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chez-openbsd/s/read.ss

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2022-07-29 15:12:07 +02:00
;;; read.ss
;;; Copyright 1984-2017 Cisco Systems, Inc.
;;;
;;; Licensed under the Apache License, Version 2.0 (the "License");
;;; you may not use this file except in compliance with the License.
;;; You may obtain a copy of the License at
;;;
;;; http://www.apache.org/licenses/LICENSE-2.0
;;;
;;; Unless required by applicable law or agreed to in writing, software
;;; distributed under the License is distributed on an "AS IS" BASIS,
;;; WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
;;; See the License for the specific language governing permissions and
;;; limitations under the License.
;;; this makes loading this file independently bomb
;(define read)
;(define $read)
(begin
(let ()
(include "types.ss")
(define-record-type rcb
(nongenerative)
(sealed #t)
(fields
ip ; input port
sfd ; a source-file descriptor or #f
a? ; if true, wrap s-expressions with source annotations
who ; who's calling (read, read-token)
))
;;; xdefine, xcall, xmvlet, and xvalues manage implicit arguments and
;;; return values for most of the procedures defined in this file. This
;;; simplifies the code and makes it much easier to add new arguments
;;; universally. The implicit variables are:
;;; [i ] rcb reader control block
;;; [io] fp current file position or #f
;;; [i ] bfp beginning file position or #f
;;; [io] tb token buffer
;;; [io] it insert table (for marks and references)
;;; i: input (xcall argument)
;;; o: output (xvalues return value)
(define-syntax xlambda
(lambda (x)
(syntax-case x ()
((key args b1 b2 ...)
(with-implicit (key rcb fp bfp tb it)
#'(lambda (rcb fp bfp tb it . args) b1 b2 ...))))))
(define-syntax xdefine
(lambda (x)
(syntax-case x ()
((key (name . args) b1 b2 ...)
(with-implicit (key rcb fp bfp tb it)
#'(define (name rcb fp bfp tb it . args) b1 b2 ...))))))
(define-syntax xcall
(lambda (x)
(syntax-case x ()
((key p arg ...)
(with-implicit (key rcb fp bfp tb it)
#'(p rcb fp bfp tb it arg ...))))))
(define-syntax xmvlet
(lambda (x)
(syntax-case x ()
((key ((arg ...) exp) b1 b2 ...)
(with-implicit (key fp tb it)
#'(call-with-values
(lambda () exp)
(lambda (fp tb it arg ...) b1 b2 ...)))))))
(define-syntax xvalues
(lambda (x)
(syntax-case x ()
((key arg ...)
(with-implicit (key fp tb it)
#'(values fp tb it arg ...))))))
;;; state-lambda, define-state, *state, and state-return are used to form
;;; scanner states. They are defined in terms of xdefine and family.
(define-syntax state-lambda
(lambda (x)
(syntax-case x ()
((key (arg ...) b1 b2 ...)
(with-implicit (key xlambda)
#'(xlambda (arg ...) b1 b2 ...))))))
(define-syntax define-state
(lambda (x)
(syntax-case x ()
((key (name arg ...) b1 b2 ...)
(with-implicit (key xdefine)
#'(xdefine (name arg ...) b1 b2 ...))))))
(define-syntax *state ; move to state
(lambda (x)
(syntax-case x ()
((key s arg ...)
(with-implicit (key xcall)
#'(xcall s arg ...))))))
(define-syntax state-return
(lambda (x)
(syntax-case x ()
((key type value)
(with-implicit (key xvalues bfp)
#'(xvalues bfp 'type value))))))
(define-syntax call-with-token
(lambda (x)
(syntax-case x ()
((key pexpr)
(with-implicit (key xcall xmvlet bfp)
#'(let ([p pexpr])
(xmvlet ((bfp type value) (xcall rd-token))
(xcall p type value))))))))
(define-syntax with-token
(lambda (x)
(syntax-case x ()
((key (type value) expr1 expr2 ...)
(and (identifier? #'type) (identifier? #'value))
(with-implicit (key xcall xmvlet bfp)
#'(xmvlet ((bfp type value) (xcall rd-token))
expr1 expr2 ...))))))
;;; token-buffers are represented as strings and are expanded as necessary
;;; by the stretch form, which otherwise behaves much like string-set!
(define-syntax with-stretch-buffer
(lambda (x)
(syntax-case x ()
((key i c b1 b2 ...)
(with-implicit (key tb)
#'(let ((g i) (t c))
(let ((tb (if (fx= g (string-length tb)) (string-stretch tb) tb)))
(string-set! tb g t)
b1 b2 ...)))))))
;;; insert tables are eq hash tables; could simply use vector that grows
;;; on demand, except that programmer might use widely spread numbers or
;;; even bignums
(define-syntax with-insert-table
(lambda (x)
(syntax-case x ()
((key b1 b2 ...)
(with-implicit (key it)
#'(let ((it (or it (make-eq-hashtable)))) b1 b2 ...))))))
;;; with-read-char, with-peek-char, and with-unread-char
;;; manage the fp (file-position) value
(define-syntax with-read-char
(lambda (x)
(syntax-case x ()
((key id b1 b2 ...)
(identifier? #'id)
(with-implicit (key rcb fp)
#'(let ([id (read-char (rcb-ip rcb))])
(let ((fp (and fp (+ fp 1))))
b1 b2 ...)))))))
(define-syntax with-peek-char
(lambda (x)
(syntax-case x ()
((key id b1 b2 ...)
(identifier? #'id)
(with-implicit (key rcb)
#'(let ((id (peek-char (rcb-ip rcb)))) b1 b2 ...))))))
(define-syntax with-unread-char
(lambda (x)
(syntax-case x ()
[(key ?c b1 b2 ...)
(with-implicit (key rcb fp)
#'(let ([c ?c])
(unless (eof-object? c) (unread-char c (rcb-ip rcb)))
(let ([fp (and fp (- fp 1))]) b1 b2 ...)))])))
(define-record-type delayed-record
(fields (immutable rtd) (immutable vals) (immutable bfp) (immutable efp) (mutable update))
(nongenerative)
(sealed #t)
(protocol
(lambda (new)
(lambda (rtd vals bfp efp)
(new rtd vals bfp efp (lambda (x) x))))))
(define-record-type insert
(fields (immutable n) (immutable bfp) (immutable efp) (mutable obj) (mutable seen) (mutable visited))
(nongenerative)
(sealed #t)
(protocol
(lambda (new)
(lambda (n bfp efp)
(new n bfp efp #f #f #f)))))
(define char-name-table (make-hashtable char->integer char=?))
(define digit-value
(lambda (c r)
(let ([v (cond
[(char<=? #\0 c #\9) (char- c #\0)]
[(char<=? #\A c #\Z) (char- c #\7)]
[(char<=? #\a c #\z) (char- c #\W)]
[else 36])])
(and (fx< v r) v))))
(module (maybe-fold/intern maybe-fold/gensym)
(define (fold-case? ip slashed?)
(cond
[slashed? #f]
[($port-flags-set? ip (constant port-flag-fold-case)) #t]
[($port-flags-set? ip (constant port-flag-no-fold-case)) #f]
[else (not (case-sensitive))]))
(define maybe-fold/intern
(case-lambda
[(ip tb n slashed?)
(if (fold-case? ip slashed?)
(string->symbol (string-foldcase (substring tb 0 n)))
($intern2 tb n))]
[(ip tb n m slashed1? slashed2?)
(if (fold-case? ip slashed1?)
(let* ([s1 (string-foldcase (substring tb 0 n))]
[s2 (string-append s1
(if (fold-case? ip slashed2?)
(string-foldcase (substring tb n m))
(substring tb n m)))])
($intern3 s2 (string-length s1) (string-length s2)))
(if (fold-case? ip slashed2?)
(let ([s2 (string-append
(substring tb 0 n)
(string-foldcase (substring tb n m)))])
($intern3 s2 n (string-length s2)))
($intern3 tb n m)))]))
(define maybe-fold/gensym
(lambda (ip tb n slashed?)
(if (fold-case? ip slashed?)
(gensym (string-foldcase (substring tb 0 n)))
(gensym (substring tb 0 n))))))
(define string-stretch
(lambda (old)
; string overhead header plus 1 for null byte
(define overhead-bytes (+ (constant header-size-string) 1))
; allocator will align anyway, so start with as many as we
; can without grabbing more real space
(define smart-size
(lambda (n)
(fx- (c-alloc-align (fx+ overhead-bytes (fx* n (constant string-char-bytes))))
overhead-bytes)))
(let ([n (string-length old)])
(if (fx= n 0)
; start with at least 5 characters.
(make-string (smart-size 5))
; double n and double the overhead doubles the whole object
; and thereby maintains the alignment w/o wasting space
(let ([new (make-string (fx+ n n overhead-bytes))])
(do ([i 0 (fx+ i 1)])
((fx= i n) new)
(string-set! new i (string-ref old i))))))))
(define-syntax $make-source-object
(lambda (stx)
(syntax-case stx ()
[(_ sfd-expr bfp-expr efp-expr)
#'(let ([sfd sfd-expr]
[bfp bfp-expr]
[efp efp-expr])
(if ($current-mso)
(($current-mso) sfd bfp efp)
(make-source sfd bfp efp)))])))
(xdefine (rd-error ir? start? msg . args)
(let ([ip (rcb-ip rcb)])
(cond
[(eq? ip (console-input-port)) ($lexical-error (rcb-who rcb) msg args ip ir?)]
[(not fp)
(let ([pos (and (port-has-port-position? ip) (port-position ip))])
(if pos
($lexical-error (rcb-who rcb) "~? before file-position ~s of ~s; the character position might differ" (list msg args pos ip) ip ir?)
($lexical-error (rcb-who rcb) "~? on ~s" (list msg args ip) ip ir?)))]
[(rcb-sfd rcb) ($lexical-error (rcb-who rcb) msg args ip ($make-source-object (rcb-sfd rcb) bfp fp) start? ir?)]
[else ($lexical-error (rcb-who rcb) "~? at char ~a of ~s" (list msg args (if start? bfp fp) ip) ip ir?)])))
(xdefine (rd-eof-error s)
(xcall rd-error #f #t "unexpected end-of-file reading ~a" s))
(xdefine (rd-delimiter-error c what)
(xcall rd-error #f #t "invalid delimiter ~a for ~a" c what))
(xdefine (rd-nonstandard-error s)
(xcall rd-error #f #t "~a syntax is not allowed in #!r6rs mode" s))
(define-syntax nonstandard
(lambda (x)
(syntax-case x ()
[(k str)
(with-implicit (k rcb xcall)
#'(when ($port-flags-set? (rcb-ip rcb) (constant port-flag-r6rs))
(xcall rd-nonstandard-error str)))])))
(xdefine (rd-nonstandard-delimiter-error c)
(xcall rd-error #f #t "delimiter ~a is not allowed in #!r6rs mode" c))
(define-syntax nonstandard-delimiter
(lambda (x)
(syntax-case x ()
[(k c)
(with-implicit (k rcb xcall)
#'(when ($port-flags-set? (rcb-ip rcb) (constant port-flag-r6rs))
(xcall rd-nonstandard-delimiter-error c)))])))
(define-state (rd-token)
(let ((bfp fp))
(with-read-char c
(state-case c
[eof (with-unread-char c (state-return eof c))]
[(#\space #\newline #\tab) (*state rd-token)]
[((#\a - #\z) (#\A - #\Z))
(with-stretch-buffer 0 c
(with-read-char c
(*state rd-token-symbol c 1 #f rd-token-intern)))]
[#\( (state-return lparen #f)]
[#\) (state-return rparen #f)]
[#\[ (state-return lbrack #f)]
[#\] (state-return rbrack #f)]
[#\' (state-return quote 'quote)]
[((#\0 - #\9)) (with-stretch-buffer 0 c (*state rd-token-number-or-symbol 1))]
[(#\-) (*state rd-token-minus)]
[(#\+) (*state rd-token-plus)]
[#\; (*state rd-token-comment)]
[#\# (*state rd-token-hash)]
[#\" (*state rd-token-string 0)]
[#\. (*state rd-token-dot)]
[#\, (*state rd-token-comma)]
[#\` (state-return quote 'quasiquote)]
[(#\* #\= #\< #\> #\/ #\! #\$ #\% #\& #\: #\? #\^ #\_ #\~)
(with-stretch-buffer 0 c
(with-read-char c
(*state rd-token-symbol c 1 #f rd-token-intern)))]
[$constituent?
(with-stretch-buffer 0 c
(with-read-char c
(*state rd-token-symbol c 1 #f rd-token-intern)))]
[#\| (*state rd-token-symbol c 0 #f rd-token-intern)]
[#\\ (*state rd-token-symbol c 0 #f rd-token-intern)]
[#\{ (nonstandard "open brace") (state-return atomic '{)]
[#\} (nonstandard "close brace") (state-return atomic '})]
[(#\page #\return) (*state rd-token)]
[char-whitespace? (*state rd-token)]
[else (*state rd-token-symbol c 0 #f rd-token-intern-nonstandard)]))))
(define-state (rd-token-minus)
(with-peek-char c
(state-case c
[eof (state-return atomic '-)]
[(#\space #\( #\) #\[ #\] #\" #\; #\#) (state-return atomic '-)]
[(#\>)
(with-stretch-buffer 0 #\-
(with-read-char c
(*state rd-token-symbol c 1 #f rd-token-intern)))]
[char-whitespace? (state-return atomic '-)]
[(#\{ #\} #\' #\` #\,) (nonstandard-delimiter c) (state-return atomic '-)]
[else (with-stretch-buffer 0 #\- (*state rd-token-number-or-symbol 1))])))
(define-state (rd-token-plus)
(with-peek-char c
(state-case c
[eof (state-return atomic '+)]
[(#\space #\( #\) #\[ #\] #\" #\; #\#) (state-return atomic '+)]
[char-whitespace? (state-return atomic '+)]
[(#\{ #\} #\' #\` #\,) (nonstandard-delimiter c) (state-return atomic '+)]
[else (with-stretch-buffer 0 #\+ (*state rd-token-number-or-symbol 1))])))
(define-state (rd-token-dot)
(with-peek-char c
(state-case c
[eof (state-return dot #f)]
[(#\.) (with-read-char c (*state rd-token-dot-dot))]
[(#\space #\( #\) #\[ #\] #\" #\; #\#) (state-return dot #f)]
[char-whitespace? (state-return dot #f)]
[(#\{ #\} #\' #\` #\,) (nonstandard-delimiter c) (state-return dot #f)]
[else (with-stretch-buffer 0 #\. (*state rd-token-number-or-symbol 1))])))
(define-state (rd-token-dot-dot)
(with-read-char c
(state-case c
[eof (nonstandard ".. symbol") (state-return atomic '..)]
[(#\.) (*state rd-token-dot-dot-dot)]
[else (with-stretch-buffer 0 #\.
(with-stretch-buffer 1 #\.
(*state rd-token-symbol c 2 #f
rd-token-intern-nonstandard)))])))
(define-state (rd-token-dot-dot-dot)
(with-read-char c
(state-case c
[eof (with-unread-char c (state-return atomic '...))]
[(#\space #\( #\) #\[ #\] #\" #\; #\#)
(with-unread-char c (state-return atomic '...))]
[char-whitespace?
(with-unread-char c (state-return atomic '...))]
[(#\{ #\} #\' #\` #\,)
(nonstandard-delimiter c)
(with-unread-char c (state-return atomic '...))]
[else (with-stretch-buffer 0 #\.
(with-stretch-buffer 1 #\.
(with-stretch-buffer 2 #\.
(*state rd-token-symbol c 3 #f
rd-token-intern-nonstandard))))])))
(define-state (rd-token-comma)
(with-peek-char c
(state-case c
[eof (state-return quote 'unquote)]
[#\@ (with-read-char c (state-return quote 'unquote-splicing))]
[else (state-return quote 'unquote)])))
(define-state (rd-token-hash-comma)
(with-peek-char c
(state-case c
[eof (state-return quote 'unsyntax)]
[#\@ (with-read-char c (state-return quote 'unsyntax-splicing))]
[else (state-return quote 'unsyntax)])))
(define-state (rd-token-comment)
(with-read-char c
(state-case c
[eof (with-unread-char c (*state rd-token))]
[(#\newline #\return #\nel #\ls) (*state rd-token)]
[else (*state rd-token-comment)])))
(define-state (rd-token-hash)
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "# prefix"))]
[(#\f #\F) (*state rd-token-boolean #f)]
[(#\t #\T) (*state rd-token-boolean #t)]
[#\\ (*state rd-token-char)]
[#\( (state-return vparen #f)] ;) for paren bouncer
[#\' (state-return quote 'syntax)]
[#\` (state-return quote 'quasisyntax)]
[#\, (*state rd-token-hash-comma)]
[((#\0 - #\9))
(with-stretch-buffer 0 #\#
(with-stretch-buffer 1 c
(*state rd-token-hash-num (digit-value c 10) 2)))]
[#\@ (state-return fasl #f)]
[#\[ (nonstandard "#[...] record") (state-return record-brack #f)]
[#\{ (nonstandard "#{...} gensym") (*state rd-token-gensym)]
[#\& (nonstandard "#& box") (state-return box #f)]
[#\; (if (eq? (rcb-who rcb) 'read-token)
(state-return quote 'datum-comment)
(xmvlet (() (xcall rd-expression-comment)) (*state rd-token)))]
[#\! (*state rd-token-hash-bang)]
[(#\x #\X #\o #\O #\b #\B #\d #\D #\i #\I #\e #\E)
(with-stretch-buffer 0 #\#
(with-stretch-buffer 1 c
(*state rd-token-number 2)))]
[#\v (*state rd-token-hash-v)]
[#\% (nonstandard "#% primitive")
(with-read-char c
(*state rd-token-symbol c 0 #f
(state-lambda (n slashed?)
(state-return atomic (list '$primitive (maybe-fold/intern (rcb-ip rcb) tb n slashed?))))))]
[#\: (nonstandard "#: gensym")
(with-read-char c
(*state rd-token-symbol c 0 #f
(state-lambda (n slashed?)
(state-return atomic (maybe-fold/gensym (rcb-ip rcb) tb n slashed?)))))]
[#\| (*state rd-token-block-comment 0)]
[else (xcall rd-error #f #t "invalid sharp-sign prefix #~c" c)])))
(define-state (rd-token-boolean x)
(with-peek-char c
(state-case c
[eof (state-return atomic x)]
[char-alphabetic?
;; Trying to specify a R7RS boolean.
(let* ([s (if x "true" "false")]
[last-index (fx- (string-length s) 1)])
(*state rd-token-boolean-rest x s 1 last-index))]
[else (*state rd-token-delimiter x "boolean")])))
(define-state (rd-token-boolean-rest x s i last-index)
(with-read-char c
(cond
[(eof-object? c)
;; we ruled out a possible initial eof before, so it is always an error, here
(with-unread-char c (xcall rd-eof-error "boolean"))]
[(not (char-ci=? c (string-ref s i)))
(with-unread-char c
(xcall rd-error #f #t "invalid boolean #~a~c" (substring s 0 i) (char-downcase c)))]
[(fx= i last-index)
(nonstandard "alternative boolean")
(*state rd-token-delimiter x "boolean")]
[else (*state rd-token-boolean-rest x s (fx+ i 1) last-index)])))
(define-state (rd-token-delimiter x what)
(with-peek-char c
(state-case c
[eof (state-return atomic x)]
[(#\space #\( #\) #\[ #\] #\" #\; #\#) (state-return atomic x)]
[char-whitespace? (state-return atomic x)]
[(#\{ #\} #\' #\` #\,) (nonstandard-delimiter c) (state-return atomic x)]
[else (xcall rd-delimiter-error c what)])))
(define-state (rd-token-gensym)
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "gensym"))]
[else
(*state rd-token-symbol c 0 #f
(rec f
(state-lambda (n slashed1?)
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "gensym"))]
[(#\space #\newline #\tab) (*state f n slashed1?)]
[else
(*state rd-token-symbol c n #f
(state-lambda (m slashed2?)
(with-read-char c
(state-case c
[eof (xcall rd-eof-error "gensym")]
[(#\}) (state-return atomic (maybe-fold/intern (rcb-ip rcb) tb n m slashed1? slashed2?))]
[else (with-unread-char c
(xcall rd-error #f #f
"expected close brace terminating gensym syntax"))]))))])))))])))
(define-state (rd-token-block-comment depth)
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "block comment"))]
[#\| (with-peek-char c
(state-case c
[eof (xcall rd-eof-error "block comment")]
[#\# (with-read-char c
(if (= depth 0)
(*state rd-token)
(*state rd-token-block-comment (- depth 1))))]
[else (*state rd-token-block-comment depth)]))]
[#\# (with-peek-char c
(state-case c
[eof (xcall rd-eof-error "block comment")]
[#\| (with-read-char c
(*state rd-token-block-comment (+ depth 1)))]
[else (*state rd-token-block-comment depth)]))]
[else (*state rd-token-block-comment depth)])))
(define-state (rd-token-hash-num n i)
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "# prefix"))]
[((#\0 - #\9))
(with-stretch-buffer i c
(*state rd-token-hash-num (+ (* n 10) (digit-value c 10)) (fx+ i 1)))]
[#\( (nonstandard "#<n>(...) vector") (state-return vnparen n)] ; ) for paren bouncer
[(#\r #\R)
(nonstandard "#<n>r number prefix")
(with-stretch-buffer i c
(*state rd-token-number (fx+ i 1)))]
[(#\q #\Q) (xcall rd-error #f #t "outdated object file format")]
[#\# (nonstandard "#<n># insert") (*state rd-token-insert n)]
[#\= (nonstandard "#<n>= mark") (*state rd-token-mark n)]
[#\v (*state rd-token-hash-num-v i n)]
[#\%
(unless (memv n '(2 3))
(xcall rd-error #f #t "invalid sharp-sign prefix ~a~a"
(substring tb 0 i)
c))
(nonstandard "#<n>% primitive")
(with-read-char c
(*state rd-token-symbol c 0 #f
(state-lambda (m slashed?)
(state-return atomic (list '$primitive n (maybe-fold/intern (rcb-ip rcb) tb m slashed?))))))]
[else (xcall rd-error #f #t "invalid sharp-sign prefix ~a~a"
(substring tb 0 i)
c)])))
(define-state (rd-token-insert n)
(with-insert-table
(state-return insert n)))
(define-state (rd-token-mark n)
(with-insert-table
(state-return mark n)))
(define-state (rd-token-char)
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "character"))]
[(#\x)
(with-peek-char c1
(state-case c1
[eof (state-return atomic c)]
[((#\0 - #\9) (#\a - #\f) (#\A - #\F))
(with-stretch-buffer 0 #\x
(*state rd-token-char-hex 0 1))]
[else (xcall rd-token-delimiter c "character")]))]
[((#\a - #\w) (#\y - #\z) (#\A - #\Z))
(with-peek-char c1
(state-case c1
[eof (state-return atomic c)]
[((#\a - #\z) (#\A - #\Z))
(*state rd-token-to-delimiter 0 c rd-token-charname)]
[else (xcall rd-token-delimiter c "character")]))]
[((#\0 - #\7))
(with-peek-char c1
(state-case c1
[eof (state-return atomic c)]
[((#\0 - #\7))
(nonstandard "octal character")
(with-read-char c1
(with-read-char c2
(state-case c2
[eof (with-unread-char c2 (xcall rd-eof-error "character"))]
[((#\0 - #\7))
(let ([v (fx+ (fx* (digit-value c 8) 64)
(fx* (digit-value c1 8) 8)
(digit-value c2 8))])
(when (fx> v 255)
(xcall rd-error #f #t "invalid character #\\~a~a~a" c c1 c2))
(xcall rd-token-delimiter (integer->char v) "character"))]
[else (xcall rd-error #f #t "invalid character #\\~a~a" c c1)])))]
[else (xcall rd-token-delimiter c "character")]))]
[else (xcall rd-token-delimiter c "character")])))
(define-state (rd-token-char-hex n i)
(define (int->char n)
(if (and (fixnum? n) (or (fx<= n #xD7FF) (fx<= #xE000 n #x10FFFF)))
(integer->char n)
(xcall rd-error #f #t "invalid hex character escape ~a" (substring tb 0 i))))
(with-read-char c
(state-case c
[eof (with-unread-char c (state-return atomic (int->char n)))]
[((#\0 - #\9) (#\a - #\f) (#\A - #\F))
(with-stretch-buffer i c
(*state rd-token-char-hex (+ (* n 16) (digit-value c 16)) (fx+ i 1)))]
[(#\space #\( #\) #\[ #\] #\" #\; #\#)
(with-unread-char c (state-return atomic (int->char n)))]
[char-whitespace?
(with-unread-char c (state-return atomic (int->char n)))]
[(#\{ #\} #\' #\` #\,)
(nonstandard-delimiter c)
(with-unread-char c (state-return atomic (int->char n)))]
[else (*state rd-token-to-delimiter i c rd-token-charname)])))
(define-state (rd-token-charname n c)
(define r6rs-char-names
'((nul . #\nul) (alarm . #\alarm) (backspace . #\backspace)
(tab . #\tab) (linefeed . #\newline) (newline . #\newline)
(vtab . #\vtab) (page . #\page) (return . #\return)
(esc . #\esc) (space . #\space) (delete . #\delete)))
(define (r6rs-char-name x)
(cond
[(assq x r6rs-char-names) => cdr]
[else #f]))
(with-unread-char c
(state-return atomic
(or (let ([x (maybe-fold/intern (rcb-ip rcb) tb n #f)])
(if ($port-flags-set? (rcb-ip rcb) (constant port-flag-r6rs))
(r6rs-char-name x)
(char-name x)))
(let ([s (substring tb 0 n)])
(if (and (with-peek-char c (eof-object? c))
(valid-prefix? s
(map symbol->string
(if ($port-flags-set? (rcb-ip rcb) (constant port-flag-r6rs))
(map car r6rs-char-names)
(let-values ([(keys vals) (hashtable-entries char-name-table)])
(apply append (vector->list vals)))))))
(xcall rd-eof-error "character")
(xcall rd-error #f #t "invalid character name #\\~a" s)))))))
(module (valid-prefix?)
(define string-prefix?
(lambda (x y)
(let ([n (string-length x)])
(and (fx<= n (string-length y))
(let prefix? ([i 0])
(or (fx= i n)
(and (char=? (string-ref x i) (string-ref y i))
(prefix? (fx+ i 1)))))))))
(define valid-prefix?
(lambda (x ls)
(ormap (lambda (y) (string-prefix? x y)) ls))))
(define-state (rd-token-hash-bang) ; more complex than necessary because #!r6rs need not be delimited
(*state rd-token-hash-bang2 0
; list only those that need not be delimited
'(("r6rs" . r6rs)
("fold-case" . fold-case)
("no-fold-case" . no-fold-case)
("chezscheme" . chezscheme))))
(define-state (rd-token-hash-bang2 i undelimited*)
(cond
[(ormap (lambda (a) (and (fx= (string-length (car a)) i) a)) undelimited*) =>
(lambda (a)
(let ([ip (rcb-ip rcb)])
(case (cdr a)
[(r6rs) ($set-port-flags! ip (constant port-flag-r6rs)) (*state rd-token)]
[(fold-case)
($reset-port-flags! ip (constant port-flag-no-fold-case))
($set-port-flags! ip (constant port-flag-fold-case))
(*state rd-token)]
[(no-fold-case)
($reset-port-flags! ip (constant port-flag-fold-case))
($set-port-flags! ip (constant port-flag-no-fold-case))
(*state rd-token)]
[(chezscheme) ($reset-port-flags! ip (constant port-flag-r6rs)) (*state rd-token)]
[else (xcall rd-error #f #t "unexpected #!~s" (car a))])))]
[else
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "#! syntax"))]
[else (let ([undelimited* (filter (lambda (a) (char=? (string-ref (car a) i) c)) undelimited*)])
(if (null? undelimited*)
(*state rd-token-to-delimiter i c
(state-lambda (i c)
(with-unread-char c
(let ([s (substring tb 0 i)])
(cond
[(string=? s "eof")
(nonstandard "#!eof")
(state-return atomic #!eof)]
[(string=? s "bwp")
(nonstandard "#!bwp")
(state-return atomic #!bwp)]
[(string=? s "base-rtd")
(nonstandard "#!base-rtd")
(state-return atomic #!base-rtd)]
[(and (eof-object? c) (valid-prefix? s '("eof" "bwp" "base-rtd")))
(xcall rd-eof-error "#! syntax")]
[else (xcall rd-error #f #t "invalid syntax #!~a" s)])))))
(with-stretch-buffer i c
(*state rd-token-hash-bang2 (fx+ i 1) undelimited*))))]))]))
(define-state (rd-token-hash-v)
(with-read-char c
(*state rd-token-to-delimiter 0 c
(state-lambda (n c)
(let ([s (substring tb 0 n)])
(state-case c
[eof
(with-unread-char c
(if (valid-prefix? s '("fx" "u8"))
(xcall rd-eof-error "#v prefix")
(xcall rd-error #f #t "invalid syntax #v~a" s)))]
[#\( ;)
(cond
[(string=? s "fx") (nonstandard "#vfx(...) fxvector") (state-return vfxparen #f)]
[(string=? s "u8") (state-return vu8paren #f)]
[else (xcall rd-error #f #t "invalid syntax #v~a(" s)])] ;)
[else
(if (valid-prefix? s '("fx" "u8"))
(xcall rd-error #f #t "expected left paren after #v~a prefix" s)
(xcall rd-error #f #t "invalid syntax #v~a~a" s c))]))))))
(define-state (rd-token-hash-num-v preflen nelts)
(with-read-char c
(*state rd-token-to-delimiter 0 c
(state-lambda (n c)
(let ([s (substring tb 0 n)])
(state-case c
[eof
(with-unread-char c
(if (valid-prefix? s '("fx" "u8"))
(xcall rd-eof-error "#v prefix")
(xcall rd-error #f #t "invalid syntax #~v,'0dv~a" (- preflen 1) nelts s)))]
[#\( ;)
(cond
[(string=? s "fx") (nonstandard "#<n>vfx(...) fxvector") (state-return vfxnparen nelts)]
[(string=? s "u8") (nonstandard "#<n>vu8(...) bytevector") (state-return vu8nparen nelts)]
[else (xcall rd-error #f #t "invalid syntax #~v,'0dv~a(" (- preflen 1) nelts s)])] ;)
[else
(if (valid-prefix? s '("fx" "u8"))
(xcall rd-error #f #t "expected left paren after #~v,'0dv~a prefix" (- preflen 1) nelts s)
(xcall rd-error #f #t "invalid syntax #~v,'0dv~a~a" (- preflen 1) nelts s c))]))))))
(define-state (rd-token-to-delimiter n c next)
(state-case c
[eof (xcall next n c)]
[(#\space #\( #\) #\[ #\] #\" #\; #\# #\{ #\} #\' #\` #\,) (xcall next n c)]
[char-whitespace? (xcall next n c)]
[else (with-stretch-buffer n c (with-read-char c (*state rd-token-to-delimiter (fx+ n 1) c next)))]))
(define intraline-whitespace?
(lambda (c)
(or (char=? c #\tab)
(eq? (char-general-category c) 'Zs))))
(define-state (rd-token-string i)
(let ([char-bfp fp])
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "string"))]
[#\" (state-return atomic (substring tb 0 i))]
[#\\
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "string"))]
[(#\\ #\")
(with-stretch-buffer i c
(*state rd-token-string (fx+ i 1)))]
[(#\n #\a #\b #\f #\r #\t #\v)
(with-stretch-buffer i
(case c
[#\a #\bel]
[#\b #\backspace]
[#\f #\page]
[#\n #\newline]
[#\r #\return]
[#\t #\tab]
[#\v #\vt])
(*state rd-token-string (fx+ i 1)))]
[#\x (*state rd-token-string-hex-char i 0 char-bfp)]
[(#\newline #\return #\nel #\ls) (*state rd-token-string-whitespace i c)]
[intraline-whitespace? (*state rd-token-string-whitespace i c)]
[((#\0 - #\7))
(nonstandard "octal string-character")
(with-read-char c1
(state-case c1
[eof (with-unread-char c1 (xcall rd-eof-error "string"))]
[((#\0 - #\7))
(with-read-char c2
(state-case c2
[eof (with-unread-char c2 (xcall rd-eof-error "string"))]
[((#\0 - #\7))
(let ([v (fx+ (fx* (digit-value c 8) 64)
(fx* (digit-value c1 8) 8)
(digit-value c2 8))])
(when (fx> v 255)
(let ([bfp char-bfp])
(xcall rd-error #f #t "invalid string character \\~c~c~c" c c1 c2)))
(with-stretch-buffer i (integer->char v)
(*state rd-token-string (fx+ i 1))))]
[else
(with-unread-char c2
(let ([bfp char-bfp])
(xcall rd-error #f #t "invalid string character \\~c~c" c c1)))]))]
[else
(with-unread-char c1
(let ([bfp char-bfp])
(xcall rd-error #f #t "invalid string character \\~c" c)))]))]
[(#\')
(nonstandard "\\' string character")
(with-stretch-buffer i c
(*state rd-token-string (fx+ i 1)))]
[else (let ([bfp char-bfp])
(xcall rd-error #f #t "invalid string character \\~c" c))]))]
[(#\newline #\nel #\ls)
(with-stretch-buffer i #\newline
(*state rd-token-string (fx+ i 1)))]
[(#\return)
(with-peek-char c
(state-case c
[eof (xcall rd-eof-error "string")]
[(#\newline #\nel)
(with-read-char c
(with-stretch-buffer i #\newline
(*state rd-token-string (fx+ i 1))))]
[else
(with-stretch-buffer i #\newline
(*state rd-token-string (fx+ i 1)))]))]
[else
(with-stretch-buffer i c
(*state rd-token-string (fx+ i 1)))]))))
(define-state (rd-token-string-whitespace i c)
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "string"))]
[(#\newline #\nel #\ls)
(*state rd-token-string-skipwhite i)]
[(#\return)
(with-peek-char c
(state-case c
[eof (xcall rd-eof-error "string")]
[(#\newline #\nel)
(with-read-char c (*state rd-token-string-skipwhite i))]
[else (*state rd-token-string-skipwhite i)]))]
[intraline-whitespace? (with-read-char c (xcall rd-token-string-whitespace i c))]
[else (xcall rd-error #f #t "unexpected character ~c after \\<intraline whitespace> in string" c)]))
(define-state (rd-token-string-skipwhite i)
(with-peek-char c
(state-case c
[eof (xcall rd-eof-error "string")]
[intraline-whitespace? (with-read-char c (*state rd-token-string-skipwhite i))]
[else (*state rd-token-string i)])))
(xdefine (rd-token-string-hex-char i n char-bfp)
(with-read-char c1
(state-case c1
[eof (with-unread-char c1 (xcall rd-eof-error "string"))]
[((#\0 - #\9) (#\a - #\f) (#\A - #\F))
(*state rd-token-string-hex-char i (+ (* n 16) (digit-value c1 16)) char-bfp)]
[(#\;)
(if (and (fixnum? n) (or (fx<= n #xD7FF) (fx<= #xE000 n #x10FFFF)))
(with-stretch-buffer i (integer->char n)
(*state rd-token-string (fx+ i 1)))
(let ([bfp char-bfp])
(xcall rd-error #f #t "invalid code point value ~s in string hex escape" n)))]
[else
(with-unread-char c1
(let ([bfp char-bfp])
(xcall rd-error #f #t "invalid character ~c in string hex escape" c1)))])))
(xdefine (rd-make-number-or-symbol n)
(let ([z ($str->num tb n 10 #f ($port-flags-set? (rcb-ip rcb) (constant port-flag-r6rs)))])
(cond
[(number? z) z]
[(eq? z 'norep) (xcall rd-error #t #t "cannot represent ~a" (substring tb 0 n))]
[(eq? z '!r6rs) (xcall rd-nonstandard-error (format "~a number" (substring tb 0 n)))]
[else
(nonstandard (format "~a symbol" (substring tb 0 n)))
(maybe-fold/intern (rcb-ip rcb) tb n #f)])))
(define-state (rd-token-number-or-symbol i)
(with-read-char c
(state-case c
[eof (with-unread-char c
(state-return atomic (xcall rd-make-number-or-symbol i)))]
[((#\0 - #\9) (#\a - #\z) #\- #\+ #\. #\/ #\@ #\# #\|)
(with-stretch-buffer i c
(*state rd-token-number-or-symbol (fx+ i 1)))]
[((#\A - #\Z))
(with-stretch-buffer i c
(*state rd-token-number-or-symbol (fx+ i 1)))]
[(#\space #\( #\) #\[ #\] #\" #\; #\#)
(with-unread-char c
(state-return atomic (xcall rd-make-number-or-symbol i)))]
[char-whitespace?
(with-unread-char c
(state-return atomic (xcall rd-make-number-or-symbol i)))]
[(#\{ #\} #\' #\` #\,)
(nonstandard-delimiter c)
(with-unread-char c
(state-return atomic (xcall rd-make-number-or-symbol i)))]
[else (*state rd-token-symbol c i #f rd-token-intern-nonstandard)])))
(xdefine (rd-make-number n)
(let ([z ($str->num tb n 10 #f ($port-flags-set? (rcb-ip rcb) (constant port-flag-r6rs)))])
(cond
[(number? z) z]
[(and (eq? z #f) (with-peek-char c (eof-object? c))) (xcall rd-eof-error "number")]
[(eq? z '!r6rs) (xcall rd-nonstandard-error (format "~a number" (substring tb 0 n)))]
[(eq? z 'norep) (xcall rd-error #t #t "cannot represent ~a" (substring tb 0 n))]
[else (xcall rd-error #f #t "invalid number syntax ~a" (substring tb 0 n))])))
(define-state (rd-token-number i)
(with-read-char c
(state-case c
[eof (with-unread-char c
(state-return atomic (xcall rd-make-number i)))]
[((#\0 - #\9) (#\a - #\z) (#\A - #\Z) #\- #\+ #\. #\/ #\@ #\# #\|)
(with-stretch-buffer i c
(*state rd-token-number (fx+ i 1)))]
[(#\space #\( #\) #\[ #\] #\" #\; #\#)
(with-unread-char c
(state-return atomic (xcall rd-make-number i)))]
[char-whitespace?
(with-unread-char c
(state-return atomic (xcall rd-make-number i)))]
[(#\{ #\} #\' #\` #\,)
(nonstandard-delimiter c)
(with-unread-char c
(state-return atomic (xcall rd-make-number i)))]
[else
(with-stretch-buffer i c
(*state rd-token-number (fx+ i 1)))])))
(define-state (rd-token-intern n slashed?)
(state-return atomic (maybe-fold/intern (rcb-ip rcb) tb n slashed?)))
(define-state (rd-token-intern-nonstandard n slashed?)
(nonstandard (format "~a symbol" (substring tb 0 n)))
(state-return atomic (maybe-fold/intern (rcb-ip rcb) tb n slashed?)))
(define-state (rd-token-symbol c i slashed? next)
(state-case c
[eof (with-unread-char c (*state next i slashed?))]
[((#\a - #\z))
(with-stretch-buffer i c
(with-read-char c
(*state rd-token-symbol c (fx+ i 1) slashed? next)))] ;[(
[(#\space #\newline #\) #\])
(with-unread-char c (*state next i slashed?))]
[(#\- #\? (#\0 - #\9) #\* #\! #\= #\> #\< #\$ #\% #\& #\/ #\: #\^ #\_ #\~ #\+ #\. #\@)
(with-stretch-buffer i c
(with-read-char c
(*state rd-token-symbol c (fx+ i 1) slashed? next)))]
[((#\A - #\Z))
(with-stretch-buffer i c
(with-read-char c
(*state rd-token-symbol c (fx+ i 1) slashed? next)))]
[#\\
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "symbol"))]
[#\x (*state rd-token-symbol-hex-char i 0 (and fp (fx- fp 2)) slashed? next)]
[else
(nonstandard "non-hex back-slash symbol escape")
(with-stretch-buffer i c
(with-read-char c
(*state rd-token-symbol c (fx+ i 1) #t next)))]))]
[#\| (nonstandard "|...| symbol escape") (*state rd-token-symbol-bar i next)]
[(#\( #\[ #\" #\; #\#) ;)] for paren bouncer
(with-unread-char c (*state next i slashed?))]
[char-whitespace?
(with-unread-char c (*state next i slashed?))]
[$constituent?
(with-stretch-buffer i c
(with-read-char c
(*state rd-token-symbol c (fx+ i 1) slashed? next)))]
[$subsequent?
(with-stretch-buffer i c
(with-read-char c
(*state rd-token-symbol c (fx+ i 1) slashed? next)))]
[(#\{ #\} #\' #\` #\,)
(nonstandard-delimiter c)
(with-unread-char c (*state next i slashed?))]
[else
(nonstandard (format "character ~c in symbol" c))
(with-stretch-buffer i c
(with-read-char c
(*state rd-token-symbol c (fx+ i 1) slashed? next)))]))
(xdefine (rd-token-symbol-hex-char i n char-bfp slashed? next)
(with-read-char c1
(state-case c1
[eof (with-unread-char c1 (xcall rd-eof-error "symbol"))]
[((#\0 - #\9) (#\a - #\f) (#\A - #\F))
(*state rd-token-symbol-hex-char i (+ (* n 16) (digit-value c1 16)) char-bfp slashed? next)]
[(#\;)
(if (and (fixnum? n) (or (fx<= n #xD7FF) (fx<= #xE000 n #x10FFFF)))
(with-stretch-buffer i (integer->char n)
(with-read-char c
(*state rd-token-symbol c (fx+ i 1) slashed? next)))
(let ([bfp char-bfp])
(xcall rd-error #f #t "invalid code point value ~s in symbol hex escape" n)))]
[else
(with-unread-char c1
(let ([bfp char-bfp])
(xcall rd-error #f #t "invalid character ~c in symbol hex escape" c1)))])))
(define-state (rd-token-symbol-bar i next)
(with-read-char c
(state-case c
[eof (with-unread-char c (xcall rd-eof-error "symbol"))]
[#\| (with-read-char c (*state rd-token-symbol c i #t next))]
[else (with-stretch-buffer i c
(*state rd-token-symbol-bar (fx+ i 1) next))])))
(xdefine (rd-top-level type value)
(if (case type
[(eof) #t]
[(atomic) (eof-object? value)]
[else #f])
(values value fp)
(if (and (or (eq? type 'rparen) (eq? type 'rbrack))
(eq? (rcb-ip rcb) (console-input-port)))
(call-with-token rd-top-level)
(xmvlet ((x stripped-x) (xcall rd type value))
(values (if it (xcall rd-fix-graph x) x) fp)))))
(xdefine (rd-fix-graph x)
(define rd-set-car! (lambda (obj idx val) (set-car! obj val)))
(define rd-set-cdr! (lambda (obj idx val) (set-cdr! obj val)))
(define rd-set-box! (lambda (obj idx val) (set-box! obj val)))
(define rd-field-set!
(lambda (obj i val)
(let ((d ($record-type-descriptor obj)))
((csv7:record-field-mutator d i) obj val))))
(define rd-set-vector-tail!
(lambda (x m val)
(let ((n (vector-length x)))
(let loop ([m m])
(unless (fx= m n)
(vector-set! x m val)
(loop (fx+ m 1)))))))
(define work-list '())
(define add-update!
(lambda (dr update! obj idx)
(delayed-record-update-set! dr
(let ((f (delayed-record-update dr)))
(lambda (val)
(update! obj idx val)
(f val))))))
(define seen-table (make-eq-hashtable))
(define (rd-fix-graph x update! obj idx)
(cond
[(insert? x)
(let loop ([x x])
(unless (insert-seen x)
(let ([bfp (insert-bfp x)] [fp (insert-efp x)])
(xcall rd-error #f #t "mark #~s= missing" (insert-n x))))
(let ((z (insert-obj x)))
(if (insert-visited x)
(if (insert? z)
(loop z)
(begin
(update! obj idx z)
(when (delayed-record? z)
(add-update! z update! obj idx))))
(begin
(insert-visited-set! x #t)
(update! obj idx z)
(rd-fix-graph z update! obj idx)))))]
; we get shared structure from annotations, so we avoid duplicate
; processing and possible infinite regression by dropping out here
; if we see something we've seen before.
[(let ([a (eq-hashtable-cell seen-table x #f)])
(if (cdr a) #t (begin (set-cdr! a #t) #f)))
(when (delayed-record? x)
(add-update! x update! obj idx))]
[(delayed-record? x)
(rd-fix-graph (delayed-record-vals x) #f #f #f)
(add-update! x update! obj idx)
(set! work-list (cons x work-list))]
[(pair? x)
(rd-fix-graph (car x) rd-set-car! x #f)
(rd-fix-graph (cdr x) rd-set-cdr! x #f)]
[(vector? x)
(let ([n (vector-length x)])
(unless (fx= n 0)
(let ([m ($last-new-vector-element vector-length vector-ref x)])
(let loop ([i 0])
(when (fx< i m)
(rd-fix-graph (vector-ref x i) vector-set! x i)
(loop (fx+ i 1))))
(rd-fix-graph (vector-ref x m) rd-set-vector-tail! x m))))]
[($record? x)
(let ((d ($record-type-descriptor x)))
(do ([fields (csv7:record-type-field-names d) (cdr fields)]
[i 0 (+ i 1)])
((null? fields))
(when (csv7:record-field-accessible? d i)
(rd-fix-graph ((csv7:record-field-accessor d i) x)
rd-field-set! x i))))]
[(box? x)
(rd-fix-graph (unbox x) rd-set-box! x #f)]))
(let ((p (cons x #f)))
(rd-fix-graph x rd-set-car! p #f)
(let loop ((wl work-list) (rwl '()) (progress? #f))
(if (null? wl)
(if (null? rwl)
(car p)
(if progress?
(loop rwl '() #f)
(let ([bfp (delayed-record-bfp (car rwl))]
[fp (delayed-record-efp (car rwl))])
(xcall rd-error #f #t
"unresolvable cycle constructing record of type ~s"
(delayed-record-rtd (car rwl))))))
(let* ((dr (car wl))
(rtd (delayed-record-rtd dr))
(vals (delayed-record-vals dr))
(fields (csv7:record-type-field-names rtd)))
(if (andmap
(lambda (f v)
(or (not (delayed-record? v))
(csv7:record-field-mutable? rtd f)))
fields vals)
(let ((r (apply (record-constructor rtd) vals)))
(for-each
(lambda (f v)
(when (delayed-record? v)
(add-update! v rd-field-set! r f)))
fields vals)
((delayed-record-update dr) r)
(loop (cdr wl) rwl #t))
(loop (cdr wl) (cons dr rwl) progress?)))))))
(xdefine (rd type value)
(xmvlet ((x stripped) (xcall rd-help type value))
(xvalues
(if (rcb-a? rcb)
(make-annotation x ($make-source-object (rcb-sfd rcb) bfp fp) stripped)
x)
stripped)))
; trick cp0 into not inlining rd-help into rd above, which would result
; in a call-with-values expression that cp1 cannot turn into mvlet and
; concomitant closure creation expenses
(xdefine (GROSS-HACK type value)
(xcall rd-help type value))
(xdefine (rd-help type value)
(case type
[(atomic) (xvalues value value)]
[(lparen) (xcall rd-paren-list)]
[(lbrack) (xcall rd-brack-list)]
[(quote) (xcall rd-quote value)]
[(vparen) (xcall rd-vector bfp 0)]
[(vnparen) (xcall rd-sized-vector value)]
[(vfxparen) (xmvlet ((v) (xcall rd-fxvector bfp 0)) (xvalues v v))]
[(vfxnparen) (xmvlet ((v) (xcall rd-sized-fxvector value)) (xvalues v v))]
[(vu8paren) (xmvlet ((v) (xcall rd-bytevector bfp 0)) (xvalues v v))]
[(vu8nparen) (xmvlet ((v) (xcall rd-sized-bytevector value)) (xvalues v v))]
[(box) (xcall rd-box)]
[(fasl)
(xcall rd-error #f #t
"unsupported old fasl format detected---use new format with binary i/o")]
[(mark) (xcall rd-mark value)]
[(insert) (xcall rd-insert value)]
[(record-brack) (xcall rd-record)]
[(rparen) (xcall rd-error #f #t "unexpected close parenthesis")]
[(rbrack) (xcall rd-error #f #t "unexpected close bracket")]
[(dot) (xcall rd-error #f #t "unexpected dot (.)")]
; eof should be caught elsewhere, but just in case ...
[(eof) (xcall rd-error #f #f "unexpected end-of-file")]
[else (xcall rd-error #f #f "unexpected internal token type ~s" type)]))
(xdefine (rd-paren-list)
(let ([expr-bfp bfp])
(with-token (type value)
(case type
[(rparen) (xvalues '() '())]
[(rbrack) (let ([bfp expr-bfp]) (xcall rd-error #f #f "parenthesized list terminated by bracket"))]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "list"))]
[else
(xmvlet ((first stripped-first) (xcall rd type value))
(xmvlet ((rest stripped-rest) (xcall rd-paren-tail expr-bfp))
(xvalues
(cons first rest)
(and (rcb-a? rcb) (cons stripped-first stripped-rest)))))]))))
(xdefine (rd-paren-tail expr-bfp)
(with-token (type value)
(case type
[(rparen) (xvalues '() '())]
[(rbrack) (let ([bfp expr-bfp]) (xcall rd-error #f #f "parenthesized list terminated by bracket"))]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "list"))]
[(dot)
(with-token (type value)
(case type
[(rparen) (xcall rd-error #f #f "expected one item after dot (.)")]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "list"))]
[else
(xmvlet ((x stripped-x) (xcall rd type value))
(with-token (type value)
(case type
[(rparen) (xvalues x stripped-x)]
[(rbrack) (let ([bfp expr-bfp]) (xcall rd-error #f #f "parenthesized list terminated by bracket"))]
[(dot) (xcall rd-error #f #t "unexpected dot")]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "list"))]
[else (xcall rd-error #f #t "more than one item found after dot (.)")])))]))]
[else
(xmvlet ((first stripped-first) (xcall rd type value))
(xmvlet ((rest stripped-rest) (xcall rd-paren-tail expr-bfp))
(xvalues
(cons first rest)
(and (rcb-a? rcb) (cons stripped-first stripped-rest)))))])))
(xdefine (rd-brack-list)
(let ([expr-bfp bfp])
(with-token (type value)
(case type
[(rbrack) (xvalues '() '())]
[(rparen) (let ([bfp expr-bfp]) (xcall rd-error #f #f "bracketed list terminated by parenthesis"))]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "bracketed list"))]
[else
(xmvlet ((first stripped-first) (xcall rd type value))
(xmvlet ((rest stripped-rest) (xcall rd-brack-tail expr-bfp))
(xvalues
(cons first rest)
(and (rcb-a? rcb) (cons stripped-first stripped-rest)))))]))))
(xdefine (rd-brack-tail expr-bfp)
(with-token (type value)
(case type
[(rbrack) (xvalues '() '())]
[(rparen) (let ([bfp expr-bfp]) (xcall rd-error #f #f "bracketed list terminated by parenthesis"))]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "bracketed list"))]
[(dot)
(with-token (type value)
(case type
[(rbrack) (xcall rd-error #f #f "expected one item after dot (.)")]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "bracketed list"))]
[else
(xmvlet ((x stripped-x) (xcall rd type value))
(with-token (type value)
(case type
[(rbrack) (xvalues x stripped-x)]
[(rparen) (let ([bfp expr-bfp]) (xcall rd-error #f #f "bracketed list terminated by parenthesis"))]
[(dot) (xcall rd-error #f #t "unexpected dot")]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "bracketed list"))]
[else (xcall rd-error #f #t "more than one item found after dot (.)")])))]))]
[else
(xmvlet ((first stripped-first) (xcall rd type value))
(xmvlet ((rest stripped-rest) (xcall rd-brack-tail expr-bfp))
(xvalues
(cons first rest)
(and (rcb-a? rcb) (cons stripped-first stripped-rest)))))])))
(xdefine (rd-quote kind)
(let ([expr-bfp bfp])
(with-token (type value)
(case type
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error (symbol->string kind)))]
[else (xmvlet ((x stripped-x) (xcall rd type value))
(xvalues
(list kind x)
(and (rcb-a? rcb) (list kind stripped-x))))]))))
(xdefine (rd-record)
(let ([expr-bfp bfp])
(with-token (type name)
(case type
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "record"))]
[else
(cond
[(or (not (eq? type 'atomic)) (not (symbol? name)))
(xcall rd-error #f #t "non-symbol found after #[")] ;]
[(or (record-reader (symbol->string name))
(let ((x ($sgetprop name '*rtd* #f)))
(and (record-type-descriptor? x)
x))) =>
(lambda (rtd)
(let ((decls (csv7:record-type-field-decls rtd)))
(xmvlet ((vals stripped-vals) (xcall rd-record-tail expr-bfp (length decls) name))
; strip annotations from vals headed for non-ptr fields
(let ([vals (if stripped-vals
(map (lambda (decl val sval)
(apply
(lambda (m t n)
(if (eq? (filter-foreign-type t) 'scheme-object)
val
sval))
decl))
decls vals stripped-vals)
vals)])
(let loop ((fds decls) (vs (or stripped-vals vals)))
(if (null? fds)
(xvalues
(apply (record-constructor rtd) vals)
(and (rcb-a? rcb) (apply (record-constructor rtd) stripped-vals)))
(if (and (apply (lambda (m t n)
(or (eq? m 'immutable)
(not (eq? (filter-foreign-type t) 'scheme-object))))
(car fds))
(or (insert? (car vs))
(delayed-record? (car vs))))
(xvalues
(make-delayed-record rtd vals expr-bfp fp)
(and (rcb-a? rcb) (make-delayed-record rtd stripped-vals expr-bfp fp)))
(loop (cdr fds) (cdr vs)))))))))]
[else (xcall rd-error #f #t "unrecognized record name ~s" name)])]))))
(xdefine (rd-record-tail expr-bfp n name)
(with-token (type value)
(case type
[(rbrack)
(if (= n 0)
(xvalues '() '())
(let ([bfp expr-bfp])
(xcall rd-error #f #t "too few fields supplied for record ~s" name)))]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "record"))]
[else
(xmvlet ((first stripped-first) (xcall rd type value))
(if (= n 0)
(let ([bfp expr-bfp])
(xcall rd-error #f #t "too many fields supplied for record ~s" name))
(xmvlet ((rest stripped-rest) (xcall rd-record-tail expr-bfp (- n 1) name))
(xvalues
(cons first rest)
(and (rcb-a? rcb) (cons stripped-first stripped-rest))))))])))
(xdefine (rd-vector expr-bfp i)
(with-token (type value)
(case type
[(rparen) (xvalues (make-vector i) (and (rcb-a? rcb) (make-vector i)))]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "vector"))]
[else
(xmvlet ((x stripped-x) (xcall rd type value))
(xmvlet ((v stripped-v) (xcall rd-vector expr-bfp (fx+ i 1)))
(vector-set! v i x)
(when (rcb-a? rcb) (vector-set! stripped-v i stripped-x))
(xvalues v stripped-v)))])))
(xdefine (rd-sized-vector n)
(unless (and (fixnum? n) (fxnonnegative? n))
(let ([bfp (and bfp (+ bfp 1))] [fp (and fp (- fp 1))])
(xcall rd-error #f #t "invalid vector length ~s" n)))
(xcall rd-fill-vector bfp (make-vector n) (and (rcb-a? rcb) (make-vector n)) 0 n))
(xdefine (rd-fill-vector expr-bfp v stripped-v i n)
(with-token (type value)
(case type
[(rparen)
(when (fx< 0 i n)
(let ((prev (vector-ref v (fx- i 1))))
(do ([i i (fx+ i 1)])
((fx= i n))
(vector-set! v i prev)))
(when stripped-v
(let ((prev (vector-ref stripped-v (fx- i 1))))
(do ([i i (fx+ i 1)])
((fx= i n))
(vector-set! stripped-v i prev)))))
(xvalues v stripped-v)]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "vector"))]
[else
(xmvlet ((x stripped-x) (xcall rd type value))
(unless (fx< i n)
(let ([bfp expr-bfp])
(xcall rd-error #f #t "too many vector elements supplied")))
(vector-set! v i x)
(and stripped-v (vector-set! stripped-v i stripped-x))
(xcall rd-fill-vector expr-bfp v stripped-v (fx+ i 1) n))])))
;; an fxvector contains a sequence of fixnum tokens. we don't handle
;; graph marks and references because to do so generally, we'd have to
;; put non-fixnums (insert records) into the fxvector or perhaps
;; somehow generalize delayed records to handle fxvectors
(xdefine (rd-fxvector expr-bfp i)
(with-token (type value)
(case type
[(rparen) (xvalues (make-fxvector i))]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "fxvector"))]
[else
(unless (and (eq? type 'atomic) (fixnum? value))
(xcall rd-error #f #t "non-fixnum found in fxvector"))
(xmvlet ((v) (xcall rd-fxvector expr-bfp (fx+ i 1)))
(fxvector-set! v i value)
(xvalues v))])))
(xdefine (rd-sized-fxvector n)
(unless (and (fixnum? n) (fxnonnegative? n))
(let ([bfp (and bfp (+ bfp 1))] [fp (and fp (- fp 1))])
(xcall rd-error #f #t "invalid fxvector length ~s" n)))
(xcall rd-fill-fxvector bfp (make-fxvector n) 0 n))
(xdefine (rd-fill-fxvector expr-bfp v i n)
(with-token (type value)
(case type
[(rparen)
(when (fx< 0 i n)
(let ((prev (fxvector-ref v (fx- i 1))))
(do ([i i (fx+ i 1)])
((fx= i n))
(fxvector-set! v i prev))))
(xvalues v)]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "fxvector"))]
[else
(unless (and (eq? type 'atomic) (fixnum? value))
(xcall rd-error #f #t "non-fixnum found in fxvector"))
(unless (fx< i n)
(let ([bfp expr-bfp])
(xcall rd-error #f #t "too many fxvector elements supplied")))
(fxvector-set! v i value)
(xcall rd-fill-fxvector expr-bfp v (fx+ i 1) n)])))
;; a bytevector contains a sequence of fixnum tokens. we don't handle
;; graph marks and references because to do so generally, we'd have to
;; put non-fixnums (insert records) into the bytevector or perhaps
;; somehow generalize delayed records to handle bytevectors
(xdefine (rd-bytevector expr-bfp i)
(with-token (type value)
(case type
[(rparen) (xvalues (make-bytevector i))]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "bytevector"))]
[else
(xcall rd-bytevector-check type value)
(xmvlet ((v) (xcall rd-bytevector expr-bfp (fx+ i 1)))
(bytevector-u8-set! v i value)
(xvalues v))])))
(xdefine (rd-bytevector-check type value)
(unless (and (eq? type 'atomic) (fixnum? value) (fx<= 0 value 255))
(if (eq? type 'atomic)
(xcall rd-error #f #t "invalid value ~:[~s~;~a~] found in bytevector" (symbol? value) value)
(xcall rd-error #f #t "non-octet found in bytevector"))))
(xdefine (rd-sized-bytevector n)
(unless (and (fixnum? n) (fxnonnegative? n))
(let ([bfp (and bfp (+ bfp 1))] [fp (and fp (- fp 1))])
(xcall rd-error #f #t "invalid bytevector length ~s" n)))
(xcall rd-fill-bytevector bfp (make-bytevector n) 0 n))
(xdefine (rd-fill-bytevector expr-bfp v i n)
(with-token (type value)
(case type
[(rparen)
(when (fx< 0 i n)
(let ((prev (bytevector-u8-ref v (fx- i 1))))
(do ([i i (fx+ i 1)])
((fx= i n))
(bytevector-u8-set! v i prev))))
(xvalues v)]
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "bytevector"))]
[else
(xcall rd-bytevector-check type value)
(unless (fx< i n)
(let ([bfp expr-bfp])
(xcall rd-error #f #t "too many bytevector elements supplied")))
(bytevector-u8-set! v i value)
(xcall rd-fill-bytevector expr-bfp v (fx+ i 1) n)])))
(xdefine (rd-box)
(let ([expr-bfp bfp])
(with-token (type value)
(case type
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "box"))]
[else
(xmvlet ((x stripped-x) (xcall rd type value))
(xvalues (box x) (and (rcb-a? rcb) (box stripped-x))))]))))
(xdefine (rd-mark n)
(let ([a (eq-hashtable-cell it n #f)])
; set up insert(s) if not already present
(unless (cdr a) (set-cdr! a (cons (make-insert n bfp fp) (and (rcb-a? rcb) (make-insert n bfp fp)))))
; check for duplicate marks
(when (insert-seen (cadr a)) (xcall rd-error #f #t "duplicate mark #~s= seen" n))
; mark seen before reading so that error comes from second duplicate
(insert-seen-set! (cadr a) #t)
(when (rcb-a? rcb) (insert-seen-set! (cddr a) #t))
(let ([expr-bfp bfp])
(with-token (type value)
(case type
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "graph mark"))]
[else
(xmvlet ((obj stripped-obj) (xcall rd type value))
(if (rcb-a? rcb)
(let ([ins (cadr a)] [stripped-ins (cddr a)])
(if (eq? stripped-obj stripped-ins)
(begin
(insert-obj-set! ins '#1#)
(insert-obj-set! stripped-ins '#1#))
(begin
; remove annotation below mark to avoid redundant annotation
(insert-obj-set! ins (annotation-expression obj))
(insert-obj-set! stripped-ins stripped-obj)))
(xvalues ins stripped-ins))
(let ([ins (cadr a)])
(insert-obj-set! ins (if (eq? obj ins) '#1=#1# obj))
(xvalues ins #f))))])))))
(xdefine (rd-insert n)
(let ([a (eq-hashtable-cell it n #f)])
; set up insert(s) if not already present
(unless (cdr a) (set-cdr! a (cons (make-insert n bfp fp) (and (rcb-a? rcb) (make-insert n bfp fp)))))
(xvalues (cadr a) (and (rcb-a? rcb) (cddr a)))))
(xdefine (rd-expression-comment) ; called from scanner
(let ([expr-bfp bfp])
(with-token (type value)
(case type
[(eof) (let ([bfp expr-bfp]) (xcall rd-eof-error "s-expression comment"))]
[else
(xmvlet ((x stripped-x) (xcall rd type value))
(xvalues))]))))
(set-who! read-token
(let ()
(define read-token
(lambda (ip sfd fp)
(when (port-closed? ip)
($oops who "not permitted on closed port ~s" ip))
(let ([fp (or fp
(and ($port-flags-set? ip (constant port-flag-char-positions))
(port-has-port-position? ip)
(port-position ip)))])
(let ([rcb (make-rcb ip sfd #f who)] [tb ""] [bfp fp] [it #f])
(with-token (type value)
(values type value bfp fp))))))
(case-lambda
[() (read-token (current-input-port) #f #f)]
[(ip)
(unless (and (input-port? ip) (textual-port? ip))
($oops who "~s is not a textual input port" ip))
(read-token ip #f #f)]
[(ip sfd fp)
(unless (and (input-port? ip) (textual-port? ip))
($oops who "~s is not a textual input port" ip))
(unless (source-file-descriptor? sfd)
($oops who "~s is not a source-file descriptor" sfd))
(unless (and (integer? fp) (exact? fp) (>= fp 0))
($oops who "~s is not a valid file position" fp))
(read-token ip sfd fp)])))
(let ()
(define do-read
(lambda (who ip sfd a? fp)
(when (port-closed? ip)
($oops who "not permitted on closed port ~s" ip))
(let ([fp (or fp
(and ($port-flags-set? ip (constant port-flag-char-positions))
(port-has-port-position? ip)
(port-position ip)))])
(let ([rcb (make-rcb ip sfd (and a? sfd fp #t) who)] [tb ""] [bfp fp] [it #f])
(call-with-token rd-top-level)))))
(set-who! get-datum
(lambda (ip)
(unless (and (input-port? ip) (textual-port? ip))
($oops who "~s is not a textual input port" ip))
(with-values (do-read who ip #f #f #f) (lambda (x fp) x))))
(set-who! read
(case-lambda
[() (with-values (do-read who (current-input-port) #f #f #f) (lambda (x fp) x))]
[(ip)
(unless (and (input-port? ip) (textual-port? ip))
($oops who "~s is not a textual input port" ip))
(with-values (do-read who ip #f #f #f) (lambda (x fp) x))]))
(set-who! get-datum/annotations
(lambda (ip sfd fp)
(unless (and (input-port? ip) (textual-port? ip))
($oops who "~s is not a textual input port" ip))
(unless (source-file-descriptor? sfd)
($oops who "~s is not a source-file descriptor" sfd))
(unless (and (integer? fp) (exact? fp) (>= fp 0))
($oops who "~s is not a valid file position" fp))
(do-read who ip sfd #t fp)))
(set! $make-read
(lambda (ip sfd fp)
(define who 'read)
(unless (and (input-port? ip) (textual-port? ip))
($oops who "~s is not a textual input port" ip))
(unless (or (not sfd) (source-file-descriptor? sfd))
($oops who "~s is not a source-file descriptor" sfd))
(lambda ()
(let-values ([(x new-fp) (do-read who ip sfd #t fp)])
(set! fp new-fp)
x)))))
(set! $open-source-file
(lambda (sfd)
(define source-port
(let ([paths-tried '()])
(lambda (path)
(and (not (member path paths-tried))
(begin
(set! paths-tried (cons path paths-tried))
(guard (c [#t #f])
(let ([ip ($open-file-input-port '$open-source-file path)])
(if (let ([new-sfd ($source-file-descriptor path ip)])
(and (fx= (source-file-descriptor-crc new-sfd)
(source-file-descriptor-crc sfd))
(= (source-file-descriptor-length new-sfd)
(source-file-descriptor-length sfd))))
(transcoded-port ip (current-transcoder))
(begin (close-input-port ip) #f)))))))))
(define (search name dir*)
(and (not (null? dir*))
(or (source-port
(let ([dir (car dir*)])
(if (or (string=? dir "") (string=? dir "."))
name
(format (if (directory-separator?
(string-ref dir
(fx- (string-length dir) 1)))
"~a~a"
"~a/~a")
dir name))))
(search name (cdr dir*)))))
(let ([name (source-file-descriptor-name sfd)])
(or (and ($fixed-path? name) (source-port name))
(let ([dir* (append (source-directories) (map car (library-directories)))])
(let pathloop ([name name])
(or (search name dir*)
(let ([rest (path-rest name)])
(and (not (string=? rest name))
(pathloop rest))))))))))
(let ([source-lines-cache (make-weak-eq-hashtable)])
(set! $locate-source
(lambda (sfd fp use-cache?)
(define (binary-search table name)
(let loop ([lo 0] [hi (vector-length table)])
(if (fx= (fx+ 1 lo) hi)
(values name
hi
(fx+ 1 (fx- fp (vector-ref table lo))))
(let ([mid (fxsra (fx+ lo hi) 1)])
(if (< fp (vector-ref table mid))
(loop lo mid)
(loop mid hi))))))
(cond
[(and use-cache?
(with-tc-mutex (hashtable-ref source-lines-cache sfd #f))) =>
(lambda (name+table)
(binary-search (cdr name+table) (car name+table)))]
[($open-source-file sfd) =>
(lambda (ip)
(define name (port-name ip))
(define table
;; Make a vector for the position (counting from zero)
;; that starts each line (= vector index + 1)
(let loop ([fp 0] [accum '(0)])
(let ([ch (read-char ip)])
(cond
[(eof-object? ch)
(close-input-port ip)
(list->vector (reverse accum))]
[(eqv? ch #\newline)
(let ([fp (fx+ fp 1)])
(loop fp (cons fp accum)))]
[else
(loop (fx+ fp 1) accum)]))))
(when use-cache?
(with-tc-mutex
(hashtable-set! source-lines-cache sfd (cons name table))))
(binary-search table name))]
[else (values)])))
(set! $clear-source-lines-cache
; called from single-threaded docollect
(lambda ()
(hashtable-clear! source-lines-cache))))
(set! $source-file-descriptor
(let ()
(define crc16
(let ([crc16-table
'#(#x0000 #x1189 #x2312 #x329b #x4624 #x57ad #x6536 #x74bf
#x8c48 #x9dc1 #xaf5a #xbed3 #xca6c #xdbe5 #xe97e #xf8f7
#x1081 #x0108 #x3393 #x221a #x56a5 #x472c #x75b7 #x643e
#x9cc9 #x8d40 #xbfdb #xae52 #xdaed #xcb64 #xf9ff #xe876
#x2102 #x308b #x0210 #x1399 #x6726 #x76af #x4434 #x55bd
#xad4a #xbcc3 #x8e58 #x9fd1 #xeb6e #xfae7 #xc87c #xd9f5
#x3183 #x200a #x1291 #x0318 #x77a7 #x662e #x54b5 #x453c
#xbdcb #xac42 #x9ed9 #x8f50 #xfbef #xea66 #xd8fd #xc974
#x4204 #x538d #x6116 #x709f #x0420 #x15a9 #x2732 #x36bb
#xce4c #xdfc5 #xed5e #xfcd7 #x8868 #x99e1 #xab7a #xbaf3
#x5285 #x430c #x7197 #x601e #x14a1 #x0528 #x37b3 #x263a
#xdecd #xcf44 #xfddf #xec56 #x98e9 #x8960 #xbbfb #xaa72
#x6306 #x728f #x4014 #x519d #x2522 #x34ab #x0630 #x17b9
#xef4e #xfec7 #xcc5c #xddd5 #xa96a #xb8e3 #x8a78 #x9bf1
#x7387 #x620e #x5095 #x411c #x35a3 #x242a #x16b1 #x0738
#xffcf #xee46 #xdcdd #xcd54 #xb9eb #xa862 #x9af9 #x8b70
#x8408 #x9581 #xa71a #xb693 #xc22c #xd3a5 #xe13e #xf0b7
#x0840 #x19c9 #x2b52 #x3adb #x4e64 #x5fed #x6d76 #x7cff
#x9489 #x8500 #xb79b #xa612 #xd2ad #xc324 #xf1bf #xe036
#x18c1 #x0948 #x3bd3 #x2a5a #x5ee5 #x4f6c #x7df7 #x6c7e
#xa50a #xb483 #x8618 #x9791 #xe32e #xf2a7 #xc03c #xd1b5
#x2942 #x38cb #x0a50 #x1bd9 #x6f66 #x7eef #x4c74 #x5dfd
#xb58b #xa402 #x9699 #x8710 #xf3af #xe226 #xd0bd #xc134
#x39c3 #x284a #x1ad1 #x0b58 #x7fe7 #x6e6e #x5cf5 #x4d7c
#xc60c #xd785 #xe51e #xf497 #x8028 #x91a1 #xa33a #xb2b3
#x4a44 #x5bcd #x6956 #x78df #x0c60 #x1de9 #x2f72 #x3efb
#xd68d #xc704 #xf59f #xe416 #x90a9 #x8120 #xb3bb #xa232
#x5ac5 #x4b4c #x79d7 #x685e #x1ce1 #x0d68 #x3ff3 #x2e7a
#xe70e #xf687 #xc41c #xd595 #xa12a #xb0a3 #x8238 #x93b1
#x6b46 #x7acf #x4854 #x59dd #x2d62 #x3ceb #x0e70 #x1ff9
#xf78f #xe606 #xd49d #xc514 #xb1ab #xa022 #x92b9 #x8330
#x7bc7 #x6a4e #x58d5 #x495c #x3de3 #x2c6a #x1ef1 #x0f78)])
; invoke with crc = #xffff for start of data
(lambda (crc s n)
(let loop ((i 0) (crc crc))
(if (fx= i n)
crc
(loop (fx+ i 1)
(fxlogxor (fxsrl crc 8)
(vector-ref crc16-table
(fxlogand
(fxlogxor crc (bytevector-u8-ref s i))
#xff)))))))))
(define go/reset
(lambda (ifn ip)
(let ([pos (port-position ip)])
(set-port-position! ip 0)
(let ([sfd (go ifn ip)])
(set-port-position! ip pos)
sfd))))
(define go
(lambda (ifn ip)
(let ((buflen (file-buffer-size)))
(define buf (make-bytevector buflen))
(let loop ((len 0) (crc #xffff))
(let ((n (get-bytevector-n! ip buf 0 buflen)))
(if (eof-object? n)
(make-source-file-descriptor ifn len crc)
(loop (+ len n) (crc16 crc buf n))))))))
(case-lambda
[(ifn ip) (go/reset ifn ip)]
[(ifn ip reset?)
(if reset? (go/reset ifn ip) (go ifn ip))])))
(set! char-name
(let ()
(define valid-name?
(lambda (s)
(let ((n (string-length s)))
(and (fx> n 1)
(let allalpha ([i 0])
(or (fx= i n)
(and (char-alphabetic? (string-ref s i))
(allalpha (fx+ i 1)))))
(not (let allalphahex ([i 0])
(or (fx= i n)
(let ([c (string-ref s i)])
(and (or (char<=? #\a c #\f) (char<=? #\A c #\F))
(allalphahex (fx+ i 1)))))))))))
(case-lambda
[(x)
(if (char? x)
(let ([ls (hashtable-ref char-name-table x '())])
(and (not (null? ls)) (car ls)))
(and (symbol? x) ($sgetprop x '*char-name* #f)))]
[(x c)
(unless (and (symbol? x) (valid-name? (symbol->string x)))
($oops 'char-name
"~s is not a valid character name"
x))
(with-tc-mutex
(let ((oldc ($sgetprop x '*char-name* #f)))
(when oldc
; remove x from table entry for oldc
(hashtable-update! char-name-table oldc
(lambda (ls) (remq x ls))
'())))
(cond
((eq? c #f) ($sremprop x '*char-name*))
((char? c)
; add x to char-name-table entry for c
(hashtable-update! char-name-table c
(lambda (ls) (cons x ls))
'())
; make c entry for x
($sputprop x '*char-name* c))
(else ($oops 'char-name "~s is not a character" c))))])))
) ;let
(define source-directories
(make-parameter '(".")
(lambda (x)
(unless (and (list? x) (andmap string? x))
($oops 'source-directories "invalid path list ~s" x))
x)))
(define record-reader
(case-lambda
[(name/rtd)
(cond
[(record-type-descriptor? name/rtd)
($sgetprop (record-type-uid name/rtd) 'reader-record #f)]
[(string? name/rtd)
($sgetprop (string->symbol name/rtd) 'record-reader #f)]
[(symbol? name/rtd)
($sgetprop name/rtd 'record-reader #f)]
[else ($oops 'record-reader "invalid input ~s" name/rtd)])]
[(name/rtd rtd/false)
(cond
[(not rtd/false)
(cond
[(record-type-descriptor? name/rtd)
(let ([rtd name/rtd])
(with-tc-mutex
(cond
[($sgetprop (record-type-uid rtd) 'reader-record #f) =>
(lambda (name)
($sremprop (record-type-uid rtd) 'reader-record)
($sremprop name 'record-reader))])))]
[(if (symbol? name/rtd) name/rtd (and (string? name/rtd) (string->symbol name/rtd))) =>
(lambda (name)
(with-tc-mutex
(cond
[($sgetprop name 'record-reader #f) =>
(lambda (rtd)
($sremprop (record-type-uid rtd) 'reader-record)
($sremprop name 'record-reader))])))]
[else ($oops 'record-reader "invalid first argument ~s" name/rtd)])]
[(record-type-descriptor? rtd/false)
(let ([rtd rtd/false])
(cond
[(if (symbol? name/rtd) name/rtd (and (string? name/rtd) (string->symbol name/rtd))) =>
(lambda (name)
(with-tc-mutex
($sputprop name 'record-reader rtd)
($sputprop (record-type-uid rtd) 'reader-record name)))]
[(record-type-descriptor? name/rtd)
($oops 'record-reader "~s valid as first argument only when second is #f" name/rtd)]
[else ($oops 'record-reader "invalid first argument ~s" name/rtd)]))]
[else ($oops 'record-reader "invalid second argument ~s" rtd/false)])]))
(begin
(char-name 'space #\space)
(char-name 'tab #\tab)
(char-name 'return #\return)
(char-name 'page #\page)
(char-name 'linefeed #\linefeed)
(char-name 'newline #\newline) ; must come after linefeed entry
(char-name 'backspace #\backspace)
(char-name 'rubout #\rubout)
(char-name 'nul #\nul)
(char-name 'bel #\bel)
(char-name 'vt #\vt)
(char-name 'esc #\esc)
(char-name 'vtab #\vtab)
(char-name 'delete #\rubout)
(char-name 'alarm #\bel)
(char-name 'nel #\nel)
(char-name 'ls #\ls))
)