;;;; This file contains portable versions of low-level functions and macros ;;;; which are ripe for implementation specific customization. None of the code ;;;; in this file *has* to be customized for a particular Common Lisp ;;;; implementation. Moreover, in some implementations it may not make any ;;;; sense to customize some of this code. ;;;; ;;;; The original version was intended to support portable customization to ;;;; lotso different Lisp implementations. This functionality is gone in the ;;;; current version, and it now runs only under SBCL. (Now that ANSI Common ;;;; Lisp has mixed CLOS into the insides of the system (e.g. error handling ;;;; and printing) so deeply that it's not very meaningful to bootstrap Common ;;;; Lisp without CLOS, the old functionality is of dubious use. -- WHN ;;;; 19981108) ;;;; 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") (eval-when (:compile-toplevel :load-toplevel :execute) (defvar *optimize-speed* '(optimize (speed 3) (safety 0) (sb-ext:inhibit-warnings 3))) ) ; EVAL-WHEN (defmacro dotimes-fixnum ((var count &optional (result nil)) &body body) `(dotimes (,var (the fixnum ,count) ,result) (declare (fixnum ,var)) ,@body)) (declaim (inline random-fixnum)) (defun random-fixnum () (random (1+ most-positive-fixnum))) ;;; Lambda which executes its body (or not) randomly. Used to drop ;;; random cache entries. (defmacro randomly-punting-lambda (lambda-list &body body) (with-unique-names (drops drop-pos) `(let ((,drops (random-fixnum)) (,drop-pos sb-vm:n-fixnum-bits)) (declare (fixnum ,drops) (type (integer 0 #.sb-vm:n-fixnum-bits) ,drop-pos)) (lambda ,lambda-list (when (logbitp (the unsigned-byte (decf ,drop-pos)) ,drops) (locally ,@body)) (when (zerop ,drop-pos) (setf ,drops (random-fixnum) ,drop-pos sb-vm:n-fixnum-bits)))))) ;;;; early definition of WRAPPER ;;;; ;;;; Most WRAPPER stuff is defined later, but the DEFSTRUCT itself ;;;; is here early so that things like (TYPEP .. 'WRAPPER) can be ;;;; compiled efficiently. ;;; Note that for SBCL, as for CMU CL, the WRAPPER of a built-in or ;;; structure class will be some other kind of SB-KERNEL:LAYOUT, but ;;; this shouldn't matter, since the only two slots that WRAPPER adds ;;; are meaningless in those cases. (defstruct (wrapper (:include layout ;; KLUDGE: In CMU CL, the initialization default ;; for LAYOUT-INVALID was NIL. In SBCL, that has ;; changed to :UNINITIALIZED, but PCL code might ;; still expect NIL for the initialization ;; default of WRAPPER-INVALID. Instead of trying ;; to find out, I just overrode the LAYOUT ;; default here. -- WHN 19991204 (invalid nil) ;; This allows quick testing of wrapperness. (for-std-class-p t)) (:constructor make-wrapper-internal) (:copier nil)) (slots () :type list)) #-sb-fluid (declaim (sb-ext:freeze-type wrapper)) ;;;; PCL's view of funcallable instances (!defstruct-with-alternate-metaclass standard-funcallable-instance ;; KLUDGE: Note that neither of these slots is ever accessed by its ;; accessor name as of sbcl-0.pre7.63. Presumably everything works ;; by puns based on absolute locations. Fun fun fun.. -- WHN 2001-10-30 :slot-names (clos-slots name hash-code) :boa-constructor %make-standard-funcallable-instance :superclass-name function :metaclass-name standard-classoid :metaclass-constructor make-standard-classoid :dd-type funcallable-structure ;; Only internal implementation code will access these, and these ;; accesses (slot readers in particular) could easily be a ;; bottleneck, so it seems reasonable to suppress runtime type ;; checks. ;; ;; (Except note KLUDGE above that these accessors aren't used at all ;; (!) as of sbcl-0.pre7.63, so for now it's academic.) :runtime-type-checks-p nil) (import 'sb-kernel:funcallable-instance-p) (defun set-funcallable-instance-function (fin new-value) (declare (type function new-value) ;; KLUDGE: it might be nice to restrict ;; SB-MOP:SET-FUNCALLABLE-INSTANCE-FUNCTION to operate only ;; on generalized instances of ;; SB-MOP:FUNCALLABLE-STANDARD-OBJECT; at present, even ;; PCL's internal use of SET-FUNCALLABLE-INSTANCE-FUNCTION ;; doesn't obey this restriction. (type funcallable-instance fin)) (setf (funcallable-instance-fun fin) new-value)) ;;; FIXME: these macros should just go away. It's not clear whether ;;; the inline functions defined by ;;; !DEFSTRUCT-WITH-ALTERNATE-METACLASS are as efficient as they could ;;; be; ordinary defstruct accessors are defined as source transforms. (defun fsc-instance-p (fin) (funcallable-instance-p fin)) (define-compiler-macro fsc-instance-p (fin) `(funcallable-instance-p ,fin)) (defmacro fsc-instance-wrapper (fin) `(%funcallable-instance-layout ,fin)) (defmacro fsc-instance-slots (fin) `(%funcallable-instance-info ,fin 1)) (defmacro fsc-instance-hash (fin) `(%funcallable-instance-info ,fin 3)) (declaim (inline clos-slots-ref (setf clos-slots-ref))) (declaim (ftype (function (simple-vector index) t) clos-slots-ref)) (defun clos-slots-ref (slots index) (svref slots index)) (declaim (ftype (function (t simple-vector index) t) (setf clos-slots-ref))) (defun (setf clos-slots-ref) (new-value slots index) (setf (svref slots index) new-value)) ;;; Note on implementation under CMU CL >=17 and SBCL: STD-INSTANCE-P ;;; is only used to discriminate between functions (including FINs) ;;; and normal instances, so we can return true on structures also. A ;;; few uses of (OR STD-INSTANCE-P FSC-INSTANCE-P) are changed to ;;; PCL-INSTANCE-P. (defun std-instance-p (x) (%instancep x)) (define-compiler-macro std-instance-p (x) `(%instancep ,x)) ;; a temporary definition used for debugging the bootstrap #+sb-show (defun print-std-instance (instance stream depth) (declare (ignore depth)) (print-unreadable-object (instance stream :type t :identity t) (let ((class (class-of instance))) (when (or (eq class (find-class 'standard-class nil)) (eq class (find-class 'funcallable-standard-class nil)) (eq class (find-class 'built-in-class nil))) (princ (early-class-name instance) stream))))) ;;; This is the value that we stick into a slot to tell us that it is ;;; unbound. It may seem gross, but for performance reasons, we make ;;; this an interned symbol. That means that the fast check to see ;;; whether a slot is unbound is to say (EQ '..SLOT-UNBOUND..). ;;; That is considerably faster than looking at the value of a special ;;; variable. ;;; ;;; It seems only reasonable to also export this for users, since ;;; otherwise dealing with STANDARD-INSTANCE-ACCESS becomes harder ;;; -- and slower -- than it needs to be. (defconstant +slot-unbound+ '..slot-unbound.. "SBCL specific extensions to MOP: if this value is read from an instance using STANDARD-INSTANCE-ACCESS, the slot is unbound. Similarly, an :INSTANCE allocated slot can be made unbound by assigning this to it using (SETF STANDARD-INSTANCE-ACCESS). Value of +SLOT-UNBOUND+ is unspecified, and should not be relied to be of any particular type, but it is guaranteed to be suitable for EQ comparison.") (defmacro %allocate-static-slot-storage--class (no-of-slots) `(make-array ,no-of-slots :initial-element +slot-unbound+)) (defmacro std-instance-class (instance) `(wrapper-class* (std-instance-wrapper ,instance))) ;;; When given a funcallable instance, SET-FUN-NAME *must* side-effect ;;; that FIN to give it the name. When given any other kind of ;;; function SET-FUN-NAME is allowed to return a new function which is ;;; "the same" except that it has the name. ;;; ;;; In all cases, SET-FUN-NAME must return the new (or same) ;;; function. (Unlike other functions to set stuff, it does not return ;;; the new value.) (defun set-fun-name (fun new-name) #+sb-doc "Set the name of a compiled function object. Return the function." (when (valid-function-name-p fun) (setq fun (fdefinition fun))) (typecase fun (%method-function (setf (%method-function-name fun) new-name)) #+sb-eval (sb-eval:interpreted-function (setf (sb-eval:interpreted-function-name fun) new-name)) (funcallable-instance ;; KLUDGE: probably a generic function... (cond ((if (eq **boot-state** 'complete) (typep fun 'generic-function) (eq (class-of fun) *the-class-standard-generic-function*)) (setf (%funcallable-instance-info fun 2) new-name)) (t (bug "unanticipated function type"))))) ;; Fixup name-to-function mappings in cases where the function ;; hasn't been defined by DEFUN. (FIXME: is this right? This logic ;; comes from CMUCL). -- CSR, 2004-12-31 (when (and (consp new-name) (member (car new-name) '(slow-method fast-method slot-accessor))) (setf (fdefinition new-name) fun)) fun) ;;; FIXME: probably no longer needed after init (defmacro precompile-random-code-segments (&optional system) `(progn (eval-when (:compile-toplevel) (update-dispatch-dfuns)) (precompile-function-generators ,system) (precompile-dfun-constructors ,system) (precompile-ctors))) ;;; This definition is for interpreted code. (defun pcl-instance-p (x) (typep (layout-of x) 'wrapper)) ;;; CMU CL comment: ;;; We define this as STANDARD-INSTANCE, since we're going to ;;; clobber the layout with some standard-instance layout as soon as ;;; we make it, and we want the accessor to still be type-correct. #| (defstruct (standard-instance (:predicate nil) (:constructor %%allocate-instance--class ()) (:copier nil) (:alternate-metaclass instance cl:standard-class make-standard-class)) (slots nil)) |# (!defstruct-with-alternate-metaclass standard-instance :slot-names (slots hash-code) :boa-constructor %make-standard-instance :superclass-name t :metaclass-name standard-classoid :metaclass-constructor make-standard-classoid :dd-type structure :runtime-type-checks-p nil) ;;; Both of these operations "work" on structures, which allows the above ;;; weakening of STD-INSTANCE-P. (defmacro std-instance-slots (x) `(%instance-ref ,x 1)) (defmacro std-instance-wrapper (x) `(%instance-layout ,x)) ;;; KLUDGE: This one doesn't "work" on structures. However, we ;;; ensure, in SXHASH and friends, never to call it on structures. (defmacro std-instance-hash (x) `(%instance-ref ,x 2)) ;;; FIXME: These functions are called every place we do a ;;; CALL-NEXT-METHOD, and probably other places too. It's likely worth ;;; selectively optimizing them with DEFTRANSFORMs and stuff, rather ;;; than just indiscriminately expanding them inline everywhere. (declaim (inline get-slots get-slots-or-nil)) (declaim (ftype (function (t) simple-vector) get-slots)) (declaim (ftype (function (t) (or simple-vector null)) get-slots-or-nil)) (defun get-slots (instance) (if (std-instance-p instance) (std-instance-slots instance) (fsc-instance-slots instance))) (defun get-slots-or-nil (instance) ;; Suppress a code-deletion note. FIXME: doing the FIXME above, ;; integrating PCL more with the compiler, would remove the need for ;; this icky stuff. (declare (optimize (inhibit-warnings 3))) (when (pcl-instance-p instance) (get-slots instance))) (defmacro get-wrapper (inst) (once-only ((wrapper `(wrapper-of ,inst))) `(progn (aver (typep ,wrapper 'wrapper)) ,wrapper))) ;;; FIXME: could be an inline function or ordinary function (like many ;;; other things around here) (defmacro get-instance-wrapper-or-nil (inst) (once-only ((wrapper `(wrapper-of ,inst))) `(if (typep ,wrapper 'wrapper) ,wrapper nil))) ;;;; support for useful hashing of PCL instances (defvar *instance-hash-code-random-state* (make-random-state)) (defun get-instance-hash-code () ;; ANSI SXHASH wants us to make a good-faith effort to produce ;; hash-codes that are well distributed within the range of ;; non-negative fixnums, and this RANDOM operation does that, unlike ;; the sbcl<=0.8.16 implementation of this operation as ;; (INCF COUNTER). ;; ;; Hopefully there was no virtue to the old counter implementation ;; that I am insufficiently insightful to insee. -- WHN 2004-10-28 (random most-positive-fixnum *instance-hash-code-random-state*)) (defun sb-impl::sxhash-instance (x) (cond ((std-instance-p x) (std-instance-hash x)) ((fsc-instance-p x) (fsc-instance-hash x)) (t (bug "SXHASH-INSTANCE called on some weird thing: ~S" x)))) ;;;; structure-instance stuff ;;;; ;;;; FIXME: Now that the code is SBCL-only, this extra layer of ;;;; abstraction around our native structure representation doesn't ;;;; seem to add anything useful, and could probably go away. ;;; The definition of STRUCTURE-TYPE-P was moved to early-low.lisp. (defun structure-type-slot-description-list (type) (let* ((dd (find-defstruct-description type)) (include (dd-include dd)) (all-slots (dd-slots dd))) (multiple-value-bind (super slot-overrides) (if (consp include) (values (car include) (mapcar #'car (cdr include))) (values include nil)) (let ((included-slots (when super (dd-slots (find-defstruct-description super))))) (loop for slot = (pop all-slots) for included-slot = (pop included-slots) while slot when (or (not included-slot) (member (dsd-name included-slot) slot-overrides :test #'eq)) collect slot))))) (defun uninitialized-accessor-function (type slotd) (lambda (&rest args) (declare (ignore args)) (error "~:(~A~) function~@[ for ~S ~] not yet initialized." type slotd))) (defun structure-slotd-name (slotd) (dsd-name slotd)) (defun structure-slotd-accessor-symbol (slotd) (dsd-accessor-name slotd)) (defun structure-slotd-reader-function (slotd) (let ((name (dsd-accessor-name slotd))) (if (fboundp name) (fdefinition name) (uninitialized-accessor-function :reader slotd)))) (defun structure-slotd-writer-function (type slotd) (if (dsd-read-only slotd) (let ((dd (find-defstruct-description type))) (coerce (slot-setter-lambda-form dd slotd) 'function)) (let ((name `(setf ,(dsd-accessor-name slotd)))) (if (fboundp name) (fdefinition name) (uninitialized-accessor-function :writer slotd))))) (defun structure-slotd-type (slotd) (dsd-type slotd)) (defun structure-slotd-init-form (slotd) (dsd-default slotd)) ;;; method function stuff. ;;; ;;; PCL historically included a so-called method-fast-function, which ;;; is essentially a method function but with (a) a precomputed ;;; continuation for CALL-NEXT-METHOD and (b) a permutation vector for ;;; slot access. [ FIXME: see if we can understand these two ;;; optimizations before commit. ] However, the presence of the ;;; fast-function meant that we violated AMOP and the effect of the ;;; :FUNCTION initarg, and furthermore got to potentially confusing ;;; situations where the function and the fast-function got out of ;;; sync, so that calling (method-function method) with the defined ;;; protocol would do different things from (call-method method) in ;;; method combination. ;;; ;;; So we define this internal method function structure, which we use ;;; when we create a method function ourselves. This means that we ;;; can hang the various bits of information that we want off the ;;; method function itself, and also that if a user overrides method ;;; function creation there is no danger of having the system get ;;; confused. (!defstruct-with-alternate-metaclass %method-function :slot-names (fast-function name) :boa-constructor %make-method-function :superclass-name function :metaclass-name static-classoid :metaclass-constructor make-static-classoid :dd-type funcallable-structure)