;;;; 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))) ) ; EVAL-WHEN (defmacro dotimes-fixnum ((var count &optional (result nil)) &body body) `(dotimes (,var (the fixnum ,count) ,result) (declare (fixnum ,var)) ,@body)) (defmacro instance-ref (slots index) `(svref ,slots ,index)) ;;; 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. (defmacro std-instance-p (x) `(sb-kernel:%instancep ,x)) (defmacro get-slots (inst) `(cond ((std-instance-p ,inst) (std-instance-slots ,inst)) ((fsc-instance-p ,inst) (fsc-instance-slots ,inst)) (t (error "What kind of instance is this?")))) ;; 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. Be careful, there are places in ;;; the code which actually use ..slot-unbound.. rather than this variable. So ;;; much for modularity.. ;;; ;;; FIXME: Now that we're tightly integrated into SBCL, we could use the ;;; SBCL built-in unbound value token instead. (defconstant +slot-unbound+ '..slot-unbound..) (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))) ;;; SET-FUNCTION-NAME ;;; ;;; When given a function should give this function the name . ;;; Note that is sometimes a list. Some lisps get the upset ;;; in the tummy when they start thinking about functions which have ;;; lists as names. To deal with that there is set-function-name-intern ;;; which takes a list spec for a function name and turns it into a symbol ;;; if need be. ;;; ;;; When given a funcallable instance, set-function-name MUST side-effect ;;; that FIN to give it the name. When given any other kind of function ;;; set-function-name is allowed to return new function which is the 'same' ;;; except that it has the name. ;;; ;;; In all cases, set-function-name must return the new (or same) function. ;;; (Unlike other functions to set stuff, it does not return the new value.) (defun set-function-name (fcn new-name) #+sb-doc "Set the name of a compiled function object. Return the function." (declare (special *boot-state* *the-class-standard-generic-function*)) (cond ((symbolp fcn) (set-function-name (symbol-function fcn) new-name)) ((funcallable-instance-p fcn) (if (if (eq *boot-state* 'complete) (typep fcn 'generic-function) (eq (class-of fcn) *the-class-standard-generic-function*)) (setf (sb-kernel:%funcallable-instance-info fcn 1) new-name) (typecase fcn (sb-kernel:byte-closure (set-function-name (sb-kernel:byte-closure-function fcn) new-name)) (sb-kernel:byte-function (setf (sb-kernel:byte-function-name fcn) new-name)) (sb-eval:interpreted-function (setf (sb-eval:interpreted-function-name fcn) new-name)))) fcn) (t ;; pw-- This seems wrong and causes trouble. Tests show ;; that loading CL-HTTP resulted in ~5400 closures being ;; passed through this code of which ~4000 of them pointed ;; to but 16 closure-functions, including 1015 each of ;; DEFUN MAKE-OPTIMIZED-STD-WRITER-METHOD-FUNCTION ;; DEFUN MAKE-OPTIMIZED-STD-READER-METHOD-FUNCTION ;; DEFUN MAKE-OPTIMIZED-STD-BOUNDP-METHOD-FUNCTION. ;; Since the actual functions have been moved by PURIFY ;; to memory not seen by GC, changing a pointer there ;; not only clobbers the last change but leaves a dangling ;; pointer invalid after the next GC. Comments in low.lisp ;; indicate this code need do nothing. Setting the ;; function-name to NIL loses some info, and not changing ;; it loses some info of potential hacking value. So, ;; lets not do this... #+nil (let ((header (sb-kernel:%closure-function fcn))) (setf (sb-c::%function-name header) new-name)) ;; Maybe add better scheme here someday. fcn))) (defun intern-function-name (name) (cond ((symbolp name) name) ((listp name) (intern (let ((*package* *pcl-package*) (*print-case* :upcase) (*print-pretty* nil) (*print-gensym* 't)) (format nil "~S" name)) *pcl-package*)))) ;;; FIXME: probably no longer needed after init (defmacro precompile-random-code-segments (&optional system) `(progn (eval-when (:compile-toplevel) (update-dispatch-dfuns) (compile-iis-functions nil)) (precompile-function-generators ,system) (precompile-dfun-constructors ,system) (precompile-iis-functions ,system) (eval-when (:load-toplevel) (compile-iis-functions t)))) (defun record-definition (type spec &rest args) (declare (ignore type spec args)) ()) (defun doctor-dfun-for-the-debugger (gf dfun) (declare (ignore gf)) dfun) ;;; This definition is for interpreted code. (defun pcl-instance-p (x) (typep (sb-kernel:layout-of x) 'wrapper)) ;;; 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 sb-kernel:instance cl:standard-class sb-kernel:make-standard-class)) (slots nil)) ;;; Both of these operations "work" on structures, which allows the above ;;; weakening of STD-INSTANCE-P. (defmacro std-instance-slots (x) `(sb-kernel:%instance-ref ,x 1)) (defmacro std-instance-wrapper (x) `(sb-kernel:%instance-layout ,x)) (defmacro built-in-or-structure-wrapper (x) `(sb-kernel:layout-of ,x)) (defmacro get-wrapper (inst) (sb-int:once-only ((wrapper `(wrapper-of ,inst))) `(progn (assert (typep ,wrapper 'wrapper) () "What kind of instance is this?") ,wrapper))) ;;; FIXME: could be an inline function (like many other things around ;;; here) (defmacro get-instance-wrapper-or-nil (inst) (sb-int:once-only ((wrapper `(wrapper-of ,inst))) `(if (typep ,wrapper 'wrapper) ,wrapper nil))) (defmacro get-slots-or-nil (inst) (sb-int:once-only ((n-inst inst)) `(when (pcl-instance-p ,n-inst) (if (std-instance-p ,n-inst) (std-instance-slots ,n-inst) (fsc-instance-slots ,n-inst))))) ;;;; structure-instance stuff ;;; The definition of STRUCTURE-TYPE-P was moved to early-low.lisp. (defun get-structure-dd (type) (sb-kernel:layout-info (sb-kernel:class-layout (cl:find-class type)))) (defun structure-type-included-type-name (type) (let ((include (sb-kernel::dd-include (get-structure-dd type)))) (if (consp include) (car include) include))) (defun structure-type-slot-description-list (type) (nthcdr (length (let ((include (structure-type-included-type-name type))) (and include (sb-kernel:dd-slots (get-structure-dd include))))) (sb-kernel:dd-slots (get-structure-dd type)))) (defun structure-slotd-name (slotd) (sb-kernel:dsd-name slotd)) (defun structure-slotd-accessor-symbol (slotd) (sb-kernel:dsd-accessor slotd)) (defun structure-slotd-reader-function (slotd) (fdefinition (sb-kernel:dsd-accessor slotd))) (defun structure-slotd-writer-function (slotd) (unless (sb-kernel:dsd-read-only slotd) (fdefinition `(setf ,(sb-kernel:dsd-accessor slotd))))) (defun structure-slotd-type (slotd) (sb-kernel:dsd-type slotd)) (defun structure-slotd-init-form (slotd) (sb-kernel::dsd-default slotd))