;;; -*- Log: code.log; Package: LISP -*-
;;;
;;; **********************************************************************
;;; This code was written as part of the CMU Common Lisp project at
;;; Carnegie Mellon University, and has been placed in the public domain.
;;; If you want to use this code or any part of CMU Common Lisp, please contact
;;; Scott Fahlman or slisp-group@cs.cmu.edu.
;;;
(ext:file-comment
  "$Header: /Volumes/share2/src/cmucl/cvs2git/cvsroot/src/code/fd-stream.lisp,v 1.15 1991/05/24 17:02:25 ram Exp $")
;;;
;;; **********************************************************************
;;;
;;; Streams for UNIX file descriptors.
;;;
;;; Written by William Lott, July 1989 - January 1990.
;;; Some tuning by Rob MacLachlan.
;;; 
;;; **********************************************************************


(in-package "SYSTEM")

(export '(fd-stream fd-stream-p fd-stream-fd make-fd-stream
          io-timeout beep *beep-function* output-raw-bytes
	  *tty* *stdin* *stdout* *stderr*))


(in-package "EXTENSIONS")

(export '(*backup-extension*))


(in-package "LISP")


;;;; Buffer manipulation routines.

(defvar *available-buffers* ()
  "List of available buffers.  Each buffer is an sap pointing to
  bytes-per-buffer of memory.")

(defconstant bytes-per-buffer (* 4 1024)
  "Number of bytes per buffer.")

;;; NEXT-AVAILABLE-BUFFER -- Internal.
;;;
;;; Returns the next available buffer, creating one if necessary.
;;;
(proclaim '(inline next-available-buffer))
;;;
(defun next-available-buffer ()
  (if *available-buffers*
      (pop *available-buffers*)
      (allocate-system-memory bytes-per-buffer)))


;;;; The FD-STREAM structure.

(defstruct (fd-stream
	    (:print-function %print-fd-stream)
	    (:constructor %make-fd-stream)
	    (:include stream
		      (misc #'fd-stream-misc-routine)))

  (name nil)		      ; The name of this stream
  (file nil)		      ; The file this stream is for
  (original nil)	      ; The original file (for :if-exists :rename)
  (delete-original nil)	      ; for :if-exists :rename-and-delete
  ;;
  ;;; Number of bytes per element.
  (element-size 1 :type index)
  (element-type 'base-character) ; The type of element being transfered.
  (fd -1 :type fixnum)	      ; The file descriptor
  ;;
  ;; Controls when the output buffer is flushed.
  (buffering :full :type (member :full :line :none))
  ;;
  ;; Character position if known.
  (char-pos nil :type (or index null))
  ;;
  ;; T if input is waiting on FD.  :EOF if we hit EOF.
  (listen nil :type (member nil t :eof))
  ;;
  ;; The input buffer.
  (unread nil)
  (ibuf-sap nil :type (or system-area-pointer null))
  (ibuf-length nil :type (or index null))
  (ibuf-head 0 :type index)
  (ibuf-tail 0 :type index)

  ;; The output buffer.
  (obuf-sap nil :type (or system-area-pointer null))
  (obuf-length nil :type (or index null))
  (obuf-tail 0 :type index)

  ;; Output flushed, but not written due to non-blocking io.
  (output-later nil)
  (handler nil)
  ;;
  ;; Timeout specified for this stream, or NIL if none.
  (timeout nil :type (or index null)))

(defun %print-fd-stream (fd-stream stream depth)
  (declare (ignore depth) (stream stream))
  (format stream "#<Stream for ~A>"
	  (fd-stream-name fd-stream)))


(define-condition io-timeout (stream-error) (direction)
  (:report
   (lambda (condition stream)
     (format stream "Timeout ~(~A~)ing ~S."
	     (io-timeout-direction condition)
	     (stream-error-stream condition)))))


;;;; Output routines and related noise.

(defvar *output-routines* ()
  "List of all available output routines. Each element is a list of the
  element-type output, the kind of buffering, the function name, and the number
  of bytes per element.")

;;; DO-OUTPUT-LATER -- internal
;;;
;;;   Called by the server when we can write to the given file descriptor.
;;; Attemt to write the data again. If it worked, remove the data from the
;;; output-later list. If it didn't work, something is wrong.
;;;
(defun do-output-later (stream)
  (let* ((stuff (pop (fd-stream-output-later stream)))
	 (base (car stuff))
	 (start (cadr stuff))
	 (end (caddr stuff))
	 (reuse-sap (cadddr stuff))
	 (length (- end start)))
    (declare (type index start end length))
    (multiple-value-bind
	(count errno)
	(mach:unix-write (fd-stream-fd stream)
			 base
			 start
			 length)
      (cond ((not count)
	     (if (= errno mach:ewouldblock)
		 (error "Write would have blocked, but SERVER told us to go.")
		 (error "While writing ~S: ~A"
			stream (mach:get-unix-error-msg errno))))
	    ((eql count length) ; Hot damn, it workded.
	     (when reuse-sap
	       (push base *available-buffers*)))
	    ((not (null count)) ; Sorta worked.
	     (push (list base
			 (+ start count)
			 end)
		   (fd-stream-output-later stream))))))
  (unless (fd-stream-output-later stream)
    (system:remove-fd-handler (fd-stream-handler stream))
    (setf (fd-stream-handler stream) nil)))

;;; OUTPUT-LATER -- internal
;;;
;;;   Arange to output the string when we can write on the file descriptor.
;;;
(defun output-later (stream base start end reuse-sap)
  (cond ((null (fd-stream-output-later stream))
	 (setf (fd-stream-output-later stream)
	       (list (list base start end reuse-sap)))
	 (setf (fd-stream-handler stream)
	       (system:add-fd-handler (fd-stream-fd stream)
				      :output
				      #'(lambda (fd)
					  (declare (ignore fd))
					  (do-output-later stream)))))
	(t
	 (nconc (fd-stream-output-later stream)
		(list (list base start end reuse-sap)))))
  (when reuse-sap
    (let ((new-buffer (next-available-buffer)))
      (setf (fd-stream-obuf-sap stream) new-buffer)
      (setf (fd-stream-obuf-length stream) bytes-per-buffer)))) 

;;; DO-OUTPUT -- internal
;;;
;;;   Output the given noise. Check to see if there are any pending writes. If
;;; so, just queue this one. Otherwise, try to write it. If this would block,
;;; queue it.
;;;
(defun do-output (stream base start end reuse-sap)
  (declare (type fd-stream stream)
	   (type (or system-area-pointer (simple-array * (*))) base)
	   (type index start end))
  (if (not (null (fd-stream-output-later stream))) ; something buffered.
      (progn
	(output-later stream base start end reuse-sap)
	;; ### check to see if any of this noise can be output
	)
      (let ((length (- end start)))
	(multiple-value-bind
	    (count errno)
	    (mach:unix-write (fd-stream-fd stream) base start length)
	  (cond ((not count)
		 (if (= errno mach:ewouldblock)
		     (output-later stream base start end reuse-sap)
		     (error "While writing ~S: ~A"
			    stream (mach:get-unix-error-msg errno))))
		((not (eql count length))
		 (output-later stream base (+ start count) end reuse-sap)))))))


;;; FLUSH-OUTPUT-BUFFER -- internal
;;;
;;;   Flush any data in the output buffer.
;;;
(defun flush-output-buffer (stream)
  (let ((length (fd-stream-obuf-tail stream)))
    (unless (= length 0)
      (do-output stream (fd-stream-obuf-sap stream) 0 length t)
      (setf (fd-stream-obuf-tail stream) 0))))

;;; DEF-OUTPUT-ROUTINES -- internal
;;;
;;;   Define output routines that output numbers size bytes long for the
;;; given bufferings. Use body to do the actual output.
;;;
(defmacro def-output-routines ((name size &rest bufferings) &body body)
  (cons 'progn
	(mapcar
	    #'(lambda (buffering)
		(let ((function
		       (intern (let ((*print-case* :upcase))
				 (format nil name (car buffering))))))
		  `(progn
		     (defun ,function (stream byte)
		       ,(unless (eq (car buffering) :none)
			  `(when (< (fd-stream-obuf-length stream)
				    (+ (fd-stream-obuf-tail stream)
				       ,size))
			     (flush-output-buffer stream)))
		       ,@body
		       (incf (fd-stream-obuf-tail stream) ,size)
		       ,(ecase (car buffering)
			  (:none
			   `(flush-output-buffer stream))
			  (:line
			   `(when (eq (char-code byte) (char-code #\Newline))
			      (flush-output-buffer stream)))
			  (:full
			   ))
		       (values))
		     (setf *output-routines*
			   (nconc *output-routines*
				  ',(mapcar
					#'(lambda (type)
					    (list type
						  (car buffering)
						  function
						  size))
				      (cdr buffering)))))))
	  bufferings)))

(def-output-routines ("OUTPUT-CHAR-~A-BUFFERED"
		      1
		      (:none character)
		      (:line character)
		      (:full character))
  (if (eq (char-code byte)
	  (char-code #\Newline))
      (setf (fd-stream-char-pos stream) 0)
      (incf (fd-stream-char-pos stream)))
  (setf (sap-ref-8 (fd-stream-obuf-sap stream) (fd-stream-obuf-tail stream))
	(char-code byte)))

(def-output-routines ("OUTPUT-BYTE-~A-BUFFERED"
		      1
		      (:none (signed-byte 8) (unsigned-byte 8))
		      (:full (signed-byte 8) (unsigned-byte 8)))
  (when (characterp byte)
    (if (eq (char-code byte)
	    (char-code #\Newline))
      (setf (fd-stream-char-pos stream) 0)
      (incf (fd-stream-char-pos stream))))
  (setf (sap-ref-8 (fd-stream-obuf-sap stream) (fd-stream-obuf-tail stream))
	byte))

(def-output-routines ("OUTPUT-SHORT-~A-BUFFERED"
		      2
		      (:none (signed-byte 16) (unsigned-byte 16))
		      (:full (signed-byte 16) (unsigned-byte 16)))
  (setf (sap-ref-16 (fd-stream-obuf-sap stream)
		    (truncate (fd-stream-obuf-tail stream) 2))
	byte))

(def-output-routines ("OUTPUT-LONG-~A-BUFFERED"
		      4
		      (:none (signed-byte 32) (unsigned-byte 32))
		      (:full (signed-byte 32) (unsigned-byte 32)))
  (setf (sap-ref-32 (fd-stream-obuf-sap stream)
		    (truncate (fd-stream-obuf-tail stream) 4))
	byte))

;;; OUTPUT-RAW-BYTES -- public
;;;
;;;   Does the actual output. If there is space to buffer the string, buffer
;;; it. If the string would normally fit in the buffer, but doesn't because
;;; of other stuff in the buffer, flush the old noise out of the buffer and
;;; put the string in it. Otherwise we have a very long string, so just
;;; send it directly (after flushing the buffer, of course).
;;;
(defun output-raw-bytes (stream thing &optional start end)
  "Output THING to stream.  THING can be any kind of vector or a sap.  If THING
  is a SAP, END must be supplied (as length won't work)."
  (let ((start (or start 0))
	(end (or end (length (the (simple-array * (*)) thing)))))
    (declare (type index start end))
    (let* ((len (fd-stream-obuf-length stream))
	   (tail (fd-stream-obuf-tail stream))
	   (space (- len tail))
	   (bytes (- end start))
	   (newtail (+ tail bytes)))
      (cond ((minusp bytes) ; Error case
	     (cerror "Just go on as if nothing happened..."
		     "~S called with :END before :START!"
		     'output-raw-bytes))
	    ((zerop bytes)) ; Easy case
	    ((<= bytes space)
	     (if (system-area-pointer-p thing)
		 (system-area-copy thing
				   (* start vm:byte-bits)
				   (fd-stream-obuf-sap stream)
				   (* tail vm:byte-bits)
				   (* bytes vm:byte-bits))
		 (copy-to-system-area thing
				      (+ (* start vm:byte-bits)
					 (* vm:vector-data-offset vm:word-bits))
				      (fd-stream-obuf-sap stream)
				      (* tail vm:byte-bits)
				      (* bytes vm:byte-bits)))
	     (setf (fd-stream-obuf-tail stream) newtail))
	    ((<= bytes len)
	     (flush-output-buffer stream)
	     (if (system-area-pointer-p thing)
		 (system-area-copy thing
				   (* start vm:byte-bits)
				   (fd-stream-obuf-sap stream)
				   0
				   (* bytes vm:byte-bits))
		 (copy-to-system-area thing
				      (+ (* start vm:byte-bits)
					 (* vm:vector-data-offset vm:word-bits))
				      (fd-stream-obuf-sap stream)
				      0
				      (* bytes vm:byte-bits)))
	     (setf (fd-stream-obuf-tail stream) bytes))
	    (t
	     (flush-output-buffer stream)
	     (do-output stream thing start end nil))))))

;;; FD-SOUT -- internal
;;;
;;;   Routine to use to output a string. If the stream is unbuffered, slam
;;; the string down the file descriptor, otherwise use OUTPUT-RAW-BYTES to
;;; buffer the string. Update charpos by checking to see where the last newline
;;; was.
;;;
;;;   Note: some bozos (the FASL dumper) call write-string with things other
;;; than strings. Therefore, we must make sure we have a string before calling
;;; position on it.
;;; 
(defun fd-sout (stream thing start end)
  (let ((start (or start 0))
	(end (or end (length (the vector thing)))))
    (declare (fixnum start end))
    (if (stringp thing)
	(let ((last-newline (and (find #\newline (the simple-string thing)
				       :start start :end end)
				 (position #\newline (the simple-string thing)
					   :from-end t
					   :start start
					   :end end))))
	  (ecase (fd-stream-buffering stream)
	    (:full
	     (output-raw-bytes stream thing start end))
	    (:line
	     (output-raw-bytes stream thing start end)
	     (when last-newline
	       (flush-output-buffer stream)))
	    (:none
	     (do-output stream thing start end nil)))
	  (if last-newline
	      (setf (fd-stream-char-pos stream)
		    (- end last-newline 1))
	      (incf (fd-stream-char-pos stream)
		    (- end start))))
	(ecase (fd-stream-buffering stream)
	  ((:line :full)
	   (output-raw-bytes stream thing start end))
	  (:none
	   (do-output stream thing start end nil))))))

;;; PICK-OUTPUT-ROUTINE -- internal
;;;
;;;   Find an output routine to use given the type and buffering. Return as
;;; multiple values the routine, the real type transfered, and the number of
;;; bytes per element.
;;;
(defun pick-output-routine (type buffering)
  (dolist (entry *output-routines*)
    (when (and (subtypep type (car entry))
	       (eq buffering (cadr entry)))
      (return (values (symbol-function (caddr entry))
		      (car entry)
		      (cadddr entry))))))


;;;; Input routines and related noise.

(defvar *input-routines* ()
  "List of all available input routines. Each element is a list of the
  element-type input, the function name, and the number of bytes per element.")

;;; DO-INPUT -- internal
;;;
;;;   Fills the input buffer, and returns the first character. Throws to
;;; eof-input-catcher if the eof was reached. Drops into system:server if
;;; necessary.
;;;
(defun do-input (stream)
  (let ((fd (fd-stream-fd stream))
	(ibuf-sap (fd-stream-ibuf-sap stream))
	(buflen (fd-stream-ibuf-length stream))
	(head (fd-stream-ibuf-head stream))
	(tail (fd-stream-ibuf-tail stream)))
    (declare (type index head tail))
    (unless (zerop head)
      (cond ((eql head tail)
	     (setf head 0)
	     (setf tail 0)
	     (setf (fd-stream-ibuf-head stream) 0)
	     (setf (fd-stream-ibuf-tail stream) 0))
	    (t
	     (decf tail head)
	     (system-area-copy ibuf-sap (* head vm:byte-bits)
			       ibuf-sap 0 (* tail vm:byte-bits))
	     (setf head 0)
	     (setf (fd-stream-ibuf-head stream) 0)
	     (setf (fd-stream-ibuf-tail stream) tail))))
    (setf (fd-stream-listen stream) nil)
    #+serve-event
    (multiple-value-bind
	(count errno)
	(mach:unix-select (1+ fd) (ash 1 fd) 0 0 0)
      (case count
	(1)
	(0
	 (unless (system:wait-until-fd-usable
		  fd :input (fd-stream-timeout stream))
	   (error 'io-timeout :stream stream :direction :read)))
	(t
	 (error "Problem checking to see if ~S is readable: ~A"
		stream
		(mach:get-unix-error-msg errno)))))
    (multiple-value-bind
	(count errno)
	(mach:unix-read fd
			(system:int-sap (+ (system:sap-int ibuf-sap) tail))
			(- buflen tail))
      (cond ((null count)
	     (if #+serve-event (eql errno mach:ewouldblock)
		 #-serve-event nil
	       (progn
		 (unless (system:wait-until-fd-usable
			  fd :input (fd-stream-timeout stream))
		   (error 'io-timeout :stream stream :direction :read))
		 (do-input stream))
	       (error "Error reading ~S: ~A"
		      stream
		      (mach:get-unix-error-msg errno))))
	    ((zerop count)
	     (setf (fd-stream-listen stream) :eof)
	     (throw 'eof-input-catcher nil))
	    (t
	     (incf (fd-stream-ibuf-tail stream) count))))))
			
;;; INPUT-AT-LEAST -- internal
;;;
;;;   Makes sure there are at least ``bytes'' number of bytes in the input
;;; buffer. Keeps calling do-input until that condition is met.
;;;
(defmacro input-at-least (stream bytes)
  (let ((stream-var (gensym))
	(bytes-var (gensym)))
    `(let ((,stream-var ,stream)
	   (,bytes-var ,bytes))
       (loop
	 (when (>= (- (fd-stream-ibuf-tail ,stream-var)
		      (fd-stream-ibuf-head ,stream-var))
		   ,bytes-var)
	   (return))
	 (do-input ,stream-var)))))

;;; INPUT-WRAPPER -- intenal
;;;
;;;   Macro to wrap around all input routines to handle eof-error noise. This
;;; should make provisions for filling stream-in-buffer.
;;;
(defmacro input-wrapper ((stream bytes eof-error eof-value) &body read-forms)
  (let ((stream-var (gensym))
	(element-var (gensym)))
    `(let ((,stream-var ,stream))
       (if (fd-stream-unread ,stream)
	 (prog1
	     (fd-stream-unread ,stream)
	   (setf (fd-stream-unread ,stream) nil)
	   (setf (fd-stream-listen ,stream) nil))
	 (let ((,element-var
		(catch 'eof-input-catcher
		  (input-at-least ,stream-var ,bytes)
		  ,@read-forms)))
	   (cond (,element-var
		  (incf (fd-stream-ibuf-head ,stream-var) ,bytes)
		  ,element-var)
		 (,eof-error
		  (error "EOF while reading ~S" stream))
		 (t
		  ,eof-value)))))))

;;; DEF-INPUT-ROUTINE -- internal
;;;
;;;   Defines an input routine.
;;;
(defmacro def-input-routine (name
			     (type size sap head)
			     &rest body)
  `(progn
     (defun ,name (stream eof-error eof-value)
       (input-wrapper (stream ,size eof-error eof-value)
	 (let ((,sap (fd-stream-ibuf-sap stream))
	       (,head (fd-stream-ibuf-head stream)))
	   ,@body)))
     (setf *input-routines*
	   (nconc *input-routines*
		  (list (list ',type ',name ',size))))))

;;; INPUT-CHARACTER -- internal
;;;
;;;   Routine to use in stream-in slot for reading string chars.
;;;
(def-input-routine input-character
		   (character 1 sap head)
  (code-char (sap-ref-8 sap head)))

;;; INPUT-UNSIGNED-8BIT-BYTE -- internal
;;;
;;;   Routine to read in an unsigned 8 bit number.
;;;
(def-input-routine input-unsigned-8bit-byte
		   ((unsigned-byte 8) 1 sap head)
  (sap-ref-8 sap head))

;;; INPUT-SIGNED-8BIT-BYTE -- internal
;;;
;;;   Routine to read in a signed 8 bit number.
;;;
(def-input-routine input-signed-8bit-number
		   ((signed-byte 8) 1 sap head)
  (signed-sap-ref-8 sap head))

;;; INPUT-UNSIGNED-16BIT-BYTE -- internal
;;;
;;;   Routine to read in an unsigned 16 bit number.
;;;
(def-input-routine input-unsigned-16bit-byte
		   ((unsigned-byte 16) 2 sap head)
  (sap-ref-16 sap (truncate head 2)))

;;; INPUT-SIGNED-16BIT-BYTE -- internal
;;;
;;;   Routine to read in a signed 16 bit number.
;;;
(def-input-routine input-signed-16bit-byte
		   ((signed-byte 16) 2 sap head)
  (signed-sap-ref-16 sap (truncate head 2)))

;;; INPUT-UNSIGNED-32BIT-BYTE -- internal
;;;
;;;   Routine to read in a unsigned 32 bit number.
;;;
(def-input-routine input-unsigned-32bit-byte
		   ((unsigned-byte 32) 4 sap head)
  (sap-ref-32 sap (truncate head 4)))

;;; INPUT-SIGNED-32BIT-BYTE -- internal
;;;
;;;   Routine to read in a signed 32 bit number.
;;;
(def-input-routine input-signed-32bit-byte
		   ((signed-byte 32) 4 sap head)
  (signed-sap-ref-32 sap (truncate head 2)))

;;; PICK-INPUT-ROUTINE -- internal
;;;
;;;   Find an input routine to use given the type. Return as multiple values
;;; the routine, the real type transfered, and the number of bytes per element.
;;;
(defun pick-input-routine (type)
  (dolist (entry *input-routines*)
    (when (subtypep type (car entry))
      (return (values (symbol-function (cadr entry))
		      (car entry)
		      (caddr entry))))))

;;; STRING-FROM-SAP -- internal
;;;
;;;   Returns a string constructed from the sap, start, and end.
;;;
(defun string-from-sap (sap start end)
  (declare (type index start end))
  (let* ((length (- end start))
	 (string (make-string length)))
    (copy-from-system-area sap (* start vm:byte-bits)
			   string (* vm:vector-data-offset vm:word-bits)
			   (* length vm:byte-bits))
    string))

;;; FD-STREAM-READ-LINE -- internal
;;;
;;;   Reads a line, returning a simple string. Note: this relies on the fact
;;; that the input buffer does not change during do-input.
;;;
(defun fd-stream-read-line (stream eof-error-p eof-value)
  (let ((eof t))
    (values
     (or (let ((sap (fd-stream-ibuf-sap stream))
	       (results (when (fd-stream-unread stream)
			  (prog1
			      (list (string (fd-stream-unread stream)))
			    (setf (fd-stream-unread stream) nil)
			    (setf (fd-stream-listen stream) nil)))))
	   (catch 'eof-input-catcher
	     (loop
	       (input-at-least stream 1)
	       (let* ((head (fd-stream-ibuf-head stream))
		      (tail (fd-stream-ibuf-tail stream))
		      (newline (do ((index head (1+ index)))
				   ((= index tail) nil)
				 (when (= (sap-ref-8 sap index)
					  (char-code #\newline))
				   (return index))))
		      (end (or newline tail)))
		 (push (string-from-sap sap head end)
		       results)

		 (when newline
		   (setf eof nil)
		   (setf (fd-stream-ibuf-head stream)
			 (1+ newline))
		   (return))
		 (setf (fd-stream-ibuf-head stream) end))))
	   (cond ((null results)
		  nil)
		 ((null (cdr results))
		  (car results))
		 (t
		  (apply #'concatenate 'simple-string (nreverse results)))))
	 (if eof-error-p
	     (error "EOF while reading ~S" stream)
	     eof-value))
     eof)))

#|
This version waits using server.  I changed to the non-server version because
it allows this method to be used by CLX w/o confusing serve-event.  The
non-server method is also significantly more efficient for large reads.
  -- Ram

;;; FD-STREAM-READ-N-BYTES -- internal
;;;
;;; The n-bin routine.
;;; 
(defun fd-stream-read-n-bytes (stream buffer start requested eof-error-p)
  (let* ((sap (fd-stream-ibuf-sap stream))
	 (elsize (fd-stream-element-size stream))
	 (offset (* elsize start))
	 (bytes (* elsize requested))
	 (result
	  (catch 'eof-input-catcher
	    (loop
	      (input-at-least stream 1)
	      (let* ((head (fd-stream-ibuf-head stream))
		     (tail (fd-stream-ibuf-tail stream))
		     (available (- tail head))
		     (copy (min available bytes)))
		(if (typep buffer 'system-area-pointer)
		    (system-area-copy sap (* head vm:byte-bits)
				      buffer (* offset vm:byte-bits)
				      (* copy vm:byte-bits))
		    (copy-from-system-area sap (* head vm:byte-bits)
					   buffer (+ (* offset vm:byte-bits)
						     (* vm:vector-data-offset
							vm:word-bits))
					   (* copy vm:byte-bits)))
		(incf (fd-stream-ibuf-head stream) copy)
		(incf offset copy)
		(decf bytes copy))
	      (when (zerop bytes)
		(return requested))))))
    (cond (result)
	  ((not eof-error-p)
	   (- requested (/ bytes elsize)))
	  (t
	   (error "Hit eof on ~S after reading ~D ~D~2:*-bit byte~P~*, ~
		   but ~D~2:* ~D-bit byte~P~:* ~[were~;was~:;were~] requested."
		  stream
		  (- requested (/ bytes elsize))
		  (* elsize 8)
		  requested)))))
|#


;;; FD-STREAM-READ-N-BYTES -- internal
;;;
;;;    The N-Bin method for FD-STREAMs.  This doesn't using SERVER; it blocks
;;; in UNIX-READ.  This allows the method to be used to implementing reading
;;; for CLX.  It is generally used where there is a definite amount of reading
;;; to be done, so blocking isn't too problematical.
;;;
;;;    We copy buffered data into the buffer.  If there is enough, just return.
;;; Otherwise, we see if the amount of additional data needed will fit in the
;;; stream buffer.  If not, inhibit GCing (so we can have a SAP into the Buffer
;;; argument), and read directly into the user supplied buffer.  Otherwise,
;;; read a buffer-full into the stream buffer and then copy the amount we need
;;; out.
;;;
;;;    We loop doing the reads until we either get enough bytes or hit EOF.  We
;;; must loop because some streams (like pipes) may return a partial amount
;;; without hitting EOF.
;;; 
(defun fd-stream-read-n-bytes (stream buffer start requested eof-error-p)
  (declare (type stream stream) (type index start requested))
  (let* ((sap (fd-stream-ibuf-sap stream))
	 (elsize (fd-stream-element-size stream))
	 (offset (* elsize start))
	 (requested-bytes (* elsize requested))
	 (head (fd-stream-ibuf-head stream))
	 (tail (fd-stream-ibuf-tail stream))
	 (available (- tail head))
	 (copy (min requested-bytes available)))
    (declare (type index elsize offset requested-bytes head tail available
		   copy))
    (unless (zerop copy)
      (if (typep buffer 'system-area-pointer)
	  (system-area-copy sap (* head vm:byte-bits)
			    buffer (* offset vm:byte-bits)
			    (* copy vm:byte-bits))
	  (copy-from-system-area sap (* head vm:byte-bits)
				 buffer (+ (* offset vm:byte-bits)
					   (* vm:vector-data-offset
					      vm:word-bits))
				 (* copy vm:byte-bits)))
      (incf (fd-stream-ibuf-head stream) copy))
    (cond
     ((> requested-bytes available)
      (setf (fd-stream-ibuf-head stream) 0)
      (setf (fd-stream-ibuf-tail stream) 0)
      (setf (fd-stream-listen stream) nil)
      (let ((now-needed (- requested-bytes copy))
	    (len (fd-stream-ibuf-length stream)))
	(declare (type index now-needed len))
	(cond
	 ((> now-needed len)
	  (system:without-gcing
	    (loop
	      (multiple-value-bind
		  (count err)
		  (mach:unix-read (fd-stream-fd stream)
				  (sap+ (if (typep buffer 'system-area-pointer)
					    buffer
					    (vector-sap buffer))
					(+ offset copy))
				  now-needed)
		(declare (type (or index null) count))
		(unless count
		  (error "Error reading ~S: ~A" stream
			 (mach:get-unix-error-msg err)))
		(when (zerop count)
		  (if eof-error-p
		      (error "Unexpected eof on ~S." stream)
		      (return (- requested (truncate now-needed elsize)))))
		(decf now-needed count)
		(when (zerop now-needed) (return requested))
		(incf offset count)))))
	 (t
	  (loop
	    (multiple-value-bind
		(count err)
		(mach:unix-read (fd-stream-fd stream) sap len)
	      (declare (type (or index null) count))
	      (unless count
		(error "Error reading ~S: ~A" stream
		       (mach:get-unix-error-msg err)))
	      (incf (fd-stream-ibuf-tail stream) count)
	      (when (zerop count)
		(if eof-error-p
		    (error "Unexpected eof on ~S." stream)
		    (return (- requested (truncate now-needed elsize)))))
	      (let* ((copy (min now-needed count))
		     (copy-bits (* copy vm:byte-bits))
		     (buffer-start-bits
		      (* (+ offset available) vm:byte-bits)))
		(declare (type index copy copy-bits buffer-start-bits))
		(if (typep buffer 'system-area-pointer)
		    (system-area-copy sap 0
				      buffer buffer-start-bits
				      copy-bits)
		    (copy-from-system-area sap 0 
					   buffer (+ buffer-start-bits
						     (* vm:vector-data-offset
							vm:word-bits))
					   copy-bits))
		(incf (fd-stream-ibuf-head stream) copy)
		(decf now-needed copy)
		(when (zerop now-needed) (return requested))
		(incf offset copy))))))))
     (t
      requested))))


;;;; Utility functions (misc routines, etc)

;;; SET-ROUTINES -- internal
;;;
;;;   Fill in the various routine slots for the given type. Input-p and output-p
;;; indicate what slots to fill. The buffering slot must be set prior to
;;; calling this routine.
;;;
(defun set-routines (stream type input-p output-p)
  (let ((target-type (case type
		       ((:default unsigned-byte)
			'(unsigned-byte 8))
		       (signed-byte
			'(signed-byte 8))
		       (t
			type)))
	(input-type nil)
	(output-type nil)
	(input-size nil)
	(output-size nil))
    
    (when (fd-stream-obuf-sap stream)
      (push (fd-stream-obuf-sap stream) *available-buffers*)
      (setf (fd-stream-obuf-sap stream) nil))
    (when (fd-stream-ibuf-sap stream)
      (push (fd-stream-ibuf-sap stream) *available-buffers*)
      (setf (fd-stream-ibuf-sap stream) nil))
    
    (when input-p
      (multiple-value-bind
	  (routine type size)
	  (pick-input-routine target-type)
	(unless routine
	  (error "Could not find any input routine for ~S" target-type))
	(setf (fd-stream-ibuf-sap stream) (next-available-buffer))
	(setf (fd-stream-ibuf-length stream) bytes-per-buffer)
	(setf (fd-stream-ibuf-tail stream) 0)
	(if (subtypep type 'character)
	    (setf (fd-stream-in stream) routine
		  (fd-stream-bin stream) #'ill-bin
		  (fd-stream-n-bin stream) #'ill-bin)
	    (setf (fd-stream-in stream) #'ill-in
		  (fd-stream-bin stream) routine
		  (fd-stream-n-bin stream) #'fd-stream-read-n-bytes))
	(setf input-size size)
	(setf input-type type)))

    (when output-p
      (multiple-value-bind
	  (routine type size)
	  (pick-output-routine target-type (fd-stream-buffering stream))
	(unless routine
	  (error "Could not find any output routine for ~S buffered ~S."
		 (fd-stream-buffering stream)
		 target-type))
	(setf (fd-stream-obuf-sap stream) (next-available-buffer))
	(setf (fd-stream-obuf-length stream) bytes-per-buffer)
	(setf (fd-stream-obuf-tail stream) 0)
	(if (subtypep type 'character)
	  (setf (fd-stream-out stream) routine
		(fd-stream-bout stream) #'ill-bout)
	  (setf (fd-stream-out stream)
		(or (if (eql size 1)
		      (pick-output-routine 'base-character
					   (fd-stream-buffering stream)))
		    #'ill-out)
		(fd-stream-bout stream) routine))
	(setf (fd-stream-sout stream)
	      (if (eql size 1) #'fd-sout #'ill-out))
	(setf (fd-stream-char-pos stream) 0)
	(setf output-size size)
	(setf output-type type)))

    (when (and input-size output-size
	       (not (eq input-size output-size)))
      (error "Element sizes for input (~S:~S) and output (~S:~S) differ?"
	     input-type input-size
	     output-type output-size))
    (setf (fd-stream-element-size stream)
	  (or input-size output-size))

    (setf (fd-stream-element-type stream)
	  (cond ((equal input-type output-type)
		 input-type)
		((or (null output-type) (subtypep input-type output-type))
		 input-type)
		((subtypep output-type input-type)
		 output-type)
		(t
		 (error "Input type (~S) and output type (~S) are unrelated?"
			input-type
			output-type))))))

;;; FD-STREAM-MISC-ROUTINE -- input
;;;
;;;   Handle the various misc operations on fd-stream.
;;;
(defun fd-stream-misc-routine (stream operation &optional arg1 arg2)
  (case operation
    (:read-line
     (fd-stream-read-line stream arg1 arg2))
    (:listen
     (or (not (eql (fd-stream-ibuf-head stream)
		   (fd-stream-ibuf-tail stream)))
	 (fd-stream-listen stream)
	 (setf (fd-stream-listen stream)
	       (eql (mach:unix-select (1+ (fd-stream-fd stream))
				      (ash 1 (fd-stream-fd stream))
				      0
				      0
				      0)
		    1))))
    (:unread
     (setf (fd-stream-unread stream) arg1)
     (setf (fd-stream-listen stream) t))
    (:close
     (cond (arg1
	    ;; We got us an abort on our hands.
	    (when (and (fd-stream-file stream)
		       (fd-stream-obuf-sap stream))
	      ;; Can't do anything unless we know what file were dealing with,
	      ;; and we don't want to do anything strange unless we were
	      ;; writing to the file.
	      (if (fd-stream-original stream)
		  ;; Have an handle on the original, just revert.
		  (multiple-value-bind
		      (okay err)
		      (mach:unix-rename (fd-stream-original stream)
					(fd-stream-file stream))
		    (unless okay
		      (cerror "Go on as if nothing bad happened."
		        "Could not restore ~S to it's original contents: ~A"
			      (fd-stream-file stream)
			      (mach:get-unix-error-msg err))))
		  ;; Can't restore the orignal, so nuke that puppy.
		  (multiple-value-bind
		      (okay err)
		      (mach:unix-unlink (fd-stream-file stream))
		    (unless okay
		      (cerror "Go on as if nothing bad happened."
			      "Could not remove ~S: ~A"
			      (fd-stream-file stream)
			      (mach:get-unix-error-msg err)))))))
	   (t
	    (fd-stream-misc-routine stream :finish-output)
	    (when (and (fd-stream-original stream)
		       (fd-stream-delete-original stream))
	      (multiple-value-bind
		  (okay err)
		  (mach:unix-unlink (fd-stream-original stream))
		(unless okay
		  (cerror "Go on as if nothing bad happened."
			  "Could not delete ~S during close of ~S: ~A"
			  (fd-stream-original stream)
			  stream
			  (mach:get-unix-error-msg err)))))))
     (mach:unix-close (fd-stream-fd stream))
     (when (fd-stream-obuf-sap stream)
       (push (fd-stream-obuf-sap stream) *available-buffers*)
       (setf (fd-stream-obuf-sap stream) nil))
     (when (fd-stream-ibuf-sap stream)
       (push (fd-stream-ibuf-sap stream) *available-buffers*)
       (setf (fd-stream-ibuf-sap stream) nil))
     (lisp::set-closed-flame stream))
    (:clear-input
     (setf (fd-stream-ibuf-head stream) 0)
     (setf (fd-stream-ibuf-tail stream) 0)
     (loop
       (let ((count (mach:unix-select (1+ (fd-stream-fd stream))
				      (ash 1 (fd-stream-fd stream))
				      0 0 0)))
	 (cond ((eql count 1)
		(do-input stream)
		(setf (fd-stream-ibuf-head stream) 0)
		(setf (fd-stream-ibuf-tail stream) 0))
	       (t
		(return))))))
    (:force-output
     (flush-output-buffer stream))
    (:finish-output
     (flush-output-buffer stream)
     #+serve-event
     (do ()
	 ((null (fd-stream-output-later stream)))
       (system:serve-all-events)))
    (:element-type
     (fd-stream-element-type stream))
    (:line-length
     80)
    (:charpos
     (fd-stream-char-pos stream))
    (:file-length
     (multiple-value-bind
	 (okay dev ino mode nlink uid gid rdev size
	       atime mtime ctime blksize blocks)
	 (mach:unix-fstat (fd-stream-fd stream))
       (declare (ignore ino nlink uid gid rdev
			atime mtime ctime blksize blocks))
       (unless okay
	 (error "Error fstating ~S: ~A"
		stream
		(mach:get-unix-error-msg dev)))
       (if (zerop mode)
	 nil
	 (truncate size (fd-stream-element-size stream)))))
    (:file-position
     (fd-stream-file-position stream arg1))
    (:file-name
     (fd-stream-file stream))))

;;; FD-STREAM-FILE-POSITION -- internal.
;;;
(defun fd-stream-file-position (stream &optional newpos)
  (declare (type fd-stream stream)
	   (type (or index (member nil :start :end)) newpos))
  (if (null newpos)
      (system:without-interrupts
	;; First, find the position of the UNIX file descriptor in the
	;; file.
	(multiple-value-bind
	    (posn errno)
	    (mach:unix-lseek (fd-stream-fd stream) 0 mach:l_incr)
	  (declare (type (or index null) posn))
	  (cond ((fixnump posn)
		 ;; Adjust for buffered output:
		 ;;  If there is any output buffered, the *real* file position
		 ;; will be larger than reported by lseek because lseek
		 ;; obviously cannot take into account output we have not
		 ;; sent yet.
		 (dolist (later (fd-stream-output-later stream))
		   (incf posn (- (the index (caddr later))
				 (the index (cadr later)))))
		 (incf posn (fd-stream-obuf-tail stream))
		 ;; Adjust for unread input:
		 ;;  If there is any input read from UNIX but not supplied to
		 ;; the user of the stream, the *real* file position will
		 ;; smaller than reported, because we want to look like the
		 ;; unread stuff is still available.
		 (decf posn (- (fd-stream-ibuf-tail stream)
			       (fd-stream-ibuf-head stream)))
		 (when (fd-stream-unread stream)
		   (decf posn))
		 ;; Divide bytes by element size.
		 (truncate posn (fd-stream-element-size stream)))
		((eq errno mach:espipe)
		 nil)
		(t
		 (system:with-interrupts
		   (error "Error lseek'ing ~S: ~A"
			  stream
			  (mach:get-unix-error-msg errno)))))))
      (let (offset origin)
	;; Make sure we don't have any output pending, because if we move the
	;; file pointer before writing this stuff, it will be written in the
	;; wrong location.
	(flush-output-buffer stream)
	(do ()
	    ((null (fd-stream-output-later stream)))
	  (system:serve-all-events))
	;; Clear out any pending input to force the next read to go to the
	;; disk.
	(setf (fd-stream-unread stream) nil)
	(setf (fd-stream-ibuf-head stream) 0)
	(setf (fd-stream-ibuf-tail stream) 0)
	;; Trash cashed value for listen, so that we check next time.
	(setf (fd-stream-listen stream) nil)
	;; Now move it.
	(cond ((eq newpos :start)
	       (setf offset 0 origin mach:l_set))
	      ((eq newpos :end)
	       (setf offset 0 origin mach:l_xtnd))
	      ((typep newpos 'index)
	       (setf offset (* newpos (fd-stream-element-size stream))
		     origin mach:l_set))
	      (t
	       (error "Invalid position given to file-position: ~S" newpos)))
	(multiple-value-bind
	    (posn errno)
	    (mach:unix-lseek (fd-stream-fd stream) offset origin)
	  (cond ((typep posn 'fixnum)
		 t)
		((eq errno mach:espipe)
		 nil)
		(t
		 (error "Error lseek'ing ~S: ~A"
			stream
			(mach:get-unix-error-msg errno))))))))



;;;; Creation routines (MAKE-FD-STREAM and OPEN)

;;; MAKE-FD-STREAM -- Public.
;;;
;;; Returns a FD-STREAM on the given file.
;;;
(defun make-fd-stream (fd
		       &key
		       (input nil input-p)
		       (output nil output-p)
		       (element-type 'base-character)
		       (buffering :full)
		       timeout
		       file
		       original
		       delete-original
		       (name (if file
				 (format nil "file ~S" file)
				 (format nil "descriptor ~D" fd))))
  (declare (type index fd) (type (or index null) timeout)
	   (type (member :none :line :full) buffering))
  "Create a stream for the given unix file descriptor.
  If input is non-nil, allow input operations.
  If output is non-nil, allow output operations.
  If neither input nor output are specified, default to allowing input.
  Element-type indicates the element type to use (as for open).
  Buffering indicates the kind of buffering to use.
  Timeout (if true) is the number of seconds to wait for input.  If NIL (the
    default), then wait forever.  When we time out, we signal IO-TIMEOUT.
  File is the name of the file (will be returned by PATHNAME).
  Name is used to identify the stream when printed."
  (cond ((not (or input-p output-p))
	 (setf input t))
	((not (or input output))
	 (error "File descriptor must be opened either for input or output.")))
  (let ((stream (%make-fd-stream :fd fd
				 :name name
				 :file file
				 :original original
				 :delete-original delete-original
				 :buffering buffering
				 :timeout timeout)))
    (set-routines stream element-type input output)
    stream))

;;; PICK-PACKUP-NAME -- internal
;;;
;;; Pick a name to use for the backup file.
;;;
(defvar *backup-extension* ".BAK"
  "This is a string that OPEN tacks on the end of a file namestring to produce
   a name for the :if-exists :rename-and-delete and :rename options.  Also,
   this can be a function that takes a namestring and returns a complete
   namestring.")
;;;
(defun pick-backup-name (name)
  (declare (type simple-string name))
  (let ((ext *backup-extension*))
    (etypecase ext
      (simple-string (concatenate 'simple-string name ext))
      (function (funcall ext name)))))

;;; ASSURE-ONE-OF -- internal
;;;
;;; Assure that the given arg is one of the given list of valid things.
;;; Allow the user to fix any problems.
;;; 
(defun assure-one-of (item list what)
  (unless (member item list)
    (loop
      (cerror "Enter new value for ~*~S"
	      "~S is invalid for ~S. Must be one of~{ ~S~}"
	      item
	      what
	      list)
      (format (the stream *query-io*) "Enter new value for ~S: " what)
      (force-output *query-io*)
      (setf item (read *query-io*))
      (when (member item list)
	(return))))
  item)

;;; DO-OLD-RENAME  --  Internal
;;;
;;;    Rename Namestring to Original.  First, check if we have write access,
;;; since we don't want to trash unwritable files even if we technically can.
;;; We return true if we suceed in renaming.
;;;
(defun do-old-rename (namestring original)
  (unless (mach:unix-access namestring mach:w_ok)
    (cerror "Try to rename it anyway." "File ~S is not writable." namestring))
  (multiple-value-bind
      (okay err)
      (mach:unix-rename namestring original)
    (cond (okay t)
	  (t
	   (cerror "Use :SUPERSEDE instead."
		   "Could not rename ~S to ~S: ~A."
		   namestring
		   original
		   (mach:get-unix-error-msg err))
	   nil))))


;;; OPEN -- public
;;;
;;;   Open the given file.
;;;
(defun open (filename
	     &key
	     (direction :input)
	     (element-type 'base-character)
	     (if-exists nil if-exists-given)
	     (if-does-not-exist nil if-does-not-exist-given))
  "Return a stream which reads from or writes to Filename.
  Defined keywords:
   :direction - one of :input, :output, :io, or :probe
   :element-type - Type of object to read or write, default BASE-CHARACTER
   :if-exists - one of :error, :new-version, :rename, :rename-and-delete,
                       :overwrite, :append, :supersede or nil
   :if-does-not-exist - one of :error, :create or nil
  See the manual for details."
  ;; First, make sure that DIRECTION is valid. Allow it to be changed if not.
  (setf direction
	(assure-one-of direction
		       '(:input :output :io :probe)
		       :direction))

  ;; Calculate useful stuff.
  (multiple-value-bind
      (input output mask)
      (case direction
	(:input (values t nil mach:o_rdonly))
	(:output (values nil t mach:o_wronly))
	(:io (values t t mach:o_rdwr))
	(:probe (values t nil mach:o_rdonly)))
    (declare (type index mask))
    (let* ((pathname (pathname filename))
	   (namestring (unix-namestring pathname input)))
      ;; Process if-exists argument if we are doing any output.
      (cond (output
	     (unless if-exists-given
	       (setf if-exists
		     (if (eq (pathname-version pathname) :newest)
		       :new-version
		       :error)))
	     (setf if-exists
		   (assure-one-of if-exists
				  '(:error :new-version :rename
				    :rename-and-delete :overwrite
				    :append :supersede nil)
				  :if-exists))
	     (case if-exists
	       ((:error nil)
		(setf mask (logior mask mach:o_excl)))
	       ((:rename :rename-and-delete)
		(setf mask (logior mask mach:o_creat)))
	       ((:new-version :supersede)
		(setf mask (logior mask mach:o_trunc)))
	       (:append
		(setf mask (logior mask mach:o_append)))))
	    (t
	     (setf if-exists :ignore-this-arg)))
      
      (unless if-does-not-exist-given
	(setf if-does-not-exist
	      (cond ((eq direction :input) :error)
		    ((and output
			  (member if-exists '(:overwrite :append)))
		     :error)
		    ((eq direction :probe)
		     nil)
		    (t
		     :create))))
      (setf if-does-not-exist
	    (assure-one-of if-does-not-exist
			   '(:error :create nil)
			   :if-does-not-exist))
      (if (eq if-does-not-exist :create)
	(setf mask (logior mask mach:o_creat)))
       
      (let ((original (if (member if-exists
				  '(:rename :rename-and-delete))
			  (pick-backup-name namestring)))
	    (delete-original (eq if-exists :rename-and-delete))
	    (mode #o666))
	(when original
	  ;; We are doing a :rename or :rename-and-delete.
	  ;; Determine if the file already exists, make sure the original
	  ;; file is not a directory and keep the mode
	  (let ((exists
		 (multiple-value-bind
		     (okay err/dev inode orig-mode)
		     (mach:unix-stat namestring)
		   (declare (ignore inode) (type (or index null) orig-mode))
		   (cond (okay
			  (when (and output (= (logand orig-mode #o170000)
					       #o40000))
			    (error "Cannot open ~S for output: Is a directory."
				   namestring))
			  (setf mode (logand orig-mode #o777))
			  t)
			 ((eql err/dev mach:enoent)
			  nil)
			 (t
			  (error "Cannot find ~S: ~A"
				 namestring
				 (mach:get-unix-error-msg err/dev)))))))
	    (unless (and exists
			 (do-old-rename namestring original))
	      (setf original nil)
	      (setf delete-original nil)
	      ;; In order to use SUPERSEDE instead, we have
	      ;; to make sure mach:o_creat corresponds to
	      ;; if-does-not-exist.  mach:o_creat was set
	      ;; before because of if-exists being :rename.
	      (unless (eq if-does-not-exist :create)
		(setf mask (logior (logandc2 mask mach:o_creat) mach:o_trunc)))
	      (setf if-exists :supersede))))
	
	;; Okay, now we can try the actual open.
	(loop
	  (multiple-value-bind
	      (fd errno)
	      (mach:unix-open namestring mask mode)
	    (cond ((numberp fd)
		   (return
		    (case direction
		      ((:input :output :io)
		       (make-fd-stream fd
				       :input input
				       :output output
				       :element-type element-type
				       :file namestring
				       :original original
				       :delete-original delete-original))
		      (:probe
		       (let ((stream
			      (%make-fd-stream :name namestring :fd fd
					       :element-type element-type)))
			 (close stream)
			 stream)))))
		  ((eql errno mach:enoent)
		   (case if-does-not-exist
		     (:error
		      (cerror "Return NIL."
			      "Error opening ~S, ~A."
			      pathname
			      (mach:get-unix-error-msg errno)))
		     (:create
		      (cerror "Return NIL."
			      "Error creating ~S, path does not exist."
			      pathname)))
		   (return nil))
		  ((eql errno mach:eexist)
		   (unless (eq nil if-exists)
		     (cerror "Return NIL."
			     "Error opening ~S, ~A."
			     pathname
			     (mach:get-unix-error-msg errno)))
		   (return nil))
		  ((eql errno mach:eacces)
		   (cerror "Try again."
			  "Error opening ~S, ~A."
			  pathname
			  (mach:get-unix-error-msg errno)))
		  (t
		   (cerror "Return NIL."
			   "Error opening ~S, ~A."
			   pathname
			   (mach:get-unix-error-msg errno))
		   (return nil)))))))))

;;;; Initialization.

(defvar *tty* nil
  "The stream connected to the controlling terminal or NIL if there is none.")
(defvar *stdin* nil
  "The stream connected to the standard input (file descriptor 0).")
(defvar *stdout* nil
  "The stream connected to the standard output (file descriptor 1).")
(defvar *stderr* nil
  "The stream connected to the standard error output (file descriptor 2).")

;;; STREAM-INIT -- internal interface
;;;
;;; Called when the cold load is first started up.
;;; 
(defun stream-init ()
  (stream-reinit)
  (setf *terminal-io* (make-synonym-stream '*tty*))
  (setf *standard-output* (make-synonym-stream '*stdout*))
  (setf *standard-input*
	(make-two-way-stream (make-synonym-stream '*stdin*)
			     *standard-output*))
  (setf *error-output* (make-synonym-stream '*stderr*))
  (setf *query-io* (make-synonym-stream '*terminal-io*))
  (setf *debug-io* *query-io*)
  (setf *trace-output* *standard-output*)
  nil)

;;; STREAM-REINIT -- internal interface
;;;
;;; Called whenever a saved core is restarted.
;;; 
(defun stream-reinit ()
  (setf *available-buffers* nil)
  (setf *stdin*
	(make-fd-stream 0 :name "Standard Input" :input t :buffering :line))
  (setf *stdout*
	(make-fd-stream 1 :name "Standard Output" :output t :buffering :line))
  (setf *stderr*
	(make-fd-stream 2 :name "Standard Error" :output t :buffering :line))
  (let ((tty (mach:unix-open "/dev/tty" mach:o_rdwr #o666)))
    (if tty
	(setf *tty*
	      (make-fd-stream tty :name "the Terminal" :input t :output t
			      :buffering :line))
	(setf *tty* (make-two-way-stream *stdin* *stdout*))))
  nil)


;;;; Beeping.

(defun default-beep-function (stream)
  (write-char #\bell stream)
  (finish-output stream))

(defvar *beep-function* #'default-beep-function
  "This is called in BEEP to feep the user.  It takes a stream.")

(defun beep (&optional (stream *terminal-io*))
  (funcall *beep-function* stream))


;;;; File position and file length.

;;; File-Position  --  Public
;;;
;;;    Call the misc method with the :file-position operation.
;;;
(defun file-position (stream &optional position)
  "With one argument returns the current position within the file
  File-Stream is open to.  If the second argument is supplied, then
  this becomes the new file position.  The second argument may also
  be :start or :end for the start and end of the file, respectively."
  (unless (streamp stream)
    (error "Argument ~S is not a stream." stream))
  (funcall (stream-misc stream) stream :file-position position))

;;; File-Length  --  Public
;;;
;;;    Like File-Position, only use :file-length.
;;;
(defun file-length (stream)
  "This function returns the length of the file that File-Stream is open to."
  (unless (streamp stream)
    (error "Argument ~S is not a stream." stream))
  (funcall (stream-misc stream) stream :file-length))

;;; File-Name  --  internal interface
;;;
;;;    Kind of like File-Position, but is an internal hack used by the filesys
;;; stuff to get and set the file name.
;;;
(defun file-name (stream &optional new-name)
  (when (fd-stream-p stream)
    (if new-name
	(setf (fd-stream-file stream) new-name)
	(fd-stream-file stream))))