;;;; files for more information.
(in-package "SB!VM")
+
+;;;; KLUDGE: The primitive objects here may look like self-contained
+;;;; definitions, but in general they're not. In particular, if you
+;;;; try to add a slot to them, beware of the following:
+;;;; * (mysterious crashes which occur after changing the length
+;;;; of SIMPLE-FUN, just adding a new slot not even doing anything
+;;;; with it, still dunno why)
+;;;; * The GC scavenging code (and for all I know other GC code too)
+;;;; is not automatically generated from these layouts, but instead
+;;;; was hand-written to correspond to them. The offsets are
+;;;; automatically propagated into the GC scavenging code, but the
+;;;; existence of slots, and whether they should be scavenged, is
+;;;; not automatically propagated. Thus e.g. if you add a
+;;;; SIMPLE-FUN-DEBUG-INFO slot holding a tagged object which needs
+;;;; to be GCed, you need to tweak scav_code_header() and
+;;;; verify_space() in gencgc.c, and the corresponding code in gc.c.
+;;;; * The src/runtime/print.c code (used by LDB) is implemented
+;;;; using hand-written lists of slot names, which aren't automatically
+;;;; generated from the code in this file.
+;;;; * Various code (e.g. STATIC-FSET in genesis.lisp) is hard-wired
+;;;; to know the name of the last slot of the object the code works
+;;;; with, and implicitly to know that the last slot is special (being
+;;;; the beginning of an arbitrary-length sequence of bytes following
+;;;; the fixed-layout slots).
+;;;; -- WHN 2001-12-29
\f
;;;; the primitive objects themselves
(define-primitive-object (cons :lowtag list-pointer-lowtag
- :alloc-trans cons)
+ :alloc-trans cons)
(car :ref-trans car :set-trans sb!c::%rplaca :init :arg)
(cdr :ref-trans cdr :set-trans sb!c::%rplacd :init :arg))
(define-primitive-object (instance :lowtag instance-pointer-lowtag
- :widetag instance-header-widetag
- :alloc-trans %make-instance)
+ :widetag instance-header-widetag
+ :alloc-trans %make-instance)
(slots :rest-p t))
(define-primitive-object (bignum :lowtag other-pointer-lowtag
- :widetag bignum-widetag
- :alloc-trans sb!bignum::%allocate-bignum)
+ :widetag bignum-widetag
+ :alloc-trans sb!bignum::%allocate-bignum)
(digits :rest-p t :c-type #!-alpha "long" #!+alpha "u32"))
(define-primitive-object (ratio :type ratio
- :lowtag other-pointer-lowtag
- :widetag ratio-widetag
- :alloc-trans %make-ratio)
+ :lowtag other-pointer-lowtag
+ :widetag ratio-widetag
+ :alloc-trans %make-ratio)
(numerator :type integer
- :ref-known (flushable movable)
- :ref-trans %numerator
- :init :arg)
+ :ref-known (flushable movable)
+ :ref-trans %numerator
+ :init :arg)
(denominator :type integer
- :ref-known (flushable movable)
- :ref-trans %denominator
- :init :arg))
+ :ref-known (flushable movable)
+ :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)
+ :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))
+ :widetag double-float-widetag)
+ #!-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
- :widetag long-float-widetag)
+ :widetag long-float-widetag)
#!+sparc (filler)
(value :c-type "long double" :length #!+x86 3 #!+sparc 4))
(define-primitive-object (complex :type complex
- :lowtag other-pointer-lowtag
- :widetag complex-widetag
- :alloc-trans %make-complex)
+ :lowtag other-pointer-lowtag
+ :widetag complex-widetag
+ :alloc-trans %make-complex)
(real :type real
- :ref-known (flushable movable)
- :ref-trans %realpart
- :init :arg)
+ :ref-known (flushable movable)
+ :ref-trans %realpart
+ :init :arg)
(imag :type real
- :ref-known (flushable movable)
- :ref-trans %imagpart
- :init :arg))
+ :ref-known (flushable movable)
+ :ref-trans %imagpart
+ :init :arg))
(define-primitive-object (array :lowtag other-pointer-lowtag
- :widetag t)
+ :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)
- :set-trans (setf %array-fill-pointer)
- :set-known (unsafe))
+ :ref-trans %array-fill-pointer
+ :ref-known (flushable foldable)
+ :set-trans (setf %array-fill-pointer)
+ :set-known (unsafe))
(fill-pointer-p :type (member t nil)
- :ref-trans %array-fill-pointer-p
- :ref-known (flushable foldable)
- :set-trans (setf %array-fill-pointer-p)
- :set-known (unsafe))
+ :ref-trans %array-fill-pointer-p
+ :ref-known (flushable foldable)
+ :set-trans (setf %array-fill-pointer-p)
+ :set-known (unsafe))
(elements :type index
- :ref-trans %array-available-elements
- :ref-known (flushable foldable)
- :set-trans (setf %array-available-elements)
- :set-known (unsafe))
+ :ref-trans %array-available-elements
+ :ref-known (flushable foldable)
+ :set-trans (setf %array-available-elements)
+ :set-known (unsafe))
(data :type array
- :ref-trans %array-data-vector
- :ref-known (flushable foldable)
- :set-trans (setf %array-data-vector)
- :set-known (unsafe))
+ :ref-trans %array-data-vector
+ :ref-known (flushable foldable)
+ :set-trans (setf %array-data-vector)
+ :set-known (unsafe))
(displacement :type (or index null)
- :ref-trans %array-displacement
- :ref-known (flushable foldable)
- :set-trans (setf %array-displacement)
- :set-known (unsafe))
+ :ref-trans %array-displacement
+ :ref-known (flushable foldable)
+ :set-trans (setf %array-displacement)
+ :set-known (unsafe))
(displaced-p :type (member t nil)
- :ref-trans %array-displaced-p
- :ref-known (flushable foldable)
- :set-trans (setf %array-displaced-p)
- :set-known (unsafe))
+ :ref-trans %array-displaced-p
+ :ref-known (flushable foldable)
+ :set-trans (setf %array-displaced-p)
+ :set-known (unsafe))
(dimensions :rest-p t))
(define-primitive-object (vector :type vector
- :lowtag other-pointer-lowtag
- :widetag t)
+ :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)
+ :type index)
(data :rest-p t :c-type #!-alpha "unsigned long" #!+alpha "u32"))
(define-primitive-object (code :type code-component
- :lowtag other-pointer-lowtag
- :widetag t)
+ :lowtag other-pointer-lowtag
+ :widetag t)
(code-size :type index
- :ref-known (flushable movable)
- :ref-trans %code-code-size)
+ :ref-known (flushable movable)
+ :ref-trans %code-code-size)
(entry-points :type (or function null)
- :ref-known (flushable)
- :ref-trans %code-entry-points
- :set-known (unsafe)
- :set-trans (setf %code-entry-points))
+ :ref-known (flushable)
+ :ref-trans %code-entry-points
+ :set-known (unsafe)
+ :set-trans (setf %code-entry-points))
(debug-info :type t
- :ref-known (flushable)
- :ref-trans %code-debug-info
- :set-known (unsafe)
- :set-trans (setf %code-debug-info))
+ :ref-known (flushable)
+ :ref-trans %code-debug-info
+ :set-known (unsafe)
+ :set-trans (setf %code-debug-info))
(trace-table-offset)
(constants :rest-p t))
(define-primitive-object (fdefn :type fdefn
- :lowtag other-pointer-lowtag
- :widetag fdefn-widetag)
+ :lowtag other-pointer-lowtag
+ :widetag fdefn-widetag)
(name :ref-trans fdefn-name)
(fun :type (or function null) :ref-trans fdefn-fun)
(raw-addr :c-type #!-alpha "char *" #!+alpha "u32"))
;;; a simple function (as opposed to hairier things like closures
;;; which are also subtypes of Common Lisp's FUNCTION type)
(define-primitive-object (simple-fun :type function
- :lowtag fun-pointer-lowtag
- :widetag simple-fun-header-widetag)
- #!-x86 (self :ref-trans %simple-fun-self
- :set-trans (setf %simple-fun-self))
- #!+x86 (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
- ;; compiler/x86/system.lisp to define and declare them by
- ;; hand. I don't know why this is, but that's (basically)
- ;; the way it was done in CMU CL, and it works. (It's not
- ;; exactly the same way it was done in CMU CL in that CMU
- ;; CL's allows duplicate DEFKNOWNs, blithely overwriting any
- ;; previous data associated with the previous DEFKNOWN, and
- ;; that property was used to mask the definitions here. In
- ;; SBCL as of 0.6.12.64 that's not allowed -- too confusing!
- ;; -- so we have to explicitly suppress the DEFKNOWNish
- ;; stuff here in order to allow this old hack to work in the
- ;; new world. -- WHN 2001-08-82
- )
+ :lowtag fun-pointer-lowtag
+ :widetag simple-fun-header-widetag)
+ #!-(or x86 x86-64) (self :ref-trans %simple-fun-self
+ :set-trans (setf %simple-fun-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
+ ;; compiler/x86/system.lisp to define and declare them by
+ ;; hand. I don't know why this is, but that's (basically)
+ ;; the way it was done in CMU CL, and it works. (It's not
+ ;; exactly the same way it was done in CMU CL in that CMU
+ ;; CL's allows duplicate DEFKNOWNs, blithely overwriting any
+ ;; previous data associated with the previous DEFKNOWN, and
+ ;; that property was used to mask the definitions here. In
+ ;; SBCL as of 0.6.12.64 that's not allowed -- too confusing!
+ ;; -- so we have to explicitly suppress the DEFKNOWNish
+ ;; stuff here in order to allow this old hack to work in the
+ ;; new world. -- WHN 2001-08-82
+ )
(next :type (or function null)
- :ref-known (flushable)
- :ref-trans %simple-fun-next
- :set-known (unsafe)
- :set-trans (setf %simple-fun-next))
+ :ref-known (flushable)
+ :ref-trans %simple-fun-next
+ :set-known (unsafe)
+ :set-trans (setf %simple-fun-next))
(name :ref-known (flushable)
- :ref-trans %simple-fun-name
- :set-known (unsafe)
- :set-trans (setf %simple-fun-name))
- (arglist :ref-known (flushable)
- :ref-trans %simple-fun-arglist
- :set-known (unsafe)
- :set-trans (setf %simple-fun-arglist))
+ :ref-trans %simple-fun-name
+ :set-known (unsafe)
+ :set-trans (setf %simple-fun-name))
+ (arglist :type list
+ :ref-known (flushable)
+ :ref-trans %simple-fun-arglist
+ :set-known (unsafe)
+ :set-trans (setf %simple-fun-arglist))
(type :ref-known (flushable)
- :ref-trans %simple-fun-type
- :set-known (unsafe)
- :set-trans (setf %simple-fun-type))
+ :ref-trans %simple-fun-type
+ :set-known (unsafe)
+ :set-trans (setf %simple-fun-type))
+ ;; the SB!C::DEBUG-FUN object corresponding to this object, or NIL for none
+ #+nil ; FIXME: doesn't work (gotcha, lowly maintenoid!) See notes on bug 137.
+ (debug-fun :ref-known (flushable)
+ :ref-trans %simple-fun-debug-fun
+ :set-known (unsafe)
+ :set-trans (setf %simple-fun-debug-fun))
(code :rest-p t :c-type "unsigned char"))
(define-primitive-object (return-pc :lowtag other-pointer-lowtag :widetag t)
(return-point :c-type "unsigned char" :rest-p t))
(define-primitive-object (closure :lowtag fun-pointer-lowtag
- :widetag closure-header-widetag)
+ :widetag closure-header-widetag)
(fun :init :arg :ref-trans %closure-fun)
+ ;; This SELF slot needs explanation.
+ ;;
+ ;; Ordinary closures did not need this slot before version 0.9.3.xx,
+ ;; as the closure object was already in some dedicated register --
+ ;; EAX/RAX on x86(-64), reg_LEXENV on register-rich platforms -- and
+ ;; consequently setting up the environment (from the INFO slot,
+ ;; below) was easy.
+ ;;
+ ;; However, it is not easy to support calling FUNCALLABLE-INSTANCEs
+ ;; in the same way; in a FUNCALLABLE-INSTANCE, there are
+ ;; conceptually two variable-length data areas: the closure
+ ;; environment, if any, and the slots of the instance.
+ ;;
+ ;; Until sbcl-0.9.3.xx, it was required that closures to be set as a
+ ;; FUNCALLABLE-INSTANCE-FUNCTION be defined using the magical
+ ;; keyword SB-KERNEL:INSTANCE-LAMBDA, rather than ordinary LAMBDA;
+ ;; this caused an extra indirection to be compiled into the closure
+ ;; code to load the closure from the FUNCALLABLE-INSTANCE-LEXENV
+ ;; slot before setting up the environment for the function body.
+ ;; Failure to obey this protocol yielded confusing error messages as
+ ;; either INSTANCE-LAMBDAs tried to dereference environments that
+ ;; weren't there, or ordinary LAMBDAs got hold of the LAYOUT and
+ ;; LEXENV slots of a FUNCALLABLE-INSTANCE.
+ ;;
+ ;; By adding this SELF slot, which is at the same offset in a
+ ;; regular CLOSURE as the LEXENV slot is in a FUNCALLABLE-INSTANCE,
+ ;; we enable the extra indirection (VOP FUNCALLABLE-INSTANCE-LEXENV,
+ ;; in src/compiler/ir2tran.lisp) to be compiled unconditionally
+ ;; (provided that we set this slot to the closure object itself).
+ ;; Relative to the code before, this adds a word to the space
+ ;; requirements of a closure, and one instruction (a memory fetch)
+ ;; to the body of a closure function.
+ ;;
+ ;; There are potentially other implementation strategies which would
+ ;; remove the need for this extra indirection in regular closures,
+ ;; such as setting up a trampoline for funcallable instances (though
+ ;; it was not clear to me that there are enough registers free in
+ ;; the x86 backend to permit this). This indirection should not be
+ ;; too disastrous, given that for regular closures the fetch is from
+ ;; memory which is known to be active.
+ ;;
+ ;; CSR, 2005-08-05
+ (self) ; KLUDGE (see above comment)
(info :rest-p t))
(define-primitive-object (funcallable-instance
- :lowtag fun-pointer-lowtag
- :widetag funcallable-instance-header-widetag
- :alloc-trans %make-funcallable-instance)
- #!-x86
+ :lowtag fun-pointer-lowtag
+ :widetag funcallable-instance-header-widetag
+ :alloc-trans %make-funcallable-instance)
+ #!-(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.
;; translation without trying to fix it. -- WHN 2001-08-02
)
(lexenv :ref-known (flushable) :ref-trans %funcallable-instance-lexenv
- :set-known (unsafe) :set-trans (setf %funcallable-instance-lexenv))
- (layout :init :arg
- :ref-known (flushable) :ref-trans %funcallable-instance-layout
- :set-known (unsafe) :set-trans (setf %funcallable-instance-layout))
+ :set-known (unsafe) :set-trans (setf %funcallable-instance-lexenv))
(info :rest-p t))
(define-primitive-object (value-cell :lowtag other-pointer-lowtag
- :widetag value-cell-header-widetag
- :alloc-trans make-value-cell)
+ :widetag value-cell-header-widetag
+ :alloc-trans make-value-cell)
(value :set-trans value-cell-set
- :set-known (unsafe)
- :ref-trans value-cell-ref
- :ref-known (flushable)
- :init :arg))
+ :set-known (unsafe)
+ :ref-trans value-cell-ref
+ :ref-known (flushable)
+ :init :arg))
#!+alpha
(define-primitive-object (sap :lowtag other-pointer-lowtag
- :widetag sap-widetag)
+ :widetag sap-widetag)
(padding)
(pointer :c-type "char *" :length 2))
#!-alpha
(define-primitive-object (sap :lowtag other-pointer-lowtag
- :widetag sap-widetag)
+ :widetag sap-widetag)
(pointer :c-type "char *"))
(define-primitive-object (weak-pointer :type weak-pointer
- :lowtag other-pointer-lowtag
- :widetag weak-pointer-widetag
- :alloc-trans make-weak-pointer)
+ :lowtag other-pointer-lowtag
+ :widetag weak-pointer-widetag
+ :alloc-trans make-weak-pointer)
(value :ref-trans sb!c::%weak-pointer-value :ref-known (flushable)
- :init :arg)
+ :init :arg)
(broken :type (member t nil)
- :ref-trans sb!c::%weak-pointer-broken :ref-known (flushable)
- :init :null)
+ :ref-trans sb!c::%weak-pointer-broken :ref-known (flushable)
+ :init :null)
(next :c-type #!-alpha "struct weak_pointer *" #!+alpha "u32"))
;;;; other non-heap data blocks
(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")
;;; (For an explanation of this, see the comments at the definition of
;;; KLUDGE-NONDETERMINISTIC-CATCH-BLOCK-SIZE.)
-(aver (= sb!vm::kludge-nondeterministic-catch-block-size catch-block-size))
+(aver (= kludge-nondeterministic-catch-block-size catch-block-size))
\f
;;;; symbols
-#!+x86
-(defknown symbol-hash (symbol) (integer 0 #.*target-most-positive-fixnum*)
- (flushable movable))
-
(define-primitive-object (symbol :lowtag other-pointer-lowtag
- :widetag symbol-header-widetag
- #!-x86 :alloc-trans #!-x86 make-symbol)
- (value :set-trans %set-symbol-value
- :init :unbound)
- #!+x86 (hash)
+ :widetag symbol-header-widetag
+ :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
+ ;; ( NIL . NIL ), living in the first two slots of NIL-the-symbol
+ ;; (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
+ ;; first data slot, and if you subtract 7 you get a symbol header.
+
+ ;; 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
- :init :null)
+ :set-trans %set-symbol-plist
+ :init :null)
(name :ref-trans symbol-name :init :arg)
(package :ref-trans symbol-package
- :set-trans %set-symbol-package
- :init :null))
+ :set-trans %set-symbol-package
+ :init :null)
+ #!+sb-thread (tls-index :ref-known (flushable) :ref-trans symbol-tls-index))
(define-primitive-object (complex-single-float
- :lowtag other-pointer-lowtag
- :widetag complex-single-float-widetag)
+ :lowtag other-pointer-lowtag
+ :widetag complex-single-float-widetag)
(real :c-type "float")
(imag :c-type "float"))
(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))
-
+ :lowtag other-pointer-lowtag
+ :widetag complex-double-float-widetag)
+ #!-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
+;;; it makes sense to define it here anyway, so that the GENESIS machinery
+;;; can take care of maintaining Lisp and C versions.
+;;; Hence the even-fixnum lowtag just so we don't get odd(sic) numbers
+;;; added to the slot offsets
+(define-primitive-object (thread :lowtag even-fixnum-lowtag)
+ ;; no_tls_value_marker is borrowed very briefly at thread startup to
+ ;; pass the address of initial-function into new_thread_trampoline.
+ ;; tls[0] = NO_TLS_VALUE_MARKER_WIDETAG because a the tls index slot
+ ;; of a symbol is initialized to zero
+ (no-tls-value-marker)
+ (os-thread :c-type "os_thread_t")
+ (binding-stack-start :c-type "lispobj *" :length #!+alpha 2 #!-alpha 1)
+ (binding-stack-pointer :c-type "lispobj *" :length #!+alpha 2 #!-alpha 1)
+ (control-stack-start :c-type "lispobj *" :length #!+alpha 2 #!-alpha 1)
+ (control-stack-end :c-type "lispobj *" :length #!+alpha 2 #!-alpha 1)
+ (alien-stack-start :c-type "lispobj *" :length #!+alpha 2 #!-alpha 1)
+ (alien-stack-pointer :c-type "lispobj *" :length #!+alpha 2 #!-alpha 1)
+ #!+gencgc (alloc-region :c-type "struct alloc_region" :length 5)
+ (this :c-type "struct thread *" :length #!+alpha 2 #!-alpha 1)
+ (prev :c-type "struct thread *" :length #!+alpha 2 #!-alpha 1)
+ (next :c-type "struct thread *" :length #!+alpha 2 #!-alpha 1)
+ ;; starting, running, suspended, dead
+ (state :c-type "volatile lispobj")
+ (tls-cookie) ; on x86, the LDT index
+ #!+(or x86 x86-64) (pseudo-atomic-atomic)
+ #!+(or x86 x86-64) (pseudo-atomic-interrupted)
+ (interrupt-fun)
+ (interrupt-fun-lock :c-type "volatile lispobj")
+ (interrupt-data :c-type "struct interrupt_data *"
+ :length #!+alpha 2 #!-alpha 1)
+ (interrupt-contexts :c-type "os_context_t *" :rest-p t))