+;;;; various extensions (including SB-INT "internal extensions")
+;;;; available both in the cross-compilation host Lisp and in the
+;;;; target SBCL, but which can't be defined on the target until until
+;;;; some significant amount of machinery (e.g. error-handling) is
+;;;; defined
+
;;;; This software is part of the SBCL system. See the README file for
;;;; more information.
;;;;
(in-package "SB!IMPL")
-(defun featurep (x)
- #!+sb-doc
- "If X is an atom, see whether it is present in *FEATURES*. Also
- handle arbitrary combinations of atoms using NOT, AND, OR."
- (if (consp x)
- (case (car x)
- ((:not not)
- (if (cddr x)
- (error "too many subexpressions in feature expression: ~S" x)
- (not (featurep (cadr x)))))
- ((:and and) (every #'featurep (cdr x)))
- ((:or or) (some #'featurep (cdr x)))
- (t
- (error "unknown operator in feature expression: ~S." x)))
- (not (null (memq x *features*)))))
+;;; Is X a list for which LENGTH is meaningful, i.e. a list which is
+;;; not improper and which is not circular?
+(defun list-with-length-p (x)
+ (values (ignore-errors (list-length x))))
+
+;;; not used in 0.7.8, but possibly useful for defensive programming
+;;; in e.g. (COERCE ... 'VECTOR)
+;;;(defun list-length-or-die (x)
+;;; (or (list-length x)
+;;; ;; not clear how to do this best:
+;;; ;; * Should this be a TYPE-ERROR? Colloquially that'd make
+;;; ;; lots of sense, but since I'm not sure how to express
+;;; ;; "noncircular list" as a Lisp type expression, coding
+;;; ;; it seems awkward.
+;;; ;; * Should the ERROR object include the offending value?
+;;; ;; Ordinarily that's helpful, but if the user doesn't have
+;;; ;; his printer set up to deal with cyclicity, we might not
+;;; ;; be doing him a favor by printing the object here.
+;;; ;; -- WHN 2002-10-19
+;;; (error "can't calculate length of cyclic list")))
+
+;;; This is used in constructing arg lists for debugger printing,
+;;; and when needing to print unbound slots in PCL.
+(defstruct (unprintable-object
+ (:constructor make-unprintable-object (string))
+ (:print-object (lambda (x s)
+ (print-unreadable-object (x s)
+ (write-string (unprintable-object-string x) s))))
+ (:copier nil))
+ string)
-;;; KLUDGE: This is a wrapper around stale code for working with floating point
-;;; infinities. I believe that I will eventually eliminate floating point
-;;; infinities from the code, since they're a pain to cross-compile, since they
-;;; significantly increase the number of conditions which need to be tested in
-;;; numeric functions, and since the benefits which they provide (which are
-;;; admittedly significant) are unfortunately not portable. I haven't actually
-;;; done the dirty deed yet, though, and until then, I've wrapped various
-;;; infinity-returning forms in this macro. -- WHN 1999
-(defmacro infinite (x)
- (declare (ignorable x))
- #!-sb-infinities '(error 'floating-point-overflow)
- #!+sb-infinities x)
+;;; Used internally, but it would be nice to provide something
+;;; like this for users as well.
+(defmacro define-structure-slot-compare-and-swap
+ (name &key structure slot)
+ (let* ((dd (find-defstruct-description structure t))
+ (slotd (when dd (find slot (dd-slots dd) :key #'dsd-name)))
+ (type (when slotd (dsd-type slotd)))
+ (index (when slotd (dsd-index slotd))))
+ (unless index
+ (error "Slot ~S not found in ~S." slot structure))
+ (unless (eq t (dsd-raw-type slotd))
+ (error "Cannot define compare-and-swap on a raw slot."))
+ (when (dsd-read-only slotd)
+ (error "Cannot define compare-and-swap on a read-only slot."))
+ `(progn
+ (declaim (inline ,name))
+ (defun ,name (instance old new)
+ (declare (type ,structure instance)
+ (type ,type old new))
+ (%instance-compare-and-swap instance ,index old new)))))
-;;; Given a list of keyword substitutions `(,OLD ,NEW), and a
-;;; keyword-argument-list-style list of alternating keywords and arbitrary
-;;; values, return a new keyword-argument-list-style list with all
-;;; substitutions applied to it.
-;;;
-;;; Note: If efficiency mattered, we could do less consing. (But if efficiency
-;;; mattered, why would we be using keyword arguments at all, much less
-;;; renaming keyword arguments?)
-;;;
-;;; KLUDGE: It would probably be good to get rid of this. -- WHN 19991201
-(defun rename-keyword-args (rename-list keyword-args)
- (declare (type list rename-list keyword-args))
- ;; Walk through RENAME-LIST modifying RESULT as per each element in
- ;; RENAME-LIST.
- (do ((result (copy-list keyword-args))) ; may be modified below
- ((null rename-list) result)
- (destructuring-bind (old new) (pop rename-list)
- (declare (type keyword old new))
- ;; Walk through RESULT renaming any OLD keyword argument to NEW.
- (do ((in-result result (cddr in-result)))
- ((null in-result))
- (declare (type list in-result))
- (when (eq (car in-result) old)
- (setf (car in-result) new))))))
+;;; Ditto
+#!+sb-thread
+(defmacro define-structure-slot-addressor (name &key structure slot)
+ (let* ((dd (find-defstruct-description structure t))
+ (slotd (when dd (find slot (dd-slots dd) :key #'dsd-name)))
+ (index (when slotd (dsd-index slotd))))
+ (unless index
+ (error "Slot ~S not found in ~S." slot structure))
+ `(progn
+ (declaim (inline ,name))
+ (defun ,name (instance)
+ (declare (type ,structure instance) (optimize speed))
+ (sb!ext:truly-the
+ sb!vm:word
+ (+ (sb!kernel:get-lisp-obj-address instance)
+ (- (* ,(+ sb!vm:instance-slots-offset index) sb!vm:n-word-bytes)
+ sb!vm:instance-pointer-lowtag)))))))
-;;; ANSI Common Lisp's READ-SEQUENCE function, unlike most of the
-;;; other ANSI input functions, is defined to communicate end of file
-;;; status with its return value, not by signalling. This is not the
-;;; behavior we usually want. This is a wrapper which give the
-;;; behavior we usually want, causing READ-SEQUENCE to communicate
-;;; end-of-file status by signalling.
-(defun read-sequence-or-die (sequence stream &key start end)
- ;; implementation using READ-SEQUENCE
- #-no-ansi-read-sequence
- (let ((read-end (read-sequence sequence
- stream
- :start start
- :end end)))
- (unless (= read-end end)
- (error 'end-of-file :stream stream))
- (values))
- ;; workaround for broken READ-SEQUENCE
- #+no-ansi-read-sequence
- (progn
- (assert (<= start end))
- (let ((etype (stream-element-type stream)))
- (cond ((equal etype '(unsigned-byte 8))
- (do ((i start (1+ i)))
- ((>= i end)
- (values))
- (setf (aref sequence i)
- (read-byte stream))))
- (t (error "unsupported element type ~S" etype))))))