Fix make-array transforms.

[sbcl.git] / tests / gray-streams.impure.lisp

;;;; tests related to Gray streams

;;;; This software is part of the SBCL system. See the README file for
;;;; more information.
;;;;
;;;; While most of SBCL is derived from the CMU CL system, the test
;;;; files (like this one) were written from scratch after the fork
;;;; from CMU CL.
;;;;
;;;; This software is in the public domain and is provided with
;;;; absolutely no warranty. See the COPYING and CREDITS files for
;;;; more information.

(cl:in-package :cl-user)
\f
;;;; class precedence tests

(assert (subtypep 'fundamental-stream 'stream))
(assert (subtypep 'fundamental-stream 'standard-object))

(assert (subtypep 'fundamental-input-stream 'fundamental-stream))
(assert (subtypep 'fundamental-output-stream 'fundamental-stream))
(assert (subtypep 'fundamental-character-stream 'fundamental-stream))
(assert (subtypep 'fundamental-binary-stream 'fundamental-stream))

(assert (subtypep 'fundamental-character-input-stream
                  'fundamental-input-stream))
(assert (subtypep 'fundamental-character-input-stream
                  'fundamental-character-stream))
(assert (subtypep 'fundamental-character-output-stream
                  'fundamental-output-stream))
(assert (subtypep 'fundamental-character-output-stream
                  'fundamental-character-stream))

(assert (subtypep 'fundamental-binary-input-stream
                  'fundamental-input-stream))
(assert (subtypep 'fundamental-binary-input-stream
                  'fundamental-binary-stream))
(assert (subtypep 'fundamental-binary-output-stream
                  'fundamental-output-stream))
(assert (subtypep 'fundamental-binary-output-stream
                  'fundamental-binary-stream))

(defvar *fundamental-input-stream-instance*
  (make-instance 'fundamental-input-stream))

(defvar *fundamental-output-stream-instance*
  (make-instance 'fundamental-output-stream))

(defvar *fundamental-character-stream-instance*
  (make-instance 'fundamental-character-stream))

(assert (input-stream-p *fundamental-input-stream-instance*))
(assert (output-stream-p *fundamental-output-stream-instance*))
(assert (eql (stream-element-type
              *fundamental-character-stream-instance*)
             'character))
\f
;;;; example character input and output streams

(defclass character-output-stream (fundamental-character-output-stream)
  ((lisp-stream :initarg :lisp-stream
                :accessor character-output-stream-lisp-stream)
   (position :initform 42 :accessor character-output-stream-position)))

(defclass character-input-stream (fundamental-character-input-stream)
  ((lisp-stream :initarg :lisp-stream
                :accessor character-input-stream-lisp-stream)))
\f
;;;; example character output stream encapsulating a lisp-stream

(defun make-character-output-stream (lisp-stream)
  (make-instance 'character-output-stream :lisp-stream lisp-stream))

(defmethod open-stream-p ((stream character-output-stream))
  (open-stream-p (character-output-stream-lisp-stream stream)))

(defmethod close ((stream character-output-stream) &key abort)
  (close (character-output-stream-lisp-stream stream) :abort abort))

(defmethod input-stream-p ((stream character-output-stream))
  (input-stream-p (character-output-stream-lisp-stream stream)))

(defmethod output-stream-p ((stream character-output-stream))
  (output-stream-p (character-output-stream-lisp-stream stream)))

(defmethod stream-write-char ((stream character-output-stream) character)
  (write-char character (character-output-stream-lisp-stream stream)))

(defmethod stream-line-column ((stream character-output-stream))
  (sb-kernel:charpos (character-output-stream-lisp-stream stream)))

(defmethod stream-line-length ((stream character-output-stream))
  (sb-kernel:line-length (character-output-stream-lisp-stream stream)))

(defmethod stream-finish-output ((stream character-output-stream))
  (finish-output (character-output-stream-lisp-stream stream)))

(defmethod stream-force-output ((stream character-output-stream))
  (force-output (character-output-stream-lisp-stream stream)))

(defmethod stream-clear-output ((stream character-output-stream))
  (clear-output (character-output-stream-lisp-stream stream)))

(defmethod stream-file-position ((stream character-output-stream) &optional new-value)
  (if new-value
      (setf (character-output-stream-position stream) new-value)
      (character-output-stream-position stream)))
\f
;;;; example character input stream encapsulating a lisp-stream

(defun make-character-input-stream (lisp-stream)
  (make-instance 'character-input-stream :lisp-stream lisp-stream))

(defmethod open-stream-p ((stream character-input-stream))
  (open-stream-p (character-input-stream-lisp-stream stream)))

(defmethod close ((stream character-input-stream) &key abort)
  (close (character-input-stream-lisp-stream stream) :abort abort))

(defmethod input-stream-p ((stream character-input-stream))
  (input-stream-p (character-input-stream-lisp-stream stream)))

(defmethod output-stream-p ((stream character-input-stream))
  (output-stream-p (character-input-stream-lisp-stream stream)))

(defmethod stream-read-char ((stream character-input-stream))
  (read-char (character-input-stream-lisp-stream stream) nil :eof))

(defmethod stream-unread-char ((stream character-input-stream) character)
  (unread-char character (character-input-stream-lisp-stream stream)))

(defmethod stream-read-char-no-hang ((stream character-input-stream))
  (read-char-no-hang (character-input-stream-lisp-stream stream) nil :eof))

(defmethod stream-clear-input ((stream character-input-stream))
  (clear-input (character-input-stream-lisp-stream stream)))
\f
;;;; tests for character i/o, using the above:

(let ((test-string (format nil
                           "~% This is a test.~& This is the second line.~
                             ~% This should be the third and last line.~%")))
  (with-input-from-string (foo test-string)
    (assert (equal
             (with-output-to-string (bar)
               (let ((our-char-input (make-character-input-stream foo))
                     (our-char-output (make-character-output-stream bar)))
                 (assert (open-stream-p our-char-input))
                 (assert (open-stream-p our-char-output))
                 (assert (input-stream-p our-char-input))
                 (assert (output-stream-p our-char-output))
                 (let ((test-char (read-char our-char-input)))
                   (assert (char-equal test-char (char test-string 0)))
                   (unread-char test-char our-char-input))
                 (do ((line #1=(read-line our-char-input nil nil nil) #1#))
                     ((not (listen our-char-input))
                      (format our-char-output "~A~%" line))
                   (format our-char-output "~A~%" line))
                 (assert (null (peek-char nil our-char-input nil nil nil)))))
             test-string))))

(assert
  (equal
   (with-output-to-string (foo)
     (let ((our-char-output (make-character-output-stream foo)))
       (write-char #\a our-char-output)
       (finish-output our-char-output)
       (write-char #\  our-char-output)
       (force-output our-char-output)
       (fresh-line our-char-output)
       (write-char #\b our-char-output)
       (clear-output our-char-output)
       (terpri our-char-output)
       (assert (null (fresh-line our-char-output)))
       (write-char #\c our-char-output)))
   (format nil "a ~%b~%c")))

;;; Patches introduced in sbcl-0.6.11.5 made the pretty-print logic
;;; test not only *PRINT-PRETTY* but also PRETTY-STREAM-P in some
;;; cases. Try to verify that we don't end up doing tests like that on
;;; bare Gray streams and thus bogusly omitting pretty-printing
;;; operations.
(flet ((frob ()
         (with-output-to-string (string)
           (let ((gray-output-stream (make-character-output-stream string)))
             (format gray-output-stream
                     "~@<testing: ~@:_pretty Gray line breaks~:>~%")))))
  (assert (= 1 (count #\newline (let ((*print-pretty* nil)) (frob)))))
  (assert (= 2 (count #\newline (let ((*print-pretty* t)) (frob))))))

;;; tests for STREAM-READ-SEQUENCE/STREAM-WRITE-SEQUENCE for
;;; subclasses of FUNDAMENTAL-CHARACTER-INPUT-/OUTPUT-STREAM (i.e.,
;;; where the default methods are available)
(let* ((test-string (format nil
                            "~% Testing for STREAM-*-SEQUENCE.~
                             ~& This is the second line.~
                             ~% This should be the third and last line.~%"))
       (test-string-len (length test-string))
       (output-test-string (make-string test-string-len)))
  ;; test for READ-/WRITE-SEQUENCE on strings/vectors
  (with-input-from-string (foo test-string)
    (assert (equal
             (with-output-to-string (bar)
               (let ((our-char-input (make-character-input-stream foo))
                     (our-char-output (make-character-output-stream bar)))
                 (read-sequence output-test-string our-char-input)
                 (assert (typep output-test-string 'string))
                 (write-sequence output-test-string our-char-output)
                 (assert (null (peek-char nil our-char-input nil nil nil)))))
             test-string)))
  ;; test for READ-/WRITE-SEQUENCE on lists
  (let ((output-test-list (make-list test-string-len)))
    (with-input-from-string (foo test-string)
      (assert (equal
             (with-output-to-string (bar)
               (let ((our-char-input (make-character-input-stream foo))
                     (our-char-output (make-character-output-stream bar)))
                 (read-sequence output-test-list our-char-input)
                 (assert (typep output-test-list 'list))
                 (write-sequence output-test-list our-char-output)
                 (assert (null (peek-char nil our-char-input nil nil nil)))))
             test-string)))))
\f
;;;; example classes for binary output

(defclass binary-to-char-output-stream (fundamental-binary-output-stream)
  ((lisp-stream :initarg :lisp-stream
                :accessor binary-to-char-output-stream-lisp-stream)))

(defclass binary-to-char-input-stream (fundamental-binary-input-stream)
  ((lisp-stream :initarg :lisp-stream
                :accessor binary-to-char-input-stream-lisp-stream)))

(defmethod stream-element-type ((stream binary-to-char-output-stream))
  '(unsigned-byte 8))
(defmethod stream-element-type ((stream binary-to-char-input-stream))
  '(unsigned-byte 8))

(defun make-binary-to-char-input-stream (lisp-stream)
  (make-instance 'binary-to-char-input-stream
                 :lisp-stream lisp-stream))

(defun make-binary-to-char-output-stream (lisp-stream)
  (make-instance 'binary-to-char-output-stream
                 :lisp-stream lisp-stream))

(defmethod stream-read-byte ((stream binary-to-char-input-stream))
  (let ((char (read-char
               (binary-to-char-input-stream-lisp-stream stream) nil :eof)))
    (if (eq char :eof)
        char
        (char-code char))))

(defmethod stream-write-byte ((stream binary-to-char-output-stream) integer)
  (let ((char (code-char integer)))
    (write-char char
                (binary-to-char-output-stream-lisp-stream stream))))
\f
;;;; tests using binary i/o, using the above

(let ((test-string (format nil
                           "~% This is a test.~& This is the second line.~
                            ~% This should be the third and last line.~%")))
  (with-input-from-string (foo test-string)
    (assert (equal
             (with-output-to-string (bar)
               (let ((our-bin-to-char-input (make-binary-to-char-input-stream
                                             foo))
                     (our-bin-to-char-output (make-binary-to-char-output-stream
                                              bar)))
                 (assert (open-stream-p our-bin-to-char-input))
                 (assert (open-stream-p our-bin-to-char-output))
                 (assert (input-stream-p our-bin-to-char-input))
                 (assert (output-stream-p our-bin-to-char-output))
                 (do ((byte #1=(read-byte our-bin-to-char-input nil :eof) #1#))
                     ((eq byte :eof))
                   (write-byte byte our-bin-to-char-output))))
             test-string))))

\f

;;; Minimal test of file-position
(let ((stream (make-instance 'character-output-stream)))
  (assert (= (file-position stream) 42))
  (assert (file-position stream 50))
  (assert (= (file-position stream) 50)))

;;; Using gray streams as parts of two-way-, concatenate-, and synonym-streams.

(defvar *gray-binary-data*
  (let ((vector (make-array 1024 :element-type '(unsigned-byte 8) :fill-pointer 0)))
    (dotimes (i (length vector))
      (setf (aref vector i) (random 256)))
    vector))

(defun vector-hop-or-eof (vector)
  (let ((pos (fill-pointer vector)))
    (if (< pos (array-total-size vector))
        (prog1
            (aref vector pos)
          (incf (fill-pointer vector)))
        :eof)))

(defclass part-of-composite-stream (fundamental-binary-input-stream)
  ())

(defmethod stream-read-byte ((stream part-of-composite-stream))
  (vector-hop-or-eof *gray-binary-data*))

(defmethod stream-element-type ((stream part-of-composite-stream))
  '(unsigned-byte 8))

(defvar *part-of-composite* (make-instance 'part-of-composite-stream))

(defun test-composite-reads (&rest streams)
  (dolist (stream streams)
    (setf (fill-pointer *gray-binary-data*) 0)
    (let ((binary-buffer (make-array 1024 :element-type '(unsigned-byte 8))))
      (assert (eql 1024 (read-sequence binary-buffer stream)))
      (dotimes (i 1024)
        (unless (eql (aref *gray-binary-data* i)
                     (aref binary-buffer i))
          (error "wanted ~S at ~S, got ~S (~S)"
                 (aref *gray-binary-data* i)
                 i
                 (aref binary-buffer i)
                 stream))))))

(test-composite-reads
 (make-two-way-stream *part-of-composite* *standard-output*)
 (make-concatenated-stream *part-of-composite*)
 (make-synonym-stream '*part-of-composite*))

;;; Using STREAM-FILE-POSITION on an ANSI-STREAM
(with-output-to-string (s)
  (assert (zerop (file-position s)))
  (assert (zerop (stream-file-position s))))