(error "Class is not a structure class: ~S" name))
(t res))))
+(defun compiler-layout-ready-p (name)
+ (let ((layout (info :type :compiler-layout name)))
+ (and layout (typep (layout-info layout) 'defstruct-description))))
+
+(sb!xc:defmacro %make-structure-instance-macro (dd slot-specs &rest slot-vars)
+ `(truly-the ,(dd-name dd)
+ ,(if (compiler-layout-ready-p (dd-name dd))
+ `(%make-structure-instance ,dd ,slot-specs ,@slot-vars)
+ ;; Non-toplevel defstructs don't have a layout at compile time,
+ ;; so we need to construct the actual function at runtime -- but
+ ;; we cache it at the call site, so that we don't perform quite
+ ;; so horribly.
+ `(let* ((cell (load-time-value (list nil)))
+ (fun (car cell)))
+ (if (functionp fun)
+ (funcall fun ,@slot-vars)
+ (funcall (setf (car cell)
+ (%make-structure-instance-allocator ,dd ,slot-specs))
+ ,@slot-vars))))))
+
+(declaim (ftype (sfunction (defstruct-description list) function)
+ %make-structure-instance-allocator))
+(defun %make-structure-instance-allocator (dd slot-specs)
+ (let ((vars (make-gensym-list (length slot-specs))))
+ (values (compile nil `(lambda (,@vars)
+ (%make-structure-instance-macro ,dd ',slot-specs ,@vars))))))
+
+(defun %make-funcallable-structure-instance-allocator (dd slot-specs)
+ (when slot-specs
+ (bug "funcallable-structure-instance allocation with slots unimplemented"))
+ (let ((name (dd-name dd))
+ (length (dd-length dd))
+ (nobject (gensym "OBJECT")))
+ (values
+ (compile nil `(lambda ()
+ (let ((,nobject (%make-funcallable-instance ,length)))
+ (setf (%funcallable-instance-layout ,nobject)
+ (%delayed-get-compiler-layout ,name))
+ ,nobject))))))
+
;;; Delay looking for compiler-layout until the constructor is being
;;; compiled, since it doesn't exist until after the EVAL-WHEN
;;; (COMPILE) stuff is compiled. (Or, in the oddball case when
(error "Class is not a structure class: ~S" ',name))
,layout))))))
-;;; Get layout right away.
-(sb!xc:defmacro compile-time-find-layout (name)
- (find-layout name))
-
;;; re. %DELAYED-GET-COMPILER-LAYOUT and COMPILE-TIME-FIND-LAYOUT, above..
;;;
;;; FIXME: Perhaps both should be defined with DEFMACRO-MUNDANELY?
(raw-type (missing-arg) :type (or symbol cons) :read-only t)
;; What operator is used to access a slot of this type?
(accessor-name (missing-arg) :type symbol :read-only t)
+ (init-vop (missing-arg) :type symbol :read-only t)
;; How many words are each value of this type?
(n-words (missing-arg) :type (and index (integer 1)) :read-only t)
;; Necessary alignment in units of words. Note that instances
(list
(make-raw-slot-data :raw-type 'sb!vm:word
:accessor-name '%raw-instance-ref/word
+ :init-vop 'sb!vm::raw-instance-init/word
:n-words 1)
(make-raw-slot-data :raw-type 'single-float
:accessor-name '%raw-instance-ref/single
+ :init-vop 'sb!vm::raw-instance-init/single
;; KLUDGE: On 64 bit architectures, we
;; could pack two SINGLE-FLOATs into the
;; same word if raw slots were indexed
:n-words 1)
(make-raw-slot-data :raw-type 'double-float
:accessor-name '%raw-instance-ref/double
+ :init-vop 'sb!vm::raw-instance-init/double
:alignment double-float-alignment
:n-words (/ 8 sb!vm:n-word-bytes))
(make-raw-slot-data :raw-type 'complex-single-float
:accessor-name '%raw-instance-ref/complex-single
+ :init-vop 'sb!vm::raw-instance-init/complex-single
:n-words (/ 8 sb!vm:n-word-bytes))
(make-raw-slot-data :raw-type 'complex-double-float
:accessor-name '%raw-instance-ref/complex-double
+ :init-vop 'sb!vm::raw-instance-init/complex-double
:alignment double-float-alignment
:n-words (/ 16 sb!vm:n-word-bytes))
#!+long-float
(make-raw-slot-data :raw-type long-float
:accessor-name '%raw-instance-ref/long
+ :init-vop 'sb!vm::raw-instance-init/long
:n-words #!+x86 3 #!+sparc 4)
#!+long-float
(make-raw-slot-data :raw-type complex-long-float
:accessor-name '%raw-instance-ref/complex-long
+ :init-vop 'sb!vm::raw-instance-init/complex-long
:n-words #!+x86 6 #!+sparc 8)))))
+(defun raw-slot-words (type)
+ (let ((rsd (find type *raw-slot-data-list* :key #'raw-slot-data-raw-type)))
+ (if rsd
+ (raw-slot-data-n-words rsd)
+ (error "Invalid raw slot type: ~S" type))))
\f
;;;; the legendary DEFSTRUCT macro itself (both CL:DEFSTRUCT and its
;;;; close personal friend SB!XC:DEFSTRUCT)
(let ((inherited (accessor-inherited-data name defstruct)))
(cond
((not inherited)
- (stuff `(declaim (inline ,name (setf ,name))))
+ (stuff `(declaim (inline ,name ,@(unless (dsd-read-only slot)
+ `((setf ,name))))))
;; FIXME: The arguments in the next two DEFUNs should
;; be gensyms. (Otherwise e.g. if NEW-VALUE happened to
;; be the name of a special variable, things could get
(unless (eq (classoid-layout classoid) layout)
(register-layout layout)))
(t
+ (%redefine-defstruct classoid old-layout layout)
(let ((old-dd (layout-info old-layout)))
(when (defstruct-description-p old-dd)
(dolist (slot (dd-slots old-dd))
(fmakunbound (dsd-accessor-name slot))
(unless (dsd-read-only slot)
(fmakunbound `(setf ,(dsd-accessor-name slot)))))))
- (%redefine-defstruct classoid old-layout layout)
(setq layout (classoid-layout classoid))))
(setf (find-classoid (dd-name dd)) classoid)
;;; Return a LAMBDA form which can be used to set a slot.
(defun slot-setter-lambda-form (dd dsd)
- `(lambda (new-value instance)
- ,(funcall (nth-value 1 (slot-accessor-transforms dd dsd))
- '(dummy new-value instance))))
+ ;; KLUDGE: Evaluating the results of SLOT-ACCESSOR-TRANSFORMS needs
+ ;; a lexenv.
+ (let ((sb!c:*lexenv* (if (boundp 'sb!c:*lexenv*)
+ sb!c:*lexenv*
+ (sb!c::make-null-lexenv))))
+ `(lambda (new-value instance)
+ ,(funcall (nth-value 1 (slot-accessor-transforms dd dsd))
+ '(dummy new-value instance)))))
;;; core compile-time setup of any class with a LAYOUT, used even by
;;; !DEFSTRUCT-WITH-ALTERNATE-METACLASS weirdosities
(info :type :compiler-layout (dd-name dd))
(ensure-structure-class dd
inherits
- (if clayout-p "previously compiled" "current")
- "compiled"
+ (if clayout-p
+ "The most recently compiled"
+ "The current")
+ "the most recently loaded"
:compiler-layout clayout))
(cond (old-layout
- (undefine-structure (layout-classoid old-layout))
- (when (and (classoid-subclasses classoid)
- (not (eq layout old-layout)))
- (collect ((subs))
- (dohash (classoid layout (classoid-subclasses classoid))
+ (labels
+ ;; Blow away all the compiler info for the structure
+ ;; CLASS. Iterate over this type, clearing the compiler
+ ;; structure type info, and undefining all the
+ ;; associated functions. FIXME: maybe rename
+ ;; UNDEFINE-FUN-NAME to UNDECLARE-FUNCTION-NAME?
+ ((undeclare-structure (classoid subclasses-p)
+ (let ((info (layout-info (classoid-layout classoid))))
+ (when (defstruct-description-p info)
+ (let ((type (dd-name info)))
+ (remhash type *typecheckfuns*)
+ (setf (info :type :compiler-layout type) nil)
+ (undefine-fun-name (dd-copier-name info))
+ (undefine-fun-name (dd-predicate-name info))
+ (dolist (slot (dd-slots info))
+ (let ((fun (dsd-accessor-name slot)))
+ (unless (accessor-inherited-data fun info)
+ (undefine-fun-name fun)
+ (unless (dsd-read-only slot)
+ (undefine-fun-name `(setf ,fun)))))))
+ ;; Clear out the SPECIFIER-TYPE cache so that subsequent
+ ;; references are unknown types.
+ (values-specifier-type-cache-clear)))
+ (when subclasses-p
+ (collect ((subs))
+ (dohash ((classoid layout)
+ (classoid-subclasses classoid)
+ :locked t)
(declare (ignore layout))
- (undefine-structure classoid)
+ (undeclare-structure classoid nil)
(subs (classoid-proper-name classoid)))
+ ;; Is it really necessary to warn about
+ ;; undeclaring functions for subclasses?
(when (subs)
- (warn "removing old subclasses of ~S:~% ~S"
+ (warn "undeclaring functions for old subclasses ~
+ of ~S:~% ~S"
(classoid-name classoid)
- (subs))))))
+ (subs)))))))
+ (undeclare-structure (layout-classoid old-layout)
+ (and (classoid-subclasses classoid)
+ (not (eq layout old-layout))))
+ (setf (layout-invalid layout) nil)
+ ;; FIXME: it might be polite to hold onto old-layout and
+ ;; restore it at the end of the file. -- RMK 2008-09-19
+ ;; (International Talk Like a Pirate Day).
+ (warn "~@<Clobbering the compiler's idea of the layout of ~A.~:@>"
+ classoid)))
(t
(unless (eq (classoid-layout classoid) layout)
(register-layout layout :invalidate nil))
(let* ((accessor-name (dsd-accessor-name dsd))
(dsd-type (dsd-type dsd)))
(when accessor-name
+ (setf (info :function :structure-accessor accessor-name) dd)
(let ((inherited (accessor-inherited-data accessor-name dd)))
(cond
((not inherited)
:destruct-layout old-layout))))
(values))
+(declaim (inline dd-layout-length))
+(defun dd-layout-length (dd)
+ (+ (dd-length dd) (dd-raw-length dd)))
+
+(declaim (ftype (sfunction (defstruct-description) index) dd-instance-length))
+(defun dd-instance-length (dd)
+ ;; Make sure the object ends at a two-word boundary. Note that this does
+ ;; not affect the amount of memory used, since the allocator would add the
+ ;; same padding anyway. However, raw slots are indexed from the length of
+ ;; the object as indicated in the header, so the pad word needs to be
+ ;; included in that length to guarantee proper alignment of raw double float
+ ;; slots, necessary for (at least) the SPARC backend.
+ (let ((layout-length (dd-layout-length dd)))
+ (declare (index layout-length))
+ (+ layout-length (mod (1+ layout-length) 2))))
+
;;; This is called when we are about to define a structure class. It
;;; returns a (possibly new) class object and the layout which should
;;; be used for the new definition (may be the current layout, and
(let ((new-layout (make-layout :classoid class
:inherits inherits
:depthoid (length inherits)
- :length (+ (dd-length info)
- (dd-raw-length info))
+ :length (dd-layout-length info)
:n-untagged-slots (dd-raw-length info)
:info info))
(old-layout (or compiler-layout old-layout)))
(error "shouldn't happen! strange thing in LAYOUT-INFO:~% ~S"
old-layout)
(values class new-layout old-layout)))))))))
-
-;;; Blow away all the compiler info for the structure CLASS. Iterate
-;;; over this type, clearing the compiler structure type info, and
-;;; undefining all the associated functions.
-(defun undefine-structure (class)
- (let ((info (layout-info (classoid-layout class))))
- (when (defstruct-description-p info)
- (let ((type (dd-name info)))
- (remhash type *typecheckfuns*)
- (setf (info :type :compiler-layout type) nil)
- (undefine-fun-name (dd-copier-name info))
- (undefine-fun-name (dd-predicate-name info))
- (dolist (slot (dd-slots info))
- (let ((fun (dsd-accessor-name slot)))
- (unless (accessor-inherited-data fun info)
- (undefine-fun-name fun)
- (unless (dsd-read-only slot)
- (undefine-fun-name `(setf ,fun)))))))
- ;; Clear out the SPECIFIER-TYPE cache so that subsequent
- ;; references are unknown types.
- (values-specifier-type-cache-clear)))
- (values))
\f
;;; Return a list of pairs (name . index). Used for :TYPE'd
;;; constructors to find all the names that we have to splice in &
(loop for dsd in (dd-slots dd) and val in values do
(setf (elt vals (dsd-index dsd))
(if (eq val '.do-not-initialize-slot.) 0 val)))
-
`(defun ,cons-name ,arglist
(declare ,@(mapcar (lambda (var type) `(type ,type ,var)) vars types))
(list ,@vals))))
(defun create-structure-constructor (dd cons-name arglist vars types values)
- (let* ((instance (gensym "INSTANCE")))
+ ;; The difference between the two implementations here is that on all
+ ;; platforms we don't have the appropriate RAW-INSTANCE-INIT VOPS, which
+ ;; must be able to deal with immediate values as well -- unlike
+ ;; RAW-INSTANCE-SET VOPs, which never end up seeing immediate values. With
+ ;; some additional cleverness we might manage without them and just a single
+ ;; implementation here, though -- figure out a way to ensure that on those
+ ;; platforms we always still get a non-immediate TN in every case...
+ ;;
+ ;; Until someone does that, this means that instances with raw slots can be
+ ;; DX allocated only on platforms with those additional VOPs.
+ #!+raw-instance-init-vops
+ (let* ((slot-values nil)
+ (slot-specs
+ (mapcan (lambda (dsd value)
+ (unless (eq value '.do-not-initialize-slot.)
+ (push value slot-values)
+ (list (list* :slot (dsd-raw-type dsd) (dsd-index dsd)))))
+ (dd-slots dd)
+ values)))
`(defun ,cons-name ,arglist
- (declare ,@(mapcar (lambda (var type) `(type ,type ,var))
- vars types))
- (let ((,instance (truly-the ,(dd-name dd)
- (%make-instance-with-layout
- (%delayed-get-compiler-layout ,(dd-name dd))))))
- ,@(mapcar (lambda (dsd value)
- ;; (Note that we can't in general use the
- ;; ordinary named slot setter function here
- ;; because the slot might be :READ-ONLY, so we
- ;; whip up new LAMBDA representations of slot
- ;; setters for the occasion.)
- (unless (eq value '.do-not-initialize-slot.)
- `(,(slot-setter-lambda-form dd dsd) ,value ,instance)))
- (dd-slots dd)
- values)
- ,instance))))
+ (declare ,@(mapcar (lambda (var type) `(type ,type ,var)) vars types))
+ (%make-structure-instance-macro ,dd ',slot-specs ,@(reverse slot-values))))
+ #!-raw-instance-init-vops
+ (let ((instance (gensym "INSTANCE")) slot-values slot-specs raw-slots raw-values)
+ (mapc (lambda (dsd value)
+ (unless (eq value '.do-not-initialize-slot.)
+ (let ((raw-type (dsd-raw-type dsd)))
+ (cond ((eq t raw-type)
+ (push value slot-values)
+ (push (list* :slot raw-type (dsd-index dsd)) slot-specs))
+ (t
+ (push value raw-values)
+ (push dsd raw-slots))))))
+ (dd-slots dd)
+ values)
+ `(defun ,cons-name ,arglist
+ (declare ,@(mapcar (lambda (var type) `(type ,type ,var)) vars types))
+ ,(if raw-slots
+ `(let ((,instance (%make-structure-instance-macro ,dd ',slot-specs ,@slot-values)))
+ ,@(mapcar (lambda (dsd value)
+ ;; (Note that we can't in general use the
+ ;; ordinary named slot setter function here
+ ;; because the slot might be :READ-ONLY, so we
+ ;; whip up new LAMBDA representations of slot
+ ;; setters for the occasion.)
+ `(,(slot-setter-lambda-form dd dsd) ,value ,instance))
+ raw-slots
+ raw-values)
+ ,instance)
+ `(%make-structure-instance-macro ,dd ',slot-specs ,@slot-values)))))
;;; Create a default (non-BOA) keyword constructor.
(defun create-keyword-constructor (defstruct creator)
(loop for slot in (dd-slots defstruct)
for name = (dsd-name slot)
collect (cond ((find name (skipped-vars) :test #'string=)
+ ;; CLHS 3.4.6 Boa Lambda Lists
(setf (dsd-safe-p slot) nil)
'.do-not-initialize-slot.)
((or (find (dsd-name slot) (vars) :test #'string=)
- (dsd-default slot)))))))))
+ (let ((type (dsd-type slot)))
+ (if (eq t type)
+ (dsd-default slot)
+ `(the ,type ,(dsd-default slot))))))))))))
;;; Grovel the constructor options, and decide what constructors (if
;;; any) to create.
(eval-when (:compile-toplevel :load-toplevel :execute)
(%compiler-set-up-layout ',dd ',(inherits-for-structure dd))))))
+(sb!xc:proclaim '(special *defstruct-hooks*))
+
(sb!xc:defmacro !defstruct-with-alternate-metaclass
(class-name &key
(slot-names (missing-arg))
(multiple-value-bind (raw-maker-form raw-reffer-operator)
(ecase dd-type
(structure
- (values `(let ((,object-gensym (%make-instance ,dd-length)))
- (setf (%instance-layout ,object-gensym)
- ,delayed-layout-form)
- ,object-gensym)
+ (values `(%make-structure-instance-macro ,dd nil)
'%instance-ref))
(funcallable-structure
(values `(let ((,object-gensym
;; code, which knows how to generate inline type tests
;; for the whole CMU CL INSTANCE menagerie.
`(defun ,predicate (,object-gensym)
- (typep ,object-gensym ',class-name)))))))
+ (typep ,object-gensym ',class-name)))
+
+ (when (boundp '*defstruct-hooks*)
+ (dolist (fun *defstruct-hooks*)
+ (funcall fun (find-classoid ',(dd-name dd)))))))))
\f
;;;; finalizing bootstrapping
(inherits (inherits-for-structure dd)))
(%compiler-defstruct dd inherits)))
+;;; finding these beasts
+(defun find-defstruct-description (name &optional (errorp t))
+ (let ((info (layout-info (classoid-layout (find-classoid name errorp)))))
+ (if (defstruct-description-p info)
+ info
+ (when errorp
+ (error "No DEFSTRUCT-DESCRIPTION for ~S." name)))))
+
(/show0 "code/defstruct.lisp end of file")