1.0.18.17: Alter some STYLE-WARNING names introduced in 1.0.18.16.
[sbcl/pkhuong.git] / src / code / stream.lisp
blobe2bb25da6d9b3b0180cb5ffca39fc0a6b46fbd46
1 ;;;; os-independent stream functions
3 ;;;; This software is part of the SBCL system. See the README file for
4 ;;;; more information.
5 ;;;;
6 ;;;; This software is derived from the CMU CL system, which was
7 ;;;; written at Carnegie Mellon University and released into the
8 ;;;; public domain. The software is in the public domain and is
9 ;;;; provided with absolutely no warranty. See the COPYING and CREDITS
10 ;;;; files for more information.
12 (in-package "SB!IMPL")
14 ;;;; standard streams
16 ;;; The initialization of these streams is performed by
17 ;;; STREAM-COLD-INIT-OR-RESET.
18 (defvar *terminal-io* () #!+sb-doc "terminal I/O stream")
19 (defvar *standard-input* () #!+sb-doc "default input stream")
20 (defvar *standard-output* () #!+sb-doc "default output stream")
21 (defvar *error-output* () #!+sb-doc "error output stream")
22 (defvar *query-io* () #!+sb-doc "query I/O stream")
23 (defvar *trace-output* () #!+sb-doc "trace output stream")
24 (defvar *debug-io* () #!+sb-doc "interactive debugging stream")
26 (defun ill-in (stream &rest ignore)
27 (declare (ignore ignore))
28 (error 'simple-type-error
29 :datum stream
30 :expected-type '(satisfies input-stream-p)
31 :format-control "~S is not a character input stream."
32 :format-arguments (list stream)))
33 (defun ill-out (stream &rest ignore)
34 (declare (ignore ignore))
35 (error 'simple-type-error
36 :datum stream
37 :expected-type '(satisfies output-stream-p)
38 :format-control "~S is not a character output stream."
39 :format-arguments (list stream)))
40 (defun ill-bin (stream &rest ignore)
41 (declare (ignore ignore))
42 (error 'simple-type-error
43 :datum stream
44 :expected-type '(satisfies input-stream-p)
45 :format-control "~S is not a binary input stream."
46 :format-arguments (list stream)))
47 (defun ill-bout (stream &rest ignore)
48 (declare (ignore ignore))
49 (error 'simple-type-error
50 :datum stream
51 :expected-type '(satisfies output-stream-p)
52 :format-control "~S is not a binary output stream."
53 :format-arguments (list stream)))
54 (defun closed-flame (stream &rest ignore)
55 (declare (ignore ignore))
56 (error "~S is closed." stream))
57 (defun no-op-placeholder (&rest ignore)
58 (declare (ignore ignore)))
60 ;;; stream manipulation functions
62 (defun ansi-stream-input-stream-p (stream)
63 (declare (type ansi-stream stream))
64 (if (synonym-stream-p stream)
65 (input-stream-p (symbol-value (synonym-stream-symbol stream)))
66 (and (not (eq (ansi-stream-in stream) #'closed-flame))
67 ;;; KLUDGE: It's probably not good to have EQ tests on function
68 ;;; values like this. What if someone's redefined the function?
69 ;;; Is there a better way? (Perhaps just VALID-FOR-INPUT and
70 ;;; VALID-FOR-OUTPUT flags? -- WHN 19990902
71 (or (not (eq (ansi-stream-in stream) #'ill-in))
72 (not (eq (ansi-stream-bin stream) #'ill-bin))))))
74 (defun input-stream-p (stream)
75 (declare (type stream stream))
76 (and (ansi-stream-p stream)
77 (ansi-stream-input-stream-p stream)))
79 (defun ansi-stream-output-stream-p (stream)
80 (declare (type ansi-stream stream))
81 (if (synonym-stream-p stream)
82 (output-stream-p (symbol-value (synonym-stream-symbol stream)))
83 (and (not (eq (ansi-stream-in stream) #'closed-flame))
84 (or (not (eq (ansi-stream-out stream) #'ill-out))
85 (not (eq (ansi-stream-bout stream) #'ill-bout))))))
87 (defun output-stream-p (stream)
88 (declare (type stream stream))
90 (and (ansi-stream-p stream)
91 (ansi-stream-output-stream-p stream)))
93 (declaim (inline ansi-stream-open-stream-p))
94 (defun ansi-stream-open-stream-p (stream)
95 (declare (type ansi-stream stream))
96 ;; CLHS 22.1.4 lets us not worry about synonym streams here.
97 (not (eq (ansi-stream-in stream) #'closed-flame)))
99 (defun open-stream-p (stream)
100 (ansi-stream-open-stream-p stream))
102 (declaim (inline ansi-stream-element-type))
103 (defun ansi-stream-element-type (stream)
104 (declare (type ansi-stream stream))
105 (funcall (ansi-stream-misc stream) stream :element-type))
107 (defun stream-element-type (stream)
108 (ansi-stream-element-type stream))
110 (defun stream-external-format (stream)
111 (funcall (ansi-stream-misc stream) stream :external-format))
113 (defun interactive-stream-p (stream)
114 (declare (type stream stream))
115 (funcall (ansi-stream-misc stream) stream :interactive-p))
117 (declaim (inline ansi-stream-close))
118 (defun ansi-stream-close (stream abort)
119 (declare (type ansi-stream stream))
120 (when (open-stream-p stream)
121 (funcall (ansi-stream-misc stream) stream :close abort))
124 (defun close (stream &key abort)
125 (ansi-stream-close stream abort))
127 (defun set-closed-flame (stream)
128 (setf (ansi-stream-in stream) #'closed-flame)
129 (setf (ansi-stream-bin stream) #'closed-flame)
130 (setf (ansi-stream-n-bin stream) #'closed-flame)
131 (setf (ansi-stream-out stream) #'closed-flame)
132 (setf (ansi-stream-bout stream) #'closed-flame)
133 (setf (ansi-stream-sout stream) #'closed-flame)
134 (setf (ansi-stream-misc stream) #'closed-flame))
136 ;;;; file position and file length
137 (defun external-format-char-size (external-format)
138 (let ((ef-entry (find-external-format external-format)))
139 (if (variable-width-external-format-p ef-entry)
140 (bytes-for-char-fun ef-entry)
141 (funcall (bytes-for-char-fun ef-entry) #\x))))
143 ;;; Call the MISC method with the :FILE-POSITION operation.
144 #!-sb-fluid (declaim (inline ansi-stream-file-position))
145 (defun ansi-stream-file-position (stream position)
146 (declare (type stream stream))
147 (declare (type (or index (alien sb!unix:off-t) (member nil :start :end))
148 position))
149 ;; FIXME: It woud be good to comment on the stuff that is done here...
150 ;; FIXME: This doesn't look interrupt safe.
151 (cond
152 (position
153 (setf (ansi-stream-in-index stream) +ansi-stream-in-buffer-length+)
154 (funcall (ansi-stream-misc stream) stream :file-position position))
156 (let ((res (funcall (ansi-stream-misc stream) stream :file-position nil)))
157 (when res
158 #!-sb-unicode
159 (- res
160 (- +ansi-stream-in-buffer-length+
161 (ansi-stream-in-index stream)))
162 #!+sb-unicode
163 (let ((char-size (if (fd-stream-p stream)
164 (fd-stream-char-size stream)
165 (external-format-char-size (stream-external-format stream)))))
166 (- res
167 (etypecase char-size
168 (function
169 (loop with buffer = (ansi-stream-cin-buffer stream)
170 with start = (ansi-stream-in-index stream)
171 for i from start below +ansi-stream-in-buffer-length+
172 sum (funcall char-size (aref buffer i))))
173 (fixnum
174 (* char-size
175 (- +ansi-stream-in-buffer-length+
176 (ansi-stream-in-index stream))))))))))))
178 (defun file-position (stream &optional position)
179 (if (ansi-stream-p stream)
180 (ansi-stream-file-position stream position)
181 (stream-file-position stream position)))
183 ;;; This is a literal translation of the ANSI glossary entry "stream
184 ;;; associated with a file".
186 ;;; KLUDGE: Note that since Unix famously thinks "everything is a
187 ;;; file", and in particular stdin, stdout, and stderr are files, we
188 ;;; end up with this test being satisfied for weird things like
189 ;;; *STANDARD-OUTPUT* (to a tty). That seems unlikely to be what the
190 ;;; ANSI spec really had in mind, especially since this is used as a
191 ;;; qualification for operations like FILE-LENGTH (so that ANSI was
192 ;;; probably thinking of something like what Unix calls block devices)
193 ;;; but I can't see any better way to do it. -- WHN 2001-04-14
194 (defun stream-associated-with-file-p (x)
195 "Test for the ANSI concept \"stream associated with a file\"."
196 (or (typep x 'file-stream)
197 (and (synonym-stream-p x)
198 (stream-associated-with-file-p (symbol-value
199 (synonym-stream-symbol x))))))
201 (defun stream-must-be-associated-with-file (stream)
202 (declare (type stream stream))
203 (unless (stream-associated-with-file-p stream)
204 (error 'simple-type-error
205 ;; KLUDGE: The ANSI spec for FILE-LENGTH specifically says
206 ;; this should be TYPE-ERROR. But what then can we use for
207 ;; EXPECTED-TYPE? This SATISFIES type (with a nonstandard
208 ;; private predicate function..) is ugly and confusing, but
209 ;; I can't see any other way. -- WHN 2001-04-14
210 :datum stream
211 :expected-type '(satisfies stream-associated-with-file-p)
212 :format-control
213 "~@<The stream ~2I~_~S ~I~_isn't associated with a file.~:>"
214 :format-arguments (list stream))))
216 ;;; like FILE-POSITION, only using :FILE-LENGTH
217 (defun file-length (stream)
218 ;; FIXME: The following declaration uses yet undefined types, which
219 ;; cause cross-compiler hangup.
221 ;; (declare (type (or file-stream synonym-stream) stream))
223 ;; The description for FILE-LENGTH says that an error must be raised
224 ;; for streams not associated with files (which broadcast streams
225 ;; aren't according to the glossary). However, the behaviour of
226 ;; FILE-LENGTH for broadcast streams is explicitly described in the
227 ;; BROADCAST-STREAM entry.
228 (unless (typep stream 'broadcast-stream)
229 (stream-must-be-associated-with-file stream))
230 (funcall (ansi-stream-misc stream) stream :file-length))
232 (defun file-string-length (stream object)
233 (funcall (ansi-stream-misc stream) stream :file-string-length object))
235 ;;;; input functions
237 (defun ansi-stream-read-line-from-frc-buffer (stream eof-error-p eof-value)
238 (prepare-for-fast-read-char stream
239 (declare (ignore %frc-method%))
240 (let ((chunks-total-length 0)
241 (chunks nil))
242 (declare (type index chunks-total-length)
243 (list chunks))
244 (labels ((refill-buffer ()
245 (prog1
246 (fast-read-char-refill stream nil nil)
247 (setf %frc-index% (ansi-stream-in-index %frc-stream%))))
248 (newline-position ()
249 (position #\Newline (the (simple-array character (*))
250 %frc-buffer%)
251 :test #'char=
252 :start %frc-index%))
253 (make-and-return-result-string (pos)
254 (let* ((len (+ (- (or pos %frc-index%)
255 %frc-index%)
256 chunks-total-length))
257 (res (make-string len))
258 (start 0))
259 (declare (type index start))
260 (when chunks
261 (dolist (chunk (nreverse chunks))
262 (declare (type (simple-array character) chunk))
263 (replace res chunk :start1 start)
264 (incf start (length chunk))))
265 (unless (null pos)
266 (replace res %frc-buffer%
267 :start1 start
268 :start2 %frc-index% :end2 pos)
269 (setf %frc-index% (1+ pos)))
270 (done-with-fast-read-char)
271 (return-from ansi-stream-read-line-from-frc-buffer (values res (null pos)))))
272 (add-chunk ()
273 (let* ((end (length %frc-buffer%))
274 (len (- end %frc-index%))
275 (chunk (make-string len)))
276 (replace chunk %frc-buffer% :start2 %frc-index% :end2 end)
277 (push chunk chunks)
278 (incf chunks-total-length len)
279 (when (refill-buffer)
280 (make-and-return-result-string nil)))))
281 (declare (inline make-and-return-result-string
282 refill-buffer))
283 (when (and (= %frc-index% +ansi-stream-in-buffer-length+)
284 (refill-buffer))
285 ;; EOF had been reached before we read anything
286 ;; at all. Return the EOF value or signal the error.
287 (done-with-fast-read-char)
288 (return-from ansi-stream-read-line-from-frc-buffer
289 (values (eof-or-lose stream eof-error-p eof-value) t)))
290 (loop
291 (let ((pos (newline-position)))
292 (if pos
293 (make-and-return-result-string pos)
294 (add-chunk))))))))
296 #!-sb-fluid (declaim (inline ansi-stream-read-line))
297 (defun ansi-stream-read-line (stream eof-error-p eof-value recursive-p)
298 (declare (ignore recursive-p))
299 (if (ansi-stream-cin-buffer stream)
300 ;; Stream has a fast-read-char buffer. Copy large chunks directly
301 ;; out of the buffer.
302 (ansi-stream-read-line-from-frc-buffer stream eof-error-p eof-value)
303 ;; Slow path, character by character.
304 (prepare-for-fast-read-char stream
305 (let ((res (make-string 80))
306 (len 80)
307 (index 0))
308 (loop
309 (let ((ch (fast-read-char nil nil)))
310 (cond (ch
311 (when (char= ch #\newline)
312 (done-with-fast-read-char)
313 (return (values (%shrink-vector res index) nil)))
314 (when (= index len)
315 (setq len (* len 2))
316 (let ((new (make-string len)))
317 (replace new res)
318 (setq res new)))
319 (setf (schar res index) ch)
320 (incf index))
321 ((zerop index)
322 (done-with-fast-read-char)
323 (return (values (eof-or-lose stream
324 eof-error-p
325 eof-value)
326 t)))
327 ;; Since FAST-READ-CHAR already hit the eof char, we
328 ;; shouldn't do another READ-CHAR.
330 (done-with-fast-read-char)
331 (return (values (%shrink-vector res index) t))))))))))
333 (defun read-line (&optional (stream *standard-input*) (eof-error-p t) eof-value
334 recursive-p)
335 (let ((stream (in-synonym-of stream)))
336 (if (ansi-stream-p stream)
337 (ansi-stream-read-line stream eof-error-p eof-value recursive-p)
338 ;; must be Gray streams FUNDAMENTAL-STREAM
339 (multiple-value-bind (string eof) (stream-read-line stream)
340 (if (and eof (zerop (length string)))
341 (values (eof-or-lose stream eof-error-p eof-value) t)
342 (values string eof))))))
344 ;;; We proclaim them INLINE here, then proclaim them NOTINLINE later on,
345 ;;; so, except in this file, they are not inline by default, but they can be.
346 #!-sb-fluid (declaim (inline read-char unread-char read-byte listen))
348 #!-sb-fluid (declaim (inline ansi-stream-read-char))
349 (defun ansi-stream-read-char (stream eof-error-p eof-value recursive-p)
350 (declare (ignore recursive-p))
351 (prepare-for-fast-read-char stream
352 (prog1
353 (fast-read-char eof-error-p eof-value)
354 (done-with-fast-read-char))))
356 (defun read-char (&optional (stream *standard-input*)
357 (eof-error-p t)
358 eof-value
359 recursive-p)
360 (let ((stream (in-synonym-of stream)))
361 (if (ansi-stream-p stream)
362 (ansi-stream-read-char stream eof-error-p eof-value recursive-p)
363 ;; must be Gray streams FUNDAMENTAL-STREAM
364 (let ((char (stream-read-char stream)))
365 (if (eq char :eof)
366 (eof-or-lose stream eof-error-p eof-value)
367 char)))))
369 #!-sb-fluid (declaim (inline ansi-stream-unread-char))
370 (defun ansi-stream-unread-char (character stream)
371 (let ((index (1- (ansi-stream-in-index stream)))
372 (buffer (ansi-stream-cin-buffer stream)))
373 (declare (fixnum index))
374 (when (minusp index) (error "nothing to unread"))
375 (cond (buffer
376 (setf (aref buffer index) character)
377 (setf (ansi-stream-in-index stream) index))
379 (funcall (ansi-stream-misc stream) stream
380 :unread character)))))
382 (defun unread-char (character &optional (stream *standard-input*))
383 (let ((stream (in-synonym-of stream)))
384 (if (ansi-stream-p stream)
385 (ansi-stream-unread-char character stream)
386 ;; must be Gray streams FUNDAMENTAL-STREAM
387 (stream-unread-char stream character)))
388 nil)
390 #!-sb-fluid (declaim (inline ansi-stream-listen))
391 (defun ansi-stream-listen (stream)
392 (or (/= (the fixnum (ansi-stream-in-index stream))
393 +ansi-stream-in-buffer-length+)
394 ;; Handle :EOF return from misc methods specially
395 (let ((result (funcall (ansi-stream-misc stream) stream :listen)))
396 (if (eq result :eof)
398 result))))
400 (defun listen (&optional (stream *standard-input*))
401 (let ((stream (in-synonym-of stream)))
402 (if (ansi-stream-p stream)
403 (ansi-stream-listen stream)
404 ;; Fall through to Gray streams FUNDAMENTAL-STREAM case.
405 (stream-listen stream))))
407 #!-sb-fluid (declaim (inline ansi-stream-read-char-no-hang))
408 (defun ansi-stream-read-char-no-hang (stream eof-error-p eof-value recursive-p)
409 (if (funcall (ansi-stream-misc stream) stream :listen)
410 ;; On T or :EOF get READ-CHAR to do the work.
411 (ansi-stream-read-char stream eof-error-p eof-value recursive-p)
412 nil))
414 (defun read-char-no-hang (&optional (stream *standard-input*)
415 (eof-error-p t)
416 eof-value
417 recursive-p)
418 (let ((stream (in-synonym-of stream)))
419 (if (ansi-stream-p stream)
420 (ansi-stream-read-char-no-hang stream eof-error-p eof-value
421 recursive-p)
422 ;; must be Gray streams FUNDAMENTAL-STREAM
423 (let ((char (stream-read-char-no-hang stream)))
424 (if (eq char :eof)
425 (eof-or-lose stream eof-error-p eof-value)
426 char)))))
428 #!-sb-fluid (declaim (inline ansi-stream-clear-input))
429 (defun ansi-stream-clear-input (stream)
430 (setf (ansi-stream-in-index stream) +ansi-stream-in-buffer-length+)
431 (funcall (ansi-stream-misc stream) stream :clear-input))
433 (defun clear-input (&optional (stream *standard-input*))
434 (let ((stream (in-synonym-of stream)))
435 (if (ansi-stream-p stream)
436 (ansi-stream-clear-input stream)
437 ;; must be Gray streams FUNDAMENTAL-STREAM
438 (stream-clear-input stream)))
439 nil)
441 #!-sb-fluid (declaim (inline ansi-stream-read-byte))
442 (defun ansi-stream-read-byte (stream eof-error-p eof-value recursive-p)
443 ;; Why the "recursive-p" parameter? a-s-r-b is funcall'ed from
444 ;; a-s-read-sequence and needs a lambda list that's congruent with
445 ;; that of a-s-read-char
446 (declare (ignore recursive-p))
447 (prepare-for-fast-read-byte stream
448 (prog1
449 (fast-read-byte eof-error-p eof-value t)
450 (done-with-fast-read-byte))))
452 (defun read-byte (stream &optional (eof-error-p t) eof-value)
453 (if (ansi-stream-p stream)
454 (ansi-stream-read-byte stream eof-error-p eof-value nil)
455 ;; must be Gray streams FUNDAMENTAL-STREAM
456 (let ((char (stream-read-byte stream)))
457 (if (eq char :eof)
458 (eof-or-lose stream eof-error-p eof-value)
459 char))))
461 ;;; Read NUMBYTES bytes into BUFFER beginning at START, and return the
462 ;;; number of bytes read.
464 ;;; Note: CMU CL's version of this had a special interpretation of
465 ;;; EOF-ERROR-P which SBCL does not have. (In the EOF-ERROR-P=NIL
466 ;;; case, CMU CL's version would return as soon as any data became
467 ;;; available.) This could be useful behavior for things like pipes in
468 ;;; some cases, but it wasn't being used in SBCL, so it was dropped.
469 ;;; If we ever need it, it could be added later as a new variant N-BIN
470 ;;; method (perhaps N-BIN-ASAP?) or something.
471 #!-sb-fluid (declaim (inline read-n-bytes))
472 (defun read-n-bytes (stream buffer start numbytes &optional (eof-error-p t))
473 (if (ansi-stream-p stream)
474 (ansi-stream-read-n-bytes stream buffer start numbytes eof-error-p)
475 ;; We don't need to worry about element-type size here is that
476 ;; callers are supposed to have checked everything is kosher.
477 (let* ((end (+ start numbytes))
478 (read-end (stream-read-sequence stream buffer start end)))
479 (eof-or-lose stream (and eof-error-p (< read-end end)) (- read-end start)))))
481 (defun ansi-stream-read-n-bytes (stream buffer start numbytes eof-error-p)
482 (declare (type ansi-stream stream)
483 (type index numbytes start)
484 (type (or (simple-array * (*)) system-area-pointer) buffer))
485 (let* ((stream (in-synonym-of stream ansi-stream))
486 (in-buffer (ansi-stream-in-buffer stream))
487 (index (ansi-stream-in-index stream))
488 (num-buffered (- +ansi-stream-in-buffer-length+ index)))
489 (declare (fixnum index num-buffered))
490 (cond
491 ((not in-buffer)
492 (funcall (ansi-stream-n-bin stream)
493 stream
494 buffer
495 start
496 numbytes
497 eof-error-p))
498 ((<= numbytes num-buffered)
499 #+nil
500 (let ((copy-function (typecase buffer
501 ((simple-array * (*)) #'ub8-bash-copy)
502 (system-area-pointer #'copy-ub8-to-system-area))))
503 (funcall copy-function in-buffer index buffer start numbytes))
504 (%byte-blt in-buffer index
505 buffer start (+ start numbytes))
506 (setf (ansi-stream-in-index stream) (+ index numbytes))
507 numbytes)
509 (let ((end (+ start num-buffered)))
510 #+nil
511 (let ((copy-function (typecase buffer
512 ((simple-array * (*)) #'ub8-bash-copy)
513 (system-area-pointer #'copy-ub8-to-system-area))))
514 (funcall copy-function in-buffer index buffer start num-buffered))
515 (%byte-blt in-buffer index buffer start end)
516 (setf (ansi-stream-in-index stream) +ansi-stream-in-buffer-length+)
517 (+ (funcall (ansi-stream-n-bin stream)
518 stream
519 buffer
521 (- numbytes num-buffered)
522 eof-error-p)
523 num-buffered))))))
525 ;;; the amount of space we leave at the start of the in-buffer for
526 ;;; unreading
528 ;;; (It's 4 instead of 1 to allow word-aligned copies.)
529 (defconstant +ansi-stream-in-buffer-extra+
530 4) ; FIXME: should be symbolic constant
532 ;;; This function is called by the FAST-READ-CHAR expansion to refill
533 ;;; the IN-BUFFER for text streams. There is definitely an IN-BUFFER,
534 ;;; and hence must be an N-BIN method. It's also called by other stream
535 ;;; functions which directly peek into the frc buffer.
536 (defun fast-read-char-refill (stream eof-error-p eof-value)
537 (let* ((ibuf (ansi-stream-cin-buffer stream))
538 (count (funcall (ansi-stream-n-bin stream)
539 stream
540 ibuf
541 +ansi-stream-in-buffer-extra+
542 (- +ansi-stream-in-buffer-length+
543 +ansi-stream-in-buffer-extra+)
544 nil))
545 (start (- +ansi-stream-in-buffer-length+ count)))
546 (declare (type index start count))
547 (cond ((zerop count)
548 ;; An empty count does not necessarily mean that we reached
549 ;; the EOF, it's also possible that it's e.g. due to a
550 ;; invalid octet sequence in a multibyte stream. To handle
551 ;; the resyncing case correctly we need to call the
552 ;; single-character reading function and check whether an
553 ;; EOF was really reached. If not, we can just fill the
554 ;; buffer by one character, and hope that the next refill
555 ;; will not need to resync.
556 (let* ((value (funcall (ansi-stream-in stream) stream nil :eof))
557 (index (1- +ansi-stream-in-buffer-length+)))
558 (case value
559 ((:eof)
560 ;; Mark buffer as empty.
561 (setf (ansi-stream-in-index stream)
562 +ansi-stream-in-buffer-length+)
563 ;; EOF. Redo the read, this time with the real eof parameters.
564 (values t (funcall (ansi-stream-in stream)
565 stream eof-error-p eof-value)))
566 (otherwise
567 (setf (aref ibuf index) value)
568 (values nil (setf (ansi-stream-in-index stream) index))))))
570 (when (/= start +ansi-stream-in-buffer-extra+)
571 (#.(let* ((n-character-array-bits
572 (sb!vm:saetp-n-bits
573 (find 'character
574 sb!vm:*specialized-array-element-type-properties*
575 :key #'sb!vm:saetp-specifier)))
576 (bash-function (intern (format nil "UB~D-BASH-COPY" n-character-array-bits)
577 (find-package "SB!KERNEL"))))
578 bash-function)
579 ibuf +ansi-stream-in-buffer-extra+
580 ibuf start
581 count))
582 (values nil
583 (setf (ansi-stream-in-index stream) start))))))
585 ;;; This is similar to FAST-READ-CHAR-REFILL, but we don't have to
586 ;;; leave room for unreading.
587 (defun fast-read-byte-refill (stream eof-error-p eof-value)
588 (let* ((ibuf (ansi-stream-in-buffer stream))
589 (count (funcall (ansi-stream-n-bin stream) stream
590 ibuf 0 +ansi-stream-in-buffer-length+
591 nil))
592 (start (- +ansi-stream-in-buffer-length+ count)))
593 (declare (type index start count))
594 (cond ((zerop count)
595 (setf (ansi-stream-in-index stream) +ansi-stream-in-buffer-length+)
596 (funcall (ansi-stream-bin stream) stream eof-error-p eof-value))
598 (unless (zerop start)
599 (ub8-bash-copy ibuf 0
600 ibuf start
601 count))
602 (setf (ansi-stream-in-index stream) (1+ start))
603 (aref ibuf start)))))
605 ;;; output functions
607 (defun write-char (character &optional (stream *standard-output*))
608 (with-out-stream stream (ansi-stream-out character)
609 (stream-write-char character))
610 character)
612 (defun terpri (&optional (stream *standard-output*))
613 (with-out-stream stream (ansi-stream-out #\newline) (stream-terpri))
614 nil)
616 #!-sb-fluid (declaim (inline ansi-stream-fresh-line))
617 (defun ansi-stream-fresh-line (stream)
618 (when (/= (or (charpos stream) 1) 0)
619 (funcall (ansi-stream-out stream) stream #\newline)
622 (defun fresh-line (&optional (stream *standard-output*))
623 (let ((stream (out-synonym-of stream)))
624 (if (ansi-stream-p stream)
625 (ansi-stream-fresh-line stream)
626 ;; must be Gray streams FUNDAMENTAL-STREAM
627 (stream-fresh-line stream))))
629 (defun write-string (string &optional (stream *standard-output*)
630 &key (start 0) end)
631 (declare (type string string))
632 ;; Note that even though you might expect, based on the behavior of
633 ;; things like AREF, that the correct upper bound here is
634 ;; (ARRAY-DIMENSION STRING 0), the ANSI glossary definitions for
635 ;; "bounding index" and "length" indicate that in this case (i.e.
636 ;; for the ANSI-specified functions WRITE-STRING [and WRITE-LINE]),
637 ;; (LENGTH STRING) is the required upper bound. A foolish
638 ;; consistency is the hobgoblin of lesser languages..
639 (%write-string string stream start (%check-vector-sequence-bounds
640 string start end))
641 string)
643 #!-sb-fluid (declaim (inline ansi-stream-write-string))
644 (defun ansi-stream-write-string (string stream start end)
645 (declare (type string string))
646 (declare (type ansi-stream stream))
647 (declare (type index start end))
648 (with-array-data ((data string) (offset-start start)
649 (offset-end end)
650 :check-fill-pointer t)
651 (funcall (ansi-stream-sout stream)
652 stream data offset-start offset-end))
653 string)
655 (defun %write-string (string stream start end)
656 (declare (type string string))
657 (declare (type stream-designator stream))
658 (declare (type index start end))
659 (let ((stream (out-synonym-of stream)))
660 (if(ansi-stream-p stream)
661 (ansi-stream-write-string string stream start end)
662 ;; must be Gray streams FUNDAMENTAL-STREAM
663 (stream-write-string stream string start end))))
665 ;;; A wrapper function for all those (MACROLET OUT-FUN) definitions,
666 ;;; which cannot deal with keyword arguments.
667 (declaim (inline write-string-no-key))
668 (defun write-string-no-key (string stream start end)
669 (write-string string stream :start start :end end))
671 (defun write-line (string &optional (stream *standard-output*)
672 &key (start 0) end)
673 (declare (type string string))
674 ;; FIXME: Why is there this difference between the treatments of the
675 ;; STREAM argument in WRITE-STRING and WRITE-LINE?
676 (let ((defaulted-stream (out-synonym-of stream)))
677 (%write-string string defaulted-stream start (%check-vector-sequence-bounds
678 string start end))
679 (write-char #\newline defaulted-stream))
680 string)
682 (defun charpos (&optional (stream *standard-output*))
683 (with-out-stream stream (ansi-stream-misc :charpos) (stream-line-column)))
685 (defun line-length (&optional (stream *standard-output*))
686 (with-out-stream stream (ansi-stream-misc :line-length)
687 (stream-line-length)))
689 (defun finish-output (&optional (stream *standard-output*))
690 (with-out-stream stream (ansi-stream-misc :finish-output)
691 (stream-finish-output))
692 nil)
694 (defun force-output (&optional (stream *standard-output*))
695 (with-out-stream stream (ansi-stream-misc :force-output)
696 (stream-force-output))
697 nil)
699 (defun clear-output (&optional (stream *standard-output*))
700 (with-out-stream stream (ansi-stream-misc :clear-output)
701 (stream-force-output))
702 nil)
704 (defun write-byte (integer stream)
705 (with-out-stream/no-synonym stream (ansi-stream-bout integer)
706 (stream-write-byte integer))
707 integer)
710 ;;; (These were inline throughout this file, but that's not appropriate
711 ;;; globally. And we must not inline them in the rest of this file if
712 ;;; dispatch to gray or simple streams is to work, since both redefine
713 ;;; these functions later.)
714 (declaim (notinline read-char unread-char read-byte listen))
716 ;;; This is called from ANSI-STREAM routines that encapsulate CLOS
717 ;;; streams to handle the misc routines and dispatch to the
718 ;;; appropriate SIMPLE- or FUNDAMENTAL-STREAM functions.
719 (defun stream-misc-dispatch (stream operation &optional arg1 arg2)
720 (declare (type stream stream) (ignore arg2))
721 (ecase operation
722 (:listen
723 ;; Return T if input available, :EOF for end-of-file, otherwise NIL.
724 (let ((char (read-char-no-hang stream nil :eof)))
725 (when (characterp char)
726 (unread-char char stream))
727 char))
728 (:unread
729 (unread-char arg1 stream))
730 (:close
731 (close stream))
732 (:clear-input
733 (clear-input stream))
734 (:force-output
735 (force-output stream))
736 (:finish-output
737 (finish-output stream))
738 (:element-type
739 (stream-element-type stream))
740 (:stream-external-format
741 (stream-external-format stream))
742 (:interactive-p
743 (interactive-stream-p stream))
744 (:line-length
745 (line-length stream))
746 (:charpos
747 (charpos stream))
748 (:file-length
749 (file-length stream))
750 (:file-string-length
751 (file-string-length stream arg1))
752 (:file-position
753 (file-position stream arg1))))
755 ;;;; broadcast streams
757 (defstruct (broadcast-stream (:include ansi-stream
758 (out #'broadcast-out)
759 (bout #'broadcast-bout)
760 (sout #'broadcast-sout)
761 (misc #'broadcast-misc))
762 (:constructor %make-broadcast-stream
763 (&rest streams))
764 (:copier nil))
765 ;; a list of all the streams we broadcast to
766 (streams () :type list :read-only t))
768 (defun make-broadcast-stream (&rest streams)
769 (dolist (stream streams)
770 (unless (output-stream-p stream)
771 (error 'type-error
772 :datum stream
773 :expected-type '(satisfies output-stream-p))))
774 (apply #'%make-broadcast-stream streams))
776 (macrolet ((out-fun (name fun &rest args)
777 `(defun ,name (stream ,@args)
778 (dolist (stream (broadcast-stream-streams stream))
779 (,fun ,(car args) stream ,@(cdr args))))))
780 (out-fun broadcast-out write-char char)
781 (out-fun broadcast-bout write-byte byte)
782 (out-fun broadcast-sout write-string-no-key string start end))
784 (defun broadcast-misc (stream operation &optional arg1 arg2)
785 (let ((streams (broadcast-stream-streams stream)))
786 (case operation
787 ;; FIXME: This may not be the best place to note this, but I
788 ;; think the :CHARPOS protocol needs revision. Firstly, I think
789 ;; this is the last place where a NULL return value was possible
790 ;; (before adjusting it to be 0), so a bunch of conditionals IF
791 ;; CHARPOS can be removed; secondly, it is my belief that
792 ;; FD-STREAMS, when running FILE-POSITION, do not update the
793 ;; CHARPOS, and consequently there will be much wrongness.
795 ;; FIXME: see also TWO-WAY-STREAM treatment of :CHARPOS -- why
796 ;; is it testing the :charpos of an input stream?
798 ;; -- CSR, 2004-02-04
799 (:charpos
800 (dolist (stream streams 0)
801 (let ((charpos (charpos stream)))
802 (if charpos (return charpos)))))
803 (:line-length
804 (let ((min nil))
805 (dolist (stream streams min)
806 (let ((res (line-length stream)))
807 (when res (setq min (if min (min res min) res)))))))
808 (:element-type
809 #+nil ; old, arguably more logical, version
810 (let (res)
811 (dolist (stream streams (if (> (length res) 1) `(and ,@res) t))
812 (pushnew (stream-element-type stream) res :test #'equal)))
813 ;; ANSI-specified version (under System Class BROADCAST-STREAM)
814 (let ((res t))
815 (do ((streams streams (cdr streams)))
816 ((null streams) res)
817 (when (null (cdr streams))
818 (setq res (stream-element-type (car streams)))))))
819 (:external-format
820 (let ((res :default))
821 (dolist (stream streams res)
822 (setq res (stream-external-format stream)))))
823 (:file-length
824 (let ((last (last streams)))
825 (if last
826 (file-length (car last))
827 0)))
828 (:file-position
829 (if arg1
830 (let ((res (or (eql arg1 :start) (eql arg1 0))))
831 (dolist (stream streams res)
832 (setq res (file-position stream arg1))))
833 (let ((res 0))
834 (dolist (stream streams res)
835 (setq res (file-position stream))))))
836 (:file-string-length
837 (let ((res 1))
838 (dolist (stream streams res)
839 (setq res (file-string-length stream arg1)))))
840 (:close
841 (set-closed-flame stream))
843 (let ((res nil))
844 (dolist (stream streams res)
845 (setq res
846 (if (ansi-stream-p stream)
847 (funcall (ansi-stream-misc stream) stream operation
848 arg1 arg2)
849 (stream-misc-dispatch stream operation arg1 arg2)))))))))
851 ;;;; synonym streams
853 (defstruct (synonym-stream (:include ansi-stream
854 (in #'synonym-in)
855 (bin #'synonym-bin)
856 (n-bin #'synonym-n-bin)
857 (out #'synonym-out)
858 (bout #'synonym-bout)
859 (sout #'synonym-sout)
860 (misc #'synonym-misc))
861 (:constructor make-synonym-stream (symbol))
862 (:copier nil))
863 ;; This is the symbol, the value of which is the stream we are synonym to.
864 (symbol nil :type symbol :read-only t))
865 (def!method print-object ((x synonym-stream) stream)
866 (print-unreadable-object (x stream :type t :identity t)
867 (format stream ":SYMBOL ~S" (synonym-stream-symbol x))))
869 ;;; The output simple output methods just call the corresponding
870 ;;; function on the synonymed stream.
871 (macrolet ((out-fun (name fun &rest args)
872 `(defun ,name (stream ,@args)
873 (declare (optimize (safety 1)))
874 (let ((syn (symbol-value (synonym-stream-symbol stream))))
875 (,fun ,(car args) syn ,@(cdr args))))))
876 (out-fun synonym-out write-char ch)
877 (out-fun synonym-bout write-byte n)
878 (out-fun synonym-sout write-string-no-key string start end))
880 ;;; For the input methods, we just call the corresponding function on the
881 ;;; synonymed stream. These functions deal with getting input out of
882 ;;; the In-Buffer if there is any.
883 (macrolet ((in-fun (name fun &rest args)
884 `(defun ,name (stream ,@args)
885 (declare (optimize (safety 1)))
886 (,fun (symbol-value (synonym-stream-symbol stream))
887 ,@args))))
888 (in-fun synonym-in read-char eof-error-p eof-value)
889 (in-fun synonym-bin read-byte eof-error-p eof-value)
890 (in-fun synonym-n-bin read-n-bytes buffer start numbytes eof-error-p))
892 (defun synonym-misc (stream operation &optional arg1 arg2)
893 (declare (optimize (safety 1)))
894 (let ((syn (symbol-value (synonym-stream-symbol stream))))
895 (if (ansi-stream-p syn)
896 ;; We have to special-case some operations which interact with
897 ;; the in-buffer of the wrapped stream, since just calling
898 ;; ANSI-STREAM-MISC on them
899 (case operation
900 (:listen (or (/= (the fixnum (ansi-stream-in-index syn))
901 +ansi-stream-in-buffer-length+)
902 (funcall (ansi-stream-misc syn) syn :listen)))
903 (:clear-input (clear-input syn))
904 (:unread (unread-char arg1 syn))
906 (funcall (ansi-stream-misc syn) syn operation arg1 arg2)))
907 (stream-misc-dispatch syn operation arg1 arg2))))
909 ;;;; two-way streams
911 (defstruct (two-way-stream
912 (:include ansi-stream
913 (in #'two-way-in)
914 (bin #'two-way-bin)
915 (n-bin #'two-way-n-bin)
916 (out #'two-way-out)
917 (bout #'two-way-bout)
918 (sout #'two-way-sout)
919 (misc #'two-way-misc))
920 (:constructor %make-two-way-stream (input-stream output-stream))
921 (:copier nil))
922 (input-stream (missing-arg) :type stream :read-only t)
923 (output-stream (missing-arg) :type stream :read-only t))
924 (defprinter (two-way-stream) input-stream output-stream)
926 (defun make-two-way-stream (input-stream output-stream)
927 #!+sb-doc
928 "Return a bidirectional stream which gets its input from INPUT-STREAM and
929 sends its output to OUTPUT-STREAM."
930 ;; FIXME: This idiom of the-real-stream-of-a-possibly-synonym-stream
931 ;; should be encapsulated in a function, and used here and most of
932 ;; the other places that SYNONYM-STREAM-P appears.
933 (unless (output-stream-p output-stream)
934 (error 'type-error
935 :datum output-stream
936 :expected-type '(satisfies output-stream-p)))
937 (unless (input-stream-p input-stream)
938 (error 'type-error
939 :datum input-stream
940 :expected-type '(satisfies input-stream-p)))
941 (funcall #'%make-two-way-stream input-stream output-stream))
943 (macrolet ((out-fun (name fun &rest args)
944 `(defun ,name (stream ,@args)
945 (let ((syn (two-way-stream-output-stream stream)))
946 (,fun ,(car args) syn ,@(cdr args))))))
947 (out-fun two-way-out write-char ch)
948 (out-fun two-way-bout write-byte n)
949 (out-fun two-way-sout write-string-no-key string start end))
951 (macrolet ((in-fun (name fun &rest args)
952 `(defun ,name (stream ,@args)
953 (force-output (two-way-stream-output-stream stream))
954 (,fun (two-way-stream-input-stream stream) ,@args))))
955 (in-fun two-way-in read-char eof-error-p eof-value)
956 (in-fun two-way-bin read-byte eof-error-p eof-value)
957 (in-fun two-way-n-bin read-n-bytes buffer start numbytes eof-error-p))
959 (defun two-way-misc (stream operation &optional arg1 arg2)
960 (let* ((in (two-way-stream-input-stream stream))
961 (out (two-way-stream-output-stream stream))
962 (in-ansi-stream-p (ansi-stream-p in))
963 (out-ansi-stream-p (ansi-stream-p out)))
964 (case operation
965 (:listen
966 (if in-ansi-stream-p
967 (or (/= (the fixnum (ansi-stream-in-index in))
968 +ansi-stream-in-buffer-length+)
969 (funcall (ansi-stream-misc in) in :listen))
970 (listen in)))
971 ((:finish-output :force-output :clear-output)
972 (if out-ansi-stream-p
973 (funcall (ansi-stream-misc out) out operation arg1 arg2)
974 (stream-misc-dispatch out operation arg1 arg2)))
975 (:clear-input (clear-input in))
976 (:unread (unread-char arg1 in))
977 (:element-type
978 (let ((in-type (stream-element-type in))
979 (out-type (stream-element-type out)))
980 (if (equal in-type out-type)
981 in-type `(and ,in-type ,out-type))))
982 (:close
983 (set-closed-flame stream))
985 (or (if in-ansi-stream-p
986 (funcall (ansi-stream-misc in) in operation arg1 arg2)
987 (stream-misc-dispatch in operation arg1 arg2))
988 (if out-ansi-stream-p
989 (funcall (ansi-stream-misc out) out operation arg1 arg2)
990 (stream-misc-dispatch out operation arg1 arg2)))))))
992 ;;;; concatenated streams
994 (defstruct (concatenated-stream
995 (:include ansi-stream
996 (in #'concatenated-in)
997 (bin #'concatenated-bin)
998 (n-bin #'concatenated-n-bin)
999 (misc #'concatenated-misc))
1000 (:constructor %make-concatenated-stream (&rest streams))
1001 (:copier nil))
1002 ;; The car of this is the substream we are reading from now.
1003 (streams nil :type list))
1004 (def!method print-object ((x concatenated-stream) stream)
1005 (print-unreadable-object (x stream :type t :identity t)
1006 (format stream
1007 ":STREAMS ~S"
1008 (concatenated-stream-streams x))))
1010 (defun make-concatenated-stream (&rest streams)
1011 #!+sb-doc
1012 "Return a stream which takes its input from each of the streams in turn,
1013 going on to the next at EOF."
1014 (dolist (stream streams)
1015 (unless (input-stream-p stream)
1016 (error 'type-error
1017 :datum stream
1018 :expected-type '(satisfies input-stream-p))))
1019 (apply #'%make-concatenated-stream streams))
1021 (macrolet ((in-fun (name fun)
1022 `(defun ,name (stream eof-error-p eof-value)
1023 (do ((streams (concatenated-stream-streams stream)
1024 (cdr streams)))
1025 ((null streams)
1026 (eof-or-lose stream eof-error-p eof-value))
1027 (let* ((stream (car streams))
1028 (result (,fun stream nil nil)))
1029 (when result (return result)))
1030 (pop (concatenated-stream-streams stream))))))
1031 (in-fun concatenated-in read-char)
1032 (in-fun concatenated-bin read-byte))
1034 (defun concatenated-n-bin (stream buffer start numbytes eof-errorp)
1035 (do ((streams (concatenated-stream-streams stream) (cdr streams))
1036 (current-start start)
1037 (remaining-bytes numbytes))
1038 ((null streams)
1039 (if eof-errorp
1040 (error 'end-of-file :stream stream)
1041 (- numbytes remaining-bytes)))
1042 (let* ((stream (car streams))
1043 (bytes-read (read-n-bytes stream buffer current-start
1044 remaining-bytes nil)))
1045 (incf current-start bytes-read)
1046 (decf remaining-bytes bytes-read)
1047 (when (zerop remaining-bytes) (return numbytes)))
1048 (setf (concatenated-stream-streams stream) (cdr streams))))
1050 (defun concatenated-misc (stream operation &optional arg1 arg2)
1051 (let* ((left (concatenated-stream-streams stream))
1052 (current (car left)))
1053 (case operation
1054 (:listen
1055 (unless left
1056 (return-from concatenated-misc :eof))
1057 (loop
1058 (let ((stuff (if (ansi-stream-p current)
1059 (funcall (ansi-stream-misc current) current
1060 :listen)
1061 (stream-misc-dispatch current :listen))))
1062 (cond ((eq stuff :eof)
1063 ;; Advance STREAMS, and try again.
1064 (pop (concatenated-stream-streams stream))
1065 (setf current
1066 (car (concatenated-stream-streams stream)))
1067 (unless current
1068 ;; No further streams. EOF.
1069 (return :eof)))
1070 (stuff
1071 ;; Stuff's available.
1072 (return t))
1074 ;; Nothing is available yet.
1075 (return nil))))))
1076 (:clear-input (when left (clear-input current)))
1077 (:unread (when left (unread-char arg1 current)))
1078 (:close
1079 (set-closed-flame stream))
1081 (when left
1082 (if (ansi-stream-p current)
1083 (funcall (ansi-stream-misc current) current operation arg1 arg2)
1084 (stream-misc-dispatch current operation arg1 arg2)))))))
1086 ;;;; echo streams
1088 (defstruct (echo-stream
1089 (:include two-way-stream
1090 (in #'echo-in)
1091 (bin #'echo-bin)
1092 (misc #'echo-misc)
1093 (n-bin #'echo-n-bin))
1094 (:constructor %make-echo-stream (input-stream output-stream))
1095 (:copier nil))
1096 unread-stuff)
1097 (def!method print-object ((x echo-stream) stream)
1098 (print-unreadable-object (x stream :type t :identity t)
1099 (format stream
1100 ":INPUT-STREAM ~S :OUTPUT-STREAM ~S"
1101 (two-way-stream-input-stream x)
1102 (two-way-stream-output-stream x))))
1104 (defun make-echo-stream (input-stream output-stream)
1105 #!+sb-doc
1106 "Return a bidirectional stream which gets its input from INPUT-STREAM and
1107 sends its output to OUTPUT-STREAM. In addition, all input is echoed to
1108 the output stream."
1109 (unless (output-stream-p output-stream)
1110 (error 'type-error
1111 :datum output-stream
1112 :expected-type '(satisfies output-stream-p)))
1113 (unless (input-stream-p input-stream)
1114 (error 'type-error
1115 :datum input-stream
1116 :expected-type '(satisfies input-stream-p)))
1117 (funcall #'%make-echo-stream input-stream output-stream))
1119 (macrolet ((in-fun (name in-fun out-fun &rest args)
1120 `(defun ,name (stream ,@args)
1121 (or (pop (echo-stream-unread-stuff stream))
1122 (let* ((in (echo-stream-input-stream stream))
1123 (out (echo-stream-output-stream stream))
1124 (result (if eof-error-p
1125 (,in-fun in ,@args)
1126 (,in-fun in nil in))))
1127 (cond
1128 ((eql result in) eof-value)
1129 (t (,out-fun result out) result)))))))
1130 (in-fun echo-in read-char write-char eof-error-p eof-value)
1131 (in-fun echo-bin read-byte write-byte eof-error-p eof-value))
1133 (defun echo-n-bin (stream buffer start numbytes eof-error-p)
1134 (let ((new-start start)
1135 (read 0))
1136 (loop
1137 (let ((thing (pop (echo-stream-unread-stuff stream))))
1138 (cond
1139 (thing
1140 (setf (aref buffer new-start) thing)
1141 (incf new-start)
1142 (incf read)
1143 (when (= read numbytes)
1144 (return-from echo-n-bin numbytes)))
1145 (t (return nil)))))
1146 (let ((bytes-read (read-n-bytes (echo-stream-input-stream stream) buffer
1147 new-start (- numbytes read) nil)))
1148 (cond
1149 ((not eof-error-p)
1150 (write-sequence buffer (echo-stream-output-stream stream)
1151 :start new-start :end (+ new-start bytes-read))
1152 (+ bytes-read read))
1153 ((> numbytes (+ read bytes-read))
1154 (write-sequence buffer (echo-stream-output-stream stream)
1155 :start new-start :end (+ new-start bytes-read))
1156 (error 'end-of-file :stream stream))
1158 (write-sequence buffer (echo-stream-output-stream stream)
1159 :start new-start :end (+ new-start bytes-read))
1160 (aver (= numbytes (+ new-start bytes-read)))
1161 numbytes)))))
1163 ;;;; STRING-INPUT-STREAM stuff
1165 (defstruct (string-input-stream
1166 (:include ansi-stream
1167 (in #'string-inch)
1168 (bin #'ill-bin)
1169 (n-bin #'ill-bin)
1170 (misc #'string-in-misc))
1171 (:constructor internal-make-string-input-stream
1172 (string current end))
1173 (:copier nil))
1174 (string (missing-arg) :type simple-string)
1175 (current (missing-arg) :type index)
1176 (end (missing-arg) :type index))
1178 (defun string-inch (stream eof-error-p eof-value)
1179 (declare (type string-input-stream stream))
1180 (let ((string (string-input-stream-string stream))
1181 (index (string-input-stream-current stream)))
1182 (cond ((>= index (the index (string-input-stream-end stream)))
1183 (eof-or-lose stream eof-error-p eof-value))
1185 (setf (string-input-stream-current stream) (1+ index))
1186 (char string index)))))
1188 (defun string-binch (stream eof-error-p eof-value)
1189 (declare (type string-input-stream stream))
1190 (let ((string (string-input-stream-string stream))
1191 (index (string-input-stream-current stream)))
1192 (cond ((>= index (the index (string-input-stream-end stream)))
1193 (eof-or-lose stream eof-error-p eof-value))
1195 (setf (string-input-stream-current stream) (1+ index))
1196 (char-code (char string index))))))
1198 (defun string-stream-read-n-bytes (stream buffer start requested eof-error-p)
1199 (declare (type string-input-stream stream)
1200 (type index start requested))
1201 (let* ((string (string-input-stream-string stream))
1202 (index (string-input-stream-current stream))
1203 (available (- (string-input-stream-end stream) index))
1204 (copy (min available requested)))
1205 (declare (type simple-string string))
1206 (when (plusp copy)
1207 (setf (string-input-stream-current stream)
1208 (truly-the index (+ index copy)))
1209 ;; FIXME: why are we VECTOR-SAP'ing things here? what's the point?
1210 ;; and are there SB-UNICODE issues here as well? --njf, 2005-03-24
1211 (with-pinned-objects (string buffer)
1212 (system-area-ub8-copy (vector-sap string)
1213 index
1214 (if (typep buffer 'system-area-pointer)
1215 buffer
1216 (vector-sap buffer))
1217 start
1218 copy)))
1219 (if (and (> requested copy) eof-error-p)
1220 (error 'end-of-file :stream stream)
1221 copy)))
1223 (defun string-in-misc (stream operation &optional arg1 arg2)
1224 (declare (type string-input-stream stream)
1225 (ignore arg2))
1226 (case operation
1227 (:file-position
1228 (if arg1
1229 (setf (string-input-stream-current stream)
1230 (case arg1
1231 (:start 0)
1232 (:end (string-input-stream-end stream))
1233 ;; We allow moving position beyond EOF. Errors happen
1234 ;; on read, not move -- or the user may extend the
1235 ;; input string.
1236 (t arg1)))
1237 (string-input-stream-current stream)))
1238 ;; According to ANSI: "Should signal an error of type type-error
1239 ;; if stream is not a stream associated with a file."
1240 ;; This is checked by FILE-LENGTH, so no need to do it here either.
1241 ;; (:file-length (length (string-input-stream-string stream)))
1242 (:unread (decf (string-input-stream-current stream)))
1243 (:close (set-closed-flame stream))
1244 (:listen (or (/= (the index (string-input-stream-current stream))
1245 (the index (string-input-stream-end stream)))
1246 :eof))
1247 (:element-type (array-element-type (string-input-stream-string stream)))))
1249 (defun make-string-input-stream (string &optional (start 0) end)
1250 #!+sb-doc
1251 "Return an input stream which will supply the characters of STRING between
1252 START and END in order."
1253 (declare (type string string)
1254 (type index start)
1255 (type (or index null) end))
1256 (let* ((string (coerce string '(simple-array character (*)))))
1257 ;; FIXME: Why WITH-ARRAY-DATA, since the array is already simple?
1258 (with-array-data ((string string) (start start) (end end))
1259 (internal-make-string-input-stream
1260 string ;; now simple
1261 start
1262 end))))
1264 ;;;; STRING-OUTPUT-STREAM stuff
1265 ;;;;
1266 ;;;; FIXME: This, like almost none of the stream code is particularly
1267 ;;;; interrupt or thread-safe. While it should not be possible to
1268 ;;;; corrupt the heap here, it certainly is possible to end up with
1269 ;;;; a string-output-stream whose internal state is messed up.
1270 ;;;;
1271 ;;;; FIXME: It would be nice to support space-efficient
1272 ;;;; string-output-streams with element-type base-char. This would
1273 ;;;; mean either a separate subclass, or typecases in functions.
1275 (defparameter *string-output-stream-buffer-initial-size* 64)
1277 #!-sb-fluid
1278 (declaim (inline string-output-string-stream-buffer
1279 string-output-string-stream-pointer
1280 string-output-string-stream-index))
1281 (defstruct (string-output-stream
1282 (:include ansi-stream
1283 (out #'string-ouch)
1284 (sout #'string-sout)
1285 (misc #'string-out-misc))
1286 (:constructor make-string-output-stream
1287 (&key (element-type 'character)
1288 &aux (buffer
1289 (make-string
1290 *string-output-stream-buffer-initial-size*))))
1291 (:copier nil))
1292 ;; The string we throw stuff in.
1293 (buffer (missing-arg) :type (simple-array character (*)))
1294 ;; Chains of buffers to use
1295 (prev nil)
1296 (next nil)
1297 ;; Index of the next location to use in the current string.
1298 (pointer 0 :type index)
1299 ;; Global location in the stream
1300 (index 0 :type index)
1301 ;; Index cache: when we move backwards we save the greater of this
1302 ;; and index here, so the greater of index and this is always the
1303 ;; end of the stream.
1304 (index-cache 0 :type index)
1305 ;; Requested element type
1306 (element-type 'character))
1308 #!+sb-doc
1309 (setf (fdocumentation 'make-string-output-stream 'function)
1310 "Return an output stream which will accumulate all output given it for the
1311 benefit of the function GET-OUTPUT-STREAM-STRING.")
1313 ;;; Pushes the current segment onto the prev-list, and either pops
1314 ;;; or allocates a new one.
1315 (defun string-output-stream-new-buffer (stream size)
1316 (declare (index size))
1317 (/show0 "/string-output-stream-new-buffer")
1318 (push (string-output-stream-buffer stream)
1319 (string-output-stream-prev stream))
1320 (setf (string-output-stream-buffer stream)
1321 (or (pop (string-output-stream-next stream))
1322 ;; FIXME: This would be the correct place to detect that
1323 ;; more then FIXNUM characters are being written to the
1324 ;; stream, and do something about it.
1325 (make-string size))))
1327 ;;; Moves to the end of the next segment or the current one if there are
1328 ;;; no more segments. Returns true as long as there are next segments.
1329 (defun string-output-stream-next-buffer (stream)
1330 (/show0 "/string-output-stream-next-buffer")
1331 (let* ((old (string-output-stream-buffer stream))
1332 (new (pop (string-output-stream-next stream)))
1333 (old-size (length old))
1334 (skipped (- old-size (string-output-stream-pointer stream))))
1335 (cond (new
1336 (let ((new-size (length new)))
1337 (push old (string-output-stream-prev stream))
1338 (setf (string-output-stream-buffer stream) new
1339 (string-output-stream-pointer stream) new-size)
1340 (incf (string-output-stream-index stream) (+ skipped new-size)))
1343 (setf (string-output-stream-pointer stream) old-size)
1344 (incf (string-output-stream-index stream) skipped)
1345 nil))))
1347 ;;; Moves to the start of the previous segment or the current one if there
1348 ;;; are no more segments. Returns true as long as there are prev segments.
1349 (defun string-output-stream-prev-buffer (stream)
1350 (/show0 "/string-output-stream-prev-buffer")
1351 (let ((old (string-output-stream-buffer stream))
1352 (new (pop (string-output-stream-prev stream)))
1353 (skipped (string-output-stream-pointer stream)))
1354 (cond (new
1355 (push old (string-output-stream-next stream))
1356 (setf (string-output-stream-buffer stream) new
1357 (string-output-stream-pointer stream) 0)
1358 (decf (string-output-stream-index stream) (+ skipped (length new)))
1361 (setf (string-output-stream-pointer stream) 0)
1362 (decf (string-output-stream-index stream) skipped)
1363 nil))))
1365 (defun string-ouch (stream character)
1366 (/show0 "/string-ouch")
1367 (let ((pointer (string-output-stream-pointer stream))
1368 (buffer (string-output-stream-buffer stream))
1369 (index (string-output-stream-index stream)))
1370 (cond ((= pointer (length buffer))
1371 (setf buffer (string-output-stream-new-buffer stream index)
1372 (aref buffer 0) character
1373 (string-output-stream-pointer stream) 1))
1375 (setf (aref buffer pointer) character
1376 (string-output-stream-pointer stream) (1+ pointer))))
1377 (setf (string-output-stream-index stream) (1+ index))))
1379 (defun string-sout (stream string start end)
1380 (declare (type simple-string string)
1381 (type index start end))
1382 (let* ((full-length (- end start))
1383 (length full-length)
1384 (buffer (string-output-stream-buffer stream))
1385 (pointer (string-output-stream-pointer stream))
1386 (space (- (length buffer) pointer))
1387 (here (min space length))
1388 (stop (+ start here))
1389 (overflow (- length space)))
1390 (declare (index length space here stop full-length)
1391 (fixnum overflow)
1392 (type (simple-array character (*)) buffer))
1393 (tagbody
1394 :more
1395 (when (plusp here)
1396 (etypecase string
1397 ((simple-array character (*))
1398 (replace buffer string :start1 pointer :start2 start :end2 stop))
1399 (simple-base-string
1400 (replace buffer string :start1 pointer :start2 start :end2 stop))
1401 ((simple-array nil (*))
1402 (replace buffer string :start1 pointer :start2 start :end2 stop)))
1403 (setf (string-output-stream-pointer stream) (+ here pointer)))
1404 (when (plusp overflow)
1405 (setf start stop
1406 length (- end start)
1407 buffer (string-output-stream-new-buffer
1408 stream (max overflow (string-output-stream-index stream)))
1409 pointer 0
1410 space (length buffer)
1411 here (min space length)
1412 stop (+ start here)
1413 ;; there may be more overflow if we used a buffer
1414 ;; already allocated to the stream
1415 overflow (- length space))
1416 (go :more)))
1417 (incf (string-output-stream-index stream) full-length)))
1419 ;;; Factored out of the -misc method due to size.
1420 (defun set-string-output-stream-file-position (stream pos)
1421 (let* ((index (string-output-stream-index stream))
1422 (end (max index (string-output-stream-index-cache stream))))
1423 (declare (index index end))
1424 (setf (string-output-stream-index-cache stream) end)
1425 (cond ((eq :start pos)
1426 (loop while (string-output-stream-prev-buffer stream)))
1427 ((eq :end pos)
1428 (loop while (string-output-stream-next-buffer stream))
1429 (let ((over (- (string-output-stream-index stream) end)))
1430 (decf (string-output-stream-pointer stream) over))
1431 (setf (string-output-stream-index stream) end))
1432 ((< pos index)
1433 (loop while (< pos index)
1434 do (string-output-stream-prev-buffer stream)
1435 (setf index (string-output-stream-index stream)))
1436 (let ((step (- pos index)))
1437 (incf (string-output-stream-pointer stream) step)
1438 (setf (string-output-stream-index stream) pos)))
1439 ((> pos index)
1440 ;; We allow moving beyond the end of stream, implicitly
1441 ;; extending the output stream.
1442 (let ((next (string-output-stream-next-buffer stream)))
1443 ;; Update after -next-buffer, INDEX is kept pointing at
1444 ;; the end of the current buffer.
1445 (setf index (string-output-stream-index stream))
1446 (loop while (and next (> pos index))
1447 do (setf next (string-output-stream-next-buffer stream)
1448 index (string-output-stream-index stream))))
1449 ;; Allocate new buffer if needed, or step back to
1450 ;; the desired index and set pointer and index
1451 ;; correctly.
1452 (let ((diff (- pos index)))
1453 (if (plusp diff)
1454 (let* ((new (string-output-stream-new-buffer stream diff))
1455 (size (length new)))
1456 (aver (= pos (+ index size)))
1457 (setf (string-output-stream-pointer stream) size
1458 (string-output-stream-index stream) pos))
1459 (let ((size (length (string-output-stream-buffer stream))))
1460 (setf (string-output-stream-pointer stream) (+ size diff)
1461 (string-output-stream-index stream) pos))))))))
1463 (defun string-out-misc (stream operation &optional arg1 arg2)
1464 (declare (ignore arg2))
1465 (case operation
1466 (:charpos
1467 ;; Keeping this first is a silly micro-optimization: FRESH-LINE
1468 ;; makes this the most common one.
1469 (/show0 "/string-out-misc charpos")
1470 (prog ((pointer (string-output-stream-pointer stream))
1471 (buffer (string-output-stream-buffer stream))
1472 (prev (string-output-stream-prev stream))
1473 (base 0))
1474 :next
1475 (let ((pos (position #\newline buffer :from-end t :end pointer)))
1476 (when (or pos (not buffer))
1477 ;; If newline is at index I, and pointer at index I+N, charpos
1478 ;; is N-1. If there is no newline, and pointer is at index N,
1479 ;; charpos is N.
1480 (return (+ base (if pos (- pointer pos 1) pointer))))
1481 (setf base (+ base pointer)
1482 buffer (pop prev)
1483 pointer (length buffer))
1484 (/show0 "/string-out-misc charpos next")
1485 (go :next))))
1486 (:file-position
1487 (/show0 "/string-out-misc file-position")
1488 (when arg1
1489 (set-string-output-stream-file-position stream arg1))
1490 (string-output-stream-index stream))
1491 (:close
1492 (/show0 "/string-out-misc close")
1493 (set-closed-flame stream))
1494 (:element-type (string-output-stream-element-type stream))))
1496 ;;; Return a string of all the characters sent to a stream made by
1497 ;;; MAKE-STRING-OUTPUT-STREAM since the last call to this function.
1498 (defun get-output-stream-string (stream)
1499 (declare (type string-output-stream stream))
1500 (let* ((length (max (string-output-stream-index stream)
1501 (string-output-stream-index-cache stream)))
1502 (element-type (string-output-stream-element-type stream))
1503 (prev (string-output-stream-prev stream))
1504 (this (string-output-stream-buffer stream))
1505 (next (string-output-stream-next stream))
1506 (result
1507 (case element-type
1508 ;; overwhelmingly common case: can be inlined
1510 ;; FIXME: If we were willing to use %SHRINK-VECTOR here,
1511 ;; and allocate new strings the size of 2 * index in
1512 ;; STRING-SOUT, we would not need to allocate one here in
1513 ;; the common case, but could just use the last one
1514 ;; allocated, and chop it down to size..
1516 ((character) (make-string length))
1517 ;; slightly less common cases: inline it anyway
1518 ((base-char standard-char)
1519 (make-string length :element-type 'base-char))
1521 (make-string length :element-type element-type)))))
1523 (setf (string-output-stream-index stream) 0
1524 (string-output-stream-index-cache stream) 0
1525 (string-output-stream-pointer stream) 0
1526 ;; throw them away for simplicity's sake: this way the rest of the
1527 ;; implementation can assume that the greater of INDEX and INDEX-CACHE
1528 ;; is always within the last buffer.
1529 (string-output-stream-prev stream) nil
1530 (string-output-stream-next stream) nil)
1532 (flet ((replace-all (fun)
1533 (let ((start 0))
1534 (declare (index start))
1535 (setf prev (nreverse prev))
1536 (dolist (buffer prev)
1537 (funcall fun buffer start)
1538 (incf start (length buffer)))
1539 (funcall fun this start)
1540 (incf start (length this))
1541 (dolist (buffer next)
1542 (funcall fun buffer start)
1543 (incf start (length buffer)))
1544 ;; Hack: erase the pointers to strings, to make it less
1545 ;; likely that the conservative GC will accidentally
1546 ;; retain the buffers.
1547 (fill prev nil)
1548 (fill next nil))))
1549 (macrolet ((frob (type)
1550 `(replace-all (lambda (buffer from)
1551 (declare (type ,type result)
1552 (type (simple-array character (*))
1553 buffer))
1554 (replace result buffer :start1 from)))))
1555 (etypecase result
1556 ((simple-array character (*))
1557 (frob (simple-array character (*))))
1558 (simple-base-string
1559 (frob simple-base-string))
1560 ((simple-array nil (*))
1561 (frob (simple-array nil (*)))))))
1563 result))
1565 ;;;; fill-pointer streams
1567 ;;; Fill pointer STRING-OUTPUT-STREAMs are not explicitly mentioned in
1568 ;;; the CLM, but they are required for the implementation of
1569 ;;; WITH-OUTPUT-TO-STRING.
1571 ;;; FIXME: need to support (VECTOR BASE-CHAR) and (VECTOR NIL),
1572 ;;; ideally without destroying all hope of efficiency.
1573 (deftype string-with-fill-pointer ()
1574 '(and (vector character)
1575 (satisfies array-has-fill-pointer-p)))
1577 (defstruct (fill-pointer-output-stream
1578 (:include ansi-stream
1579 (out #'fill-pointer-ouch)
1580 (sout #'fill-pointer-sout)
1581 (misc #'fill-pointer-misc))
1582 (:constructor make-fill-pointer-output-stream (string))
1583 (:copier nil))
1584 ;; a string with a fill pointer where we stuff the stuff we write
1585 (string (missing-arg) :type string-with-fill-pointer :read-only t))
1587 (defun fill-pointer-ouch (stream character)
1588 (let* ((buffer (fill-pointer-output-stream-string stream))
1589 (current (fill-pointer buffer))
1590 (current+1 (1+ current)))
1591 (declare (fixnum current))
1592 (with-array-data ((workspace buffer) (start) (end))
1593 (declare (type (simple-array character (*)) workspace))
1594 (let ((offset-current (+ start current)))
1595 (declare (fixnum offset-current))
1596 (if (= offset-current end)
1597 (let* ((new-length (1+ (* current 2)))
1598 (new-workspace (make-string new-length)))
1599 (declare (type (simple-array character (*)) new-workspace))
1600 (replace new-workspace workspace
1601 :start2 start :end2 offset-current)
1602 (setf workspace new-workspace
1603 offset-current current)
1604 (set-array-header buffer workspace new-length
1605 current+1 0 new-length nil))
1606 (setf (fill-pointer buffer) current+1))
1607 (setf (schar workspace offset-current) character)))
1608 current+1))
1610 (defun fill-pointer-sout (stream string start end)
1611 (declare (simple-string string) (fixnum start end))
1612 (let* ((string (if (typep string '(simple-array character (*)))
1613 string
1614 (coerce string '(simple-array character (*)))))
1615 (buffer (fill-pointer-output-stream-string stream))
1616 (current (fill-pointer buffer))
1617 (string-len (- end start))
1618 (dst-end (+ string-len current)))
1619 (declare (fixnum current dst-end string-len))
1620 (with-array-data ((workspace buffer) (dst-start) (dst-length))
1621 (declare (type (simple-array character (*)) workspace))
1622 (let ((offset-dst-end (+ dst-start dst-end))
1623 (offset-current (+ dst-start current)))
1624 (declare (fixnum offset-dst-end offset-current))
1625 (if (> offset-dst-end dst-length)
1626 (let* ((new-length (+ (the fixnum (* current 2)) string-len))
1627 (new-workspace (make-string new-length)))
1628 (declare (type (simple-array character (*)) new-workspace))
1629 (replace new-workspace workspace
1630 :start2 dst-start :end2 offset-current)
1631 (setf workspace new-workspace
1632 offset-current current
1633 offset-dst-end dst-end)
1634 (set-array-header buffer workspace new-length
1635 dst-end 0 new-length nil))
1636 (setf (fill-pointer buffer) dst-end))
1637 (replace workspace string
1638 :start1 offset-current :start2 start :end2 end)))
1639 dst-end))
1641 (defun fill-pointer-misc (stream operation &optional arg1 arg2)
1642 (declare (ignore arg2))
1643 (case operation
1644 (:file-position
1645 (let ((buffer (fill-pointer-output-stream-string stream)))
1646 (if arg1
1647 (setf (fill-pointer buffer)
1648 (case arg1
1649 (:start 0)
1650 ;; Fill-pointer is always at fill-pointer we will
1651 ;; make :END move to the end of the actual string.
1652 (:end (array-total-size buffer))
1653 ;; We allow moving beyond the end of string if the
1654 ;; string is adjustable.
1655 (t (when (>= arg1 (array-total-size buffer))
1656 (if (adjustable-array-p buffer)
1657 (adjust-array buffer arg1)
1658 (error "Cannot move FILE-POSITION beyond the end ~
1659 of WITH-OUTPUT-TO-STRING stream ~
1660 constructed with non-adjustable string.")))
1661 arg1)))
1662 (fill-pointer buffer))))
1663 (:charpos
1664 (let* ((buffer (fill-pointer-output-stream-string stream))
1665 (current (fill-pointer buffer)))
1666 (with-array-data ((string buffer) (start) (end current))
1667 (declare (simple-string string) (ignore start))
1668 (let ((found (position #\newline string :test #'char=
1669 :end end :from-end t)))
1670 (if found
1671 (- end (the fixnum found))
1672 current)))))
1673 (:element-type (array-element-type
1674 (fill-pointer-output-stream-string stream)))))
1676 ;;;; indenting streams
1678 (defstruct (indenting-stream (:include ansi-stream
1679 (out #'indenting-out)
1680 (sout #'indenting-sout)
1681 (misc #'indenting-misc))
1682 (:constructor make-indenting-stream (stream))
1683 (:copier nil))
1684 ;; the stream we're based on
1685 stream
1686 ;; how much we indent on each line
1687 (indentation 0))
1689 #!+sb-doc
1690 (setf (fdocumentation 'make-indenting-stream 'function)
1691 "Return an output stream which indents its output by some amount.")
1693 ;;; INDENTING-INDENT writes the correct number of spaces needed to indent
1694 ;;; output on the given STREAM based on the specified SUB-STREAM.
1695 (defmacro indenting-indent (stream sub-stream)
1696 ;; KLUDGE: bare magic number 60
1697 `(do ((i 0 (+ i 60))
1698 (indentation (indenting-stream-indentation ,stream)))
1699 ((>= i indentation))
1700 (%write-string
1701 #.(make-string 60 :initial-element #\Space)
1702 ,sub-stream
1704 (min 60 (- indentation i)))))
1706 ;;; INDENTING-OUT writes a character to an indenting stream.
1707 (defun indenting-out (stream char)
1708 (let ((sub-stream (indenting-stream-stream stream)))
1709 (write-char char sub-stream)
1710 (if (char= char #\newline)
1711 (indenting-indent stream sub-stream))))
1713 ;;; INDENTING-SOUT writes a string to an indenting stream.
1714 (defun indenting-sout (stream string start end)
1715 (declare (simple-string string) (fixnum start end))
1716 (do ((i start)
1717 (sub-stream (indenting-stream-stream stream)))
1718 ((= i end))
1719 (let ((newline (position #\newline string :start i :end end)))
1720 (cond (newline
1721 (%write-string string sub-stream i (1+ newline))
1722 (indenting-indent stream sub-stream)
1723 (setq i (+ newline 1)))
1725 (%write-string string sub-stream i end)
1726 (setq i end))))))
1728 ;;; INDENTING-MISC just treats just the :LINE-LENGTH message
1729 ;;; differently. INDENTING-CHARPOS says the charpos is the charpos of
1730 ;;; the base stream minus the stream's indentation.
1731 (defun indenting-misc (stream operation &optional arg1 arg2)
1732 (let ((sub-stream (indenting-stream-stream stream)))
1733 (if (ansi-stream-p sub-stream)
1734 (let ((method (ansi-stream-misc sub-stream)))
1735 (case operation
1736 (:line-length
1737 (let ((line-length (funcall method sub-stream operation)))
1738 (if line-length
1739 (- line-length (indenting-stream-indentation stream)))))
1740 (:charpos
1741 (let ((charpos (funcall method sub-stream operation)))
1742 (if charpos
1743 (- charpos (indenting-stream-indentation stream)))))
1745 (funcall method sub-stream operation arg1 arg2))))
1746 ;; must be Gray streams FUNDAMENTAL-STREAM
1747 (case operation
1748 (:line-length
1749 (let ((line-length (stream-line-length sub-stream)))
1750 (if line-length
1751 (- line-length (indenting-stream-indentation stream)))))
1752 (:charpos
1753 (let ((charpos (stream-line-column sub-stream)))
1754 (if charpos
1755 (- charpos (indenting-stream-indentation stream)))))
1757 (stream-misc-dispatch sub-stream operation arg1 arg2))))))
1759 (declaim (maybe-inline read-char unread-char read-byte listen))
1761 ;;;; case frobbing streams, used by FORMAT ~(...~)
1763 (defstruct (case-frob-stream
1764 (:include ansi-stream
1765 (misc #'case-frob-misc))
1766 (:constructor %make-case-frob-stream (target out sout))
1767 (:copier nil))
1768 (target (missing-arg) :type stream))
1770 (defun make-case-frob-stream (target kind)
1771 #!+sb-doc
1772 "Return a stream that sends all output to the stream TARGET, but modifies
1773 the case of letters, depending on KIND, which should be one of:
1774 :UPCASE - convert to upper case.
1775 :DOWNCASE - convert to lower case.
1776 :CAPITALIZE - convert the first letter of words to upper case and the
1777 rest of the word to lower case.
1778 :CAPITALIZE-FIRST - convert the first letter of the first word to upper
1779 case and everything else to lower case."
1780 (declare (type stream target)
1781 (type (member :upcase :downcase :capitalize :capitalize-first)
1782 kind)
1783 (values stream))
1784 (if (case-frob-stream-p target)
1785 ;; If we are going to be writing to a stream that already does
1786 ;; case frobbing, why bother frobbing the case just so it can
1787 ;; frob it again?
1788 target
1789 (multiple-value-bind (out sout)
1790 (ecase kind
1791 (:upcase
1792 (values #'case-frob-upcase-out
1793 #'case-frob-upcase-sout))
1794 (:downcase
1795 (values #'case-frob-downcase-out
1796 #'case-frob-downcase-sout))
1797 (:capitalize
1798 (values #'case-frob-capitalize-out
1799 #'case-frob-capitalize-sout))
1800 (:capitalize-first
1801 (values #'case-frob-capitalize-first-out
1802 #'case-frob-capitalize-first-sout)))
1803 (%make-case-frob-stream target out sout))))
1805 (defun case-frob-misc (stream op &optional arg1 arg2)
1806 (declare (type case-frob-stream stream))
1807 (case op
1808 (:close
1809 (set-closed-flame stream))
1811 (let ((target (case-frob-stream-target stream)))
1812 (if (ansi-stream-p target)
1813 (funcall (ansi-stream-misc target) target op arg1 arg2)
1814 (stream-misc-dispatch target op arg1 arg2))))))
1816 (defun case-frob-upcase-out (stream char)
1817 (declare (type case-frob-stream stream)
1818 (type character char))
1819 (let ((target (case-frob-stream-target stream))
1820 (char (char-upcase char)))
1821 (if (ansi-stream-p target)
1822 (funcall (ansi-stream-out target) target char)
1823 (stream-write-char target char))))
1825 (defun case-frob-upcase-sout (stream str start end)
1826 (declare (type case-frob-stream stream)
1827 (type simple-string str)
1828 (type index start)
1829 (type (or index null) end))
1830 (let* ((target (case-frob-stream-target stream))
1831 (len (length str))
1832 (end (or end len))
1833 (string (if (and (zerop start) (= len end))
1834 (string-upcase str)
1835 (nstring-upcase (subseq str start end))))
1836 (string-len (- end start)))
1837 (if (ansi-stream-p target)
1838 (funcall (ansi-stream-sout target) target string 0 string-len)
1839 (stream-write-string target string 0 string-len))))
1841 (defun case-frob-downcase-out (stream char)
1842 (declare (type case-frob-stream stream)
1843 (type character char))
1844 (let ((target (case-frob-stream-target stream))
1845 (char (char-downcase char)))
1846 (if (ansi-stream-p target)
1847 (funcall (ansi-stream-out target) target char)
1848 (stream-write-char target char))))
1850 (defun case-frob-downcase-sout (stream str start end)
1851 (declare (type case-frob-stream stream)
1852 (type simple-string str)
1853 (type index start)
1854 (type (or index null) end))
1855 (let* ((target (case-frob-stream-target stream))
1856 (len (length str))
1857 (end (or end len))
1858 (string (if (and (zerop start) (= len end))
1859 (string-downcase str)
1860 (nstring-downcase (subseq str start end))))
1861 (string-len (- end start)))
1862 (if (ansi-stream-p target)
1863 (funcall (ansi-stream-sout target) target string 0 string-len)
1864 (stream-write-string target string 0 string-len))))
1866 (defun case-frob-capitalize-out (stream char)
1867 (declare (type case-frob-stream stream)
1868 (type character char))
1869 (let ((target (case-frob-stream-target stream)))
1870 (cond ((alphanumericp char)
1871 (let ((char (char-upcase char)))
1872 (if (ansi-stream-p target)
1873 (funcall (ansi-stream-out target) target char)
1874 (stream-write-char target char)))
1875 (setf (case-frob-stream-out stream) #'case-frob-capitalize-aux-out)
1876 (setf (case-frob-stream-sout stream)
1877 #'case-frob-capitalize-aux-sout))
1879 (if (ansi-stream-p target)
1880 (funcall (ansi-stream-out target) target char)
1881 (stream-write-char target char))))))
1883 (defun case-frob-capitalize-sout (stream str start end)
1884 (declare (type case-frob-stream stream)
1885 (type simple-string str)
1886 (type index start)
1887 (type (or index null) end))
1888 (let* ((target (case-frob-stream-target stream))
1889 (str (subseq str start end))
1890 (len (length str))
1891 (inside-word nil))
1892 (dotimes (i len)
1893 (let ((char (schar str i)))
1894 (cond ((not (alphanumericp char))
1895 (setf inside-word nil))
1896 (inside-word
1897 (setf (schar str i) (char-downcase char)))
1899 (setf inside-word t)
1900 (setf (schar str i) (char-upcase char))))))
1901 (when inside-word
1902 (setf (case-frob-stream-out stream)
1903 #'case-frob-capitalize-aux-out)
1904 (setf (case-frob-stream-sout stream)
1905 #'case-frob-capitalize-aux-sout))
1906 (if (ansi-stream-p target)
1907 (funcall (ansi-stream-sout target) target str 0 len)
1908 (stream-write-string target str 0 len))))
1910 (defun case-frob-capitalize-aux-out (stream char)
1911 (declare (type case-frob-stream stream)
1912 (type character char))
1913 (let ((target (case-frob-stream-target stream)))
1914 (cond ((alphanumericp char)
1915 (let ((char (char-downcase char)))
1916 (if (ansi-stream-p target)
1917 (funcall (ansi-stream-out target) target char)
1918 (stream-write-char target char))))
1920 (if (ansi-stream-p target)
1921 (funcall (ansi-stream-out target) target char)
1922 (stream-write-char target char))
1923 (setf (case-frob-stream-out stream)
1924 #'case-frob-capitalize-out)
1925 (setf (case-frob-stream-sout stream)
1926 #'case-frob-capitalize-sout)))))
1928 (defun case-frob-capitalize-aux-sout (stream str start end)
1929 (declare (type case-frob-stream stream)
1930 (type simple-string str)
1931 (type index start)
1932 (type (or index null) end))
1933 (let* ((target (case-frob-stream-target stream))
1934 (str (subseq str start end))
1935 (len (length str))
1936 (inside-word t))
1937 (dotimes (i len)
1938 (let ((char (schar str i)))
1939 (cond ((not (alphanumericp char))
1940 (setf inside-word nil))
1941 (inside-word
1942 (setf (schar str i) (char-downcase char)))
1944 (setf inside-word t)
1945 (setf (schar str i) (char-upcase char))))))
1946 (unless inside-word
1947 (setf (case-frob-stream-out stream)
1948 #'case-frob-capitalize-out)
1949 (setf (case-frob-stream-sout stream)
1950 #'case-frob-capitalize-sout))
1951 (if (ansi-stream-p target)
1952 (funcall (ansi-stream-sout target) target str 0 len)
1953 (stream-write-string target str 0 len))))
1955 (defun case-frob-capitalize-first-out (stream char)
1956 (declare (type case-frob-stream stream)
1957 (type character char))
1958 (let ((target (case-frob-stream-target stream)))
1959 (cond ((alphanumericp char)
1960 (let ((char (char-upcase char)))
1961 (if (ansi-stream-p target)
1962 (funcall (ansi-stream-out target) target char)
1963 (stream-write-char target char)))
1964 (setf (case-frob-stream-out stream)
1965 #'case-frob-downcase-out)
1966 (setf (case-frob-stream-sout stream)
1967 #'case-frob-downcase-sout))
1969 (if (ansi-stream-p target)
1970 (funcall (ansi-stream-out target) target char)
1971 (stream-write-char target char))))))
1973 (defun case-frob-capitalize-first-sout (stream str start end)
1974 (declare (type case-frob-stream stream)
1975 (type simple-string str)
1976 (type index start)
1977 (type (or index null) end))
1978 (let* ((target (case-frob-stream-target stream))
1979 (str (subseq str start end))
1980 (len (length str)))
1981 (dotimes (i len)
1982 (let ((char (schar str i)))
1983 (when (alphanumericp char)
1984 (setf (schar str i) (char-upcase char))
1985 (do ((i (1+ i) (1+ i)))
1986 ((= i len))
1987 (setf (schar str i) (char-downcase (schar str i))))
1988 (setf (case-frob-stream-out stream)
1989 #'case-frob-downcase-out)
1990 (setf (case-frob-stream-sout stream)
1991 #'case-frob-downcase-sout)
1992 (return))))
1993 (if (ansi-stream-p target)
1994 (funcall (ansi-stream-sout target) target str 0 len)
1995 (stream-write-string target str 0 len))))
1997 ;;;; READ-SEQUENCE
1999 (defun read-sequence (seq stream &key (start 0) end)
2000 #!+sb-doc
2001 "Destructively modify SEQ by reading elements from STREAM.
2002 That part of SEQ bounded by START and END is destructively modified by
2003 copying successive elements into it from STREAM. If the end of file
2004 for STREAM is reached before copying all elements of the subsequence,
2005 then the extra elements near the end of sequence are not updated, and
2006 the index of the next element is returned."
2007 (declare (type sequence seq)
2008 (type stream stream)
2009 (type index start)
2010 (type sequence-end end)
2011 (values index))
2012 (if (ansi-stream-p stream)
2013 (ansi-stream-read-sequence seq stream start end)
2014 ;; must be Gray streams FUNDAMENTAL-STREAM
2015 (stream-read-sequence stream seq start end)))
2017 (declaim (inline compatible-vector-and-stream-element-types-p))
2018 (defun compatible-vector-and-stream-element-types-p (vector stream)
2019 (declare (type vector vector)
2020 (type ansi-stream stream))
2021 (or (and (typep vector '(simple-array (unsigned-byte 8) (*)))
2022 (subtypep (stream-element-type stream) '(unsigned-byte 8)))
2023 (and (typep vector '(simple-array (signed-byte 8) (*)))
2024 (subtypep (stream-element-type stream) '(signed-byte 8)))))
2026 (defun ansi-stream-read-sequence (seq stream start %end)
2027 (declare (type sequence seq)
2028 (type ansi-stream stream)
2029 (type index start)
2030 (type sequence-end %end)
2031 (values index))
2032 (let ((end (or %end (length seq))))
2033 (declare (type index end))
2034 (etypecase seq
2035 (list
2036 (let ((read-function
2037 (if (subtypep (stream-element-type stream) 'character)
2038 #'ansi-stream-read-char
2039 #'ansi-stream-read-byte)))
2040 (do ((rem (nthcdr start seq) (rest rem))
2041 (i start (1+ i)))
2042 ((or (endp rem) (>= i end)) i)
2043 (declare (type list rem)
2044 (type index i))
2045 (let ((el (funcall read-function stream nil :eof nil)))
2046 (when (eq el :eof)
2047 (return i))
2048 (setf (first rem) el)))))
2049 (vector
2050 (with-array-data ((data seq) (offset-start start) (offset-end end)
2051 :check-fill-pointer t)
2052 (cond ((compatible-vector-and-stream-element-types-p data stream)
2053 (let* ((numbytes (- end start))
2054 (bytes-read (read-n-bytes stream data offset-start
2055 numbytes nil)))
2056 (if (< bytes-read numbytes)
2057 (+ start bytes-read)
2058 end)))
2059 ((and (ansi-stream-cin-buffer stream)
2060 (typep seq 'simple-string))
2061 (ansi-stream-read-string-from-frc-buffer seq stream
2062 start %end))
2064 (let ((read-function
2065 (if (subtypep (stream-element-type stream) 'character)
2066 ;; If the stream-element-type is CHARACTER,
2067 ;; this might be a bivalent stream. If the
2068 ;; sequence is a specialized unsigned-byte
2069 ;; vector, try to read use binary IO. It'll
2070 ;; signal an error if stream is an pure
2071 ;; character stream.
2072 (if (subtypep (array-element-type data)
2073 'unsigned-byte)
2074 #'ansi-stream-read-byte
2075 #'ansi-stream-read-char)
2076 #'ansi-stream-read-byte)))
2077 (do ((i offset-start (1+ i)))
2078 ((>= i offset-end) end)
2079 (declare (type index i))
2080 (let ((el (funcall read-function stream nil :eof nil)))
2081 (when (eq el :eof)
2082 (return (+ start (- i offset-start))))
2083 (setf (aref data i) el)))))))))))
2085 (defun ansi-stream-read-string-from-frc-buffer (seq stream start %end)
2086 (declare (type simple-string seq)
2087 (type ansi-stream stream)
2088 (type index start)
2089 (type (or null index) %end))
2090 (let ((needed (- (or %end (length seq))
2091 start))
2092 (read 0))
2093 (prepare-for-fast-read-char stream
2094 (declare (ignore %frc-method%))
2095 (unless %frc-buffer%
2096 (return-from ansi-stream-read-string-from-frc-buffer nil))
2097 (labels ((refill-buffer ()
2098 (prog1
2099 (fast-read-char-refill stream nil nil)
2100 (setf %frc-index% (ansi-stream-in-index %frc-stream%))))
2101 (add-chunk ()
2102 (let* ((end (length %frc-buffer%))
2103 (len (min (- end %frc-index%)
2104 (- needed read))))
2105 (declare (type index end len read needed))
2106 (string-dispatch (simple-base-string
2107 (simple-array character (*)))
2109 (replace seq %frc-buffer%
2110 :start1 (+ start read)
2111 :end1 (+ start read len)
2112 :start2 %frc-index%
2113 :end2 (+ %frc-index% len)))
2114 (incf read len)
2115 (incf %frc-index% len)
2116 (when (or (eql needed read)
2117 (refill-buffer))
2118 (done-with-fast-read-char)
2119 (return-from ansi-stream-read-string-from-frc-buffer
2120 read)))))
2121 (declare (inline refill-buffer))
2122 (when (and (= %frc-index% +ansi-stream-in-buffer-length+)
2123 (refill-buffer))
2124 ;; EOF had been reached before we read anything
2125 ;; at all. Return the EOF value or signal the error.
2126 (done-with-fast-read-char)
2127 (return-from ansi-stream-read-string-from-frc-buffer 0))
2128 (loop (add-chunk))))))
2131 ;;;; WRITE-SEQUENCE
2133 (defun write-sequence (seq stream &key (start 0) (end nil))
2134 #!+sb-doc
2135 "Write the elements of SEQ bounded by START and END to STREAM."
2136 (declare (type sequence seq)
2137 (type stream stream)
2138 (type index start)
2139 (type sequence-end end)
2140 (values sequence))
2141 (if (ansi-stream-p stream)
2142 (ansi-stream-write-sequence seq stream start end)
2143 ;; must be Gray-streams FUNDAMENTAL-STREAM
2144 (stream-write-sequence stream seq start end)))
2146 (defun ansi-stream-write-sequence (seq stream start %end)
2147 (declare (type sequence seq)
2148 (type ansi-stream stream)
2149 (type index start)
2150 (type sequence-end %end)
2151 (values sequence))
2152 (let ((end (or %end (length seq))))
2153 (declare (type index end))
2154 (etypecase seq
2155 (list
2156 (let ((write-function
2157 (if (subtypep (stream-element-type stream) 'character)
2158 (ansi-stream-out stream)
2159 (ansi-stream-bout stream))))
2160 (do ((rem (nthcdr start seq) (rest rem))
2161 (i start (1+ i)))
2162 ((or (endp rem) (>= i end)))
2163 (declare (type list rem)
2164 (type index i))
2165 (funcall write-function stream (first rem)))))
2166 (string
2167 (%write-string seq stream start end))
2168 (vector
2169 (with-array-data ((data seq) (offset-start start) (offset-end end)
2170 :check-fill-pointer t)
2171 (labels
2172 ((output-seq-in-loop ()
2173 (let ((write-function
2174 (if (subtypep (stream-element-type stream) 'character)
2175 (lambda (stream object)
2176 ;; This might be a bivalent stream, so we need
2177 ;; to dispatch on a per-element basis, rather
2178 ;; than just based on the sequence or stream
2179 ;; element types.
2180 (if (characterp object)
2181 (funcall (ansi-stream-out stream)
2182 stream object)
2183 (funcall (ansi-stream-bout stream)
2184 stream object)))
2185 (ansi-stream-bout stream))))
2186 (do ((i offset-start (1+ i)))
2187 ((>= i offset-end))
2188 (declare (type index i))
2189 (funcall write-function stream (aref data i))))))
2190 (if (and (fd-stream-p stream)
2191 (compatible-vector-and-stream-element-types-p data stream))
2192 (buffer-output stream data offset-start offset-end)
2193 (output-seq-in-loop)))))))
2194 seq)
2196 ;;;; etc.