-x86 (self :ref-trans %simple-fun-self
+ #!-(or x86 x86-64) (self :ref-trans %simple-fun-self
:set-trans (setf %simple-fun-self))
- #!+x86 (self
+ #!+(or x86 x86-64) (self
;; KLUDGE: There's no :SET-KNOWN, :SET-TRANS, :REF-KNOWN, or
;; :REF-TRANS here in this case. Instead, there's separate
;; DEFKNOWN/DEFINE-VOP/DEFTRANSFORM stuff in
:lowtag fun-pointer-lowtag
:widetag funcallable-instance-header-widetag
:alloc-trans %make-funcallable-instance)
- #!-x86
+ #!-(or x86 x86-64)
(fun
:ref-known (flushable) :ref-trans %funcallable-instance-fun
:set-known (unsafe) :set-trans (setf %funcallable-instance-fun))
- #!+x86
+ #!+(or x86 x86-64)
(fun
:ref-known (flushable) :ref-trans %funcallable-instance-fun
;; KLUDGE: There's no :SET-KNOWN or :SET-TRANS in this case.
(define-primitive-object (unwind-block)
(current-uwp :c-type #!-alpha "struct unwind_block *" #!+alpha "u32")
(current-cont :c-type #!-alpha "lispobj *" #!+alpha "u32")
- #!-x86 current-code
+ #!-(or x86 x86-64) current-code
entry-pc)
(define-primitive-object (catch-block)
(current-uwp :c-type #!-alpha "struct unwind_block *" #!+alpha "u32")
(current-cont :c-type #!-alpha "lispobj *" #!+alpha "u32")
- #!-x86 current-code
+ #!-(or x86 x86-64) current-code
entry-pc
tag
(previous-catch :c-type #!-alpha "struct catch_block *" #!+alpha "u32")
\f
;;;; symbols
-#!+x86
-(defknown symbol-hash (symbol) (integer 0 #.sb!xc:most-positive-fixnum)
- (flushable movable))
-
(define-primitive-object (symbol :lowtag other-pointer-lowtag
:widetag symbol-header-widetag
- #!-x86 :alloc-trans #!-x86 make-symbol)
+ :alloc-trans make-symbol)
;; Beware when changing this definition. NIL-the-symbol is defined
;; using this layout, and NIL-the-end-of-list-marker is the cons
;; (conses have no header). Careful selection of lowtags ensures
;; that the same pointer can be used for both purposes:
;; OTHER-POINTER-LOWTAG is 7, LIST-POINTER-LOWTAG is 3, so if you
- ;; subtract 3 from (sb-kernel:get-lisp-obj-address 'NIL) you get the
+ ;; subtract 3 from (SB-KERNEL:GET-LISP-OBJ-ADDRESS 'NIL) you get the
;; first data slot, and if you subtract 7 you get a symbol header.
- (value :init :unbound) ;also the CAR of NIL-as-end-of-list
- (hash) ;the CDR of NIL-as-end-of-list
+ ;; also the CAR of NIL-as-end-of-list
+ (value :init :unbound :ref-known (flushable) :ref-trans symbol-global-value)
+ ;; also the CDR of NIL-as-end-of-list. Its reffer needs special
+ ;; care for this reason, as hash values must be fixnums.
+ (hash :set-trans %set-symbol-hash)
(plist :ref-trans symbol-plist
:set-trans %set-symbol-plist
(package :ref-trans symbol-package
:set-trans %set-symbol-package
:init :null)
- #!+sb-thread (tls-index))
+ #!+sb-thread (tls-index :ref-known (flushable) :ref-trans symbol-tls-index))
(define-primitive-object (complex-single-float
:lowtag other-pointer-lowtag
(define-primitive-object (complex-double-float
:lowtag other-pointer-lowtag
:widetag complex-double-float-widetag)
- (filler)
- (real :c-type "double" :length 2)
- (imag :c-type "double" :length 2))
-
-#!+long-float
-(define-primitive-object (complex-long-float
- :lowtag other-pointer-lowtag
- :widetag complex-long-float-widetag)
- #!+sparc (filler)
- (real :c-type "long double" :length #!+x86 3 #!+sparc 4)
- (imag :c-type "long double" :length #!+x86 3 #!+sparc 4))
+ #!-x86-64 (filler)
+ (real :c-type "double" :length #!-x86-64 2 #!+x86-64 1)
+ (imag :c-type "double" :length #!-x86-64 2 #!+x86-64 1))
;;; this isn't actually a lisp object at all, it's a c structure that lives
;;; in c-land. However, we need sight of so many parts of it from Lisp that
(tls-cookie) ; on x86, the LDT index
(this :c-type "struct thread *" :length #!+alpha 2 #!-alpha 1)
(next :c-type "struct thread *" :length #!+alpha 2 #!-alpha 1)
- #!+x86 (pseudo-atomic-atomic)
- #!+x86 (pseudo-atomic-interrupted)
+ (state) ; running, stopping, stopped, dead
+ #!+(or x86 x86-64) (pseudo-atomic-atomic)
+ #!+(or x86 x86-64) (pseudo-atomic-interrupted)
(interrupt-data :c-type "struct interrupt_data *"
:length #!+alpha 2 #!-alpha 1)
(interrupt-contexts :c-type "os_context_t *" :rest-p t))