(t res))))
;;; 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.
+;;; compiled, since it doesn't exist until after the EVAL-WHEN
+;;; (COMPILE) stuff is compiled. (Or, in the oddball case when
+;;; DEFSTRUCT is executing in a non-toplevel context, the
+;;; compiler-layout still doesn't exist at compilation time, and we
+;;; delay still further.)
(sb!xc:defmacro %delayed-get-compiler-layout (name)
- `',(compiler-layout-or-lose name))
+ (let ((layout (info :type :compiler-layout name)))
+ (cond (layout
+ ;; ordinary case: When the DEFSTRUCT is at top level,
+ ;; then EVAL-WHEN (COMPILE) stuff will have set up the
+ ;; layout for us to use.
+ (unless (typep (layout-info layout) 'defstruct-description)
+ (error "Class is not a structure class: ~S" name))
+ `,layout)
+ (t
+ ;; KLUDGE: In the case that DEFSTRUCT is not at top-level
+ ;; the layout doesn't exist at compile time. In that case
+ ;; we laboriously look it up at run time. This code will
+ ;; run on every constructor call and will likely be quite
+ ;; slow, so if anyone cares about performance of
+ ;; non-toplevel DEFSTRUCTs, it should be rewritten to be
+ ;; cleverer. -- WHN 2002-10-23
+ (sb!c:compiler-notify
+ "implementation limitation: ~
+ Non-toplevel DEFSTRUCT constructors are slow.")
+ (with-unique-names (layout)
+ `(let ((,layout (info :type :compiler-layout ',name)))
+ (unless (typep (layout-info ,layout) 'defstruct-description)
+ (error "Class is not a structure class: ~S" ',name))
+ ,layout))))))
;;; Get layout right away.
(sb!xc:defmacro compile-time-find-layout (name)
;; a list of DEFSTRUCT-SLOT-DESCRIPTION objects for all slots
;; (including included ones)
(slots () :type list)
- ;; number of elements we've allocated (See also RAW-LENGTH.)
+ ;; a list of (NAME . INDEX) pairs for accessors of included structures
+ (inherited-accessor-alist () :type list)
+ ;; number of elements we've allocated (See also RAW-LENGTH, which is not
+ ;; included in LENGTH.)
(length 0 :type index)
;; General kind of implementation.
(type 'structure :type (member structure vector list
;; option was given with no argument, or 0 if no PRINT-OBJECT option
;; was given
(print-object 0 :type (or cons symbol (member 0)))
- ;; the index of the raw data vector and the number of words in it,
- ;; or NIL and 0 if not allocated (either because this structure
- ;; has no raw slots, or because we're still parsing it and haven't
- ;; run across any raw slots yet)
- (raw-index nil :type (or index null))
+ ;; The number of untagged slots at the end.
(raw-length 0 :type index)
;; the value of the :PURE option, or :UNSPECIFIED. This is only
;; meaningful if DD-CLASS-P = T.
(:conc-name dsd-)
(:copier nil)
#-sb-xc-host (:pure t))
- ;; string name of slot
- %name
+ ;; name of slot
+ name
;; its position in the implementation sequence
(index (missing-arg) :type fixnum)
;; the name of the accessor function
(accessor-name nil)
default ; default value expression
(type t) ; declared type specifier
+ (safe-p t :type boolean) ; whether the slot is known to be
+ ; always of the specified type
;; If this object does not describe a raw slot, this value is T.
;;
;; If this object describes a raw slot, this value is the type of the
- ;; value that the raw slot holds. Mostly. (KLUDGE: If the raw slot has
- ;; type (UNSIGNED-BYTE 32), the value here is UNSIGNED-BYTE, not
- ;; (UNSIGNED-BYTE 32).)
+ ;; value that the raw slot holds.
(raw-type t :type (member t single-float double-float
#!+long-float long-float
complex-single-float complex-double-float
#!+long-float complex-long-float
- unsigned-byte))
+ sb!vm:word))
(read-only nil :type (member t nil)))
(def!method print-object ((x defstruct-slot-description) stream)
(print-unreadable-object (x stream :type t)
(prin1 (dsd-name x) stream)))
-
-;;; Return the name of a defstruct slot as a symbol. We store it as a
-;;; string to avoid creating lots of worthless symbols at load time.
-(defun dsd-name (dsd)
- (intern (string (dsd-%name dsd))
- (if (dsd-accessor-name dsd)
- (symbol-package (dsd-accessor-name dsd))
- (sane-package))))
\f
;;;; typed (non-class) structures
\f
;;;; shared machinery for inline and out-of-line slot accessor functions
-(eval-when (:compile-toplevel :load-toplevel :execute)
+;;; Classic comment preserved for entertainment value:
+;;;
+;;; "A lie can travel halfway round the world while the truth is
+;;; putting on its shoes." -- Mark Twain
+
+(eval-when (#-sb-xc :compile-toplevel :load-toplevel :execute)
;; information about how a slot of a given DSD-RAW-TYPE is to be accessed
(defstruct raw-slot-data
;; the raw slot type, or T for a non-raw slot
;;
- ;; (Raw slots are allocated in the raw slots array in a vector which
- ;; the GC doesn't need to scavenge. Non-raw slots are in the
- ;; ordinary place you'd expect, directly indexed off the instance
- ;; pointer.)
+ ;; (Non-raw slots are in the ordinary place you'd expect, directly
+ ;; indexed off the instance pointer. Raw slots are indexed from the end
+ ;; of the instance and skipped by GC.)
(raw-type (missing-arg) :type (or symbol cons) :read-only t)
- ;; What operator is used (on the raw data vector) to access a slot
- ;; of this type?
+ ;; What operator is used to access a slot of this type?
(accessor-name (missing-arg) :type symbol :read-only t)
- ;; How many words are each value of this type? (This is used to
- ;; rescale the offset into the raw data vector.)
- (n-words (missing-arg) :type (and index (integer 1)) :read-only t))
-
- (defvar *raw-slot-data-list*
- (list
- ;; The compiler thinks that the raw data vector is a vector of
- ;; word-sized unsigned bytes, so if the slot we want to access
- ;; actually *is* an unsigned byte, it'll access the slot for us
- ;; even if we don't lie to it at all, just let it use normal AREF.
- (make-raw-slot-data :raw-type 'unsigned-byte
- :accessor-name 'aref
- :n-words 1)
- ;; In the other cases, we lie to the compiler, making it use
- ;; some low-level AREFish access in order to pun the hapless
- ;; bits into some other-than-unsigned-byte meaning.
- ;;
- ;; "A lie can travel halfway round the world while the truth is
- ;; putting on its shoes." -- Mark Twain
- (make-raw-slot-data :raw-type 'single-float
- :accessor-name '%raw-ref-single
- :n-words 1)
- (make-raw-slot-data :raw-type 'double-float
- :accessor-name '%raw-ref-double
- :n-words 2)
- (make-raw-slot-data :raw-type 'complex-single-float
- :accessor-name '%raw-ref-complex-single
- :n-words 2)
- (make-raw-slot-data :raw-type 'complex-double-float
- :accessor-name '%raw-ref-complex-double
- :n-words 4)
- #!+long-float
- (make-raw-slot-data :raw-type long-float
- :accessor-name '%raw-ref-long
- :n-words #!+x86 3 #!+sparc 4)
- #!+long-float
- (make-raw-slot-data :raw-type complex-long-float
- :accessor-name '%raw-ref-complex-long
- :n-words #!+x86 6 #!+sparc 8))))
+ ;; 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
+ ;; themselves are aligned by exactly two words, so specifying more
+ ;; than two words here would not work.
+ (alignment 1 :type (integer 1 2) :read-only t))
+
+ (defvar *raw-slot-data-list*
+ #!+hppa
+ nil
+ #!-hppa
+ (let ((double-float-alignment
+ ;; white list of architectures that can load unaligned doubles:
+ #!+(or x86 x86-64 ppc) 1
+ ;; at least sparc, mips and alpha can't:
+ #!-(or x86 x86-64 ppc) 2))
+ (list
+ (make-raw-slot-data :raw-type 'sb!vm:word
+ :accessor-name '%raw-instance-ref/word
+ :n-words 1)
+ (make-raw-slot-data :raw-type 'single-float
+ :accessor-name '%raw-instance-ref/single
+ ;; KLUDGE: On 64 bit architectures, we
+ ;; could pack two SINGLE-FLOATs into the
+ ;; same word if raw slots were indexed
+ ;; using bytes instead of words. However,
+ ;; I don't personally find optimizing
+ ;; SINGLE-FLOAT memory usage worthwile
+ ;; enough. And the other datatype that
+ ;; would really benefit is (UNSIGNED-BYTE
+ ;; 32), but that is a subtype of FIXNUM, so
+ ;; we store it unraw anyway. :-( -- DFL
+ :n-words 1)
+ (make-raw-slot-data :raw-type 'double-float
+ :accessor-name '%raw-instance-ref/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
+ :n-words (/ 8 sb!vm:n-word-bytes))
+ (make-raw-slot-data :raw-type 'complex-double-float
+ :accessor-name '%raw-instance-ref/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
+ :n-words #!+x86 3 #!+sparc 4)
+ #!+long-float
+ (make-raw-slot-data :raw-type complex-long-float
+ :accessor-name '%raw-instance-ref/complex-long
+ :n-words #!+x86 6 #!+sparc 8)))))
\f
;;;; the legendary DEFSTRUCT macro itself (both CL:DEFSTRUCT and its
;;;; close personal friend SB!XC:DEFSTRUCT)
;; class names which creates fast but non-cold-loadable,
;; non-compact code. In this context, we'd rather have
;; compact, cold-loadable code. -- WHN 19990928
- (declare (notinline sb!xc:find-class))
+ (declare (notinline find-classoid))
,@(let ((pf (dd-print-function defstruct))
(po (dd-print-object defstruct))
(x (gensym))
(t nil))))
,@(let ((pure (dd-pure defstruct)))
(cond ((eq pure t)
- `((setf (layout-pure (class-layout
- (sb!xc:find-class ',name)))
+ `((setf (layout-pure (classoid-layout
+ (find-classoid ',name)))
t)))
((eq pure :substructure)
- `((setf (layout-pure (class-layout
- (sb!xc:find-class ',name)))
+ `((setf (layout-pure (classoid-layout
+ (find-classoid ',name)))
0)))))
,@(let ((def-con (dd-default-constructor defstruct)))
(when (and def-con (not (dd-alternate-metaclass defstruct)))
- `((setf (structure-class-constructor (sb!xc:find-class ',name))
+ `((setf (structure-classoid-constructor (find-classoid ',name))
#',def-con))))))))
;;; shared logic for CL:DEFSTRUCT and SB!XC:DEFSTRUCT
(if (dd-class-p dd)
(let ((inherits (inherits-for-structure dd)))
`(progn
- ;; Note we intentionally call %DEFSTRUCT first, and
- ;; especially before %COMPILER-DEFSTRUCT. %DEFSTRUCT
- ;; has the tests (and resulting CERROR) for collisions
- ;; with LAYOUTs which already exist in the runtime. If
- ;; there are any collisions, we want the user's
- ;; response to CERROR to control what happens.
- ;; Especially, if the user responds to the collision
- ;; with ABORT, we don't want %COMPILER-DEFSTRUCT to
- ;; modify the definition of the class.
+ ;; Note we intentionally enforce package locks and
+ ;; call %DEFSTRUCT first, and especially before
+ ;; %COMPILER-DEFSTRUCT. %DEFSTRUCT has the tests (and
+ ;; resulting CERROR) for collisions with LAYOUTs which
+ ;; already exist in the runtime. If there are any
+ ;; collisions, we want the user's response to CERROR
+ ;; to control what happens. Especially, if the user
+ ;; responds to the collision with ABORT, we don't want
+ ;; %COMPILER-DEFSTRUCT to modify the definition of the
+ ;; class.
+ (with-single-package-locked-error
+ (:symbol ',name "defining ~A as a structure"))
(%defstruct ',dd ',inherits)
(eval-when (:compile-toplevel :load-toplevel :execute)
(%compiler-defstruct ',dd ',inherits))
(class-method-definitions dd)))
',name))
`(progn
+ (with-single-package-locked-error
+ (:symbol ',name "defining ~A as a structure"))
(eval-when (:compile-toplevel :load-toplevel :execute)
(setf (info :typed-structure :info ',name) ',dd))
,@(unless expanding-into-code-for-xc-host-p
\f
;;;; functions to generate code for various parts of DEFSTRUCT definitions
+;;; First, a helper to determine whether a name names an inherited
+;;; accessor.
+(defun accessor-inherited-data (name defstruct)
+ (assoc name (dd-inherited-accessor-alist defstruct) :test #'eq))
+
;;; Return a list of forms which create a predicate function for a
;;; typed DEFSTRUCT.
(defun typed-predicate-definitions (defstruct)
(predicate-name (dd-predicate-name defstruct))
(argname (gensym)))
(when (and predicate-name (dd-named defstruct))
- (let ((ltype (dd-lisp-type defstruct)))
+ (let ((ltype (dd-lisp-type defstruct))
+ (name-index (cdr (car (last (find-name-indices defstruct))))))
`((defun ,predicate-name (,argname)
(and (typep ,argname ',ltype)
- (eq (elt (the ,ltype ,argname)
- ,(cdr (car (last (find-name-indices defstruct)))))
- ',name))))))))
+ ,(cond
+ ((subtypep ltype 'list)
+ `(do ((head (the ,ltype ,argname) (cdr head))
+ (i 0 (1+ i)))
+ ((or (not (consp head)) (= i ,name-index))
+ (and (consp head) (eq ',name (car head))))))
+ ((subtypep ltype 'vector)
+ `(and (= (length (the ,ltype ,argname))
+ ,(dd-length defstruct))
+ (eq ',name (aref (the ,ltype ,argname) ,name-index))))
+ (t (bug "Uncatered-for lisp type in typed DEFSTRUCT: ~S."
+ ltype))))))))))
;;; Return a list of forms to create a copier function of a typed DEFSTRUCT.
(defun typed-copier-definitions (defstruct)
(index (dsd-index slot))
(slot-type `(and ,(dsd-type slot)
,(dd-element-type defstruct))))
- (stuff `(proclaim '(inline ,name (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 weird.)
- (stuff `(defun ,name (structure)
- (declare (type ,ltype structure))
- (the ,slot-type (elt structure ,index))))
- (unless (dsd-read-only slot)
- (stuff
- `(defun (setf ,name) (new-value structure)
- (declare (type ,ltype structure) (type ,slot-type new-value))
- (setf (elt structure ,index) new-value)))))))
+ (let ((inherited (accessor-inherited-data name defstruct)))
+ (cond
+ ((not inherited)
+ (stuff `(declaim (inline ,name (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
+ ;; weird.)
+ (stuff `(defun ,name (structure)
+ (declare (type ,ltype structure))
+ (the ,slot-type (elt structure ,index))))
+ (unless (dsd-read-only slot)
+ (stuff
+ `(defun (setf ,name) (new-value structure)
+ (declare (type ,ltype structure) (type ,slot-type new-value))
+ (setf (elt structure ,index) new-value)))))
+ ((not (= (cdr inherited) index))
+ (style-warn "~@<Non-overwritten accessor ~S does not access ~
+ slot with name ~S (accessing an inherited slot ~
+ instead).~:@>" name (dsd-name slot))))))))
(stuff)))
\f
;;;; parsing
(name (dd-name dd)))
(case (first option)
(:conc-name
- (destructuring-bind (conc-name) args
+ (destructuring-bind (&optional conc-name) args
(setf (dd-conc-name dd)
(if (symbolp conc-name)
conc-name
;;; that we modify to get the new slot. This is supplied when handling
;;; included slots.
(defun parse-1-dsd (defstruct spec &optional
- (slot (make-defstruct-slot-description :%name ""
+ (slot (make-defstruct-slot-description :name ""
:index 0
:type t)))
(multiple-value-bind (name default default-p type type-p read-only ro-p)
- (cond
- ((listp spec)
- (destructuring-bind
- (name
- &optional (default nil default-p)
- &key (type nil type-p) (read-only nil ro-p))
- spec
- (values name
- default default-p
- (uncross type) type-p
- read-only ro-p)))
- (t
- (when (keywordp spec)
- (style-warn "Keyword slot name indicates probable syntax ~
- error in DEFSTRUCT: ~S."
- spec))
- spec))
-
- (when (find name (dd-slots defstruct) :test #'string= :key #'dsd-%name)
+ (typecase spec
+ (symbol
+ (when (keywordp spec)
+ (style-warn "Keyword slot name indicates probable syntax ~
+ error in DEFSTRUCT: ~S."
+ spec))
+ spec)
+ (cons
+ (destructuring-bind
+ (name
+ &optional (default nil default-p)
+ &key (type nil type-p) (read-only nil ro-p))
+ spec
+ (values name
+ default default-p
+ (uncross type) type-p
+ read-only ro-p)))
+ (t (error 'simple-program-error
+ :format-control "in DEFSTRUCT, ~S is not a legal slot ~
+ description."
+ :format-arguments (list spec))))
+
+ (when (find name (dd-slots defstruct)
+ :test #'string=
+ :key (lambda (x) (symbol-name (dsd-name x))))
(error 'simple-program-error
:format-control "duplicate slot name ~S"
:format-arguments (list name)))
- (setf (dsd-%name slot) (string name))
+ (setf (dsd-name slot) name)
(setf (dd-slots defstruct) (nconc (dd-slots defstruct) (list slot)))
- (let ((accessor-name (symbolicate (or (dd-conc-name defstruct) "") name))
+ (let ((accessor-name (if (dd-conc-name defstruct)
+ (symbolicate (dd-conc-name defstruct) name)
+ name))
(predicate-name (dd-predicate-name defstruct)))
(setf (dsd-accessor-name slot) accessor-name)
(when (eql accessor-name predicate-name)
accessor, but you can't rely on this behavior, so it'd be wise to ~
remove the ambiguity in your code.~@:>"
accessor-name)
- (setf (dd-predicate-name defstruct) nil)))
-
+ (setf (dd-predicate-name defstruct) nil))
+ ;; FIXME: It would be good to check for name collisions here, but
+ ;; the easy check,
+ ;;x#-sb-xc-host
+ ;;x(when (and (fboundp accessor-name)
+ ;;x (not (accessor-inherited-data accessor-name defstruct)))
+ ;;x (style-warn "redefining ~S in DEFSTRUCT" accessor-name)))
+ ;; which was done until sbcl-0.8.11.18 or so, is wrong: it causes
+ ;; a warning at MACROEXPAND time, when instead the warning should
+ ;; occur not just because the code was constructed, but because it
+ ;; is actually compiled or loaded.
+ )
+
(when default-p
(setf (dsd-default slot) default))
(when type-p
(if read-only
(setf (dsd-read-only slot) t)
(when (dsd-read-only slot)
- (error "Slot ~S is :READ-ONLY in parent and must be :READ-ONLY in subtype ~S."
- name
+ (error "~@<The slot ~S is :READ-ONLY in superclass, and so must ~
+ be :READ-ONLY in subclass.~:@>"
(dsd-name slot)))))
slot))
;;; When a value of type TYPE is stored in a structure, should it be
-;;; stored in a raw slot? Return (VALUES RAW? RAW-TYPE WORDS), where
-;;; RAW? is true if TYPE should be stored in a raw slot.
-;;; RAW-TYPE is the raw slot type, or NIL if no raw slot.
-;;; WORDS is the number of words in the raw slot, or NIL if no raw slot.
-;;;
-;;; FIXME: This should use the data in *RAW-SLOT-DATA-LIST*.
-(defun structure-raw-slot-type-and-size (type)
- (cond #+nil
- (;; FIXME: For now we suppress raw slots, since there are various
- ;; issues about the way that the cross-compiler handles them.
- (not (boundp '*dummy-placeholder-to-stop-compiler-warnings*))
- (values nil nil nil))
- ((and (sb!xc:subtypep type '(unsigned-byte 32))
- (multiple-value-bind (fixnum? fixnum-certain?)
- (sb!xc:subtypep type 'fixnum)
- ;; (The extra test for FIXNUM-CERTAIN? here is
- ;; intended for bootstrapping the system. In
- ;; particular, in sbcl-0.6.2, we set up LAYOUT before
- ;; FIXNUM is defined, and so could bogusly end up
- ;; putting INDEX-typed values into raw slots if we
- ;; didn't test FIXNUM-CERTAIN?.)
- (and (not fixnum?) fixnum-certain?)))
- (values t 'unsigned-byte 1))
- ((sb!xc:subtypep type 'single-float)
- (values t 'single-float 1))
- ((sb!xc:subtypep type 'double-float)
- (values t 'double-float 2))
- #!+long-float
- ((sb!xc:subtypep type 'long-float)
- (values t 'long-float #!+x86 3 #!+sparc 4))
- ((sb!xc:subtypep type '(complex single-float))
- (values t 'complex-single-float 2))
- ((sb!xc:subtypep type '(complex double-float))
- (values t 'complex-double-float 4))
- #!+long-float
- ((sb!xc:subtypep type '(complex long-float))
- (values t 'complex-long-float #!+x86 6 #!+sparc 8))
- (t
- (values nil nil nil))))
+;;; stored in a raw slot? Return the matching RAW-SLOT-DATA structure
+;; if TYPE should be stored in a raw slot, or NIL if not.
+(defun structure-raw-slot-data (type)
+ (multiple-value-bind (fixnum? fixnum-certain?)
+ (sb!xc:subtypep type 'fixnum)
+ ;; (The extra test for FIXNUM-CERTAIN? here is intended for
+ ;; bootstrapping the system. In particular, in sbcl-0.6.2, we set up
+ ;; LAYOUT before FIXNUM is defined, and so could bogusly end up
+ ;; putting INDEX-typed values into raw slots if we didn't test
+ ;; FIXNUM-CERTAIN?.)
+ (if (or fixnum? (not fixnum-certain?))
+ nil
+ (dolist (data *raw-slot-data-list*)
+ (when (sb!xc:subtypep type (raw-slot-data-raw-type data))
+ (return data))))))
;;; Allocate storage for a DSD in DD. This is where we decide whether
-;;; a slot is raw or not. If raw, and we haven't allocated a raw-index
-;;; yet for the raw data vector, then do it. Raw objects are aligned
-;;; on the unit of their size.
+;;; a slot is raw or not. Raw objects are aligned on the unit of their size.
(defun allocate-1-slot (dd dsd)
- (multiple-value-bind (raw? raw-type words)
- (if (eq (dd-type dd) 'structure)
- (structure-raw-slot-type-and-size (dsd-type dsd))
- (values nil nil nil))
- (cond ((not raw?)
- (setf (dsd-index dsd) (dd-length dd))
- (incf (dd-length dd)))
- (t
- (unless (dd-raw-index dd)
- (setf (dd-raw-index dd) (dd-length dd))
- (incf (dd-length dd)))
- (let ((off (rem (dd-raw-length dd) words)))
- (unless (zerop off)
- (incf (dd-raw-length dd) (- words off))))
- (setf (dsd-raw-type dsd) raw-type)
- (setf (dsd-index dsd) (dd-raw-length dd))
- (incf (dd-raw-length dd) words))))
+ (let ((rsd
+ (if (eq (dd-type dd) 'structure)
+ (structure-raw-slot-data (dsd-type dsd))
+ nil)))
+ (cond
+ ((null rsd)
+ (setf (dsd-index dsd) (dd-length dd))
+ (incf (dd-length dd)))
+ (t
+ (let* ((words (raw-slot-data-n-words rsd))
+ (alignment (raw-slot-data-alignment rsd))
+ (off (rem (dd-raw-length dd) alignment)))
+ (unless (zerop off)
+ (incf (dd-raw-length dd) (- alignment off)))
+ (setf (dsd-raw-type dsd) (raw-slot-data-raw-type rsd))
+ (setf (dsd-index dsd) (dd-raw-length dd))
+ (incf (dd-raw-length dd) words)))))
(values))
(defun typed-structure-info-or-lose (name)
(specifier-type (dd-element-type dd))))
(error ":TYPE option mismatch between structures ~S and ~S"
(dd-name dd) included-name))
- (let ((included-class (sb!xc:find-class included-name nil)))
- (when included-class
+ (let ((included-classoid (find-classoid included-name nil)))
+ (when included-classoid
;; It's not particularly well-defined to :INCLUDE any of the
;; CMU CL INSTANCE weirdosities like CONDITION or
;; GENERIC-FUNCTION, and it's certainly not ANSI-compliant.
- (let* ((included-layout (class-layout included-class))
+ (let* ((included-layout (classoid-layout included-classoid))
(included-dd (layout-info included-layout)))
(when (and (dd-alternate-metaclass included-dd)
;; As of sbcl-0.pre7.73, anyway, STRUCTURE-OBJECT
(cons included-name mc))))
(when (eq (dd-pure dd) :unspecified)
(setf (dd-pure dd) (dd-pure included-structure)))
- (setf (dd-raw-index dd) (dd-raw-index included-structure))
(setf (dd-raw-length dd) (dd-raw-length included-structure)))
+ (setf (dd-inherited-accessor-alist dd)
+ (dd-inherited-accessor-alist included-structure))
(dolist (included-slot (dd-slots included-structure))
(let* ((included-name (dsd-name included-slot))
(modified (or (find included-name modified-slots
:key (lambda (x) (if (atom x) x (car x)))
:test #'string=)
`(,included-name))))
- (parse-1-dsd dd
- modified
- (copy-structure included-slot)))))))
+ ;; We stash away an alist of accessors to parents' slots
+ ;; that have already been created to avoid conflicts later
+ ;; so that structures with :INCLUDE and :CONC-NAME (and
+ ;; other edge cases) can work as specified.
+ (when (dsd-accessor-name included-slot)
+ ;; the "oldest" (i.e. highest up the tree of inheritance)
+ ;; will prevail, so don't push new ones on if they
+ ;; conflict.
+ (pushnew (cons (dsd-accessor-name included-slot)
+ (dsd-index included-slot))
+ (dd-inherited-accessor-alist dd)
+ :test #'eq :key #'car))
+ (let ((new-slot (parse-1-dsd dd
+ modified
+ (copy-structure included-slot))))
+ (when (and (neq (dsd-type new-slot) (dsd-type included-slot))
+ (not (sb!xc:subtypep (dsd-type included-slot)
+ (dsd-type new-slot)))
+ (dsd-safe-p included-slot))
+ (setf (dsd-safe-p new-slot) nil)
+ ;; XXX: notify?
+ )))))))
\f
;;;; various helper functions for setting up DEFSTRUCTs
(super
(if include
(compiler-layout-or-lose (first include))
- (class-layout (sb!xc:find-class
- (or (first superclass-opt)
- 'structure-object))))))
- (if (eq (dd-name info) 'ansi-stream)
- ;; a hack to add the CL:STREAM class as a mixin for ANSI-STREAMs
- (concatenate 'simple-vector
- (layout-inherits super)
- (vector super
- (class-layout (sb!xc:find-class 'stream))))
- (concatenate 'simple-vector
- (layout-inherits super)
- (vector super)))))
+ (classoid-layout (find-classoid
+ (or (first superclass-opt)
+ 'structure-object))))))
+ (case (dd-name info)
+ ((ansi-stream)
+ (concatenate 'simple-vector
+ (layout-inherits super)
+ (vector super (classoid-layout (find-classoid 'stream)))))
+ ((fd-stream)
+ (concatenate 'simple-vector
+ (layout-inherits super)
+ (vector super
+ (classoid-layout (find-classoid 'file-stream)))))
+ ((sb!impl::string-input-stream
+ sb!impl::string-output-stream
+ sb!impl::fill-pointer-output-stream)
+ (concatenate 'simple-vector
+ (layout-inherits super)
+ (vector super
+ (classoid-layout (find-classoid 'string-stream)))))
+ (t (concatenate 'simple-vector
+ (layout-inherits super)
+ (vector super))))))
;;; Do miscellaneous (LOAD EVAL) time actions for the structure
;;; described by DD. Create the class and LAYOUT, checking for
(declare (type defstruct-description dd))
;; We set up LAYOUTs even in the cross-compilation host.
- (multiple-value-bind (class layout old-layout)
+ (multiple-value-bind (classoid layout old-layout)
(ensure-structure-class dd inherits "current" "new")
(cond ((not old-layout)
- (unless (eq (class-layout class) layout)
+ (unless (eq (classoid-layout classoid) layout)
(register-layout layout)))
(t
(let ((old-dd (layout-info old-layout)))
(fmakunbound (dsd-accessor-name slot))
(unless (dsd-read-only slot)
(fmakunbound `(setf ,(dsd-accessor-name slot)))))))
- (%redefine-defstruct class old-layout layout)
- (setq layout (class-layout class))))
- (setf (sb!xc:find-class (dd-name dd)) class)
+ (%redefine-defstruct classoid old-layout layout)
+ (setq layout (classoid-layout classoid))))
+ (setf (find-classoid (dd-name dd)) classoid)
;; Various other operations only make sense on the target SBCL.
#-sb-xc-host
;;; Return a form describing the writable place used for this slot
;;; in the instance named INSTANCE-NAME.
(defun %accessor-place-form (dd dsd instance-name)
- (let (;; the operator that we'll use to access a typed slot or, in
- ;; the case of a raw slot, to read the vector of raw slots
+ (let (;; the operator that we'll use to access a typed slot
(ref (ecase (dd-type dd)
(structure '%instance-ref)
(list 'nth-but-with-sane-arg-order)
(let* ((raw-slot-data (find raw-type *raw-slot-data-list*
:key #'raw-slot-data-raw-type
:test #'equal))
- (raw-slot-accessor (raw-slot-data-accessor-name raw-slot-data))
- (raw-n-words (raw-slot-data-n-words raw-slot-data)))
- (multiple-value-bind (scaled-dsd-index misalignment)
- (floor (dsd-index dsd) raw-n-words)
- (aver (zerop misalignment))
- `(,raw-slot-accessor (,ref ,instance-name ,(dd-raw-index dd))
- ,scaled-dsd-index))))))
-
-;;; Return inline expansion designators (i.e. values suitable for
-;;; (INFO :FUNCTION :INLINE-EXPANSION-DESIGNATOR ..)) for the reader
-;;; and writer functions of the slot described by DSD.
-(defun slot-accessor-inline-expansion-designators (dd dsd)
- (let ((instance-type-decl `(declare (type ,(dd-name dd) instance)))
- (accessor-place-form (%accessor-place-form dd dsd 'instance))
- (dsd-type (dsd-type dsd)))
- (values (lambda ()
- `(lambda (instance)
- ,instance-type-decl
- (truly-the ,dsd-type ,accessor-place-form)))
- (lambda ()
- `(lambda (new-value instance)
- (declare (type ,dsd-type new-value))
- ,instance-type-decl
- (setf ,accessor-place-form new-value))))))
+ (raw-slot-accessor (raw-slot-data-accessor-name raw-slot-data)))
+ `(,raw-slot-accessor ,instance-name ,(dsd-index dsd))))))
+
+;;; Return source transforms for the reader and writer functions of
+;;; the slot described by DSD. They should be inline expanded, but
+;;; source transforms work faster.
+(defun slot-accessor-transforms (dd dsd)
+ (let ((accessor-place-form (%accessor-place-form dd dsd
+ `(the ,(dd-name dd) instance)))
+ (dsd-type (dsd-type dsd))
+ (value-the (if (dsd-safe-p dsd) 'truly-the 'the)))
+ (values (sb!c:source-transform-lambda (instance)
+ `(,value-the ,dsd-type ,(subst instance 'instance
+ accessor-place-form)))
+ (sb!c:source-transform-lambda (new-value instance)
+ (destructuring-bind (accessor-name &rest accessor-args)
+ accessor-place-form
+ (once-only ((new-value new-value)
+ (instance instance))
+ `(,(info :setf :inverse accessor-name)
+ ,@(subst instance 'instance accessor-args)
+ (the ,dsd-type ,new-value))))))))
;;; Return a LAMBDA form which can be used to set a slot.
(defun slot-setter-lambda-form (dd dsd)
- (funcall (nth-value 1
- (slot-accessor-inline-expansion-designators dd dsd))))
+ `(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
(inherits (vector (find-layout t)
(find-layout 'instance))))
- (multiple-value-bind (class layout old-layout)
+ (multiple-value-bind (classoid layout old-layout)
(multiple-value-bind (clayout clayout-p)
(info :type :compiler-layout (dd-name dd))
(ensure-structure-class dd
"compiled"
:compiler-layout clayout))
(cond (old-layout
- (undefine-structure (layout-class old-layout))
- (when (and (class-subclasses class)
+ (undefine-structure (layout-classoid old-layout))
+ (when (and (classoid-subclasses classoid)
(not (eq layout old-layout)))
(collect ((subs))
- (dohash (class layout (class-subclasses class))
+ (dohash (classoid layout (classoid-subclasses classoid))
(declare (ignore layout))
- (undefine-structure class)
- (subs (class-proper-name class)))
+ (undefine-structure classoid)
+ (subs (classoid-proper-name classoid)))
(when (subs)
(warn "removing old subclasses of ~S:~% ~S"
- (sb!xc:class-name class)
+ (classoid-name classoid)
(subs))))))
(t
- (unless (eq (class-layout class) layout)
+ (unless (eq (classoid-layout classoid) layout)
(register-layout layout :invalidate nil))
- (setf (sb!xc:find-class (dd-name dd)) class)))
+ (setf (find-classoid (dd-name dd)) classoid)))
;; At this point the class should be set up in the INFO database.
;; But the logic that enforces this is a little tangled and
;; scattered, so it's not obvious, so let's check.
- (aver (sb!xc:find-class (dd-name dd) nil))
+ (aver (find-classoid (dd-name dd) nil))
(setf (info :type :compiler-layout (dd-name dd)) layout))
(let ((copier-name (dd-copier-name dd)))
(when copier-name
- (sb!xc:proclaim `(ftype (function (,dtype) ,dtype) ,copier-name))))
+ (sb!xc:proclaim `(ftype (sfunction (,dtype) ,dtype) ,copier-name))))
(let ((predicate-name (dd-predicate-name dd)))
(when predicate-name
- (sb!xc:proclaim `(ftype (function (t) t) ,predicate-name))
+ (sb!xc:proclaim `(ftype (sfunction (t) boolean) ,predicate-name))
;; Provide inline expansion (or not).
(ecase (dd-type dd)
((structure funcallable-structure)
- ;; Let the predicate be inlined.
+ ;; Let the predicate be inlined.
(setf (info :function :inline-expansion-designator predicate-name)
(lambda ()
`(lambda (x)
(let* ((accessor-name (dsd-accessor-name dsd))
(dsd-type (dsd-type dsd)))
(when accessor-name
- (multiple-value-bind (reader-designator writer-designator)
- (slot-accessor-inline-expansion-designators dd dsd)
- (sb!xc:proclaim `(ftype (function (,dtype) ,dsd-type)
- ,accessor-name))
- (setf (info :function :inline-expansion-designator accessor-name)
- reader-designator
- (info :function :inlinep accessor-name)
- :inline)
- (unless (dsd-read-only dsd)
- (let ((setf-accessor-name `(setf ,accessor-name)))
- (sb!xc:proclaim
- `(ftype (function (,dsd-type ,dtype) ,dsd-type)
- ,setf-accessor-name))
- (setf (info :function
- :inline-expansion-designator
- setf-accessor-name)
- writer-designator
- (info :function :inlinep setf-accessor-name)
- :inline))))))))
-
+ (let ((inherited (accessor-inherited-data accessor-name dd)))
+ (cond
+ ((not inherited)
+ (multiple-value-bind (reader-designator writer-designator)
+ (slot-accessor-transforms dd dsd)
+ (sb!xc:proclaim `(ftype (sfunction (,dtype) ,dsd-type)
+ ,accessor-name))
+ (setf (info :function :source-transform accessor-name)
+ reader-designator)
+ (unless (dsd-read-only dsd)
+ (let ((setf-accessor-name `(setf ,accessor-name)))
+ (sb!xc:proclaim
+ `(ftype (sfunction (,dsd-type ,dtype) ,dsd-type)
+ ,setf-accessor-name))
+ (setf (info :function :source-transform setf-accessor-name)
+ writer-designator)))))
+ ((not (= (cdr inherited) (dsd-index dsd)))
+ (style-warn "~@<Non-overwritten accessor ~S does not access ~
+ slot with name ~S (accessing an inherited slot ~
+ instead).~:@>"
+ accessor-name
+ (dsd-name dsd)))))))))
(values))
\f
;;;; redefinition stuff
(collect ((moved)
(retyped))
(dolist (name (intersection onames nnames))
- (let ((os (find name oslots :key #'dsd-name))
- (ns (find name nslots :key #'dsd-name)))
- (unless (subtypep (dsd-type ns) (dsd-type os))
+ (let ((os (find name oslots :key #'dsd-name :test #'string=))
+ (ns (find name nslots :key #'dsd-name :test #'string=)))
+ (unless (sb!xc:subtypep (dsd-type ns) (dsd-type os))
(retyped name))
(unless (and (= (dsd-index os) (dsd-index ns))
(eq (dsd-raw-type os) (dsd-raw-type ns)))
(moved name))))
(values (moved)
(retyped)
- (set-difference onames nnames)))))
+ (set-difference onames nnames :test #'string=)))))
;;; If we are redefining a structure with different slots than in the
;;; currently loaded version, give a warning and return true.
-(defun redefine-structure-warning (class old new)
+(defun redefine-structure-warning (classoid old new)
(declare (type defstruct-description old new)
- (type sb!xc:class class)
- (ignore class))
+ (type classoid classoid)
+ (ignore classoid))
(let ((name (dd-name new)))
(multiple-value-bind (moved retyped deleted) (compare-slots old new)
(when (or moved retyped deleted)
(warn
"incompatibly redefining slots of structure class ~S~@
- Make sure any uses of affected accessors are recompiled:~@
- ~@[ These slots were moved to new positions:~% ~S~%~]~
- ~@[ These slots have new incompatible types:~% ~S~%~]~
- ~@[ These slots were deleted:~% ~S~%~]"
+ Make sure any uses of affected accessors are recompiled:~@
+ ~@[ These slots were moved to new positions:~% ~S~%~]~
+ ~@[ These slots have new incompatible types:~% ~S~%~]~
+ ~@[ These slots were deleted:~% ~S~%~]"
name moved retyped deleted)
t))))
;;; structure CLASS to have the specified NEW-LAYOUT. We signal an
;;; error with some proceed options and return the layout that should
;;; be used.
-(defun %redefine-defstruct (class old-layout new-layout)
- (declare (type sb!xc:class class) (type layout old-layout new-layout))
- (let ((name (class-proper-name class)))
+(defun %redefine-defstruct (classoid old-layout new-layout)
+ (declare (type classoid classoid)
+ (type layout old-layout new-layout))
+ (let ((name (classoid-proper-name classoid)))
(restart-case
(error "~@<attempt to redefine the ~S class ~S incompatibly with the current definition~:@>"
'structure-object
(destructuring-bind
(&optional
name
- (class 'sb!xc:structure-class)
- (constructor 'make-structure-class))
+ (class 'structure-classoid)
+ (constructor 'make-structure-classoid))
(dd-alternate-metaclass info)
(declare (ignore name))
- (insured-find-class (dd-name info)
- (if (eq class 'sb!xc:structure-class)
- (lambda (x)
- (typep x 'sb!xc:structure-class))
- (lambda (x)
- (sb!xc:typep x (sb!xc:find-class class))))
- (fdefinition constructor)))
- (setf (class-direct-superclasses class)
- (if (eq (dd-name info) 'ansi-stream)
- ;; a hack to add CL:STREAM as a superclass mixin to ANSI-STREAMs
- (list (layout-class (svref inherits (1- (length inherits))))
- (layout-class (svref inherits (- (length inherits) 2))))
- (list (layout-class (svref inherits (1- (length inherits)))))))
- (let ((new-layout (make-layout :class class
+ (insured-find-classoid (dd-name info)
+ (if (eq class 'structure-classoid)
+ (lambda (x)
+ (sb!xc:typep x 'structure-classoid))
+ (lambda (x)
+ (sb!xc:typep x (find-classoid class))))
+ (fdefinition constructor)))
+ (setf (classoid-direct-superclasses class)
+ (case (dd-name info)
+ ((ansi-stream
+ fd-stream
+ sb!impl::string-input-stream sb!impl::string-output-stream
+ sb!impl::fill-pointer-output-stream)
+ (list (layout-classoid (svref inherits (1- (length inherits))))
+ (layout-classoid (svref inherits (- (length inherits) 2)))))
+ (t
+ (list (layout-classoid
+ (svref inherits (1- (length inherits))))))))
+ (let ((new-layout (make-layout :classoid class
:inherits inherits
:depthoid (length inherits)
- :length (dd-length info)
+ :length (+ (dd-length info)
+ (dd-raw-length info))
+ :n-untagged-slots (dd-raw-length info)
:info info))
(old-layout (or compiler-layout old-layout)))
(cond
(;; This clause corresponds to an assertion in REDEFINE-LAYOUT-WARNING
;; of classic CMU CL. I moved it out to here because it was only
;; exercised in this code path anyway. -- WHN 19990510
- (not (eq (layout-class new-layout) (layout-class old-layout)))
+ (not (eq (layout-classoid new-layout) (layout-classoid old-layout)))
(error "shouldn't happen: weird state of OLD-LAYOUT?"))
((not *type-system-initialized*)
(setf (layout-info old-layout) info)
new-context
(layout-length new-layout)
(layout-inherits new-layout)
- (layout-depthoid new-layout))
+ (layout-depthoid new-layout)
+ (layout-n-untagged-slots new-layout))
(values class new-layout old-layout))
(t
(let ((old-info (layout-info old-layout)))
;;; over this type, clearing the compiler structure type info, and
;;; undefining all the associated functions.
(defun undefine-structure (class)
- (let ((info (layout-info (class-layout class))))
+ (let ((info (layout-info (classoid-layout class))))
(when (defstruct-description-p info)
(let ((type (dd-name info)))
(remhash type *typecheckfuns*)
(undefine-fun-name (dd-predicate-name info))
(dolist (slot (dd-slots info))
(let ((fun (dsd-accessor-name slot)))
- (undefine-fun-name fun)
- (unless (dsd-read-only slot)
- (undefine-fun-name `(setf ,fun))))))
+ (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)))
;;; structures can have arbitrary subtypes of VECTOR, not necessarily
;;; SIMPLE-VECTOR.)
;;; * STRUCTURE structures can have raw slots that must also be
-;;; allocated and indirectly referenced.
+;;; allocated and indirectly referenced.
(defun create-vector-constructor (dd cons-name arglist vars types values)
(let ((temp (gensym))
(etype (dd-element-type dd)))
`(setf (aref ,temp ,(cdr x)) ',(car x)))
(find-name-indices dd))
,@(mapcar (lambda (dsd value)
- `(setf (aref ,temp ,(dsd-index dsd)) ,value))
+ (unless (eq value '.do-not-initialize-slot.)
+ `(setf (aref ,temp ,(dsd-index dsd)) ,value)))
(dd-slots dd) values)
,temp))))
(defun create-list-constructor (dd cons-name arglist vars types values)
(dolist (x (find-name-indices dd))
(setf (elt vals (cdr x)) `',(car x)))
(loop for dsd in (dd-slots dd) and val in values do
- (setf (elt vals (dsd-index dsd)) val))
+ (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"))
- (raw-index (dd-raw-index dd)))
+ (let* ((instance (gensym "INSTANCE")))
`(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))))))
- ,@(when raw-index
- `((setf (%instance-ref ,instance ,raw-index)
- (make-array ,(dd-raw-length dd)
- :element-type '(unsigned-byte 32)))))
,@(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))
+ (unless (eq value '.do-not-initialize-slot.)
+ `(,(slot-setter-lambda-form dd dsd) ,value ,instance)))
(dd-slots dd)
values)
,instance))))
;;; Create a default (non-BOA) keyword constructor.
(defun create-keyword-constructor (defstruct creator)
+ (declare (type function creator))
(collect ((arglist (list '&key))
(types)
(vals))
;;; Given a structure and a BOA constructor spec, call CREATOR with
;;; the appropriate args to make a constructor.
(defun create-boa-constructor (defstruct boa creator)
+ (declare (type function creator))
(multiple-value-bind (req opt restp rest keyp keys allowp auxp aux)
(parse-lambda-list (second boa))
(collect ((arglist)
(vars)
- (types))
+ (types)
+ (skipped-vars))
(labels ((get-slot (name)
(let ((res (find name (dd-slots defstruct)
:test #'string=
(arglist arg)
(vars arg)
(types (get-slot arg)))
-
+
(when opt
(arglist '&optional)
(dolist (arg opt)
(when auxp
(arglist '&aux)
(dolist (arg aux)
- (let* ((arg (if (consp arg) arg (list arg)))
- (var (first arg)))
- (arglist arg)
- (vars var)
- (types (get-slot var))))))
+ (arglist arg)
+ (if (proper-list-of-length-p arg 2)
+ (let ((var (first arg)))
+ (vars var)
+ (types (get-slot var)))
+ (skipped-vars (if (consp arg) (first arg) arg))))))
(funcall creator defstruct (first boa)
(arglist) (vars) (types)
- (mapcar (lambda (slot)
- (or (find (dsd-name slot) (vars) :test #'string=)
- (dsd-default slot)))
- (dd-slots defstruct))))))
+ (loop for slot in (dd-slots defstruct)
+ for name = (dsd-name slot)
+ collect (cond ((find name (skipped-vars) :test #'string=)
+ (setf (dsd-safe-p slot) nil)
+ '.do-not-initialize-slot.)
+ ((or (find (dsd-name slot) (vars) :test #'string=)
+ (dsd-default slot)))))))))
;;; Grovel the constructor options, and decide what constructors (if
;;; any) to create.
(unless (or defaults boas)
(push (symbolicate "MAKE-" (dd-name defstruct)) defaults))
- (collect ((res))
+ (collect ((res) (names))
(when defaults
- (let ((cname (first defaults)))
- (setf (dd-default-constructor defstruct) cname)
- (res (create-keyword-constructor defstruct creator))
- (dolist (other-name (rest defaults))
- (res `(setf (fdefinition ',other-name) (fdefinition ',cname)))
- (res `(declaim (ftype function ',other-name))))))
+ (let ((cname (first defaults)))
+ (setf (dd-default-constructor defstruct) cname)
+ (res (create-keyword-constructor defstruct creator))
+ (names cname)
+ (dolist (other-name (rest defaults))
+ (res `(setf (fdefinition ',other-name) (fdefinition ',cname)))
+ (names other-name))))
(dolist (boa boas)
- (res (create-boa-constructor defstruct boa creator)))
+ (res (create-boa-constructor defstruct boa creator))
+ (names (first boa)))
+
+ (res `(declaim (ftype
+ (sfunction *
+ ,(if (eq (dd-type defstruct) 'structure)
+ (dd-name defstruct)
+ '*))
+ ,@(names))))
(res))))
\f
;;;; main DEFSTRUCT macro. Hopefully it will go away presently
;;;; (perhaps when CL:CLASS and SB-PCL:CLASS meet) as per FIXME below.
;;;; -- WHN 2001-10-28
-;;;;
+;;;;
;;;; FIXME: There seems to be no good reason to shoehorn CONDITION,
;;;; STANDARD-INSTANCE, and GENERIC-FUNCTION into mutated structures
;;;; instead of just implementing them as primitive objects. (This
(index 1))
(dolist (slot-name slot-names)
(push (make-defstruct-slot-description
- :%name (symbol-name slot-name)
+ :name slot-name
:index index
:accessor-name (symbolicate conc-name slot-name))
reversed-result)
(let ((,object-gensym ,raw-maker-form))
,@(mapcar (lambda (slot-name)
(let ((dsd (find (symbol-name slot-name) dd-slots
- :key #'dsd-%name
+ :key (lambda (x)
+ (symbol-name (dsd-name x)))
:test #'string=)))
+ ;; KLUDGE: bug 117 bogowarning. Neither
+ ;; DECLAREing the type nor TRULY-THE cut
+ ;; the mustard -- it still gives warnings.
+ (enforce-type dsd defstruct-slot-description)
`(setf (,(dsd-accessor-name dsd) ,object-gensym)
- ,slot-name)))
+ ,slot-name)))
slot-names)
,object-gensym))
-
+
;; predicate
,@(when predicate
;; Just delegate to the compiler's type optimization
projects / sbcl.git / blobdiff