;;;; permutation vectors ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; This software is derived from software originally released by Xerox ;;;; Corporation. Copyright and release statements follow. Later modifications ;;;; to the software are in the public domain and are provided with ;;;; absolutely no warranty. See the COPYING and CREDITS files for more ;;;; information. ;;;; copyright information from original PCL sources: ;;;; ;;;; Copyright (c) 1985, 1986, 1987, 1988, 1989, 1990 Xerox Corporation. ;;;; All rights reserved. ;;;; ;;;; Use and copying of this software and preparation of derivative works based ;;;; upon this software are permitted. Any distribution of this software or ;;;; derivative works must comply with all applicable United States export ;;;; control laws. ;;;; ;;;; This software is made available AS IS, and Xerox Corporation makes no ;;;; warranty about the software, its performance or its conformity to any ;;;; specification. (in-package "SB-PCL") (defmacro instance-slot-index (wrapper slot-name) `(let ((pos 0)) (declare (fixnum pos)) (block loop (dolist (sn (wrapper-instance-slots-layout ,wrapper)) (when (eq ,slot-name sn) (return-from loop pos)) (incf pos))))) (defstruct (pv-table (:predicate pv-tablep) (:constructor make-pv-table-internal (slot-name-lists call-list)) (:copier nil)) (cache nil :type (or cache null)) (pv-size 0 :type fixnum) (slot-name-lists nil :type list) (call-list nil :type list)) #-sb-fluid (declaim (sb-ext:freeze-type pv-table)) ;;; FIXME: The comment below seem to indicate that this was intended ;;; to be actually used, however, it isn't anymore, and was commented ;;; out at 0.9.13.47. Also removed was code in MAKE-PV-TABLE that ;;; pushed each new PV-TABLE onto this list. --NS 2006-06-18 ;;; ;;; help new slot-value-using-class methods affect fast iv access ;;; ;;; (defvar *all-pv-table-list* nil) (declaim (inline make-pv-table)) (defun make-pv-table (&key slot-name-lists call-list) (make-pv-table-internal slot-name-lists call-list)) (defun make-pv-table-type-declaration (var) `(type pv-table ,var)) (defvar *slot-name-lists-inner* (make-hash-table :test 'equal)) (defvar *slot-name-lists-outer* (make-hash-table :test 'equal)) ;;; Entries in this are lists of (table . pv-offset-list). (defvar *pv-key-to-pv-table-table* (make-hash-table :test 'equal)) (defun intern-pv-table (&key slot-name-lists call-list) (let ((new-p nil)) (flet ((inner (x) (or (gethash x *slot-name-lists-inner*) (setf (gethash x *slot-name-lists-inner*) (copy-list x)))) (outer (x) (or (gethash x *slot-name-lists-outer*) (setf (gethash x *slot-name-lists-outer*) (let ((snl (copy-list (cdr x))) (cl (car x))) (setq new-p t) (make-pv-table :slot-name-lists snl :call-list cl)))))) (let ((pv-table (outer (mapcar #'inner (cons call-list slot-name-lists))))) (when new-p (let ((pv-index 0)) (dolist (slot-name-list slot-name-lists) (dolist (slot-name (cdr slot-name-list)) (note-pv-table-reference slot-name pv-index pv-table) (incf pv-index))) (dolist (gf-call call-list) (note-pv-table-reference gf-call pv-index pv-table) (incf pv-index)) (setf (pv-table-pv-size pv-table) pv-index))) pv-table)))) (defun note-pv-table-reference (ref pv-offset pv-table) (let ((entry (gethash ref *pv-key-to-pv-table-table*))) (when (listp entry) (let ((table-entry (assq pv-table entry))) (when (and (null table-entry) (> (length entry) 8)) (let ((new-table-table (make-hash-table :size 16 :test 'eq))) (dolist (table-entry entry) (setf (gethash (car table-entry) new-table-table) (cdr table-entry))) (setf (gethash ref *pv-key-to-pv-table-table*) new-table-table))) (when (listp entry) (if (null table-entry) (let ((new (cons pv-table pv-offset))) (if (consp entry) (push new (cdr entry)) (setf (gethash ref *pv-key-to-pv-table-table*) (list new)))) (push pv-offset (cdr table-entry))) (return-from note-pv-table-reference nil)))) (let ((list (gethash pv-table entry))) (if (consp list) (push pv-offset (cdr list)) (setf (gethash pv-table entry) (list pv-offset))))) nil) (defun map-pv-table-references-of (ref function) (let ((entry (gethash ref *pv-key-to-pv-table-table*))) (if (listp entry) (dolist (table+pv-offset-list entry) (funcall function (car table+pv-offset-list) (cdr table+pv-offset-list))) (maphash function entry))) ref) (defun optimize-slot-value-by-class-p (class slot-name type) (or (not (eq *boot-state* 'complete)) (let ((slotd (find-slot-definition class slot-name))) (and slotd (slot-accessor-std-p slotd type))))) (defun compute-pv-slot (slot-name wrapper class class-slots) (if (symbolp slot-name) (when (optimize-slot-value-by-class-p class slot-name 'all) (or (instance-slot-index wrapper slot-name) (assq slot-name class-slots))) (when (consp slot-name) (case (first slot-name) ((reader writer) (when (eq *boot-state* 'complete) (let ((gf (gdefinition (second slot-name)))) (when (generic-function-p gf) (accessor-values1 gf (first slot-name) class))))) (t (bug "Don't know how to deal with ~S in ~S" slot-name 'compute-pv-slots)))))) (defun compute-pv (slot-name-lists wrappers) (unless (listp wrappers) (setq wrappers (list wrappers))) (let (elements) (dolist (slot-names slot-name-lists (make-permutation-vector (nreverse elements))) (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)) (push (if std-p (compute-pv-slot slot-name wrapper class class-slots) nil) elements))))))) (defun compute-calls (call-list wrappers) (declare (ignore call-list wrappers)) #|| (map 'vector (lambda (call) (compute-emf-from-wrappers call wrappers)) call-list) ||# '#()) #|| ; Need to finish this, then write the maintenance functions. (defun compute-emf-from-wrappers (call wrappers) (when call (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)))))))) ||# (defun make-permutation-vector (indexes) (make-array (length indexes) :initial-contents indexes)) (defun pv-table-lookup (pv-table pv-wrappers) (let* ((slot-name-lists (pv-table-slot-name-lists pv-table)) (call-list (pv-table-call-list pv-table)) (cache (or (pv-table-cache pv-table) (setf (pv-table-cache pv-table) (make-cache :key-count (- (length slot-name-lists) (count nil slot-name-lists)) :value t :size 2))))) (multiple-value-bind (hitp value) (probe-cache cache pv-wrappers) (if hitp value (let* ((pv (compute-pv slot-name-lists pv-wrappers)) (calls (compute-calls call-list pv-wrappers)) (pv-cell (cons pv calls)) (new-cache (fill-cache cache pv-wrappers pv-cell))) ;; This is safe: if another thread races us here the loser just ;; misses the next time as well. (unless (eq new-cache cache) (setf (pv-table-cache pv-table) new-cache)) pv-cell))))) (defun make-pv-type-declaration (var) `(type simple-vector ,var)) (defmacro copy-pv (pv) `(copy-seq ,pv)) (defun make-calls-type-declaration (var) `(type simple-vector ,var)) (defmacro callsref (calls index) `(svref ,calls ,index)) (defvar *pv-table-cache-update-info* nil) (defun update-pv-table-cache-info (class) (let ((slot-names-for-pv-table-update nil) (new-icui nil)) (dolist (icu *pv-table-cache-update-info*) (if (eq (car icu) class) (pushnew (cdr icu) slot-names-for-pv-table-update) (push icu new-icui))) (setq *pv-table-cache-update-info* new-icui) (when slot-names-for-pv-table-update (update-all-pv-table-caches class slot-names-for-pv-table-update)))) (defun update-all-pv-table-caches (class slot-names) (let* ((cwrapper (class-wrapper class)) (std-p (typep cwrapper 'wrapper)) (class-slots (and std-p (wrapper-class-slots cwrapper))) (new-values (mapcar (lambda (slot-name) (cons slot-name (if std-p (compute-pv-slot slot-name cwrapper class class-slots) nil))) 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)))) (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 0) (param-index 0)) (dolist (slot-name-list slot-name-lists) (dolist (slot-name (cdr slot-name-list)) (let ((a (assoc slot-name new-values))) (setf (svref pv-map map-index) (and a (cons param-index (cdr a))))) (incf map-index)) (incf param-index))) (when cache (map-cache (lambda (wrappers 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) (if (atom wrappers) (when (eq cwrapper wrappers) (dotimes-fixnum (i pv-size) (let ((map (svref pv-map i))) (when map (aver (= (car map) 0)) (setf (svref pv i) (cdr map)))))) (when (memq cwrapper wrappers) (let ((param 0)) (dolist (wrapper wrappers) (when (eq wrapper cwrapper) (dotimes-fixnum (i pv-size) (let ((map (svref pv-map i))) (when (and map (= (car map) param)) (setf (svref pv i) (cdr map)))))) (incf param)))))) (defun can-optimize-access (form required-parameters env) (destructuring-bind (op var-form slot-name-form &optional new-value) form (let ((type (ecase op (slot-value 'reader) (set-slot-value 'writer) (slot-boundp 'boundp))) (var (extract-the var-form)) (slot-name (constant-form-value slot-name-form env))) (when (symbolp var) (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 (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)))) (setq class nil)) (when (and class-name (not (eq class-name t))) (when (or (null type) (not (and class (memq *the-class-structure-object* (class-precedence-list class)))) (optimize-slot-value-by-class-p class slot-name type)) (values (cons parameter-or-nil (or class class-name)) slot-name new-value)))))))))) ;;; Check whether the binding of the named variable is modified in the ;;; method body. (defun parameter-modified-p (parameter-name env) (let ((modified-variables (macroexpand '%parameter-binding-modified env))) (memq parameter-name modified-variables))) (defun optimize-slot-value (form slots required-parameters env) (multiple-value-bind (sparameter slot-name) (can-optimize-access form required-parameters env) (if sparameter (let ((optimized-form (optimize-instance-access slots :read sparameter slot-name nil))) ;; We don't return the optimized form directly, since there's ;; still a chance that we'll find out later on that the ;; optimization should not have been done, for example due to ;; the walker encountering a SETQ on SPARAMETER later on in ;; the body [ see for example clos.impure.lisp test with :name ;; ((:setq :method-parameter) slot-value)) ]. Instead we defer ;; the decision until the compiler macroexpands ;; OPTIMIZED-SLOT-VALUE. ;; ;; Note that we must still call OPTIMIZE-INSTANCE-ACCESS at ;; this point (instead of when expanding ;; OPTIMIZED-SLOT-VALUE), since it mutates the structure of ;; SLOTS. If that mutation isn't done during the walking, ;; MAKE-METHOD-LAMBDA-INTERNAL won't wrap a correct PV-BINDING ;; form around the body, and compilation will fail. -- JES, ;; 2006-09-18 `(optimized-slot-value ,form ,(car sparameter) ,optimized-form)) `(accessor-slot-value ,@(cdr form))))) (defmacro optimized-slot-value (form parameter-name optimized-form &environment env) ;; Either use OPTIMIZED-FORM or fall back to the safe ;; ACCESSOR-SLOT-VALUE. (if (parameter-modified-p parameter-name env) `(accessor-slot-value ,@(cdr form)) optimized-form)) (defun optimize-set-slot-value (form slots required-parameters env) (multiple-value-bind (sparameter slot-name new-value) (can-optimize-access form required-parameters env) (if sparameter (let ((optimized-form (optimize-instance-access slots :write sparameter slot-name new-value))) ;; See OPTIMIZE-SLOT-VALUE `(optimized-set-slot-value ,form ,(car sparameter) ,optimized-form)) `(accessor-set-slot-value ,@(cdr form))))) (defmacro optimized-set-slot-value (form parameter-name optimized-form &environment env) (cond ((safe-code-p env) ;; Don't optimize slot value setting in safe code, since the ;; optimized version will fail to catch some type errors ;; (for example when a subclass declares a tighter type for ;; the slot than a superclass). `(safe-set-slot-value ,@(cdr form))) ((parameter-modified-p parameter-name env) `(accessor-set-slot-value ,@(cdr form))) (t optimized-form))) (defun optimize-slot-boundp (form slots required-parameters env) (multiple-value-bind (sparameter slot-name) (can-optimize-access form required-parameters env) (if sparameter (let ((optimized-form (optimize-instance-access slots :boundp sparameter slot-name nil))) ;; See OPTIMIZE-SLOT-VALUE `(optimized-slot-boundp ,form ,(car sparameter) ,optimized-form)) `(accessor-slot-boundp ,@(cdr form))))) (defmacro optimized-slot-boundp (form parameter-name optimized-form &environment env) (if (parameter-modified-p parameter-name env) `(accessor-slot-boundp ,@(cdr form)) optimized-form)) ;;; The SLOTS argument is an alist, the CAR of each entry is the name ;;; of a required parameter to the function. The alist is in order, so ;;; the position of an entry in the alist corresponds to the ;;; argument's position in the lambda list. (defun optimize-instance-access (slots read/write sparameter slot-name new-value) (let ((class (if (consp sparameter) (cdr sparameter) *the-class-t*)) (parameter (if (consp sparameter) (car sparameter) sparameter))) (if (and (eq *boot-state* 'complete) (classp class) (memq *the-class-structure-object* (class-precedence-list class))) (let ((slotd (find-slot-definition class slot-name))) (ecase read/write (:read `(,(slot-definition-defstruct-accessor-symbol slotd) ,parameter)) (:write `(setf (,(slot-definition-defstruct-accessor-symbol slotd) ,parameter) ,new-value)) (:boundp t))) (let* ((parameter-entry (assq parameter slots)) (slot-entry (assq slot-name (cdr parameter-entry))) (position (posq parameter-entry slots)) (pv-offset-form (list 'pv-offset ''.PV-OFFSET.))) (unless parameter-entry (bug "slot optimization bewilderment: O-I-A")) (unless slot-entry (setq slot-entry (list slot-name)) (push slot-entry (cdr parameter-entry))) (push pv-offset-form (cdr slot-entry)) (ecase read/write (:read `(instance-read ,pv-offset-form ,parameter ,position ',slot-name ',class)) (:write `(let ((.new-value. ,new-value)) (instance-write ,pv-offset-form ,parameter ,position ',slot-name ',class .new-value.))) (:boundp `(instance-boundp ,pv-offset-form ,parameter ,position ',slot-name ',class))))))) (define-walker-template pv-offset) ; These forms get munged by mutate slots. (defmacro pv-offset (arg) arg) (define-walker-template instance-accessor-parameter) (defmacro instance-accessor-parameter (x) x) ;;; It is safe for these two functions to be wrong. They just try to ;;; guess what the most likely case will be. (defun generate-fast-class-slot-access-p (class-form slot-name-form) (let ((class (and (constantp class-form) (constant-form-value class-form))) (slot-name (and (constantp slot-name-form) (constant-form-value slot-name-form)))) (and (eq *boot-state* 'complete) (standard-class-p class) (not (eq class *the-class-t*)) ; shouldn't happen, though. (let ((slotd (find-slot-definition class slot-name))) (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) (constant-form-value class-form))) (slot-name (and (constantp slot-name-form) (constant-form-value slot-name-form)))) (and (eq *boot-state* 'complete) (standard-class-p class) (not (eq class *the-class-t*)) ; shouldn't happen, though. (let ((slotd (find-slot-definition class slot-name))) (and slotd (skip-optimize-slot-value-by-class-p class slot-name type)))))) (defun skip-optimize-slot-value-by-class-p (class slot-name type) (let ((slotd (find-slot-definition class slot-name))) (and slotd (eq *boot-state* 'complete) (not (slot-accessor-std-p slotd type))))) (defmacro instance-read-internal (pv slots pv-offset default &optional kind) (unless (member kind '(nil :instance :class :default)) (error "illegal kind argument to ~S: ~S" 'instance-read-internal kind)) (if (eq kind :default) default (let* ((index (gensym)) (value index)) `(locally (declare #.*optimize-speed*) (let ((,index (svref ,pv ,pv-offset))) (setq ,value (typecase ,index ;; FIXME: the line marked by KLUDGE below ;; (and the analogous spot in ;; INSTANCE-WRITE-INTERNAL) is there purely ;; to suppress a type mismatch warning that ;; propagates through to user code. ;; Presumably SLOTS at this point can never ;; actually be NIL, but the compiler seems ;; to think it could, so we put this here ;; to shut it up. (see also mail Rudi ;; Schlatte sbcl-devel 2003-09-21) -- CSR, ;; 2003-11-30 ,@(when (or (null kind) (eq kind :instance)) `((fixnum (and ,slots ; KLUDGE (clos-slots-ref ,slots ,index))))) ,@(when (or (null kind) (eq kind :class)) `((cons (cdr ,index)))) (t +slot-unbound+))) (if (eq ,value +slot-unbound+) ,default ,value)))))) (defmacro instance-read (pv-offset parameter position slot-name class) (if (skip-fast-slot-access-p class slot-name 'reader) `(accessor-slot-value ,parameter ,slot-name) `(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)))) (defmacro instance-write-internal (pv slots pv-offset new-value default &optional kind) (unless (member kind '(nil :instance :class :default)) (error "illegal kind argument to ~S: ~S" 'instance-write-internal kind)) (if (eq kind :default) default (let* ((index (gensym))) `(locally (declare #.*optimize-speed*) (let ((,index (svref ,pv ,pv-offset))) (typecase ,index ,@(when (or (null kind) (eq kind :instance)) `((fixnum (and ,slots (setf (clos-slots-ref ,slots ,index) ,new-value))))) ,@(when (or (null kind) (eq kind :class)) `((cons (setf (cdr ,index) ,new-value)))) (t ,default))))))) (defmacro instance-write (pv-offset parameter position slot-name class new-value) (if (skip-fast-slot-access-p class slot-name 'writer) `(accessor-set-slot-value ,parameter ,slot-name ,new-value) `(instance-write-internal .pv. ,(slot-vector-symbol position) ,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)))) (defmacro instance-boundp-internal (pv slots pv-offset default &optional kind) (unless (member kind '(nil :instance :class :default)) (error "illegal kind argument to ~S: ~S" 'instance-boundp-internal kind)) (if (eq kind :default) default (let* ((index (gensym))) `(locally (declare #.*optimize-speed*) (let ((,index (svref ,pv ,pv-offset))) (typecase ,index ,@(when (or (null kind) (eq kind :instance)) `((fixnum (not (and ,slots (eq (clos-slots-ref ,slots ,index) +slot-unbound+)))))) ,@(when (or (null kind) (eq kind :class)) `((cons (not (eq (cdr ,index) +slot-unbound+))))) (t ,default))))))) (defmacro instance-boundp (pv-offset parameter position slot-name class) (if (skip-fast-slot-access-p class slot-name 'boundp) `(accessor-slot-boundp ,parameter ,slot-name) `(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)))) ;;; This magic function has quite a job to do indeed. ;;; ;;; The careful reader will recall that contains all of the ;;; optimized slot access forms produced by OPTIMIZE-INSTANCE-ACCESS. ;;; Each of these is a call to either INSTANCE-READ or INSTANCE-WRITE. ;;; ;;; At the time these calls were produced, the first argument was ;;; specified as the symbol .PV-OFFSET.; what we have to do now is ;;; convert those pv-offset arguments into the actual number that is ;;; the correct offset into the pv. ;;; ;;; But first, oh but first, we sort a bit so that for each ;;; argument we have the slots in alphabetical order. This ;;; canonicalizes the PV-TABLE's a bit and will hopefully lead to ;;; having fewer PV's floating around. Even if the gain is only ;;; modest, it costs nothing. (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)))) slots)) (call-list (mapcar #'car calls))) (dolist (call call-list) (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)) slot-name-lists)) (let ((cvt (apply #'vector (let ((i -1)) (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)))) call-list))) (values slot-name-lists call-list)))) (defun mutate-slots-and-calls (slots calls) (let ((sorted-slots (sort-slots slots)) (sorted-calls (sort-calls (cdr calls))) (pv-offset -1)) (dolist (parameter-entry sorted-slots) (dolist (slot-entry (cdr parameter-entry)) (incf pv-offset) (dolist (form (cdr slot-entry)) (setf (cadr form) pv-offset)))) (dolist (call-entry sorted-calls) (incf pv-offset) (dolist (form (cdr call-entry)) (setf (cadr form) pv-offset))) (values sorted-slots sorted-calls))) (defun symbol-pkg-name (sym) (let ((pkg (symbol-package sym))) (if pkg (package-name pkg) ""))) ;;; FIXME: Because of the existence of UNINTERN and RENAME-PACKAGE, ;;; the part of this ordering which is based on SYMBOL-PKG-NAME is not ;;; stable. This ordering is only used in to ;;; SLOT-NAME-LISTS-FROM-SLOTS, where it serves to "canonicalize the ;;; PV-TABLE's a bit and will hopefully lead to having fewer PV's ;;; floating around", so it sounds as though the instability won't ;;; actually lead to bugs, just small inefficiency. But still, it ;;; would be better to reimplement this function as a comparison based ;;; on SYMBOL-HASH: ;;; * stable comparison ;;; * smaller code (here, and in being able to discard SYMBOL-PKG-NAME) ;;; * faster code. (defun symbol-lessp (a b) (if (eq (symbol-package a) (symbol-package b)) (string-lessp (symbol-name a) (symbol-name b)) (string-lessp (symbol-pkg-name a) (symbol-pkg-name b)))) (defun symbol-or-cons-lessp (a b) (etypecase a (symbol (etypecase b (symbol (symbol-lessp a b)) (cons t))) (cons (etypecase b (symbol nil) (cons (if (eq (car a) (car b)) (symbol-or-cons-lessp (cdr a) (cdr b)) (symbol-or-cons-lessp (car a) (car b)))))))) (defun sort-slots (slots) (mapcar (lambda (parameter-entry) (cons (car parameter-entry) (sort (cdr parameter-entry) ;slot entries #'symbol-or-cons-lessp :key #'car))) slots)) (defun sort-calls (calls) (sort calls #'symbol-or-cons-lessp :key #'car)) ;;;; This needs to work in terms of metatypes and also needs to work ;;;; for automatically generated reader and writer functions. ;;;; Automatically generated reader and writer functions use this ;;;; stuff too. (defmacro pv-binding ((required-parameters slot-name-lists pv-table-form) &body body) (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-form ,(nreverse pv-parameters) ,(nreverse slot-vars)) ,@body))) (defmacro pv-binding1 ((pv calls pv-table-form pv-parameters slot-vars) &body body) `(pv-env (,pv ,calls ,pv-table-form ,pv-parameters) (let (,@(mapcar (lambda (slot-var p) `(,slot-var (get-slots-or-nil ,p))) slot-vars pv-parameters)) (declare (ignorable ,@(mapcar #'identity slot-vars))) ,@body))) ;;; This will only be visible in PV-ENV when the default MAKE-METHOD-LAMBDA is ;;; overridden. (define-symbol-macro pv-env-environment overridden) (defmacro pv-env (&environment env (pv calls pv-table-form pv-parameters) &rest forms) ;; Decide which expansion to use based on the state of the PV-ENV-ENVIRONMENT ;; symbol-macrolet. (if (eq (macroexpand 'pv-env-environment env) 'default) `(let ((,pv (car .pv-cell.)) (,calls (cdr .pv-cell.))) (declare ,(make-pv-type-declaration pv) ,(make-calls-type-declaration calls)) ,pv ,calls ,@forms) `(let* ((.pv-table. ,pv-table-form) (.pv-cell. (pv-table-lookup-pv-args .pv-table. ,@pv-parameters)) (,pv (car .pv-cell.)) (,calls (cdr .pv-cell.))) (declare ,(make-pv-type-declaration pv)) (declare ,(make-calls-type-declaration calls)) ,pv ,calls ,@forms))) (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 muffle-conditions inline notinline)) (defvar *var-declarations-with-arg* '(%class type)) (defvar *var-declarations-without-arg* '(ignore ignorable special dynamic-extent ;; FIXME: Possibly this entire list and variable could go away. ;; If not, certainly we should remove all these built-in typenames ;; from the list, and replace them with a test for "is it a type ;; name?" (CLTL1 allowed only built-in type names as declarations, ;; but ANSI CL allows any type name as a declaration.) array atom base-char bignum bit bit-vector character compiled-function complex cons double-float extended-char fixnum float function hash-table integer keyword list long-float nil null number package pathname random-state ratio rational readtable sequence short-float signed-byte simple-array simple-bit-vector simple-string simple-vector single-float standard-char stream string symbol t unsigned-byte vector)) (defun split-declarations (body args maybe-reads-params-p) (let ((inner-decls nil) (outer-decls nil) decl) (loop (when (null body) (return nil)) (setq decl (car body)) (unless (and (consp decl) (eq (car decl) 'declare)) (return nil)) (dolist (form (cdr decl)) (when (consp form) (let ((declaration-name (car form))) (if (member declaration-name *non-var-declarations*) (push `(declare ,form) outer-decls) (let ((arg-p (member declaration-name *var-declarations-with-arg*)) (non-arg-p (member declaration-name *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 *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 ;; do this right, we need to be able to handle ;; user-defined (DECLAIM (DECLARATION FOO)) ;; stuff.) (warn "The declaration ~S is not understood by ~S.~@ Please put ~S on one of the lists ~S,~%~S, or~%~S.~@ (Assuming it is a variable declaration without argument)." declaration-name 'split-declarations declaration-name '*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))))) (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 maybe-reads-params-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 (slow-method ,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 ; 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))) (eq 'simple-lexical-method-functions (car lmf)) (eq (car method-lambda-args) (cadr (setq lmf-params (cadr lmf)))) (eq (cadr method-lambda-args) (caddr lmf-params)))) `(list* :function ,(name-method-lambda method-lambda) ',initargs) (let* ((lambda-list (car lmf-params)) (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 args (nreverse args)) (setf (getf (getf initargs 'plist) :arg-info) (cons nreq restp)) (make-method-initargs-form-internal1 initargs (cddr lmf) args lmf-params restp))))) (defun lambda-list-parameter-names (lambda-list) ;; Given a valid lambda list, extract the parameter names. (loop for x in lambda-list with res = nil do (unless (member x lambda-list-keywords) (if (consp x) (let ((name (car x))) (if (consp name) ;; ... ((:BAR FOO) 1) (push (second name) res) ;; ... (FOO 1) (push name res)) ;; ... (... 1 FOO-P) (let ((name-p (cddr x))) (when name-p (push (car name-p) res)))) ;; ... FOO (push x res))) finally (return res))) (defun make-method-initargs-form-internal1 (initargs body req-args lmf-params restp) (let* (;; The lambda-list of the method, minus specifiers (lambda-list (car lmf-params)) ;; Names of the parameters that will be in the outermost lambda-list ;; (and whose bound declarations thus need to be in OUTER-DECLS). (outer-parameters req-args) ;; The lambda-list used by BIND-ARGS (bind-list lambda-list) (setq-p (getf (cdr lmf-params) :setq-p)) (auxp (member '&aux bind-list)) (call-next-method-p (getf (cdr lmf-params) :call-next-method-p))) ;; Try to use the normal function call machinery instead of BIND-ARGS ;; binding the arguments, unless: (unless (or ;; If all arguments are required, BIND-ARGS will be a no-op ;; in any case. (and (not restp) (not auxp)) ;; CALL-NEXT-METHOD wants to use BIND-ARGS, and needs a ;; list of all non-required arguments. call-next-method-p) (setf ;; We don't want a binding for .REST-ARG. restp nil ;; Get all the parameters for declaration parsing outer-parameters (lambda-list-parameter-names lambda-list) ;; Ensure that BIND-ARGS won't do anything (since ;; BIND-LIST won't contain any non-required parameters, ;; and REQ-ARGS will be of an equal length). We still want ;; to pass BIND-LIST to FAST-LEXICAL-METHOD-FUNCTIONS so ;; that BIND-FAST-LEXICAL-METHOD-FUNCTIONS can take care ;; of rebinding SETQd required arguments around the method ;; body. bind-list req-args)) (multiple-value-bind (outer-decls inner-decls body-sans-decls) (split-declarations body outer-parameters (or call-next-method-p setq-p)) (let* ((rest-arg (when restp '.rest-arg.)) (fmf-lambda-list (if rest-arg (append req-args (list '&rest rest-arg)) (if call-next-method-p req-args lambda-list)))) `(list* :function (let* ((fmf (,(if (body-method-name body) 'named-lambda 'lambda) ,@(when (body-method-name body) ;; function name (list (cons 'fast-method (body-method-name body)))) ;; The lambda-list of the FMF (.pv-cell. .next-method-call. ,@fmf-lambda-list) ;; body of the function (declare (ignorable .pv-cell. .next-method-call.) (disable-package-locks pv-env-environment)) ,@outer-decls (symbol-macrolet ((pv-env-environment default)) (fast-lexical-method-functions (,bind-list .next-method-call. ,req-args ,rest-arg ,@(cdddr lmf-params)) ,@inner-decls ,@body-sans-decls)))) (mf (%make-method-function fmf nil))) (set-funcallable-instance-function mf (method-function-from-fast-function fmf ',(getf initargs 'plist))) mf) ',initargs))))) ;;; Use arrays and hash tables and the fngen stuff to make this much ;;; better. It doesn't really matter, though, because a function ;;; returned by this will get called only when the user explicitly ;;; funcalls a result of method-function. BUT, this is needed to make ;;; early methods work. (defun method-function-from-fast-function (fmf plist) (declare (type function fmf)) (let* ((method-function nil) (calls (getf plist :call-list)) (snl (getf plist :slot-name-lists)) (pv-table (when (or calls snl) (intern-pv-table :call-list calls :slot-name-lists snl))) (arg-info (getf plist :arg-info)) (nreq (car arg-info)) (restp (cdr arg-info))) (setq method-function (lambda (method-args next-methods) (let* ((pv-cell (when pv-table (get-pv-cell 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))))) (apply fmf pv-cell nmc method-args)))) ;; FIXME: this looks dangerous. (let* ((fname (%fun-name fmf))) (when (and fname (eq (car fname) 'fast-method)) (set-fun-name method-function (cons 'slow-method (cdr fname))))) method-function)) ;;; this is similar to the above, only not quite. Only called when ;;; the MOP is heavily involved. Not quite parallel to ;;; METHOD-FUNCTION-FROM-FAST-METHOD-FUNCTION, because we can close ;;; over the actual PV-CELL in this case. (defun method-function-from-fast-method-call (fmc) (let* ((fmf (fast-method-call-function fmc)) (pv-cell (fast-method-call-pv-cell fmc)) (arg-info (fast-method-call-arg-info fmc)) (nreq (car arg-info)) (restp (cdr arg-info))) (lambda (method-args next-methods) (let* ((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))))) (apply fmf pv-cell nmc method-args))))) (defun get-pv-cell (method-args pv-table) (let ((pv-wrappers (pv-wrappers-from-all-args pv-table method-args))) (when pv-wrappers (pv-table-lookup pv-table pv-wrappers)))) (defun pv-table-lookup-pv-args (pv-table &rest pv-parameters) (pv-table-lookup pv-table (pv-wrappers-from-pv-args pv-parameters))) (defun pv-wrappers-from-pv-args (&rest args) (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) (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) (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)))))