;; sources where input and output aren't related). non-NIL means
;; don't clear input buffer.
(dual-channel-p nil)
- ;; character position (if known)
- (char-pos nil :type (or index null))
+ ;; character position if known -- this may run into bignums, but
+ ;; we probably should flip it into null then for efficiency's sake...
+ (char-pos nil :type (or unsigned-byte null))
;; T if input is waiting on FD. :EOF if we hit EOF.
(listen nil :type (member nil t :eof))
;; 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))
+ ;; timeout specified for this stream as seconds or NIL if none
+ (timeout nil :type (or single-float null))
;; pathname of the file this stream is opened to (returned by PATHNAME)
(pathname nil :type (or pathname null))
(external-format :default)
:stream stream
:code code))
+(defun c-string-encoding-error (external-format code)
+ (error 'c-string-encoding-error
+ :external-format external-format
+ :code code))
+
+(defun c-string-decoding-error (external-format octets)
+ (error 'c-string-decoding-error
+ :external-format external-format
+ :octets octets))
+
;;; Returning true goes into end of file handling, false will enter another
;;; round of input buffer filling followed by re-entering character decode.
(defun stream-decoding-error-and-handle (stream octet-count)
(format stream "~@<Skip output of this character.~@:>"))
(throw 'output-nothing nil))))
+(defun external-format-encoding-error (stream code)
+ (if (streamp stream)
+ (stream-encoding-error-and-handle stream code)
+ (c-string-encoding-error stream code)))
+
+(defun external-format-decoding-error (stream octet-count)
+ (if (streamp stream)
+ (stream-decoding-error stream octet-count)
+ (c-string-decoding-error stream octet-count)))
+
;;; This is called by the server when we can write to the given file
;;; descriptor. Attempt to write the data again. If it worked, remove
;;; the data from the OUTPUT-LATER list. If it didn't work, something
start
length)
(cond ((not count)
- (if #!-win32 (= errno sb!unix:ewouldblock) #!+win32 t #!-win32
+ #!+win32
+ (simple-stream-perror "couldn't write to ~S" stream errno)
+ #!-win32
+ (if (= errno sb!unix:ewouldblock)
(error "Write would have blocked, but SERVER told us to go.")
(simple-stream-perror "couldn't write to ~S" stream errno)))
((eql count length) ; Hot damn, it worked.
end)
(fd-stream-output-later stream))))))
(unless (fd-stream-output-later stream)
- (sb!sys:remove-fd-handler (fd-stream-handler stream))
+ (remove-fd-handler (fd-stream-handler stream))
(setf (fd-stream-handler stream) nil)))
;;; Arange to output the string when we can write on the file descriptor.
(setf (fd-stream-output-later stream)
(list (list base start end reuse-sap)))
(setf (fd-stream-handler stream)
- (sb!sys:add-fd-handler (fd-stream-fd stream)
+ (add-fd-handler (fd-stream-fd stream)
:output
(lambda (fd)
(declare (ignore fd))
(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 whether any of this noise can be output
- )
+ (output-later stream base start end reuse-sap)
+ ;; ### check to see whether any of this noise can be output
(let ((length (- end start)))
(multiple-value-bind (count errno)
(sb!unix:unix-write (fd-stream-fd stream) base start length)
(cond ((not count)
- (if #!-win32 (= errno sb!unix:ewouldblock) #!+win32 t #!-win32
+ #!+win32
+ (simple-stream-perror "Couldn't write to ~S" stream errno)
+ #!-win32
+ (if (= errno sb!unix:ewouldblock)
(output-later stream base start end reuse-sap)
- (simple-stream-perror "couldn't write to ~S"
- stream
- errno)))
+ (simple-stream-perror "Couldn't write to ~S"
+ stream errno)))
((not (eql count length))
(output-later stream base (the index (+ start count))
end reuse-sap)))))))
(frob-output stream (fd-stream-obuf-sap stream) 0 length t)
(setf (fd-stream-obuf-tail stream) 0))))
+(defun fd-stream-output-finished-p (stream)
+ (and (zerop (fd-stream-obuf-tail stream))
+ (not (fd-stream-output-later stream))))
+
(defmacro output-wrapper/variable-width ((stream size buffering restart)
&body body)
(let ((stream-var (gensym)))
(intern (format nil name-fmt (string (car buffering))))))
`(progn
(defun ,function (stream byte)
+ (declare (ignorable byte))
(output-wrapper/variable-width (stream ,size ,buffering ,restart)
,@body))
(setf *output-routines*
(fd-stream-obuf-tail stream))
byte))
+#+#.(cl:if (cl:= sb!vm:n-word-bits 64) '(and) '(or))
+(progn
+ (def-output-routines ("OUTPUT-UNSIGNED-LONG-LONG-~A-BUFFERED"
+ 8
+ nil
+ (:none (unsigned-byte 64))
+ (:full (unsigned-byte 64)))
+ (setf (sap-ref-64 (fd-stream-obuf-sap stream) (fd-stream-obuf-tail stream))
+ byte))
+ (def-output-routines ("OUTPUT-SIGNED-LONG-LONG-~A-BUFFERED"
+ 8
+ nil
+ (:none (signed-byte 64))
+ (:full (signed-byte 64)))
+ (setf (signed-sap-ref-64 (fd-stream-obuf-sap stream)
+ (fd-stream-obuf-tail stream))
+ byte)))
+
;;; Do 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
element-type, string input function name, character input function name,
and string output function name.")
+(defun get-external-format (external-format)
+ (dolist (entry *external-formats*)
+ (when (member external-format (first entry))
+ (return entry))))
+
+(defun get-external-format-function (external-format index)
+ (let ((entry (get-external-format external-format)))
+ (when entry (nth index entry))))
+
;;; 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 &optional external-format)
(when (subtypep type 'character)
- (dolist (entry *external-formats*)
- (when (member external-format (first entry))
+ (let ((entry (get-external-format external-format)))
+ (when entry
(return-from pick-output-routine
(values (symbol-function (nth (ecase buffering
(:none 4)
;;(not (sb!win32:fd-listen fd)), as was originally here. See
;;comment in `sysread-may-block-p'.
(when (sysread-may-block-p stream)
- (unless (sb!sys:wait-until-fd-usable
+ (unless (wait-until-fd-usable
fd :input (fd-stream-timeout stream))
- (error 'io-timeout :stream stream :direction :read)))
+ (signal-timeout 'io-timeout :stream stream :direction :read
+ :seconds (fd-stream-timeout stream))))
(multiple-value-bind (count errno)
(sb!unix:unix-read fd
- (sb!sys:int-sap (+ (sb!sys:sap-int ibuf-sap) tail))
+ (int-sap (+ (sap-int ibuf-sap) tail))
(- buflen tail))
(cond ((null count)
(if #!-win32 (eql errno sb!unix:ewouldblock) #!+win32 t #!-win32
(progn
- (unless (sb!sys:wait-until-fd-usable
+ (unless (wait-until-fd-usable
fd :input (fd-stream-timeout stream))
- (error 'io-timeout :stream stream :direction :read))
+ (signal-timeout 'io-timeout
+ :stream stream :direction :read
+ :seconds (fd-stream-timeout stream)))
(refill-buffer/fd stream))
(simple-stream-perror "couldn't read from ~S" stream errno)))
((zerop count)
,stream-var)
(fd-stream-ibuf-head
,stream-var))))
+ (declare (ignorable byte))
(setq size ,bytes)
(input-at-least ,stream-var size)
(setq ,element-var (locally ,@read-forms))
((signed-byte 32) 4 sap head)
(signed-sap-ref-32 sap head))
-
+#+#.(cl:if (cl:= sb!vm:n-word-bits 64) '(and) '(or))
+(progn
+ (def-input-routine input-unsigned-64bit-byte
+ ((unsigned-byte 64) 8 sap head)
+ (sap-ref-64 sap head))
+ (def-input-routine input-signed-64bit-byte
+ ((signed-byte 64) 8 sap head)
+ (signed-sap-ref-64 sap head)))
;;; Find an input routine to use given the type. Return as multiple
;;; values the routine, the real type transfered, and the number of
(when sizer
(loop for char across string summing (funcall sizer char)))))
+(defun find-external-format (external-format)
+ (when external-format
+ (find external-format *external-formats* :test #'member :key #'car)))
+
+(defun variable-width-external-format-p (ef-entry)
+ (when (eighth ef-entry) t))
+
+(defun bytes-for-char-fun (ef-entry)
+ (if ef-entry (symbol-function (ninth ef-entry)) (constantly 1)))
+
;;; FIXME: OAOOM here vrt. *EXTERNAL-FORMAT-FUNCTIONS* in fd-stream.lisp
(defmacro define-external-format (external-format size output-restart
out-expr in-expr)
(format (format nil "OUTPUT-CHAR-~A-~~A-BUFFERED" (string name)))
(in-function (symbolicate "FD-STREAM-READ-N-CHARACTERS/" name))
(in-char-function (symbolicate "INPUT-CHAR/" name))
- (size-function (symbolicate "BYTES-FOR-CHAR/" name)))
+ (size-function (symbolicate "BYTES-FOR-CHAR/" name))
+ (read-c-string-function (symbolicate "READ-FROM-C-STRING/" name))
+ (output-c-string-function (symbolicate "OUTPUT-TO-C-STRING/" name))
+ (n-buffer (gensym "BUFFER")))
`(progn
(defun ,size-function (byte)
(declare (ignore byte))
,out-expr))
(defun ,in-function (stream buffer start requested eof-error-p
&aux (index start) (end (+ start requested)))
- (declare (type fd-stream stream))
- (declare (type index start requested index end))
- (declare (type (simple-array character (#.+ansi-stream-in-buffer-length+)) buffer))
+ (declare (type fd-stream stream)
+ (type index start requested index end)
+ (type
+ (simple-array character (#.+ansi-stream-in-buffer-length+))
+ buffer))
(let ((unread (fd-stream-unread stream)))
(when unread
(setf (aref buffer index) unread)
(def-input-routine ,in-char-function (character ,size sap head)
(let ((byte (sap-ref-8 sap head)))
,in-expr))
+ (defun ,read-c-string-function (sap element-type)
+ (declare (type system-area-pointer sap)
+ (type (member character base-char) element-type))
+ (locally
+ (declare (optimize (speed 3) (safety 0)))
+ (let* ((stream ,name)
+ (length
+ (loop for head of-type index upfrom 0 by ,size
+ for count of-type index upto (1- array-dimension-limit)
+ for byte = (sap-ref-8 sap head)
+ for char of-type character = ,in-expr
+ until (zerop (char-code char))
+ finally (return count)))
+ ;; Inline the common cases
+ (string (make-string length :element-type element-type)))
+ (declare (ignorable stream)
+ (type index length)
+ (type simple-string string))
+ (/show0 before-copy-loop)
+ (loop for head of-type index upfrom 0 by ,size
+ for index of-type index below length
+ for byte = (sap-ref-8 sap head)
+ for char of-type character = ,in-expr
+ do (setf (aref string index) char))
+ string))) ;; last loop rewrite to dotimes?
+ (defun ,output-c-string-function (string)
+ (declare (type simple-string string))
+ (locally
+ (declare (optimize (speed 3) (safety 0)))
+ (let* ((length (length string))
+ (,n-buffer (make-array (* (1+ length) ,size)
+ :element-type '(unsigned-byte 8)))
+ ;; This SAP-taking may seem unsafe without pinning,
+ ;; but since the variable name is a gensym OUT-EXPR
+ ;; cannot close over it even if it tried, so the buffer
+ ;; will always be either in a register or on stack.
+ ;; FIXME: But ...this is true on x86oids only!
+ (sap (vector-sap ,n-buffer))
+ (tail 0)
+ (stream ,name))
+ (declare (type index length tail)
+ (type system-area-pointer sap))
+ (dotimes (i length)
+ (let* ((byte (aref string i))
+ (bits (char-code byte)))
+ (declare (ignorable byte bits))
+ ,out-expr)
+ (incf tail ,size))
+ (let* ((bits 0)
+ (byte (code-char bits)))
+ (declare (ignorable bits byte))
+ ,out-expr)
+ ,n-buffer)))
(setf *external-formats*
(cons '(,external-format ,in-function ,in-char-function ,out-function
,@(mapcar #'(lambda (buffering)
(intern (format nil format (string buffering))))
'(:none :line :full))
nil ; no resync-function
- ,size-function)
+ ,size-function ,read-c-string-function ,output-c-string-function)
*external-formats*)))))
(defmacro define-external-format/variable-width
(in-function (symbolicate "FD-STREAM-READ-N-CHARACTERS/" name))
(in-char-function (symbolicate "INPUT-CHAR/" name))
(resync-function (symbolicate "RESYNC/" name))
- (size-function (symbolicate "BYTES-FOR-CHAR/" name)))
+ (size-function (symbolicate "BYTES-FOR-CHAR/" name))
+ (read-c-string-function (symbolicate "READ-FROM-C-STRING/" name))
+ (output-c-string-function (symbolicate "OUTPUT-TO-C-STRING/" name))
+ (n-buffer (gensym "BUFFER")))
`(progn
(defun ,size-function (byte)
+ (declare (ignorable byte))
,out-size-expr)
(defun ,out-function (stream string flush-p start end)
(let ((start (or start 0))
,out-expr))
(defun ,in-function (stream buffer start requested eof-error-p
&aux (total-copied 0))
- (declare (type fd-stream stream))
- (declare (type index start requested total-copied))
- (declare (type (simple-array character (#.+ansi-stream-in-buffer-length+)) buffer))
+ (declare (type fd-stream stream)
+ (type index start requested total-copied)
+ (type
+ (simple-array character (#.+ansi-stream-in-buffer-length+))
+ buffer))
(let ((unread (fd-stream-unread stream)))
(when unread
(setf (aref buffer start) unread)
(setf decode-break-reason
(block decode-break-reason
(let ((byte (sap-ref-8 sap head)))
+ (declare (ignorable byte))
(setq size ,in-size-expr)
(when (> size (- tail head))
(return))
,in-size-expr
sap head)
(let ((byte (sap-ref-8 sap head)))
+ (declare (ignorable byte))
,in-expr))
(defun ,resync-function (stream)
(loop (input-at-least stream 2)
(head (fd-stream-ibuf-head stream))
(byte (sap-ref-8 sap head))
(size ,in-size-expr))
+ (declare (ignorable byte))
(input-at-least stream size)
(let ((sap (fd-stream-ibuf-sap stream))
(head (fd-stream-ibuf-head stream)))
,in-expr))
nil)
(return))))
+ (defun ,read-c-string-function (sap element-type)
+ (declare (type system-area-pointer sap))
+ (locally
+ (declare (optimize (speed 3) (safety 0)))
+ (let* ((stream ,name)
+ (size 0) (head 0) (byte 0) (char nil)
+ (decode-break-reason nil)
+ (length (dotimes (count (1- ARRAY-DIMENSION-LIMIT) count)
+ (setf decode-break-reason
+ (block decode-break-reason
+ (setf byte (sap-ref-8 sap head)
+ size ,in-size-expr
+ char ,in-expr)
+ (incf head size)
+ nil))
+ (when decode-break-reason
+ (c-string-decoding-error ,name decode-break-reason))
+ (when (zerop (char-code char))
+ (return count))))
+ (string (make-string length :element-type element-type)))
+ (declare (ignorable stream)
+ (type index head length) ;; size
+ (type (unsigned-byte 8) byte)
+ (type (or null character) char)
+ (type string string))
+ (setf head 0)
+ (dotimes (index length string)
+ (setf decode-break-reason
+ (block decode-break-reason
+ (setf byte (sap-ref-8 sap head)
+ size ,in-size-expr
+ char ,in-expr)
+ (incf head size)
+ nil))
+ (when decode-break-reason
+ (c-string-decoding-error ,name decode-break-reason))
+ (setf (aref string index) char)))))
+
+ (defun ,output-c-string-function (string)
+ (declare (type simple-string string))
+ (locally
+ (declare (optimize (speed 3) (safety 0)))
+ (let* ((length (length string))
+ (char-length (make-array (1+ length) :element-type 'index))
+ (buffer-length
+ (+ (loop for i of-type index below length
+ for byte of-type character = (aref string i)
+ for bits = (char-code byte)
+ sum (setf (aref char-length i)
+ (the index ,out-size-expr)))
+ (let* ((byte (code-char 0))
+ (bits (char-code byte)))
+ (declare (ignorable byte bits))
+ (setf (aref char-length length)
+ (the index ,out-size-expr)))))
+ (tail 0)
+ (,n-buffer (make-array buffer-length
+ :element-type '(unsigned-byte 8)))
+ ;; This SAP-taking may seem unsafe without pinning,
+ ;; but since the variable name is a gensym OUT-EXPR
+ ;; cannot close over it even if it tried, so the buffer
+ ;; will always be either in a register or on stack.
+ ;; FIXME: But ...this is true on x86oids only!
+ (sap (vector-sap ,n-buffer))
+ stream)
+ (declare (type index length buffer-length tail)
+ (type system-area-pointer sap)
+ (type null stream)
+ (ignorable stream))
+ (loop for i of-type index below length
+ for byte of-type character = (aref string i)
+ for bits = (char-code byte)
+ for size of-type index = (aref char-length i)
+ do (prog1
+ ,out-expr
+ (incf tail size)))
+ (let* ((bits 0)
+ (byte (code-char bits))
+ (size (aref char-length length)))
+ (declare (ignorable bits byte size))
+ ,out-expr)
+ ,n-buffer)))
+
(setf *external-formats*
(cons '(,external-format ,in-function ,in-char-function ,out-function
,@(mapcar #'(lambda (buffering)
(intern (format nil format (string buffering))))
'(:none :line :full))
,resync-function
- ,size-function)
+ ,size-function ,read-c-string-function ,output-c-string-function)
*external-formats*)))))
;;; Multiple names for the :ISO{,-}8859-* families are needed because on
(define-external-format (:latin-1 :latin1 :iso-8859-1 :iso8859-1)
1 t
(if (>= bits 256)
- (stream-encoding-error-and-handle stream bits)
+ (external-format-encoding-error stream bits)
(setf (sap-ref-8 sap tail) bits))
(code-char byte))
:iso-646 :iso-646-us :|646|)
1 t
(if (>= bits 128)
- (stream-encoding-error-and-handle stream bits)
+ (external-format-encoding-error stream bits)
(setf (sap-ref-8 sap tail) bits))
(code-char byte))
(define-external-format (:ebcdic-us :ibm-037 :ibm037)
1 t
(if (>= bits 256)
- (stream-encoding-error-and-handle stream bits)
+ (external-format-encoding-error stream bits)
(setf (sap-ref-8 sap tail) (aref reverse-table bits)))
(aref table byte)))
(if (< bits 256)
(if (= bits (char-code (aref latin-9-table bits)))
bits
- (stream-encoding-error-and-handle stream byte))
+ (external-format-encoding-error stream byte))
(if (= (aref latin-9-reverse-1 (logand bits 15)) bits)
(aref latin-9-reverse-2 (logand bits 15))
- (stream-encoding-error-and-handle stream byte))))
+ (external-format-encoding-error stream byte))))
(aref latin-9-table byte)))
(define-external-format/variable-width (:utf-8 :utf8) nil
(declare (ignore arg2))
(case operation
(:listen
- (or (not (eql (fd-stream-ibuf-head fd-stream)
- (fd-stream-ibuf-tail fd-stream)))
- (fd-stream-listen fd-stream)
- #!+win32
- (setf (fd-stream-listen fd-stream)
- (sb!win32:fd-listen (fd-stream-fd fd-stream)))
- #!-win32
- (setf (fd-stream-listen fd-stream)
- (if (sysread-may-block-p fd-stream)
- nil
- ;; select(2) and CL:LISTEN have slightly different
- ;; semantics. The former returns that an FD is
- ;; readable when a read operation wouldn't block.
- ;; That includes EOF. However, LISTEN must return
- ;; NIL at EOF.
- (progn (catch 'eof-input-catcher
- ;; r-b/f too calls select, but it shouldn't
- ;; block as long as read can return once w/o
- ;; blocking
- (refill-buffer/fd fd-stream))
- ;; If REFILL-BUFFER/FD set the FD-STREAM-LISTEN
- ;; slot to a non-nil value (i.e. :EOF), keep
- ;; that value.
- (or (fd-stream-listen fd-stream)
- ;; Otherwise we have data -> set the slot
- ;; to T.
- t))))))
+ (labels ((do-listen ()
+ (or (not (eql (fd-stream-ibuf-head fd-stream)
+ (fd-stream-ibuf-tail fd-stream)))
+ (fd-stream-listen fd-stream)
+ #!+win32
+ (sb!win32:fd-listen (fd-stream-fd fd-stream))
+ #!-win32
+ ;; If the read can block, LISTEN will certainly return NIL.
+ (if (sysread-may-block-p fd-stream)
+ nil
+ ;; Otherwise select(2) and CL:LISTEN have slightly
+ ;; different semantics. The former returns that an FD
+ ;; is readable when a read operation wouldn't block.
+ ;; That includes EOF. However, LISTEN must return NIL
+ ;; at EOF.
+ (progn (catch 'eof-input-catcher
+ ;; r-b/f too calls select, but it shouldn't
+ ;; block as long as read can return once w/o
+ ;; blocking
+ (refill-buffer/fd fd-stream))
+ ;; At this point either IBUF-HEAD != IBUF-TAIL
+ ;; and FD-STREAM-LISTEN is NIL, in which case
+ ;; we should return T, or IBUF-HEAD ==
+ ;; IBUF-TAIL and FD-STREAM-LISTEN is :EOF, in
+ ;; which case we should return :EOF for this
+ ;; call and all future LISTEN call on this stream.
+ ;; Call ourselves again to determine which case
+ ;; applies.
+ (do-listen))))))
+ (do-listen)))
(:unread
(setf (fd-stream-unread fd-stream) arg1)
(setf (fd-stream-listen fd-stream) t))
(:close
(cond (arg1 ; We got us an abort on our hands.
(when (fd-stream-handler fd-stream)
- (sb!sys:remove-fd-handler (fd-stream-handler fd-stream))
+ (remove-fd-handler (fd-stream-handler fd-stream))
(setf (fd-stream-handler fd-stream) nil))
;; We can't do anything unless we know what file were
;; dealing with, and we don't want to do anything
(:force-output
(flush-output-buffer fd-stream))
(:finish-output
- (flush-output-buffer fd-stream)
- (do ()
- ((null (fd-stream-output-later fd-stream)))
- (sb!sys:serve-all-events)))
+ (finish-fd-stream-output fd-stream))
(:element-type
(fd-stream-element-type fd-stream))
(:external-format
(character (fd-stream-character-size fd-stream arg1))
(string (fd-stream-string-size fd-stream arg1))))
(:file-position
- (fd-stream-file-position fd-stream arg1))))
+ (if arg1
+ (fd-stream-set-file-position fd-stream arg1)
+ (fd-stream-get-file-position fd-stream)))))
+
+;; FIXME: Think about this.
+;;
+;; (defun finish-fd-stream-output (fd-stream)
+;; (let ((timeout (fd-stream-timeout fd-stream)))
+;; (loop while (fd-stream-output-later fd-stream)
+;; ;; FIXME: SIGINT while waiting for a timeout will
+;; ;; cause a timeout here.
+;; do (when (and (not (serve-event timeout)) timeout)
+;; (signal-timeout 'io-timeout
+;; :stream fd-stream
+;; :direction :write
+;; :seconds timeout)))))
+
+(defun finish-fd-stream-output (stream)
+ (flush-output-buffer stream)
+ (do ()
+ ((null (fd-stream-output-later stream)))
+ (serve-all-events)))
+
+(defun fd-stream-get-file-position (stream)
+ (declare (fd-stream stream))
+ (without-interrupts
+ (let ((posn (sb!unix:unix-lseek (fd-stream-fd stream) 0 sb!unix:l_incr)))
+ (declare (type (or (alien sb!unix:off-t) null) posn))
+ ;; We used to return NIL for errno==ESPIPE, and signal an error
+ ;; in other failure cases. However, CLHS says to return NIL if
+ ;; the position cannot be determined -- so that's what we do.
+ (when (integerp 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 (- (caddr later) (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))))))
+
+(defun fd-stream-set-file-position (stream position-spec)
+ (declare (fd-stream stream))
+ (check-type position-spec
+ (or (alien sb!unix:off-t) (member nil :start :end))
+ "valid file position designator")
+ (tagbody
+ :again
+ ;; 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.
+ (finish-fd-stream-output stream)
+ ;; Disable interrupts so that interrupt handlers doing output
+ ;; won't screw us.
+ (without-interrupts
+ (unless (fd-stream-output-finished-p stream)
+ ;; We got interrupted and more output came our way during
+ ;; the interrupt. Wrapping the FINISH-FD-STREAM-OUTPUT in
+ ;; WITHOUT-INTERRUPTS gets nasty as it can signal errors,
+ ;; so we prefer to do things like this...
+ (go :again))
+ ;; Clear out any pending input to force the next read to go to
+ ;; the disk.
+ (setf (fd-stream-unread stream) nil
+ (fd-stream-ibuf-head stream) 0
+ (fd-stream-ibuf-tail stream) 0)
+ ;; Trash cached value for listen, so that we check next time.
+ (setf (fd-stream-listen stream) nil)
+ ;; Now move it.
+ (multiple-value-bind (offset origin)
+ (case position-spec
+ (:start
+ (values 0 sb!unix:l_set))
+ (:end
+ (values 0 sb!unix:l_xtnd))
+ (t
+ (values (* position-spec (fd-stream-element-size stream))
+ sb!unix:l_set)))
+ (declare (type (alien sb!unix:off-t) offset))
+ (let ((posn (sb!unix:unix-lseek (fd-stream-fd stream)
+ offset origin)))
+ ;; CLHS says to return true if the file-position was set
+ ;; succesfully, and NIL otherwise. We are to signal an error
+ ;; only if the given position was out of bounds, and that is
+ ;; dealt with above. In times past we used to return NIL for
+ ;; errno==ESPIPE, and signal an error in other cases.
+ ;;
+ ;; FIXME: We are still liable to signal an error if flushing
+ ;; output fails.
+ (return-from fd-stream-set-file-position
+ (typep posn '(alien sb!unix:off-t))))))))
-(defun fd-stream-file-position (stream &optional newpos)
- (declare (type fd-stream stream)
- (type (or (alien sb!unix:off-t) (member nil :start :end)) newpos))
- (if (null newpos)
- (sb!sys:without-interrupts
- ;; First, find the position of the UNIX file descriptor in the file.
- (multiple-value-bind (posn errno)
- (sb!unix:unix-lseek (fd-stream-fd stream) 0 sb!unix:l_incr)
- (declare (type (or (alien sb!unix:off-t) null) posn))
- (cond ((integerp 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 (- (caddr later)
- (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 sb!unix:espipe)
- nil)
- (t
- (sb!sys:with-interrupts
- (simple-stream-perror "failure in Unix lseek() on ~S"
- stream
- errno))))))
- (let ((offset 0) origin)
- (declare (type (alien sb!unix:off-t) offset))
- ;; 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)))
- (sb!sys: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 cached 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 sb!unix:l_set))
- ((eq newpos :end)
- (setf offset 0 origin sb!unix:l_xtnd))
- ((typep newpos '(alien sb!unix:off-t))
- (setf offset (* newpos (fd-stream-element-size stream))
- origin sb!unix:l_set))
- (t
- (error "invalid position given to FILE-POSITION: ~S" newpos)))
- (multiple-value-bind (posn errno)
- (sb!unix:unix-lseek (fd-stream-fd stream) offset origin)
- (cond ((typep posn '(alien sb!unix:off-t))
- t)
- ((eq errno sb!unix:espipe)
- nil)
- (t
- (simple-stream-perror "error in Unix lseek() on ~S"
- stream
- errno)))))))
\f
;;;; creation routines (MAKE-FD-STREAM and OPEN)
(format nil "file ~A" file)
(format nil "descriptor ~W" fd)))
auto-close)
- (declare (type index fd) (type (or index null) timeout)
+ (declare (type index fd) (type (or real null) timeout)
(type (member :none :line :full) buffering))
(cond ((not (or input-p output-p))
(setf input t))
:buffering buffering
:dual-channel-p dual-channel-p
:external-format external-format
- :timeout timeout)))
+ :timeout
+ (if timeout
+ (coerce timeout 'single-float)
+ nil))))
(set-fd-stream-routines stream element-type external-format
input output input-buffer-p)
(when (and auto-close (fboundp 'finalize))
;;; Pick a name to use for the backup file for the :IF-EXISTS
;;; :RENAME-AND-DELETE and :RENAME options.
(defun pick-backup-name (name)
- (declare (type simple-base-string name))
- (concatenate 'simple-base-string name ".bak"))
+ (declare (type simple-string name))
+ (concatenate 'simple-string name ".bak"))
;;; Ensure that the given arg is one of the given list of valid
;;; things. Allow the user to fix any problems.