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/usr/share/uim/input-parse.scm is in libuim-data 1:1.8.6-15.

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;****************************************************************************
;			Simple Parsing of input
;
; The following simple functions surprisingly often suffice to parse
; an input stream. They either skip, or build and return tokens,
; according to inclusion or delimiting semantics. The list of
; characters to expect, include, or to break at may vary from one
; invocation of a function to another. This allows the functions to
; easily parse even context-sensitive languages.
;
; EOF is generally frowned on, and thrown up upon if encountered.
; Exceptions are mentioned specifically. The list of expected characters 
; (characters to skip until, or break-characters) may include an EOF
; "character", which is to be coded as symbol *eof*
;
; The input stream to parse is specified as a PORT, which is usually
; the last (and optional) argument. It defaults to the current input
; port if omitted.
;
; IMPORT
; This package relies on a function parser-error, which must be defined
; by a user of the package. The function has the following signature:
;	parser-error PORT MESSAGE SPECIALISING-MSG*
; Many procedures of this package call parser-error to report a parsing
; error.  The first argument is a port, which typically points to the
; offending character or its neighborhood. Most of the Scheme systems
; let the user query a PORT for the current position. MESSAGE is the
; description of the error. Other arguments supply more details about
; the problem.
; myenv.scm, myenv-bigloo.scm or a similar prelude is assumed.
; From SRFI-13, string-concatenate-reverse
; If a particular implementation lacks SRFI-13 support, please
; include the file srfi-13-local.scm
;
; $Id: input-parse.scm,v 3.11 2004/07/08 19:51:57 oleg Exp oleg $

;------------------------------------------------------------------------

(require "util.scm")

(define (parser-error port message . specialising-msg)
  (uim-notify-fatal
   (format "~a: ~a"
           message
           (apply string-append
                  (map (lambda (s)
                         (write-to-string s display))
                       specialising-msg)))))

(define (string-concatenate-reverse strs final end)
  (define (string-xcopy! target tstart s sfrom sto)
    (do ((i sfrom (inc i)) (j tstart (inc j)))
        ((>= i sto))
      (string-set! target j (string-ref s i))))
  (if (null? strs) (substring final 0 end)
    (let*
      ((total-len
	 (let loop ((len end) (lst strs))
	   (if (null? lst) len
	     (loop (+ len (string-length (car lst))) (cdr lst)))))
	(result (make-string total-len)))
      (let loop ((len end) (j total-len) (str final) (lst strs))
	(string-xcopy! result (- j len) str 0 len)
	(if (null? lst) result
	  (loop (string-length (car lst)) (- j len)
	    (car lst) (cdr lst)))))))

(define char-return #\return)
(define char-newline #\newline)

; -- procedure+: peek-next-char [PORT]
; 	advances to the next character in the PORT and peeks at it.
; 	This function is useful when parsing LR(1)-type languages
; 	(one-char-read-ahead).
;	The optional argument PORT defaults to the current input port.

(define (peek-next-char . args)
  (let-optionals* args ((port (current-input-port)))
    (read-char port)
    (peek-char port)))


;------------------------------------------------------------------------

; -- procedure+: assert-curr-char CHAR-LIST STRING [PORT]
;	Reads a character from the PORT and looks it up
;	in the CHAR-LIST of expected characters
;	If the read character was found among expected, it is returned
;	Otherwise, the procedure writes a nasty message using STRING
;	as a comment, and quits.
;	The optional argument PORT defaults to the current input port.
;
(define (assert-curr-char expected-chars comment . args)
  (let-optionals* args ((port (current-input-port)))
    (let ((c (read-char port)))
      (if (memv c expected-chars) c
          (parser-error port "Wrong character " c
                        " (0x" (if (eof-object? c) "*eof*"
                                   (number->string (char->integer c) 16)) ") "
                                   comment ". " expected-chars " expected")))))


; -- procedure+: skip-until CHAR-LIST [PORT]
;	Reads and skips characters from the PORT until one of the break
;	characters is encountered. This break character is returned.
;	The break characters are specified as the CHAR-LIST. This list
;	may include EOF, which is to be coded as a symbol *eof*
;
; -- procedure+: skip-until NUMBER [PORT]
;	Skips the specified NUMBER of characters from the PORT and returns #f
;
;	The optional argument PORT defaults to the current input port.


(define (skip-until arg . args)
  (let-optionals* args ((port (current-input-port)))
    (cond
     ((number? arg)		; skip 'arg' characters
      (do ((i arg (dec i)))
      	  ((not (positive? i)) #f)
        (if (eof-object? (read-char port))
      	    (parser-error port "Unexpected EOF while skipping "
                          arg " characters"))))
     (else			; skip until break-chars (=arg)
      (let loop ((c (read-char port)))
        (cond
         ((memv c arg) c)
         ((eof-object? c)
          (if (memq '*eof* arg) c
              (parser-error port "Unexpected EOF while skipping until " arg)))
         (else (loop (read-char port)))))))))


; -- procedure+: skip-while CHAR-LIST [PORT]
;	Reads characters from the PORT and disregards them,
;	as long as they are mentioned in the CHAR-LIST.
;	The first character (which may be EOF) peeked from the stream
;	that is NOT a member of the CHAR-LIST is returned. This character
;	is left on the stream.
;	The optional argument PORT defaults to the current input port.

(define (skip-while skip-chars . args)
  (let-optionals* args ((port (current-input-port)))
    (do ((c (peek-char port) (peek-char port)))
        ((not (memv c skip-chars)) c)
      (read-char port))))

; whitespace const

;------------------------------------------------------------------------
;				Stream tokenizers


; -- procedure+: 
;    next-token PREFIX-CHAR-LIST BREAK-CHAR-LIST [COMMENT-STRING] [PORT]
;	skips any number of the prefix characters (members of the
;	PREFIX-CHAR-LIST), if any, and reads the sequence of characters
;	up to (but not including) a break character, one of the
;	BREAK-CHAR-LIST.
;	The string of characters thus read is returned.
;	The break character is left on the input stream
;	The list of break characters may include EOF, which is to be coded as
;	a symbol *eof*. Otherwise, EOF is fatal, generating an error message
;	including a specified COMMENT-STRING (if any)
;
;	The optional argument PORT defaults to the current input port.
;
; Note: since we can't tell offhand how large the token being read is
; going to be, we make a guess, pre-allocate a string, and grow it by
; quanta if necessary. The quantum is always the length of the string
; before it was extended the last time. Thus the algorithm does
; a Fibonacci-type extension, which has been proven optimal.
; Note, explicit port specification in read-char, peek-char helps.

; Procedure: input-parse:init-buffer
; returns an initial buffer for next-token* procedures.
; The input-parse:init-buffer may allocate a new buffer per each invocation:
;	(define (input-parse:init-buffer) (make-string 32))
; Size 32 turns out to be fairly good, on average.
; That policy is good only when a Scheme system is multi-threaded with
; preemptive scheduling, or when a Scheme system supports shared substrings.
; In all the other cases, it's better for input-parse:init-buffer to
; return the same static buffer. next-token* functions return a copy
; (a substring) of accumulated data, so the same buffer can be reused.
; We shouldn't worry about an incoming token being too large:
; next-token will use another chunk automatically. Still, 
; the best size for the static buffer is to allow most of the tokens to fit in.
; Using a static buffer _dramatically_ reduces the amount of produced garbage
; (e.g., during XML parsing).

(define input-parse:init-buffer
  (let ((buffer (make-string 512)))
    (lambda () buffer)))


		; See a better version below
(define (next-token-old prefix-skipped-chars break-chars . args)
  (let-optionals* args ((comment "")
                        (port (current-input-port)))
    (let* ((buffer (input-parse:init-buffer))
           (curr-buf-len (string-length buffer))
           (quantum curr-buf-len))
      (let loop ((i 0) (c (skip-while prefix-skipped-chars port)))
        (cond
         ((memv c break-chars) (substring buffer 0 i))
         ((eof-object? c)
    	  (if (memq '*eof* break-chars)
              (substring buffer 0 i)		; was EOF expected?
              (parser-error port "EOF while reading a token " comment)))
         (else
    	  (if (>= i curr-buf-len)	; make space for i-th char in buffer
              (begin			; -> grow the buffer by the quantum
                (set! buffer (string-append buffer (make-string quantum)))
                (set! quantum curr-buf-len)
                (set! curr-buf-len (string-length buffer))))
    	  (string-set! buffer i c)
    	  (read-char port)			; move to the next char
    	  (loop (inc i) (peek-char port))
    	  ))))))


; A better version of next-token, which accumulates the characters
; in chunks, and later on reverse-concatenates them, using
; SRFI-13 if available.
; The overhead of copying characters is only 100% (or even smaller: bulk
; string copying might be well-optimised), compared to the (hypothetical)
; circumstance if we had known the size of the token beforehand.
; For small tokens, the code performs just as above. For large
; tokens, we expect an improvement. Note, the code also has no
; assignments. 
; See next-token-comp.scm

(define (next-token prefix-skipped-chars break-chars . args)
  (let-optionals* args ((comment "")
                        (port (current-input-port)))
    (let outer ((buffer (input-parse:init-buffer)) (filled-buffer-l '())
                (c (skip-while prefix-skipped-chars port)))
      (let ((curr-buf-len (string-length buffer)))
        (let loop ((i 0) (c c))
          (cond
           ((memv c break-chars)
	    (if (null? filled-buffer-l) (substring buffer 0 i)
                (string-concatenate-reverse filled-buffer-l buffer i)))
           ((eof-object? c)
	    (if (memq '*eof* break-chars)	; was EOF expected?
                (if (null? filled-buffer-l) (substring buffer 0 i)
                    (string-concatenate-reverse filled-buffer-l buffer i))
                (parser-error port "EOF while reading a token " comment)))
           ((>= i curr-buf-len)
	    (outer (make-string curr-buf-len)
                   (cons buffer filled-buffer-l) c))
           (else
	    (string-set! buffer i c)
	    (read-char port)			; move to the next char
	    (loop (inc i) (peek-char port)))))))))

; -- procedure+: next-token-of INC-CHARSET [PORT]
;	Reads characters from the PORT that belong to the list of characters
;	INC-CHARSET. The reading stops at the first character which is not
;	a member of the set. This character is left on the stream.
;	All the read characters are returned in a string.
;
; -- procedure+: next-token-of PRED [PORT]
;	Reads characters from the PORT for which PRED (a procedure of one
;	argument) returns non-#f. The reading stops at the first character
;	for which PRED returns #f. That character is left on the stream.
;	All the results of evaluating of PRED up to #f are returned in a
;	string.
;
;	PRED is a procedure that takes one argument (a character
;	or the EOF object) and returns a character or #f. The returned
;	character does not have to be the same as the input argument
;	to the PRED. For example,
;	(next-token-of (lambda (c)
;			  (cond ((eof-object? c) #f)
;				((char-alphabetic? c) (char-downcase c))
;				(else #f))))
;	will try to read an alphabetic token from the current
;	input port, and return it in lower case.
; 
;	The optional argument PORT defaults to the current input port.
;
; This procedure is similar to next-token but only it implements
; an inclusion rather than delimiting semantics.

(define (next-token-of incl-list/pred . args)
  (let-optionals* args ((port (current-input-port)))
    (let* ((buffer (input-parse:init-buffer))
           (curr-buf-len (string-length buffer)))
      (if (procedure? incl-list/pred)
          (let outer ((buffer buffer) (filled-buffer-l '()))
            (let loop ((i 0))
              (if (>= i curr-buf-len)		; make sure we have space
                  (outer (make-string curr-buf-len) (cons buffer filled-buffer-l))
                  (let ((c (incl-list/pred (peek-char port))))
                    (if c
                        (begin
                          (string-set! buffer i c)
                          (read-char port)			; move to the next char
                          (loop (inc i)))
                                        ; incl-list/pred decided it had had enough
                        (if (null? filled-buffer-l) (substring buffer 0 i)
                            (string-concatenate-reverse filled-buffer-l buffer i)))))))

                                        ; incl-list/pred is a list of allowed characters
          (let outer ((buffer buffer) (filled-buffer-l '()))
            (let loop ((i 0))
              (if (>= i curr-buf-len)		; make sure we have space
                  (outer (make-string curr-buf-len) (cons buffer filled-buffer-l))
                  (let ((c (peek-char port)))
                    (cond
                     ((not (memv c incl-list/pred))
                      (if (null? filled-buffer-l) (substring buffer 0 i)
                          (string-concatenate-reverse filled-buffer-l buffer i)))
                     (else
                      (string-set! buffer i c)
                      (read-char port)			; move to the next char
                      (loop (inc i))))))))
          ))))


; -- procedure+: read-text-line [PORT]
;	Reads one line of text from the PORT, and returns it as a string.
;	A line is a (possibly empty) sequence of characters terminated
;	by CR, CRLF or LF (or even the end of file).
;	The terminating character (or CRLF combination) is removed from
;	the input stream. The terminating character(s) is not a part
;	of the return string either.
;	If EOF is encountered before any character is read, the return
;	value is EOF.
; 
;	The optional argument PORT defaults to the current input port.

(define *read-line-breaks* (list char-newline char-return '*eof*))

(define (read-text-line . args)
  (let-optionals* args ((port (current-input-port)))
    (if (eof-object? (peek-char port)) (peek-char port)
        (let* ((line
                (next-token '() *read-line-breaks*
                            "reading a line" port))
               (c (read-char port)))	; must be either \n or \r or EOF
          (and (eqv? c char-return) (eqv? (peek-char port) #\newline)
               (read-char port))			; skip \n that follows \r
          line))))


; -- procedure+: read-string N [PORT]
;	Reads N characters from the PORT, and  returns them in a string.
;	If EOF is encountered before N characters are read, a shorter string
;	will be returned.
;	If N is not positive, an empty string will be returned.
;	The optional argument PORT defaults to the current input port.

(define (read-string n . args)
  (let-optionals* args ((port (current-input-port)))
    (if (not (positive? n)) ""
        (let ((buffer (make-string n)))
          (let loop ((i 0) (c (read-char port)))
            (if (eof-object? c) (substring buffer 0 i)
                (let ((i1 (inc i)))
                  (string-set! buffer i c)
                  (if (= i1 n) buffer
                      (loop i1 (read-char port))))))))))

; -- Function: find-string-from-port? STR IN-PORT MAX-NO-CHARS
;    Looks for a string STR within the first MAX-NO-CHARS chars of the
;    input port IN-PORT
;    MAX-NO-CHARS may be omitted: in that case, the search span would be
;    limited only by the end of the input stream.
;    When the STR is found, the function returns the number of
;    characters it has read from the port, and the port is set
;    to read the first char after that (that is, after the STR)
;    The function returns #f when the string wasn't found
; Note the function reads the port *STRICTLY* sequentially, and does not
; perform any buffering. So the function can be used even if the port is open
; on a pipe or other communication channel.
;
; Probably can be classified as misc-io.
;
; Notes on the algorithm.
; A special care should be taken in a situation when one had achieved a partial
; match with (a head of) STR, and then some unexpected character appeared in
; the stream. It'll be rash to discard all already read characters. Consider
; an example of string "acab" and the stream "bacacab...", specifically when
;    a  c  a _b_
; b  a  c  a  c  a  b ...
; that is, when 'aca' had matched, but then 'c' showed up in the stream
; while we were looking for 'b'. In that case, discarding all already read
; characters and starting the matching process from scratch, that is,
; from 'c a b ...', would miss a certain match.
; Note, we don't actually need to keep already read characters, or at least
; strlen(str) characters in some kind of buffer. If there has been no match,
; we can safely discard read characters. If there was some partial match,
; we already know the characters before, they are in the STR itself, so
; we don't need a special buffer for that.

;;; "MISCIO" Search for string from port.
; Written 1995 by Oleg Kiselyov (oleg@ponder.csci.unt.edu)
; Modified 1996 by A. Jaffer (jaffer@ai.mit.edu)
;
; This code is in the public domain.

(define (MISCIO:find-string-from-port? str <input-port> . max-no-char)
  (set! max-no-char (if (null? max-no-char) #f (car max-no-char)))
  (letrec
      ((no-chars-read 0)
       (my-peek-char			; Return a peeked char or #f
	(lambda () (and (or (not max-no-char) (< no-chars-read max-no-char))
			(let ((c (peek-char <input-port>)))
			  (if (eof-object? c) #f c)))))
       (next-char (lambda () (read-char <input-port>)
			  (set! no-chars-read  (+ 1 no-chars-read))))
       (match-1st-char			; of the string str
	(lambda ()
	  (let ((c (my-peek-char)))
	    (if (not c) #f
		(begin (next-char)
		       (if (char=? c (string-ref str 0))
			   (match-other-chars 1)
			   (match-1st-char)))))))
       ;; There has been a partial match, up to the point pos-to-match
       ;; (for example, str[0] has been found in the stream)
       ;; Now look to see if str[pos-to-match] for would be found, too
       (match-other-chars
	(lambda (pos-to-match)
	  (if (>= pos-to-match (string-length str))
	      no-chars-read		; the entire string has matched
	      (let ((c (my-peek-char)))
		(and c
		     (if (not (char=? c (string-ref str pos-to-match)))
			 (backtrack 1 pos-to-match)
			 (begin (next-char)
				(match-other-chars (+ 1 pos-to-match)))))))))

       ;; There had been a partial match, but then a wrong char showed up.
       ;; Before discarding previously read (and matched) characters, we check
       ;; to see if there was some smaller partial match. Note, characters read
       ;; so far (which matter) are those of str[0..matched-substr-len - 1]
       ;; In other words, we will check to see if there is such i>0 that
       ;; substr(str,0,j) = substr(str,i,matched-substr-len)
       ;; where j=matched-substr-len - i
       (backtrack
	(lambda (i matched-substr-len)
	  (let ((j (- matched-substr-len i)))
	    (if (<= j 0)
	      (match-1st-char)	; backed off completely to the begining of str
	      (let loop ((k 0))
	        (if (>= k j)
	           (match-other-chars j) ; there was indeed a shorter match
	           (if (char=? (string-ref str k)
	           	       (string-ref str (+ i k)))
	             (loop (+ 1 k))
	             (backtrack (+ 1 i) matched-substr-len))))))))
       )
    (match-1st-char)))

(define find-string-from-port? MISCIO:find-string-from-port?)


;-----------------------------------------------------------------------------
;   This is a test driver for miscio:find-string-from-port?, to make sure it
;			really works as intended

; moved to vinput-parse.scm