;;; gray-streams.lisp ;;; ;;; Copyright (C) 2004-2007 Peter Graves, Andras Simon ;;; $Id$ ;;; ;;; This program is free software; you can redistribute it and/or ;;; modify it under the terms of the GNU General Public License ;;; as published by the Free Software Foundation; either version 2 ;;; of the License, or (at your option) any later version. ;;; ;;; This program is distributed in the hope that it will be useful, ;;; but WITHOUT ANY WARRANTY; without even the implied warranty of ;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the ;;; GNU General Public License for more details. ;;; ;;; You should have received a copy of the GNU General Public License ;;; along with this program; if not, write to the Free Software ;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ;;; ;;; As a special exception, the copyright holders of this library give you ;;; permission to link this library with independent modules to produce an ;;; executable, regardless of the license terms of these independent ;;; modules, and to copy and distribute the resulting executable under ;;; terms of your choice, provided that you also meet, for each linked ;;; independent module, the terms and conditions of the license of that ;;; module. An independent module is a module which is not derived from ;;; or based on this library. If you modify this library, you may extend ;;; this exception to your version of the library, but you are not ;;; obligated to do so. If you do not wish to do so, delete this ;;; exception statement from your version. ;;; Adapted from: ;;;; Gray Streams Implementation for Corman Lisp - Version 1.3 ;;;; ;;;; Copyright (C) 2000 Christopher Double. All Rights Reserved. ;;;; ;;;; License ;;;; ======= ;;;; This software is provided 'as-is', without any express or implied ;;;; warranty. In no event will the author be held liable for any damages ;;;; arising from the use of this software. ;;;; ;;;; Permission is granted to anyone to use this software for any purpose, ;;;; including commercial applications, and to alter it and redistribute ;;;; it freely, subject to the following restrictions: ;;;; ;;;; 1. The origin of this software must not be misrepresented; you must ;;;; not claim that you wrote the original software. If you use this ;;;; software in a product, an acknowledgment in the product documentation ;;;; would be appreciated but is not required. ;;;; ;;;; 2. Altered source versions must be plainly marked as such, and must ;;;; not be misrepresented as being the original software. ;;;; ;;;; 3. This notice may not be removed or altered from any source ;;;; distribution. ;;;; ;;;; Notes ;;;; ===== ;;;; ;;;; NB: The ABCL implementation has been extensively reworked since these ;;;; notes were included. Please see the ABCL revision history via ;;;; the interface at ;;;; ;;;; http://trac.common-lisp.net/armedbear/browser/trunk/abcl/src/org/armedbear/lisp/gray-streams.lisp ;;;; ;;;; for a more relevant history vis a vis the ABCL implementation. ;;;; ;;;; A simple implementation of Gray streams for Corman Lisp 1.42. ;;;; Gray streams are 'clos' based streams as described at: ;;;; ;;;; ftp://parcftp.xerox.com/pub/cl/cleanup/mail/stream-definition-by-user.mail ;;;; ;;;; 20110319 ;;;; The xerox.com ftp URI doesn't resolve. Instead see Kent Pitman's ;;;; archival copy at ;;;; ;;;; http://www.nhplace.com/kent/CL/Issues/stream-definition-by-user.html ;;;; ;;;; Some differences exist between this implementation and the ;;;; specification above. See notes below for details. ;;;; ;;;; More recent versions of this software may be available at: ;;;; http://www.double.co.nz/cl ;;;; ;;;; Comments, suggestions and bug reports to the author, ;;;; Christopher Double, at: chris@double.co.nz ;;;; ;;;; 03/03/2001 - 1.0 ;;;; Initial release. ;;;; ;;;; 20/08/2001 - 1.1 ;;;; Small modifications by Frederic Bastenaire (fba@free.fr) ;;;; (lines flagged by ;; # fb 1.01) ;;;; - Make it work with the READ function by ;;;; defining %read-char, %read-char-with-error ;;;; and input-character-stream-p ;;;; - Add nickname GS to package "GRAY-STREAMS" for ease of use ;;;; - added missing '*' to *old-write-byte* in gray-write-byte ;;;; ;;;; 03/01/2002 - 1.2 ;;;; Fixed bug with GRAY-WRITE-LINE and GRAY-WRITE-STRING ;;;; that appeared in Corman Lisp 2.0 due to changes to ;;;; WRITE-LINE and WRITE-STRING. ;;;; ;;;; 04/01/2002 - 1.3 ;;;; Added support for STREAM-READ-SEQUENCE and STREAM-WRITE-SEQUENCE. ;;;; Fixed STREAM-WRITE-STRING bug. ;;;; ;;;; Notes ;;;; ===== ;;;; ;;;; ;;;; Much of the implementation of the Gray streams below is from the ;;;; document referenced earlier. ;;;; (require "PPRINT") (defpackage "GRAY-STREAMS" (:use "COMMON-LISP") (:nicknames "GS") ;; # fb 1.01 (:export "FUNDAMENTAL-STREAM" "FUNDAMENTAL-OUTPUT-STREAM" "FUNDAMENTAL-INPUT-STREAM" "FUNDAMENTAL-CHARACTER-STREAM" "FUNDAMENTAL-BINARY-STREAM" "STREAM-READ-BYTE" "STREAM-WRITE-BYTE" "FUNDAMENTAL-CHARACTER-INPUT-STREAM" "STREAM-READ-CHAR" "STREAM-UNREAD-CHAR" "STREAM-READ-CHAR-NO-HANG" "STREAM-PEEK-CHAR" "STREAM-LISTEN" "STREAM-READ-LINE" "STREAM-CLEAR-INPUT" "FUNDAMENTAL-CHARACTER-OUTPUT-STREAM" "STREAM-WRITE-CHAR" "STREAM-LINE-COLUMN" "STREAM-START-LINE-P" "STREAM-WRITE-STRING" "STREAM-TERPRI" "STREAM-FRESH-LINE" "STREAM-FINISH-OUTPUT" "STREAM-FORCE-OUTPUT" "STREAM-CLEAR-OUTPUT" "STREAM-ADVANCE-TO-COLUMN" "STREAM-READ-SEQUENCE" "STREAM-WRITE-SEQUENCE" "STREAM-FILE-POSITION" "FUNDAMENTAL-BINARY-INPUT-STREAM" "FUNDAMENTAL-BINARY-OUTPUT-STREAM")) (in-package :gray-streams) (defvar *ansi-read-char* #'read-char) (defvar *ansi-peek-char* #'peek-char) (defvar *ansi-unread-char* #'unread-char) (defvar *ansi-listen* #'listen) (defvar *ansi-read-line* #'read-line) (defvar *ansi-read-char-no-hang* #'read-char-no-hang) (defvar *ansi-write-char* #'write-char) (defvar *ansi-fresh-line* #'fresh-line) (defvar *ansi-terpri* #'terpri) (defvar *ansi-write-string* #'write-string) (defvar *ansi-write-line* #'write-line) (defvar *sys-%force-output* #'sys::%force-output) (defvar *sys-%finish-output* #'sys::%finish-output) (defvar *sys-%clear-output* #'sys::%clear-output) (defvar *sys-%output-object* #'sys::%output-object) (defvar *ansi-clear-input* #'clear-input) (defvar *ansi-read-byte* #'read-byte) (defvar *ansi-write-byte* #'write-byte) (defvar *ansi-stream-element-type* #'cl::stream-element-type) (defvar *ansi-close* #'cl::close) (defvar *ansi-input-character-stream-p* #'(lambda (s) (and (input-stream-p s) (eql (stream-element-type s) 'character)))) (defvar *ansi-input-stream-p* #'cl::input-stream-p) (defvar *ansi-output-stream-p* #'cl::output-stream-p) (defvar *ansi-open-stream-p* #'cl::open-stream-p) (defvar *ansi-streamp* #'cl::streamp) (defvar *ansi-read-sequence* #'cl::read-sequence) (defvar *ansi-write-sequence* #'cl::write-sequence) (defvar *ansi-make-two-way-stream* #'cl:make-two-way-stream) (defvar *ansi-two-way-stream-input-stream* #'cl:two-way-stream-input-stream) (defvar *ansi-two-way-stream-output-stream* #'cl:two-way-stream-output-stream) (defvar *ansi-file-position* #'cl:file-position) (defun ansi-streamp (stream) (or (xp::xp-structure-p stream) (funcall *ansi-streamp* stream))) (defclass fundamental-stream (standard-object stream) ((open-p :initform t :accessor stream-open-p)) (:documentation "The base class of all Gray streams")) (defgeneric gray-close (stream &key abort)) (defgeneric gray-open-stream-p (stream)) (defgeneric gray-streamp (stream)) (defgeneric gray-input-stream-p (stream)) (defgeneric gray-input-character-stream-p (stream)) ;; # fb 1.01 (defgeneric gray-output-stream-p (stream)) (defgeneric gray-stream-element-type (stream)) (defmethod gray-close ((stream fundamental-stream) &key abort) (declare (ignore abort)) (setf (stream-open-p stream) nil) t) (defmethod gray-open-stream-p ((stream fundamental-stream)) (stream-open-p stream)) (defmethod gray-streamp ((s fundamental-stream)) s) (defclass fundamental-input-stream (fundamental-stream)) (defmethod gray-input-character-stream-p (s) ;; # fb 1.01 (and (gray-input-stream-p s) (eq (gray-stream-element-type s) 'character))) (defmethod gray-input-stream-p ((s fundamental-input-stream)) (declare (ignore s)) t) (defclass fundamental-output-stream (fundamental-stream)) (defmethod gray-input-stream-p ((s fundamental-output-stream)) (typep s 'fundamental-input-stream)) (defmethod gray-output-stream-p ((s fundamental-output-stream)) (declare (ignore s)) t) (defmethod gray-output-stream-p ((s fundamental-input-stream)) (typep s 'fundamental-output-stream)) (defclass fundamental-character-stream (fundamental-stream)) (defmethod gray-stream-element-type ((s fundamental-character-stream)) (declare (ignore s)) 'character) (defclass fundamental-binary-stream (fundamental-stream)) (defgeneric stream-read-byte (stream)) (defgeneric stream-write-byte (stream integer)) (defclass fundamental-character-input-stream (fundamental-input-stream fundamental-character-stream)) (defgeneric stream-read-char (stream)) (defgeneric stream-unread-char (stream character)) (defgeneric stream-read-char-no-hang (stream)) (defgeneric stream-peek-char (stream)) (defgeneric stream-listen (stream)) (defgeneric stream-read-line (stream)) (defgeneric stream-clear-input (stream)) (defmethod stream-peek-char ((stream fundamental-character-input-stream)) (let ((character (stream-read-char stream))) (unless (eq character :eof) (stream-unread-char stream character)) character)) (defmethod stream-listen ((stream fundamental-character-input-stream)) (let ((char (stream-read-char-no-hang stream))) (and (not (null char)) (not (eq char :eof)) (progn (stream-unread-char stream char) t)))) (defmethod stream-read-line ((stream fundamental-character-input-stream)) (let ((line (make-array 64 :element-type 'character :fill-pointer 0 :adjustable t))) (loop (let ((character (stream-read-char stream))) (if (eq character :eof) (return (values line t)) (if (eql character #\Newline) (return (values line nil)) (vector-push-extend character line))))))) (defmethod stream-clear-input (stream) (declare (ignore stream)) nil) (defclass fundamental-character-output-stream (fundamental-output-stream fundamental-character-stream)) (defgeneric stream-write-char (stream character)) (defgeneric stream-line-column (stream)) (defgeneric stream-start-line-p (stream)) (defgeneric stream-write-string (stream string &optional start end)) (defgeneric stream-terpri (stream)) (defmethod stream-terpri (stream) (stream-write-char stream #\Newline)) (defgeneric stream-fresh-line (stream)) (defgeneric stream-finish-output (stream)) (defgeneric stream-force-output (stream)) (defgeneric stream-clear-output (stream)) (defgeneric stream-advance-to-column (stream column)) (defgeneric stream-read-sequence (stream sequence &optional start end)) (defgeneric stream-write-sequence (stream sequence &optional start end)) (defmethod stream-force-output (stream) (declare (ignore stream)) nil) (defmethod stream-finish-output (stream) (declare (ignore stream)) nil) (defmethod stream-clear-output (stream) (declare (ignore stream)) nil) (defmethod stream-start-line-p ((stream fundamental-character-output-stream)) (equal (stream-line-column stream) 0)) (defmethod stream-write-string ((stream fundamental-character-output-stream) string &optional (start 0) end) (let ((end (or end (length string)))) (do ((i start (1+ i))) ((>= i end) string) (stream-write-char stream (char string i))))) (defmethod stream-fresh-line ((stream fundamental-character-output-stream)) (if (stream-start-line-p stream) nil (progn (stream-terpri stream) t))) (defmethod stream-advance-to-column ((stream fundamental-character-output-stream) column) (let ((current (stream-line-column stream))) (unless (null current) (dotimes (i (- current column) t) (stream-write-char stream #\Space))))) (defun basic-read-sequence (stream sequence start end expected-element-type read-fun) (let ((element-type (stream-element-type stream))) (if (subtypep element-type expected-element-type) (dotimes (count (- end start) ;; If (< end start), skip the dotimes body but ;; return start (max start end)) (let ((el (funcall read-fun stream))) (when (eq el :eof) (return (+ count start))) (setf (elt sequence (+ count start)) el))) (error "Cannot READ-SEQUENCE on stream of :ELEMENT-TYPE ~A" element-type)))) (defun basic-write-sequence (stream sequence start end expected-element-type write-fun) (let ((element-type (stream-element-type stream))) (if (subtypep element-type expected-element-type) ;; Avoid LOOP because it isn't loaded yet (do ((n start (+ n 1))) ((= n end)) (funcall write-fun stream (elt sequence n))) (error "Cannot WRITE-SEQUENCE on stream of :ELEMENT-TYPE ~A" element-type))) (stream-force-output stream) sequence) (defmethod stream-read-sequence ((stream fundamental-character-input-stream) sequence &optional (start 0) end) (basic-read-sequence stream sequence start (or end (length sequence)) 'character #'stream-read-char)) (defmethod stream-write-sequence ((stream fundamental-character-output-stream) sequence &optional (start 0) end) (basic-write-sequence stream sequence start (or end (length sequence)) 'character #'stream-write-char)) (defclass fundamental-binary-input-stream (fundamental-input-stream fundamental-binary-stream)) (defclass fundamental-binary-output-stream (fundamental-output-stream fundamental-binary-stream)) (defmethod stream-read-sequence ((stream fundamental-binary-input-stream) sequence &optional (start 0) end) (basic-read-sequence stream sequence start (or end (length sequence)) 'signed-byte #'stream-read-byte)) (defmethod stream-write-sequence ((stream fundamental-binary-output-stream) sequence &optional (start 0) end) (basic-write-sequence stream sequence start (or end (length sequence)) 'signed-byte #'stream-write-byte)) (defun decode-read-arg (arg) (cond ((null arg) *standard-input*) ((eq arg t) *terminal-io*) (t arg))) (defun decode-print-arg (arg) (cond ((null arg) *standard-output*) ((eq arg t) *terminal-io*) (t arg))) (defun report-eof (stream eof-errorp eof-value) (if eof-errorp (error 'end-of-file :stream stream) eof-value)) (defun check-for-eof (value stream eof-errorp eof-value) (if (eq value :eof) (report-eof stream eof-errorp eof-value) value)) (defun gray-read-char (&optional input-stream (eof-errorp t) eof-value recursive-p) (let ((stream (decode-read-arg input-stream))) (if (ansi-streamp stream) (funcall *ansi-read-char* stream eof-errorp eof-value recursive-p) (check-for-eof (stream-read-char stream) stream eof-errorp eof-value)))) (defun gray-peek-char (&optional peek-type input-stream (eof-errorp t) eof-value recursive-p) (let ((stream (decode-read-arg input-stream))) (if (ansi-streamp stream) (funcall *ansi-peek-char* peek-type stream eof-errorp eof-value recursive-p) (if (null peek-type) (check-for-eof (stream-peek-char stream) stream eof-errorp eof-value) (loop (let ((value (stream-peek-char stream))) (if (eq value :eof) (return (report-eof stream eof-errorp eof-value)) (if (if (eq peek-type t) (not (member value '(#\space #\tab #\newline #\return))) (char= peek-type value)) (return value) (stream-read-char stream))))))))) (defun gray-unread-char (character &optional input-stream) (let ((stream (decode-read-arg input-stream))) (if (ansi-streamp stream) (funcall *ansi-unread-char* character stream) (stream-unread-char stream character)))) (defun gray-listen (&optional input-stream) (let ((stream (decode-read-arg input-stream))) (if (ansi-streamp stream) (funcall *ansi-listen* stream) (stream-listen stream)))) (defun gray-read-line (&optional input-stream (eof-error-p t) eof-value recursive-p) (let ((stream (decode-read-arg input-stream))) (if (ansi-streamp stream) (funcall *ansi-read-line* stream eof-error-p eof-value recursive-p) (multiple-value-bind (string eofp) (stream-read-line stream) (if eofp (if (= (length string) 0) (report-eof stream eof-error-p eof-value) (values string t)) (values string nil)))))) (defun gray-clear-input (&optional input-stream) (let ((stream (decode-read-arg input-stream))) (if (ansi-streamp stream) (funcall *ansi-clear-input* stream) (stream-clear-input stream)))) (defun gray-output-object (object stream) (if (ansi-streamp stream) (funcall *sys-%output-object* object stream) (stream-write-string stream (with-output-to-string (s) (funcall *sys-%output-object* object s))))) (defun gray-read-char-no-hang (&optional input-stream (eof-errorp t) eof-value recursive-p) (let ((stream (decode-read-arg input-stream))) (if (ansi-streamp stream) (funcall *ansi-read-char-no-hang* stream eof-errorp eof-value recursive-p) (check-for-eof (stream-read-char-no-hang stream) stream eof-errorp eof-value)))) (defun gray-write-char (character &optional output-stream) (let ((stream (decode-print-arg output-stream))) (if (ansi-streamp stream) (funcall *ansi-write-char* character stream) (stream-write-char stream character)))) (defun gray-fresh-line (&optional output-stream) (let ((stream (decode-print-arg output-stream))) (if (ansi-streamp stream) (funcall *ansi-fresh-line* stream) (stream-fresh-line stream)))) (defun gray-terpri (&optional output-stream) (let ((stream (decode-print-arg output-stream))) (if (ansi-streamp stream) (funcall *ansi-terpri* stream) (stream-terpri stream)))) (defun gray-write-string (string &optional output-stream &key (start 0) end) (let ((stream (decode-print-arg output-stream))) (if (ansi-streamp stream) (funcall *ansi-write-string* string stream :start start :end end) (stream-write-string stream string start end)))) (defun gray-write-line (string &optional output-stream &key (start 0) end) (let ((stream (decode-print-arg output-stream))) (if (ansi-streamp stream) (funcall *ansi-write-line* string stream :start start :end end) (progn (stream-write-string stream string start end) (stream-terpri stream) string)))) (defun gray-force-output (&optional output-stream) (let ((stream (decode-print-arg output-stream))) (if (ansi-streamp stream) (funcall *sys-%force-output* stream) (stream-force-output stream)))) (defun gray-finish-output (&optional output-stream) (let ((stream (decode-print-arg output-stream))) (if (ansi-streamp stream) (funcall *sys-%finish-output* stream) (stream-finish-output stream)))) (defun gray-clear-output (&optional output-stream) (let ((stream (decode-print-arg output-stream))) (if (ansi-streamp stream) (funcall *sys-%clear-output* stream) (stream-clear-output stream)))) (defun gray-read-byte (binary-input-stream &optional (eof-errorp t) eof-value) (if (ansi-streamp binary-input-stream) (funcall *ansi-read-byte* binary-input-stream eof-errorp eof-value) (check-for-eof (stream-read-byte binary-input-stream) binary-input-stream eof-errorp eof-value))) (defun gray-write-byte (integer binary-output-stream) (if (ansi-streamp binary-output-stream) (funcall *ansi-write-byte* integer binary-output-stream) (stream-write-byte binary-output-stream integer))) (defmethod stream-line-column ((stream stream)) nil) (defun gray-stream-column (&optional input-stream) (let ((stream (decode-read-arg input-stream))) (if (ansi-streamp stream) nil ;(funcall *ansi-stream-column* stream) (stream-line-column stream)))) (defmethod gray-stream-element-type (stream) (funcall *ansi-stream-element-type* stream)) (defmethod gray-close (stream &key abort) (funcall *ansi-close* stream :abort abort)) (defmethod gray-input-stream-p (stream) (funcall *ansi-input-stream-p* stream)) (defmethod gray-input-character-stream-p (stream) (funcall *ansi-input-character-stream-p* stream)) (defmethod gray-output-stream-p (stream) (funcall *ansi-output-stream-p* stream)) (defmethod gray-open-stream-p (stream) (funcall *ansi-open-stream-p* stream)) (defmethod gray-streamp (stream) (funcall *ansi-streamp* stream)) (defun gray-write-sequence (sequence stream &key (start 0) end) (if (ansi-streamp stream) (funcall *ansi-write-sequence* sequence stream :start start :end end) (stream-write-sequence stream sequence start end))) (defun gray-read-sequence (sequence stream &key (start 0) end) (if (ansi-streamp stream) (funcall *ansi-read-sequence* sequence stream :start start :end end) (stream-read-sequence stream sequence start end))) (defgeneric stream-file-position (stream &optional position-spec)) (defun gray-file-position (stream &optional position-spec) (if position-spec (if (ansi-streamp stream) (funcall *ansi-file-position* stream position-spec) (stream-file-position stream position-spec)) (if (ansi-streamp stream) (funcall *ansi-file-position* stream) (stream-file-position stream)))) #| (defstruct (two-way-stream-g (:include stream)) input-stream output-stream) (defun gray-make-two-way-stream (in out) (if (and (ansi-streamp in) (ansi-streamp out)) (funcall *ansi-make-two-way-stream* in out) (make-two-way-stream-g :input-stream in :output-stream out))) (defun gray-two-way-stream-input-stream (stream) (if (ansi-streamp stream) (funcall *ansi-two-way-stream-input-stream* stream) (two-way-stream-g-input-stream stream))) (defun gray-two-way-stream-output-stream (stream) (if (ansi-streamp stream) (funcall *ansi-two-way-stream-output-stream* stream) (two-way-stream-g-output-stream stream))) |# (setf (symbol-function 'common-lisp::read-char) #'gray-read-char) (setf (symbol-function 'common-lisp::peek-char) #'gray-peek-char) (setf (symbol-function 'common-lisp::unread-char) #'gray-unread-char) (setf (symbol-function 'common-lisp::read-line) #'gray-read-line) (setf (symbol-function 'common-lisp::clear-input) #'gray-clear-input) (setf (symbol-function 'common-lisp::read-char-no-hang) #'gray-read-char-no-hang) (setf (symbol-function 'common-lisp::write-char) #'gray-write-char) (setf (symbol-function 'common-lisp::fresh-line) #'gray-fresh-line) (setf (symbol-function 'common-lisp::terpri) #'gray-terpri) (setf (symbol-function 'common-lisp::write-string) #'gray-write-string) (setf (symbol-function 'common-lisp::write-line) #'gray-write-line) (setf (symbol-function 'sys::%force-output) #'gray-force-output) (setf (symbol-function 'sys::%finish-output) #'gray-finish-output) (setf (symbol-function 'sys::%clear-output) #'gray-clear-output) (setf (symbol-function 'sys::%output-object) #'gray-output-object) (setf (symbol-function 'common-lisp::read-byte) #'gray-read-byte) (setf (symbol-function 'common-lisp::write-byte) #'gray-write-byte) (setf (symbol-function 'common-lisp::stream-column) #'gray-stream-column) (setf (symbol-function 'common-lisp::stream-element-type) #'gray-stream-element-type) (setf (symbol-function 'common-lisp::close) #'gray-close) (setf (symbol-function 'common-lisp::input-stream-p) #'gray-input-stream-p) (setf (symbol-function 'common-lisp::input-character-stream-p) #'gray-input-character-stream-p) ;; # fb 1.01 (setf (symbol-function 'common-lisp::output-stream-p) #'gray-output-stream-p) (setf (symbol-function 'common-lisp::open-stream-p) #'gray-open-stream-p) (setf (symbol-function 'common-lisp::streamp) #'gray-streamp) (setf (symbol-function 'common-lisp::read-sequence) #'gray-read-sequence) (setf (symbol-function 'common-lisp::write-sequence) #'gray-write-sequence) (setf (symbol-function 'common-lisp::file-position) #'gray-file-position) (setf (symbol-function 'common-lisp::listen) #'gray-listen) #| (setf (symbol-function 'common-lisp::make-two-way-stream) #'gray-make-two-way-stream) (setf (symbol-function 'common-lisp::two-way-stream-input-stream) #'gray-two-way-stream-input-stream) (setf (symbol-function 'common-lisp::two-way-stream-output-stream) #'gray-two-way-stream-output-stream) |# (eval-when (:load-toplevel) (mapcar (lambda (o) (mop:finalize-inheritance (find-class o))) '(fundamental-stream fundamental-input-stream fundamental-output-stream fundamental-character-stream fundamental-character-input-stream fundamental-character-output-stream fundamental-binary-stream fundamental-binary-input-stream fundamental-binary-output-stream))) (provide 'gray-streams) ;;; Fixup Gray/ANSI stream relations (defparameter *sys--stream-charpos* #'sys::stream-charpos) (defun sys::stream-charpos (stream) (cond ((subtypep (type-of stream) 'gray-streams:fundamental-stream) (stream-line-column stream)) ((streamp stream) (funcall *sys--stream-charpos* stream)))) (defparameter *sys--stream-%set-charpos* #'sys::stream-%set-charpos) (defun sys::stream-%set-charpos (new-value stream) (cond ((subtypep (type-of stream) 'gray-streams:fundamental-stream) (setf (stream-line-column stream) new-value)) ((streamp stream) (funcall *sys--stream-%set-charpos* stream new-value))))