;;; early definition. Do this in a way that makes sure that if we
;;; redefine one of the early definitions the redefinition will take
;;; effect. This makes development easier.
-(eval-when (:load-toplevel :execute)
-
(dolist (fns *!early-functions*)
(let ((name (car fns))
(early-name (cadr fns)))
(setf (gdefinition name)
- (set-function-name
+ (set-fun-name
(lambda (&rest args)
(apply (fdefinition early-name) args))
name))))
-) ; EVAL-WHEN
;;; *!GENERIC-FUNCTION-FIXUPS* is used by !FIX-EARLY-GENERIC-FUNCTIONS
;;; to convert the few functions in the bootstrap which are supposed
(standard-generic-function t t)
real-get-method))
(ensure-generic-function-using-class
- ((generic-function function-name
+ ((generic-function fun-name
&key generic-function-class environment
&allow-other-keys)
(generic-function t)
real-ensure-gf-using-class--generic-function)
- ((generic-function function-name
+ ((generic-function fun-name
&key generic-function-class environment
&allow-other-keys)
(null t)
(generic-function standard-method-combination t)
standard-compute-effective-method))))
\f
-(defmacro defgeneric (function-name lambda-list &body options)
- (expand-defgeneric function-name lambda-list options))
-
-(defun expand-defgeneric (function-name lambda-list options)
+(defmacro defgeneric (fun-name lambda-list &body options)
(let ((initargs ())
(methods ()))
(flet ((duplicate-option (name)
- (error 'sb-kernel:simple-program-error
+ (error 'simple-program-error
:format-control "The option ~S appears more than once."
:format-arguments (list name)))
(expand-method-definition (qab) ; QAB = qualifiers, arglist, body
(arglist (elt qab arglist-pos))
(qualifiers (subseq qab 0 arglist-pos))
(body (nthcdr (1+ arglist-pos) qab)))
- (when (not (equal (cadr (getf initargs :method-combination))
- qualifiers))
- (error "bad method specification in DEFGENERIC ~A~%~
- -- qualifier mismatch for lambda list ~A"
- function-name arglist))
- `(defmethod ,function-name ,@qualifiers ,arglist ,@body))))
+ `(defmethod ,fun-name ,@qualifiers ,arglist ,@body))))
(macrolet ((initarg (key) `(getf initargs ,key)))
(dolist (option options)
(let ((car-option (car option)))
(setf (initarg car-option)
`',(cdr option))))
((:documentation :generic-function-class :method-class)
- (unless (sb-int:proper-list-of-length-p option 2)
+ (unless (proper-list-of-length-p option 2)
(error "bad list length for ~S" option))
(if (initarg car-option)
(duplicate-option car-option)
(t
;; ANSI requires that unsupported things must get a
;; PROGRAM-ERROR.
- (error 'sb-kernel:simple-program-error
+ (error 'simple-program-error
:format-control "unsupported option ~S"
:format-arguments (list option))))))
`',(initarg :declarations))))
`(progn
(eval-when (:compile-toplevel :load-toplevel :execute)
- (compile-or-load-defgeneric ',function-name))
- (load-defgeneric ',function-name ',lambda-list ,@initargs)
+ (compile-or-load-defgeneric ',fun-name))
+ (load-defgeneric ',fun-name ',lambda-list ,@initargs)
,@(mapcar #'expand-method-definition methods)
- `,(function ,function-name)))))
-
-(defun compile-or-load-defgeneric (function-name)
- (sb-kernel:proclaim-as-function-name function-name)
- (sb-kernel:note-name-defined function-name :function)
- (unless (eq (sb-int:info :function :where-from function-name) :declared)
- (setf (sb-int:info :function :where-from function-name) :defined)
- (setf (sb-int:info :function :type function-name)
+ `,(function ,fun-name)))))
+
+(defun compile-or-load-defgeneric (fun-name)
+ (sb-kernel:proclaim-as-fun-name fun-name)
+ (sb-kernel:note-name-defined fun-name :function)
+ (unless (eq (info :function :where-from fun-name) :declared)
+ (setf (info :function :where-from fun-name) :defined)
+ (setf (info :function :type fun-name)
(sb-kernel:specifier-type 'function))))
-(defun load-defgeneric (function-name lambda-list &rest initargs)
- (when (fboundp function-name)
- (sb-kernel::style-warn "redefining ~S in DEFGENERIC" function-name))
+(defun load-defgeneric (fun-name lambda-list &rest initargs)
+ (when (fboundp fun-name)
+ (sb-kernel::style-warn "redefining ~S in DEFGENERIC" fun-name))
(apply #'ensure-generic-function
- function-name
+ fun-name
:lambda-list lambda-list
- :definition-source `((defgeneric ,function-name)
- ,*load-truename*)
+ :definition-source `((defgeneric ,fun-name) ,*load-truename*)
initargs))
\f
(defmacro defmethod (&rest args &environment env)
initargs-form &optional pv-table-symbol)
(let (fn
fn-lambda)
- (if (and (interned-symbol-p (sb-int:function-name-block-name name))
+ (if (and (interned-symbol-p (fun-name-block-name name))
(every #'interned-symbol-p qualifiers)
(every #'(lambda (s)
(if (consp s)
;; force symbols to be printed
;; with explicit package
;; prefixes.)
- (*package* sb-int:*keyword-package*))
+ (*package* *keyword-package*))
(format nil "~S" mname)))))
- `(eval-when (:load-toplevel :execute)
- (defun ,mname-sym ,(cadr fn-lambda)
- ,@(cddr fn-lambda))
- ,(make-defmethod-form-internal
- name qualifiers `',specls
- unspecialized-lambda-list method-class-name
- `(list* ,(cadr initargs-form)
- #',mname-sym
- ,@(cdddr initargs-form))
- pv-table-symbol)))
- (make-defmethod-form-internal
- name qualifiers
- `(list ,@(mapcar #'(lambda (specializer)
- (if (consp specializer)
- ``(,',(car specializer)
- ,,(cadr specializer))
- `',specializer))
- specializers))
- unspecialized-lambda-list method-class-name
- initargs-form
- pv-table-symbol))))
+ `(progn
+ (defun ,mname-sym ,(cadr fn-lambda)
+ ,@(cddr fn-lambda))
+ ,(make-defmethod-form-internal
+ name qualifiers `',specls
+ unspecialized-lambda-list method-class-name
+ `(list* ,(cadr initargs-form)
+ #',mname-sym
+ ,@(cdddr initargs-form))
+ pv-table-symbol)))
+ (make-defmethod-form-internal
+ name qualifiers
+ `(list ,@(mapcar #'(lambda (specializer)
+ (if (consp specializer)
+ ``(,',(car specializer)
+ ,,(cadr specializer))
+ `',specializer))
+ specializers))
+ unspecialized-lambda-list method-class-name
+ initargs-form
+ pv-table-symbol))))
(defun make-defmethod-form-internal
(name qualifiers specializers-form unspecialized-lambda-list
;; These declarations seem to be used by PCL to pass
;; information to itself; when I tried to delete 'em
;; ca. 0.6.10 it didn't work. I'm not sure how
- ;; they work, but note the (VARIABLE-DECLARATION '%CLASS ..)
+ ;; they work, but note the (VAR-DECLARATION '%CLASS ..)
;; expression in CAN-OPTIMIZE-ACCESS1. -- WHN 2000-12-30
,@(remove nil
(mapcar (lambda (a s) (and (symbolp s)
(declare (ignorable ,@required-parameters))
,class-declarations
,@declarations
- (block ,(sb-int:function-name-block-name
- generic-function-name)
+ (block ,(fun-name-block-name generic-function-name)
,@real-body)))
(constant-value-p (and (null (cdr real-body))
(constantp (car real-body))))
`(not (null .next-method.))))
,@body))
-(defstruct method-call
+(defstruct (method-call (:copier nil))
(function #'identity :type function)
call-method-args)
`(list ,@required-args+rest-arg))
(method-call-call-method-args ,method-call)))
-(defstruct fast-method-call
+(defstruct (fast-method-call (:copier nil))
(function #'identity :type function)
pv-cell
next-method-call
(fast-method-call-next-method-call ,method-call)
,@required-args+rest-arg))
-(defstruct fast-instance-boundp
+(defstruct (fast-instance-boundp (:copier nil))
(index 0 :type fixnum))
#-sb-fluid (declaim (sb-ext:freeze-type fast-instance-boundp))
(unless (constantp restp)
(error "The RESTP argument is not constant."))
(setq restp (eval restp))
- `(progn
+ `(locally
+
+ ;; In sbcl-0.6.11.43, the compiler would issue bogus warnings
+ ;; about type mismatches in unreachable code when we
+ ;; macroexpanded the GET-SLOTS-OR-NIL expressions here and
+ ;; byte-compiled the code. GET-SLOTS-OR-NIL is now an inline
+ ;; function instead of a macro, which seems sufficient to solve
+ ;; the problem all by itself (probably because of some quirk in
+ ;; the relative order of expansion and type inference) but we
+ ;; also use overkill by NOTINLINEing GET-SLOTS-OR-NIL, because it
+ ;; looks as though (1) inlining isn't that much of a win anyway,
+ ;; and (2a) once you miss the FAST-METHOD-CALL clause you're
+ ;; going to be slow anyway, but (2b) code bloat still hurts even
+ ;; when it's off the critical path.
+ (declare (notinline get-slots-or-nil))
+
(trace-emf-call ,emf ,restp (list ,@required-args+rest-arg))
(cond ((typep ,emf 'fast-method-call)
(invoke-fast-method-call ,emf ,@required-args+rest-arg))
(null closurep)
(null applyp))
`(let () ,@body))
- ((and (null closurep)
- (null applyp))
+ ((and (null closurep)
+ (null applyp))
;; OK to use MACROLET, and all args are mandatory
;; (else APPLYP would be true).
`(call-next-method-bind
,(cadr var)))))))
(rest `((,var ,args-tail)))
(key (cond ((not (consp var))
- `((,var (get-key-arg ,(sb-int:keywordicate var)
+ `((,var (get-key-arg ,(keywordicate var)
,args-tail))))
((null (cddr var))
(multiple-value-bind (keyword variable)
(if (consp (car var))
(values (caar var)
(cadar var))
- (values (sb-int:keywordicate (car var))
+ (values (keywordicate (car var))
(car var)))
`((,key (get-key-arg1 ',keyword ,args-tail))
(,variable (if (consp ,key)
(if (consp (car var))
(values (caar var)
(cadar var))
- (values (sb-int:keywordicate (car var))
+ (values (keywordicate (car var))
(car var)))
`((,key (get-key-arg1 ',keyword ,args-tail))
(,(caddr var) ,key)
((and (memq (car form)
'(slot-value set-slot-value slot-boundp))
(constantp (caddr form)))
- (let ((parameter
- (can-optimize-access form required-parameters env)))
+ (let ((parameter (can-optimize-access form
+ required-parameters
+ env)))
(let ((fun (ecase (car form)
(slot-value #'optimize-slot-value)
(set-slot-value #'optimize-set-slot-value)
next-method-p-p)))))
(defun generic-function-name-p (name)
- (and (sb-int:legal-function-name-p name)
+ (and (legal-fun-name-p name)
(gboundp name)
(if (eq *boot-state* 'complete)
(standard-generic-function-p (gdefinition name))
(let ((method-spec (or (getf initargs ':method-spec)
(make-method-spec name quals specls))))
(setf (getf initargs ':method-spec) method-spec)
- (record-definition 'method method-spec)
(load-defmethod-internal class name quals specls
ll initargs pv-table-symbol)))
(setf (method-function-get mff p) v))))
(when method-spec
(when mf
- (setq mf (set-function-name mf method-spec)))
+ (setq mf (set-fun-name mf method-spec)))
(when mff
(let ((name `(,(or (get (car method-spec) 'fast-sym)
(setf (get (car method-spec) 'fast-sym)
(car method-spec))
*pcl-package*)))
,@(cdr method-spec))))
- (set-function-name mff name)
+ (set-fun-name mff name)
(unless mf
(set-mf-property :name name)))))
(when plist
\f
(defun analyze-lambda-list (lambda-list)
(flet (;; FIXME: Is this redundant with SB-C::MAKE-KEYWORD-FOR-ARG?
- (parse-keyword-argument (arg)
+ (parse-key-argument (arg)
(if (listp arg)
(if (listp (car arg))
(caar arg)
- (sb-int:keywordicate (car arg)))
- (sb-int:keywordicate arg))))
+ (keywordicate (car arg)))
+ (keywordicate arg))))
(let ((nrequired 0)
(noptional 0)
(keysp nil)
(ecase state
(required (incf nrequired))
(optional (incf noptional))
- (key (push (parse-keyword-argument x) keywords)
+ (key (push (parse-key-argument x) keywords)
(push x keyword-parameters))
(rest ()))))
(values nrequired noptional keysp restp allow-other-keys-p
(defun keyword-spec-name (x)
(let ((key (if (atom x) x (car x))))
(if (atom key)
- (intern (symbol-name key) sb-int:*keyword-package*)
+ (keywordicate key)
(car key))))
(defun ftype-declaration-from-lambda-list (lambda-list name)
keywords keyword-parameters)
(analyze-lambda-list lambda-list)
(declare (ignore keyword-parameters))
- (let* ((old (sb-int:info :function :type name)) ;FIXME:FDOCUMENTATION instead?
- (old-ftype (if (sb-kernel:function-type-p old) old nil))
- (old-restp (and old-ftype (sb-kernel:function-type-rest old-ftype)))
+ (let* ((old (info :function :type name)) ;FIXME:FDOCUMENTATION instead?
+ (old-ftype (if (sb-kernel:fun-type-p old) old nil))
+ (old-restp (and old-ftype (sb-kernel:fun-type-rest old-ftype)))
(old-keys (and old-ftype
(mapcar #'sb-kernel:key-info-name
- (sb-kernel:function-type-keywords
+ (sb-kernel:fun-type-keywords
old-ftype))))
- (old-keysp (and old-ftype (sb-kernel:function-type-keyp old-ftype)))
+ (old-keysp (and old-ftype (sb-kernel:fun-type-keyp old-ftype)))
(old-allowp (and old-ftype
- (sb-kernel:function-type-allowp old-ftype)))
+ (sb-kernel:fun-type-allowp old-ftype)))
(keywords (union old-keys (mapcar #'keyword-spec-name keywords))))
`(function ,(append (make-list nrequired :initial-element t)
(when (plusp noptional)
(defun defgeneric-declaration (spec lambda-list)
(when (consp spec)
- (setq spec (get-setf-function-name (cadr spec))))
+ (setq spec (get-setf-fun-name (cadr spec))))
`(ftype ,(ftype-declaration-from-lambda-list lambda-list spec) ,spec))
\f
;;;; early generic function support
(defvar *!early-generic-functions* ())
-(defun ensure-generic-function (function-name
+(defun ensure-generic-function (fun-name
&rest all-keys
&key environment
&allow-other-keys)
(declare (ignore environment))
- (let ((existing (and (gboundp function-name)
- (gdefinition function-name))))
+ (let ((existing (and (gboundp fun-name)
+ (gdefinition fun-name))))
(if (and existing
(eq *boot-state* 'complete)
(null (generic-function-p existing)))
- (generic-clobbers-function function-name)
+ (generic-clobbers-function fun-name)
(apply #'ensure-generic-function-using-class
- existing function-name all-keys))))
+ existing fun-name all-keys))))
-(defun generic-clobbers-function (function-name)
- (error 'sb-kernel:simple-program-error
- :format-control
- "~S already names an ordinary function or a macro."
- :format-arguments (list function-name)))
+(defun generic-clobbers-function (fun-name)
+ (error 'simple-program-error
+ :format-control "~S already names an ordinary function or a macro."
+ :format-arguments (list fun-name)))
(defvar *sgf-wrapper*
(boot-make-wrapper (early-class-size 'standard-generic-function)
(!bootstrap-slot-index 'standard-generic-function 'dfun-state))
(defstruct (arg-info
- (:conc-name nil)
- (:constructor make-arg-info ()))
+ (:conc-name nil)
+ (:constructor make-arg-info ())
+ (:copier nil))
(arg-info-lambda-list :no-lambda-list)
arg-info-precedence
arg-info-metatypes
arg-info-number-optional
arg-info-key/rest-p
- arg-info-keywords ;nil no keyword or rest allowed
- ;(k1 k2 ..) each method must accept these keyword arguments
- ;T must have &key or &rest
+ arg-info-keys ;nil no &KEY or &REST allowed
+ ;(k1 k2 ..) Each method must accept these &KEY arguments.
+ ;T must have &KEY or &REST
gf-info-simple-accessor-type ; nil, reader, writer, boundp
(gf-precompute-dfun-and-emf-p nil) ; set by set-arg-info
(esetf (arg-info-metatypes arg-info) (make-list nreq))
(esetf (arg-info-number-optional arg-info) nopt)
(esetf (arg-info-key/rest-p arg-info) (not (null (or keysp restp))))
- (esetf (arg-info-keywords arg-info)
+ (esetf (arg-info-keys arg-info)
(if lambda-list-p
(if allow-other-keys-p t keywords)
(arg-info-key/rest-p arg-info)))))
method
gf
(apply #'format nil string args)))
- (compare (x y)
+ (comparison-description (x y)
(if (> x y) "more" "fewer")))
(let ((gf-nreq (arg-info-number-required arg-info))
(gf-nopt (arg-info-number-optional arg-info))
(gf-key/rest-p (arg-info-key/rest-p arg-info))
- (gf-keywords (arg-info-keywords arg-info)))
+ (gf-keywords (arg-info-keys arg-info)))
(unless (= nreq gf-nreq)
(lose
"the method has ~A required arguments than the generic function."
- (compare nreq gf-nreq)))
+ (comparison-description nreq gf-nreq)))
(unless (= nopt gf-nopt)
(lose
- "the method has ~S optional arguments than the generic function."
- (compare nopt gf-nopt)))
+ "the method has ~A optional arguments than the generic function."
+ (comparison-description nopt gf-nopt)))
(unless (eq (or keysp restp) gf-key/rest-p)
(error
"The method and generic function differ in whether they accept~%~
(unless (or (and restp (not keysp))
allow-other-keys-p
(every #'(lambda (k) (memq k keywords)) gf-keywords))
- (lose "the method does not accept each of the keyword arguments~%~
+ (lose "the method does not accept each of the &KEY arguments~%~
~S."
gf-keywords)))))))
;;; CAR - a list of the early methods on this early gf
;;; CADR - the early discriminator code for this method
(defun ensure-generic-function-using-class (existing spec &rest keys
- &key (lambda-list nil lambda-list-p)
+ &key (lambda-list nil
+ lambda-list-p)
&allow-other-keys)
(declare (ignore keys))
(cond ((and existing (early-gf-p existing))
(defun make-early-gf (spec &optional lambda-list lambda-list-p function)
(let ((fin (allocate-funcallable-instance *sgf-wrapper* *sgf-slots-init*)))
- (set-funcallable-instance-function
+ (set-funcallable-instance-fun
fin
(or function
(if (eq spec 'print-object)
fin
'source
*load-truename*)
- (set-function-name fin spec)
+ (set-fun-name fin spec)
(let ((arg-info (make-arg-info)))
(setf (early-gf-arg-info fin) arg-info)
(when lambda-list-p
(setf (getf ,all-keys :method-combination)
(find-method-combination (class-prototype ,gf-class)
(car combin)
- (cdr combin)))))))
+ (cdr combin)))))
+ (let ((method-class (getf ,all-keys :method-class '.shes-not-there.)))
+ (unless (eq method-class '.shes-not-there.)
+ (setf (getf ,all-keys :method-class)
+ (find-class method-class t ,env))))))
(defun real-ensure-gf-using-class--generic-function
(existing
- function-name
+ fun-name
&rest all-keys
&key environment (lambda-list nil lambda-list-p)
(generic-function-class 'standard-generic-function gf-class-p)
(prog1
(apply #'reinitialize-instance existing all-keys)
(when lambda-list-p
- (proclaim (defgeneric-declaration function-name lambda-list)))))
+ (proclaim (defgeneric-declaration fun-name lambda-list)))))
(defun real-ensure-gf-using-class--null
(existing
- function-name
+ fun-name
&rest all-keys
&key environment (lambda-list nil lambda-list-p)
(generic-function-class 'standard-generic-function)
(declare (ignore existing))
(real-ensure-gf-internal generic-function-class all-keys environment)
(prog1
- (setf (gdefinition function-name)
+ (setf (gdefinition fun-name)
(apply #'make-instance generic-function-class
- :name function-name all-keys))
+ :name fun-name all-keys))
(when lambda-list-p
- (proclaim (defgeneric-declaration function-name lambda-list)))))
+ (proclaim (defgeneric-declaration fun-name lambda-list)))))
\f
(defun get-generic-function-info (gf)
;; values nreq applyp metatypes nkeys arg-info
(real-get-method generic-function qualifiers specializers errorp)))
(defun !fix-early-generic-functions ()
- (sb-int:/show "entering !FIX-EARLY-GENERIC-FUNCTIONS")
(let ((accessors nil))
;; Rearrange *!EARLY-GENERIC-FUNCTIONS* to speed up
;; FIX-EARLY-GENERIC-FUNCTIONS.
(dolist (early-gf-spec *!early-generic-functions*)
- (sb-int:/show early-gf-spec)
(when (every #'early-method-standard-accessor-p
(early-gf-methods (gdefinition early-gf-spec)))
(push early-gf-spec accessors)))
standard-class-p
funcallable-standard-class-p
specializerp)))
- (sb-int:/show spec)
+ (/show spec)
(setq *!early-generic-functions*
(cons spec
(delete spec *!early-generic-functions* :test #'equal))))
(dolist (early-gf-spec *!early-generic-functions*)
- (sb-int:/show early-gf-spec)
+ (/show early-gf-spec)
(let* ((gf (gdefinition early-gf-spec))
(methods (mapcar #'(lambda (early-method)
(let ((args (copy-list (fifth
(set-methods gf methods)))
(dolist (fn *!early-functions*)
- (sb-int:/show fn)
+ (/show fn)
(setf (gdefinition (car fn)) (fdefinition (caddr fn))))
(dolist (fixup *!generic-function-fixups*)
- (sb-int:/show fixup)
+ (/show fixup)
(let* ((fspec (car fixup))
(gf (gdefinition fspec))
(methods (mapcar #'(lambda (method)
(fn (fdefinition fn-name))
(initargs
(list :function
- (set-function-name
+ (set-fun-name
#'(lambda (args next-methods)
(declare (ignore
next-methods))
(setf (generic-function-method-combination gf)
*standard-method-combination*)
(set-methods gf methods))))
- (sb-int:/show "leaving !FIX-EARLY-GENERIC-FUNCTIONS"))
+ (/show "leaving !FIX-EARLY-GENERIC-FUNCTIONS"))
\f
;;; PARSE-DEFMETHOD is used by DEFMETHOD to parse the &REST argument
;;; into the 'real' arguments. This is where the syntax of DEFMETHOD
;;; is really implemented.
(defun parse-defmethod (cdr-of-form)
- ;;(declare (values name qualifiers specialized-lambda-list body))
+ (declare (list cdr-of-form))
(let ((name (pop cdr-of-form))
(qualifiers ())
(spec-ll ()))
(values name qualifiers spec-ll cdr-of-form)))
(defun parse-specializers (specializers)
+ (declare (list specializers))
(flet ((parse (spec)
(let ((result (specializer-from-type spec)))
(if (specializerp result)
gf (method-generic-function method)
temp (and gf (generic-function-name gf))
name (if temp
- (intern-function-name
+ (intern-fun-name
(make-method-spec temp
(method-qualifiers method)
(unparse-specializers
(and
(setq method (get-method gf quals specls errorp))
(setq name
- (intern-function-name (make-method-spec gf-spec
- quals
- specls))))))))
+ (intern-fun-name (make-method-spec gf-spec
+ quals
+ specls))))))))
(values gf method name)))
\f
(defun extract-parameters (specialized-lambda-list)
(cons (if (listp arg) (cadr arg) t) specializers)
(cons (if (listp arg) (car arg) arg) required)))))))
\f
-(eval-when (:load-toplevel :execute)
- (setq *boot-state* 'early))
+(setq *boot-state* 'early)
\f
;;; FIXME: In here there was a #-CMU definition of SYMBOL-MACROLET
;;; which used %WALKER stuff. That suggests to me that maybe the code
`((declare (%variable-rebinding ,in ,instance)))))
,in
(symbol-macrolet ,(mapcar #'(lambda (slot-entry)
- (let ((variable-name
+ (let ((var-name
(if (symbolp slot-entry)
slot-entry
(car slot-entry)))
(if (symbolp slot-entry)
slot-entry
(cadr slot-entry))))
- `(,variable-name
+ `(,var-name
(slot-value ,in ',slot-name))))
slots)
,@body))))
`((declare (%variable-rebinding ,in ,instance)))))
,in
(symbol-macrolet ,(mapcar #'(lambda (slot-entry)
- (let ((variable-name (car slot-entry))
+ (let ((var-name (car slot-entry))
(accessor-name (cadr slot-entry)))
- `(,variable-name
- (,accessor-name ,in))))
+ `(,var-name (,accessor-name ,in))))
slots)
,@body))))