(unless (listp wrappers) (setq wrappers (list wrappers)))
(let* ((not-simple-p-cell (list nil))
(elements
- (gathering1 (collecting)
- (iterate ((slot-names (list-elements slot-name-lists)))
+ (let ((elements nil))
+ (dolist (slot-names slot-name-lists)
(when slot-names
(let* ((wrapper (pop wrappers))
(std-p (typep wrapper 'wrapper))
(class (wrapper-class* wrapper))
(class-slots (and std-p (wrapper-class-slots wrapper))))
(dolist (slot-name (cdr slot-names))
- (gather1
- (when std-p
- (compute-pv-slot slot-name wrapper class
- class-slots not-simple-p-cell))))))))))
+ ;; Original PCL code had this idiom. why not:
+ ;;
+ ;; (WHEN STD-P
+ ;; (PUSH ...)) ?
+ (push (when std-p
+ (compute-pv-slot slot-name wrapper class
+ class-slots not-simple-p-cell))
+ elements)))))
+ (nreverse elements))))
(if (car not-simple-p-cell)
(make-permutation-vector (cons t elements))
(or (gethash elements *pvs*)
(declare (ignore call-list wrappers))
#||
(map 'vector
- #'(lambda (call)
- (compute-emf-from-wrappers call wrappers))
+ (lambda (call)
+ (compute-emf-from-wrappers call wrappers))
call-list)
||#
'#())
(destructuring-bind (gf-name nreq restp arg-info) call
(if (eq gf-name 'make-instance)
(error "should not get here") ; there is another mechanism for this.
- #'(lambda (&rest args)
- (if (not (eq *boot-state* 'complete))
- (apply (gdefinition gf-name) args)
- (let* ((gf (gdefinition gf-name))
- (arg-info (arg-info-reader gf))
- (classes '?)
- (types '?)
- (emf (cache-miss-values-internal gf arg-info
- wrappers classes types
- 'caching)))
- (update-all-pv-tables call wrappers emf)
- (invoke-emf emf args))))))))
+ (lambda (&rest args)
+ (if (not (eq *boot-state* 'complete))
+ (apply (gdefinition gf-name) args)
+ (let* ((gf (gdefinition gf-name))
+ (arg-info (arg-info-reader gf))
+ (classes '?)
+ (types '?)
+ (emf (cache-miss-values-internal gf arg-info
+ wrappers classes types
+ 'caching)))
+ (update-all-pv-tables call wrappers emf)
+ (invoke-emf emf args))))))))
||#
(defun make-permutation-vector (indexes)
(pv-cell (cons pv calls))
(new-cache (fill-cache cache pv-wrappers pv-cell)))
(unless (eq new-cache cache)
- (setf (pv-table-cache pv-table) new-cache)
- (free-cache cache))
+ (setf (pv-table-cache pv-table) new-cache))
pv-cell))))
(defun make-pv-type-declaration (var)
(std-p (typep cwrapper 'wrapper))
(class-slots (and std-p (wrapper-class-slots cwrapper)))
(class-slot-p-cell (list nil))
- (new-values (mapcar #'(lambda (slot-name)
- (cons slot-name
- (when std-p
- (compute-pv-slot
- slot-name cwrapper class
- class-slots class-slot-p-cell))))
+ (new-values (mapcar (lambda (slot-name)
+ (cons slot-name
+ (when std-p
+ (compute-pv-slot
+ slot-name cwrapper class
+ class-slots class-slot-p-cell))))
slot-names))
(pv-tables nil))
(dolist (slot-name slot-names)
(map-pv-table-references-of
slot-name
- #'(lambda (pv-table pv-offset-list)
- (declare (ignore pv-offset-list))
- (pushnew pv-table pv-tables))))
+ (lambda (pv-table pv-offset-list)
+ (declare (ignore pv-offset-list))
+ (pushnew pv-table pv-tables))))
(dolist (pv-table pv-tables)
(let* ((cache (pv-table-cache pv-table))
(slot-name-lists (pv-table-slot-name-lists pv-table))
(pv-size (pv-table-pv-size pv-table))
(pv-map (make-array pv-size :initial-element nil)))
- (let ((map-index 1)(param-index 0))
+ (let ((map-index 1) (param-index 0))
(dolist (slot-name-list slot-name-lists)
(dolist (slot-name (cdr slot-name-list))
(let ((a (assoc slot-name new-values)))
(incf map-index))
(incf param-index)))
(when cache
- (map-cache #'(lambda (wrappers pv-cell)
- (setf (car pv-cell)
- (update-slots-in-pv wrappers (car pv-cell)
- cwrapper pv-size pv-map)))
+ (map-cache (lambda (wrappers pv-cell)
+ (setf (car pv-cell)
+ (update-slots-in-pv wrappers (car pv-cell)
+ cwrapper pv-size pv-map)))
cache))))))
(defun update-slots-in-pv (wrappers pv cwrapper pv-size pv-map)
slots
calls)
(declare (ignore required-parameters env slots calls))
- (or (and (eq (car form) 'make-instance)
- (expand-make-instance-form form))
+ (or ; (optimize-reader ...)?
form))
\f
(defun can-optimize-access (form required-parameters env)
;; against 'THE scattered through the PCL code.
(setq var (caddr var)))
(when (symbolp var)
- (let* ((rebound? (caddr (variable-declaration '%variable-rebinding
- var
- env)))
+ (let* ((rebound? (caddr (var-declaration '%variable-rebinding var env)))
(parameter-or-nil (car (memq (or rebound? var)
required-parameters))))
(when parameter-or-nil
- (let* ((class-name (caddr (variable-declaration '%class
- parameter-or-nil
- env)))
+ (let* ((class-name (caddr (var-declaration '%class
+ parameter-or-nil
+ env)))
(class (find-class class-name nil)))
(when (or (not (eq *boot-state* 'complete))
(and class (not (class-finalized-p class))))
(position (posq parameter-entry slots))
(pv-offset-form (list 'pv-offset ''.PV-OFFSET.)))
(unless parameter-entry
- (error "internal error in slot optimization"))
+ (bug "slot optimization bewilderment: O-I-A"))
(unless slot-entry
(setq slot-entry (list slot-name))
(push slot-entry (cdr parameter-entry)))
(position (posq parameter-entry slots))
(pv-offset-form (list 'pv-offset ''.PV-OFFSET.)))
(unless parameter-entry
- (error "internal error in slot optimization"))
+ (error "slot optimization bewilderment: O-A-C"))
(unless slot-entry
(setq slot-entry (list name))
(push slot-entry (cdr parameter-entry)))
(eq (car form) 'the))
(setq form (caddr form)))
(or (and (symbolp form)
- (let* ((rebound? (caddr (variable-declaration '%variable-rebinding
- form env)))
+ (let* ((rebound? (caddr (var-declaration '%variable-rebinding
+ form
+ env)))
(parameter-or-nil (car (assq (or rebound? form) slots))))
(when parameter-or-nil
- (let* ((class-name (caddr (variable-declaration
- 'class parameter-or-nil env))))
+ (let* ((class-name (caddr (var-declaration 'class
+ parameter-or-nil
+ env))))
(when (and class-name (not (eq class-name t)))
(position parameter-or-nil slots :key #'car))))))
(if (constantp form)
(non-required-args (nthcdr nreq args))
(required-args (ldiff args non-required-args))
(call-spec (list (car gf-call-form) nreq restp
- (mapcar #'(lambda (form)
- (optimize-gf-call-internal form slots env))
+ (mapcar (lambda (form)
+ (optimize-gf-call-internal form slots env))
(if all-args-p
args
required-args))))
(standard-class-p class)
(not (eq class *the-class-t*)) ; shouldn't happen, though.
(let ((slotd (find-slot-definition class slot-name)))
- (and slotd (classp (slot-definition-allocation slotd)))))))
+ (and slotd (eq :class (slot-definition-allocation slotd)))))))
(defun skip-fast-slot-access-p (class-form slot-name-form type)
(let ((class (and (constantp class-form) (eval class-form)))
(defmacro instance-read-internal (pv slots pv-offset default &optional type)
(unless (member type '(nil :instance :class :default))
(error "illegal type argument to ~S: ~S" 'instance-read-internal type))
- (if (eq type ':default)
+ (if (eq type :default)
default
(let* ((index (gensym))
(value index))
`(locally (declare #.*optimize-speed*)
(let ((,index (pvref ,pv ,pv-offset)))
(setq ,value (typecase ,index
- ,@(when (or (null type) (eq type ':instance))
+ ,@(when (or (null type) (eq type :instance))
`((fixnum (clos-slots-ref ,slots ,index))))
- ,@(when (or (null type) (eq type ':class))
+ ,@(when (or (null type) (eq type :class))
`((cons (cdr ,index))))
(t +slot-unbound+)))
(if (eq ,value +slot-unbound+)
`(instance-read-internal .pv. ,(slot-vector-symbol position)
,pv-offset (accessor-slot-value ,parameter ,slot-name)
,(if (generate-fast-class-slot-access-p class slot-name)
- ':class ':instance))))
+ :class :instance))))
(defmacro instance-reader (pv-offset parameter position gf-name class)
(declare (ignore class))
&optional type)
(unless (member type '(nil :instance :class :default))
(error "illegal type argument to ~S: ~S" 'instance-write-internal type))
- (if (eq type ':default)
+ (if (eq type :default)
default
(let* ((index (gensym)))
`(locally (declare #.*optimize-speed*)
(let ((,index (pvref ,pv ,pv-offset)))
(typecase ,index
- ,@(when (or (null type) (eq type ':instance))
+ ,@(when (or (null type) (eq type :instance))
`((fixnum (setf (clos-slots-ref ,slots ,index)
,new-value))))
- ,@(when (or (null type) (eq type ':class))
+ ,@(when (or (null type) (eq type :class))
`((cons (setf (cdr ,index) ,new-value))))
(t ,default)))))))
,pv-offset ,new-value
(accessor-set-slot-value ,parameter ,slot-name ,new-value)
,(if (generate-fast-class-slot-access-p class slot-name)
- ':class ':instance))))
+ :class :instance))))
(defmacro instance-writer (pv-offset
parameter
`(instance-write-internal .pv. ,(slot-vector-symbol position)
,pv-offset ,new-value
(,(if (consp gf-name)
- (get-setf-function-name gf-name)
+ (get-setf-fun-name gf-name)
gf-name)
(instance-accessor-parameter ,parameter)
,new-value)
&optional type)
(unless (member type '(nil :instance :class :default))
(error "illegal type argument to ~S: ~S" 'instance-boundp-internal type))
- (if (eq type ':default)
+ (if (eq type :default)
default
(let* ((index (gensym)))
`(locally (declare #.*optimize-speed*)
(let ((,index (pvref ,pv ,pv-offset)))
(typecase ,index
- ,@(when (or (null type) (eq type ':instance))
+ ,@(when (or (null type) (eq type :instance))
`((fixnum (not (and ,slots
(eq (clos-slots-ref ,slots ,index)
+slot-unbound+))))))
- ,@(when (or (null type) (eq type ':class))
+ ,@(when (or (null type) (eq type :class))
`((cons (not (eq (cdr ,index) +slot-unbound+)))))
(t ,default)))))))
`(instance-boundp-internal .pv. ,(slot-vector-symbol position)
,pv-offset (accessor-slot-boundp ,parameter ,slot-name)
,(if (generate-fast-class-slot-access-p class slot-name)
- ':class ':instance))))
+ :class :instance))))
;;; This magic function has quite a job to do indeed.
;;;
(defun slot-name-lists-from-slots (slots calls)
(multiple-value-bind (slots calls) (mutate-slots-and-calls slots calls)
(let* ((slot-name-lists
- (mapcar #'(lambda (parameter-entry)
- (cons nil (mapcar #'car (cdr parameter-entry))))
+ (mapcar (lambda (parameter-entry)
+ (cons nil (mapcar #'car (cdr parameter-entry))))
slots))
(call-list
(mapcar #'car calls)))
(dolist (arg (cdr call))
(when (integerp arg)
(setf (car (nth arg slot-name-lists)) t))))
- (setq slot-name-lists (mapcar #'(lambda (r+snl)
- (when (or (car r+snl) (cdr r+snl))
- r+snl))
+ (setq slot-name-lists (mapcar (lambda (r+snl)
+ (when (or (car r+snl) (cdr r+snl))
+ r+snl))
slot-name-lists))
(let ((cvt (apply #'vector
(let ((i -1))
- (mapcar #'(lambda (r+snl)
- (when r+snl (incf i)))
+ (mapcar (lambda (r+snl)
+ (when r+snl (incf i)))
slot-name-lists)))))
- (setq call-list (mapcar #'(lambda (call)
- (cons (car call)
- (mapcar #'(lambda (arg)
- (if (integerp arg)
- (svref cvt arg)
- arg))
- (cdr call))))
+ (setq call-list (mapcar (lambda (call)
+ (cons (car call)
+ (mapcar (lambda (arg)
+ (if (integerp arg)
+ (svref cvt arg)
+ arg))
+ (cdr call))))
call-list)))
(values slot-name-lists call-list))))
(defmacro pv-binding ((required-parameters slot-name-lists pv-table-symbol)
&body body)
- (with-gathering ((slot-vars (collecting))
- (pv-parameters (collecting)))
- (iterate ((slots (list-elements slot-name-lists))
- (required-parameter (list-elements required-parameters))
- (i (interval :from 0)))
- (when slots
- (gather required-parameter pv-parameters)
- (gather (slot-vector-symbol i) slot-vars)))
- `(pv-binding1 (.pv. .calls. ,pv-table-symbol ,pv-parameters ,slot-vars)
+ (let (slot-vars pv-parameters)
+ (loop for slots in slot-name-lists
+ for required-parameter in required-parameters
+ for i from 0
+ do (when slots
+ (push required-parameter pv-parameters)
+ (push (slot-vector-symbol i) slot-vars)))
+ `(pv-binding1 (.pv. .calls. ,pv-table-symbol
+ ,(nreverse pv-parameters) ,(nreverse slot-vars))
,@body)))
(defmacro pv-binding1 ((pv calls pv-table-symbol pv-parameters slot-vars)
&body body)
`(pv-env (,pv ,calls ,pv-table-symbol ,pv-parameters)
- (let (,@(mapcar #'(lambda (slot-var p) `(,slot-var (get-slots-or-nil ,p)))
- slot-vars pv-parameters))
+ (let (,@(mapcar (lambda (slot-var p) `(,slot-var (get-slots-or-nil ,p)))
+ slot-vars pv-parameters))
,@body)))
-;;; This gets used only when the default MAKE-METHOD-LAMBDA is overridden.
+;;; This gets used only when the default MAKE-METHOD-LAMBDA is
+;;; overridden.
(defmacro pv-env ((pv calls pv-table-symbol pv-parameters)
&rest forms)
`(let* ((.pv-table. ,pv-table-symbol)
,pv ,calls
,@forms))
-(defvar *non-variable-declarations*
+(defvar *non-var-declarations*
;; FIXME: VALUES was in this list, conditionalized with #+CMU, but I
;; don't *think* CMU CL had, or SBCL has, VALUES declarations. If
;; SBCL doesn't have 'em, VALUES should probably be removed from
;; this list.
- '(values %method-name %method-lambda-list
- optimize ftype inline notinline))
-
-(defvar *variable-declarations-with-argument*
+ '(values
+ %method-name
+ %method-lambda-list
+ optimize
+ ftype
+ inline
+ notinline))
+
+(defvar *var-declarations-with-arg*
'(%class
type))
-(defvar *variable-declarations-without-argument*
+(defvar *var-declarations-without-arg*
'(ignore
ignorable special dynamic-extent
;; FIXME: Possibly this entire list and variable could go away.
(dolist (form (cdr decl))
(when (consp form)
(let ((declaration-name (car form)))
- (if (member declaration-name *non-variable-declarations*)
+ (if (member declaration-name *non-var-declarations*)
(push `(declare ,form) outer-decls)
(let ((arg-p
(member declaration-name
- *variable-declarations-with-argument*))
+ *var-declarations-with-arg*))
(non-arg-p
(member declaration-name
- *variable-declarations-without-argument*))
+ *var-declarations-without-arg*))
(dname (list (pop form)))
(inners nil) (outers nil))
(unless (or arg-p non-arg-p)
;; FIXME: This warning, and perhaps the
- ;; various *VARIABLE-DECLARATIONS-FOO* and/or
- ;; *NON-VARIABLE-DECLARATIONS* variables,
+ ;; various *VAR-DECLARATIONS-FOO* and/or
+ ;; *NON-VAR-DECLARATIONS* variables,
;; could probably go away now that we're not
;; trying to be portable between different
;; CLTL1 hosts the way PCL was. (Note that to
(Assuming it is a variable declaration without argument)."
declaration-name 'split-declarations
declaration-name
- '*non-variable-declarations*
- '*variable-declarations-with-argument*
- '*variable-declarations-without-argument*)
- (push declaration-name
- *variable-declarations-without-argument*))
+ '*non-var-declarations*
+ '*var-declarations-with-arg*
+ '*var-declarations-without-arg*)
+ (push declaration-name *var-declarations-without-arg*))
(when arg-p
(setq dname (append dname (list (pop form)))))
- (dolist (var form)
- (if (member var args)
- ;; Quietly remove IGNORE declarations on
- ;; args when a next-method is involved, to
- ;; prevent compiler warns about ignored
- ;; args being read.
- (unless (and calls-next-method-p
- (eq (car dname) 'ignore))
- (push var outers))
- (push var inners)))
- (when outers
- (push `(declare (,@dname ,@outers)) outer-decls))
- (when inners
- (push `(declare (,@dname ,@inners)) inner-decls)))))))
+ (case (car dname)
+ (%class (push `(declare (,@dname ,@form)) inner-decls))
+ (t
+ (dolist (var form)
+ (if (member var args)
+ ;; Quietly remove IGNORE declarations
+ ;; on args when a next-method is
+ ;; involved, to prevent compiler
+ ;; warnings about ignored args being
+ ;; read.
+ (unless (and calls-next-method-p
+ (eq (car dname) 'ignore))
+ (push var outers))
+ (push var inners)))
+ (when outers
+ (push `(declare (,@dname ,@outers)) outer-decls))
+ (when inners
+ (push
+ `(declare (,@dname ,@inners))
+ inner-decls)))))))))
(setq body (cdr body)))
(values outer-decls inner-decls body)))
+;;; Pull a name out of the %METHOD-NAME declaration in the function
+;;; body given, or return NIL if no %METHOD-NAME declaration is found.
+(defun body-method-name (body)
+ (multiple-value-bind (real-body declarations documentation)
+ (parse-body body)
+ (declare (ignore real-body documentation))
+ (let ((name-decl (get-declaration '%method-name declarations)))
+ (and name-decl
+ (destructuring-bind (name) name-decl
+ name)))))
+
+;;; Convert a lambda expression containing a SB-PCL::%METHOD-NAME
+;;; declaration (which is a naming style internal to PCL) into an
+;;; SB-INT:NAMED-LAMBDA expression (which is a naming style used
+;;; throughout SBCL, understood by the main compiler); or if there's
+;;; no SB-PCL::%METHOD-NAME declaration, then just return the original
+;;; lambda expression.
+(defun name-method-lambda (method-lambda)
+ (let ((method-name (body-method-name (cddr method-lambda))))
+ (if method-name
+ `(named-lambda ,method-name ,(rest method-lambda))
+ method-lambda)))
+
(defun make-method-initargs-form-internal (method-lambda initargs env)
(declare (ignore env))
- (let (method-lambda-args lmf lmf-params)
+ (let (method-lambda-args
+ lmf ; becomes body of function
+ lmf-params)
(if (not (and (= 3 (length method-lambda))
(= 2 (length (setq method-lambda-args (cadr method-lambda))))
(consp (setq lmf (third method-lambda)))
(cadr (setq lmf-params (cadr lmf))))
(eq (cadr method-lambda-args)
(caddr lmf-params))))
- `(list* :function #',method-lambda
+ `(list* :function ,(name-method-lambda method-lambda)
',initargs)
(let* ((lambda-list (car lmf-params))
- (nreq 0)(restp nil)(args nil))
+ (nreq 0)
+ (restp nil)
+ (args nil))
(dolist (arg lambda-list)
(when (member arg '(&optional &rest &key))
- (setq restp t)(return nil))
- (when (eq arg '&aux) (return nil))
- (incf nreq)(push arg args))
+ (setq restp t)
+ (return nil))
+ (when (eq arg '&aux)
+ (return nil))
+ (incf nreq)
+ (push arg args))
(setq args (nreverse args))
- (setf (getf (getf initargs ':plist) ':arg-info) (cons nreq restp))
+ (setf (getf (getf initargs :plist) :arg-info) (cons nreq restp))
(make-method-initargs-form-internal1
initargs (cddr lmf) args lmf-params restp)))))
(defun make-method-initargs-form-internal1
(initargs body req-args lmf-params restp)
- (multiple-value-bind (outer-decls inner-decls body)
+ (multiple-value-bind (outer-decls inner-decls body-sans-decls)
(split-declarations
body req-args (getf (cdr lmf-params) :call-next-method-p))
(let* ((rest-arg (when restp '.rest-arg.))
(args+rest-arg (if restp
(append req-args (list rest-arg))
req-args)))
- `(list* :fast-function
- (lambda (.pv-cell. .next-method-call. ,@args+rest-arg)
- (declare (ignorable .pv-cell. .next-method-call.))
- ,@outer-decls
- (macrolet ((pv-env ((pv calls pv-table-symbol pv-parameters)
- &rest forms)
- (declare (ignore pv-table-symbol pv-parameters))
- `(let ((,pv (car .pv-cell.))
- (,calls (cdr .pv-cell.)))
- (declare ,(make-pv-type-declaration pv)
- ,(make-calls-type-declaration calls))
- ,pv ,calls
- ,@forms)))
- (fast-lexical-method-functions
- (,(car lmf-params) .next-method-call. ,req-args ,rest-arg
- ,@(cdddr lmf-params))
- ,@inner-decls
- ,@body)))
+ `(list*
+ :fast-function
+ (,(if (body-method-name body) 'named-lambda 'lambda)
+ ,@(when (body-method-name body)
+ (list (body-method-name body))) ; function name
+ (.pv-cell. .next-method-call. ,@args+rest-arg) ; function args
+ ;; body of the function
+ (declare (ignorable .pv-cell. .next-method-call.))
+ ,@outer-decls
+ (macrolet ((pv-env ((pv calls pv-table-symbol pv-parameters)
+ &rest forms)
+ (declare (ignore pv-table-symbol
+ pv-parameters))
+ `(let ((,pv (car .pv-cell.))
+ (,calls (cdr .pv-cell.)))
+ (declare ,(make-pv-type-declaration pv)
+ ,(make-calls-type-declaration calls))
+ ,pv ,calls
+ ,@forms)))
+ (fast-lexical-method-functions
+ (,(car lmf-params) .next-method-call. ,req-args ,rest-arg
+ ,@(cdddr lmf-params))
+ ,@inner-decls
+ ,@body-sans-decls)))
',initargs))))
;;; Use arrays and hash tables and the fngen stuff to make this much
(defun method-function-from-fast-function (fmf)
(declare (type function fmf))
(let* ((method-function nil) (pv-table nil)
- (arg-info (method-function-get fmf ':arg-info))
+ (arg-info (method-function-get fmf :arg-info))
(nreq (car arg-info))
(restp (cdr arg-info)))
(setq method-function
- #'(lambda (method-args next-methods)
- (unless pv-table
- (setq pv-table (method-function-pv-table fmf)))
- (let* ((pv-cell (when pv-table
- (get-method-function-pv-cell
- method-function method-args pv-table)))
- (nm (car next-methods))
- (nms (cdr next-methods))
- (nmc (when nm
- (make-method-call
- :function (if (std-instance-p nm)
- (method-function nm)
- nm)
- :call-method-args (list nms)))))
- (if restp
- (let* ((rest (nthcdr nreq method-args))
- (args (ldiff method-args rest)))
- (apply fmf pv-cell nmc (nconc args (list rest))))
- (apply fmf pv-cell nmc method-args)))))
+ (lambda (method-args next-methods)
+ (unless pv-table
+ (setq pv-table (method-function-pv-table fmf)))
+ (let* ((pv-cell (when pv-table
+ (get-method-function-pv-cell
+ method-function method-args pv-table)))
+ (nm (car next-methods))
+ (nms (cdr next-methods))
+ (nmc (when nm
+ (make-method-call
+ :function (if (std-instance-p nm)
+ (method-function nm)
+ nm)
+ :call-method-args (list nms)))))
+ (if restp
+ (let* ((rest (nthcdr nreq method-args))
+ (args (ldiff method-args rest)))
+ (apply fmf pv-cell nmc (nconc args (list rest))))
+ (apply fmf pv-cell nmc method-args)))))
(let* ((fname (method-function-get fmf :name))
(name `(,(or (get (car fname) 'method-sym)
(setf (get (car fname) 'method-sym)
(intern (subseq str 5) *pcl-package*)
(car fname)))))
,@(cdr fname))))
- (set-function-name method-function name))
+ (set-fun-name method-function name))
(setf (method-function-get method-function :fast-function) fmf)
method-function))
(pv-table-lookup pv-table (pv-wrappers-from-pv-args pv-parameters)))
(defun pv-wrappers-from-pv-args (&rest args)
- (let* ((nkeys (length args))
- (pv-wrappers (make-list nkeys))
- w
- (w-t pv-wrappers))
- (dolist (arg args)
- (setq w (wrapper-of arg))
- (unless (eq t (wrapper-state w)) ; FIXME: should be INVALID-WRAPPER-P
- (setq w (check-wrapper-validity arg)))
- (setf (car w-t) w))
- (setq w-t (cdr w-t))
- (when (= nkeys 1) (setq pv-wrappers (car pv-wrappers)))
- pv-wrappers))
+ (let (wrappers)
+ (dolist (arg args (if (cdr wrappers) (nreverse wrappers) (car wrappers)))
+ (let ((wrapper (wrapper-of arg)))
+ (push (if (invalid-wrapper-p wrapper)
+ (check-wrapper-validity wrapper)
+ wrapper)
+ wrappers)))))
(defun pv-wrappers-from-all-args (pv-table args)
- (let ((nkeys 0)
- (slot-name-lists (pv-table-slot-name-lists pv-table)))
- (dolist (sn slot-name-lists)
- (when sn (incf nkeys)))
- (let* ((pv-wrappers (make-list nkeys))
- (pv-w-t pv-wrappers))
- (dolist (sn slot-name-lists)
- (when sn
- (let* ((arg (car args))
- (w (wrapper-of arg)))
- (unless w ; CAN-OPTIMIZE-ACCESS prevents this from happening.
- (error "error in PV-WRAPPERS-FROM-ALL-ARGS"))
- (setf (car pv-w-t) w)
- (setq pv-w-t (cdr pv-w-t))))
- (setq args (cdr args)))
- (when (= nkeys 1) (setq pv-wrappers (car pv-wrappers)))
- pv-wrappers)))
+ (loop for snl in (pv-table-slot-name-lists pv-table) and arg in args
+ when snl
+ collect (wrapper-of arg) into wrappers
+ finally (return (if (cdr wrappers) wrappers (car wrappers)))))
+;;; Return the subset of WRAPPERS which is used in the cache
+;;; of PV-TABLE.
(defun pv-wrappers-from-all-wrappers (pv-table wrappers)
- (let ((nkeys 0)
- (slot-name-lists (pv-table-slot-name-lists pv-table)))
- (dolist (sn slot-name-lists)
- (when sn (incf nkeys)))
- (let* ((pv-wrappers (make-list nkeys))
- (pv-w-t pv-wrappers))
- (dolist (sn slot-name-lists)
- (when sn
- (let ((w (car wrappers)))
- (unless w ; CAN-OPTIMIZE-ACCESS prevents this from happening.
- (error "error in PV-WRAPPERS-FROM-ALL-WRAPPERS"))
- (setf (car pv-w-t) w)
- (setq pv-w-t (cdr pv-w-t))))
- (setq wrappers (cdr wrappers)))
- (when (= nkeys 1) (setq pv-wrappers (car pv-wrappers)))
- pv-wrappers)))
+ (loop for snl in (pv-table-slot-name-lists pv-table) and w in wrappers
+ when snl
+ collect w into result
+ finally (return (if (cdr result) result (car result)))))