870 lines
26 KiB
Scheme
870 lines
26 KiB
Scheme
;;; Ikarus Scheme -- A compiler for R6RS Scheme.
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;;; Copyright (C) 2006,2007 Abdulaziz Ghuloum
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;;;
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;;; This program is free software: you can redistribute it and/or modify
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;;; it under the terms of the GNU General Public License version 3 as
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;;; published by the Free Software Foundation.
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;;;
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;;; This program is distributed in the hope that it will be useful, but
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;;; WITHOUT ANY WARRANTY; without even the implied warranty of
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;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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;;; General Public License for more details.
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;;;
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;;; You should have received a copy of the GNU General Public License
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;;; along with this program. If not, see <http://www.gnu.org/licenses/>.
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(library (ikarus writer)
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(export write display format printf fprintf print-error print-unicode print-graph
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put-datum)
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(import
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(rnrs hashtables)
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(ikarus system $chars)
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(ikarus system $strings)
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(ikarus system $vectors)
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(ikarus system $fx)
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(ikarus system $pairs)
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(ikarus system $symbols)
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(ikarus system $bytevectors)
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(ikarus system $transcoders)
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(only (ikarus unicode-data) unicode-printable-char?)
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(except (ikarus)
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write display format printf fprintf print-error print-unicode print-graph
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put-datum))
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(define print-unicode
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(make-parameter #t))
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(define char-table ; first nonprintable chars
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'#("nul" "x1" "x2" "x3" "x4" "x5" "x6" "alarm"
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"backspace" "tab" "linefeed" "vtab" "page" "return" "xE" "xF"
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"x10" "x11" "x12" "x13" "x14" "x15" "x16" "x17"
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"x18" "x19" "x1A" "esc" "x1C" "x1D" "x1E" "x1F"
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"space"))
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(define write-positive-hex-fx
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(lambda (n p)
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(unless ($fx= n 0)
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(write-positive-hex-fx ($fxsra n 4) p)
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(let ([n ($fxlogand n #xF)])
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(cond
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[($fx<= n 9)
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(write-char ($fixnum->char
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($fx+ ($char->fixnum #\0) n))
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p)]
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[else
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(write-char ($fixnum->char
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($fx+ ($char->fixnum #\A) ($fx- n 10)))
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p)])))))
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(define write-character
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(lambda (x p m)
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(if m
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(let ([i ($char->fixnum x)])
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(write-char #\# p)
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(cond
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[(fx< i (vector-length char-table))
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(write-char #\\ p)
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(write-char* (vector-ref char-table i) p)]
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[(fx< i 127)
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(write-char #\\ p)
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(write-char x p)]
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[(fx= i 127)
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(write-char #\\ p)
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(write-char* "delete" p)]
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[(and (print-unicode) (unicode-printable-char? x))
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(write-char #\\ p)
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(write-char x p)]
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[else
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(write-char #\\ p)
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(write-char #\x p)
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(write-positive-hex-fx i p)]))
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(write-char x p))))
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(define write-list
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(lambda (x p m h i)
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(cond
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[(and (pair? x)
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(or (not (hashtable-ref h x #f))
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(fxzero? (hashtable-ref h x 0))))
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(write-char #\space p)
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(write-list (cdr x) p m h
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(writer (car x) p m h i))]
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[(null? x) i]
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[else
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(write-char #\space p)
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(write-char #\. p)
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(write-char #\space p)
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(writer x p m h i)])))
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(define write-vector
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(lambda (x p m h i)
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(write-char #\# p)
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(write-char #\( p)
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(let ([n (vector-length x)])
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(let ([i
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(cond
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[(fx> n 0)
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(let f ([idx 1] [i (writer (vector-ref x 0) p m h i)])
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(cond
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[(fx= idx n)
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i]
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[else
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(write-char #\space p)
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(f (fxadd1 idx)
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(writer (vector-ref x idx) p m h i))]))]
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[else i])])
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(write-char #\) p)
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i))))
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(define write-bytevector
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(lambda (x p m h i)
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(write-char #\# p)
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(write-char #\v p)
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(write-char #\u p)
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(write-char #\8 p)
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(write-char #\( p)
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(let ([n ($bytevector-length x)])
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(when (fx> n 0)
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(write-fixnum ($bytevector-u8-ref x 0) p)
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(let f ([idx 1] [n n] [x x] [p p])
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(unless ($fx= idx n)
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(write-char #\space p)
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(write-fixnum ($bytevector-u8-ref x idx) p)
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(f (fxadd1 idx) n x p)))))
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(write-char #\) p)
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i))
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(define write-struct
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(lambda (x p m h i)
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(cond
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[(let ([rtd (struct-type-descriptor x)])
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(and (record-type-descriptor? rtd)
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(record-type-opaque? rtd)))
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(write-char* "#<unknown>" p)
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i]
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[else
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(write-char #\# p)
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(write-char #\[ p)
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(let ([i (writer (struct-name x) p m h i)])
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(let ([n (struct-length x)])
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(let f ([idx 0] [i i])
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(cond
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[(fx= idx n)
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(write-char #\] p)
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i]
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[else
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(write-char #\space p)
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(f (fxadd1 idx)
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(writer (struct-ref x idx) p m h
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i))]))))])))
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(define initial?
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(lambda (c)
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(or (letter? c) (special-initial? c))))
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(define letter?
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(lambda (c)
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(or (and ($char<= #\a c) ($char<= c #\z))
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(and ($char<= #\A c) ($char<= c #\Z)))))
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(define digit?
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(lambda (c)
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(and ($char<= #\0 c) ($char<= c #\9))))
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(define special-initial?
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(lambda (x)
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(memq x '(#\! #\$ #\% #\& #\* #\/ #\: #\< #\= #\> #\? #\^ #\_ #\~))))
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(define subsequent?
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(lambda (x)
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(or (initial? x)
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(digit? x)
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(special-subsequent? x))))
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(define special-subsequent?
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(lambda (x)
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(memq x '(#\+ #\- #\. #\@))))
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(define subsequent*?
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(lambda (str i n)
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(or ($fx= i n)
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(and (subsequent? ($string-ref str i))
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(subsequent*? str ($fxadd1 i) n)))))
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(define peculiar-symbol-string?
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(lambda (str)
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(let ([n (string-length str)])
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(cond
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[(fx= n 1)
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(memq (string-ref str 0) '(#\+ #\-))]
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[(fx>= n 2)
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(or (and (char=? (string-ref str 0) #\-)
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(char=? (string-ref str 1) #\>)
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(subsequent*? str 2 n))
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(string=? str "..."))]
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[else #f]))))
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(define valid-symbol-string?
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(lambda (str)
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(define normal-symbol-string?
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(lambda (str)
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(let ([n ($string-length str)])
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(and ($fx>= n 1)
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(initial? ($string-ref str 0))
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(subsequent*? str 1 n)))))
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(or (normal-symbol-string? str)
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(peculiar-symbol-string? str))))
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(define write-symbol-bar-esc-loop
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(lambda (x i n p)
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(unless ($fx= i n)
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(let* ([c ($string-ref x i)]
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[b ($char->fixnum c)])
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(cond
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[($fx< b 32)
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(cond
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[($fx< b 7)
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(write-inline-hex b p)]
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[($fx< b 14)
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(write-char #\\ p)
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(write-char (string-ref "abtnvfr" ($fx- b 7)) p)]
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[else
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(write-inline-hex b p)])]
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[(memq c '(#\\ #\|))
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(write-char #\\ p)
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(write-char c p)]
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[($fx< b 127)
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(write-char c p)]
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[else
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(write-inline-hex b p)]))
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(write-symbol-bar-esc-loop x ($fxadd1 i) n p))))
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(define write-symbol-bar-esc
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(lambda (x p)
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(write-char #\| p)
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(write-symbol-bar-esc-loop x 0 ($string-length x) p)
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(write-char #\| p)))
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(define-syntax ascii-map
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(lambda (x)
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;;; r6rs prohibits bytevectors from being "datum"s
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;;; oh well.
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(syntax-case x ()
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[(stx str) (string? (syntax->datum #'str))
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(let ([s (syntax->datum #'str)]
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[bv (make-bytevector 16 0)])
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(for-each
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(lambda (c)
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(let ([b (char->integer c)])
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(let ([i (fxlogand b 7)]
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[j (fxsra b 3)])
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(bytevector-u8-set! bv j
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(fxlogor (bytevector-u8-ref bv j)
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(fxsll 1 i))))))
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(string->list s))
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(with-syntax ([bv (datum->syntax #'stx bv)])
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#'(quote bv)))])))
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(define subsequents-map
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(ascii-map
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"!$%&*/:<=>?^_~+-.@abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789"))
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(define initials-map
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(ascii-map
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"!$%&*/:<=>?^_~abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ"))
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(define (in-map? byte map)
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(let ([i ($fxlogand byte 7)]
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[j ($fxsra byte 3)])
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(and
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(fx< j ($bytevector-length map))
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(let ([mask ($fxsll 1 i)])
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(not ($fxzero?
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($fxlogand mask
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($bytevector-u8-ref map j))))))))
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(define (write-subsequent* str i j p)
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(unless ($fx= i j)
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(let* ([c ($string-ref str i)]
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[b ($char->fixnum c)])
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(cond
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[(in-map? b subsequents-map)
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(write-char c p)]
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[($fx< b 128)
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(write-inline-hex b p)]
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[(unicode-printable-char? c)
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(write-char c p)]
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[else
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(write-inline-hex b p)]))
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(write-subsequent* str ($fxadd1 i) j p)))
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(define write-symbol-hex-esc
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(lambda (str p)
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(let ([n ($string-length str)])
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(cond
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[($fx= n 0)
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(write-char #\| p)
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(write-char #\| p)]
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[else
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(let* ([c0 ($string-ref str 0)]
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[b0 ($char->fixnum c0)])
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(cond
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[(in-map? b0 initials-map)
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(write-char c0 p)]
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[($fx< b0 128) (write-inline-hex b0 p)]
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[(unicode-printable-char? c0) (write-char c0 p)]
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[else (write-inline-hex b0 p)])
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(write-subsequent* str 1 n p))]))))
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(define (write-peculiar str p)
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(let ([n ($string-length str)])
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(cond
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[($fx= n 1)
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(write-char ($string-ref str 0) p)]
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[(and ($fx>= n 2)
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($char= ($string-ref str 0) #\-)
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($char= ($string-ref str 1) #\>))
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(write-char #\- p)
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(write-char #\> p)
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(write-subsequent* str 2 n p)]
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[(string=? str "...")
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(write-char #\. p)
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(write-char #\. p)
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(write-char #\. p)]
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[else (die 'write-peculiear "BUG")])))
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(define write-symbol
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(lambda (x p m)
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(write-symbol-string (symbol->string x) p m)))
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(define write-symbol-string
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(lambda (str p m)
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(if m
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(if (peculiar-symbol-string? str)
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(write-peculiar str p)
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(write-symbol-hex-esc str p))
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(write-char* str p))))
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(define write-gensym
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(lambda (x p m h i)
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(cond
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[(and m (print-gensym)) =>
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(lambda (gensym-how)
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(case gensym-how
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[(pretty)
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(let ([str (symbol->string x)])
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(write-char #\# p)
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(write-char #\: p)
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(write-symbol-string str p m))]
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[else
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(let ([str (symbol->string x)]
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[ustr (gensym->unique-string x)])
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(write-char #\# p)
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(write-char #\{ p)
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(write-symbol-string str p m)
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(write-char #\space p)
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(write-symbol-bar-esc ustr p)
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(write-char #\} p))])
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i)]
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[else
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(write-symbol x p m)
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i])))
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(define write-inline-hex
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(lambda (b p)
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(write-char #\\ p)
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(write-char #\x p)
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(if ($fxzero? b)
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(write-char #\0 p)
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(write-positive-hex-fx b p))
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(write-char #\; p)))
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(define write-string-escape
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(lambda (x p)
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(define loop
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(lambda (x i n p)
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(unless (fx= i n)
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(let* ([c (string-ref x i)]
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[b ($char->fixnum c)])
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(cond
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[($fx< b 32)
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(cond
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[($fx< b 7)
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(write-inline-hex b p)]
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[($fx< b 14)
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(write-char #\\ p)
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(write-char (string-ref "abtnvfr" ($fx- b 7)) p)]
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[else
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(write-inline-hex b p)])]
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[(or ($char= #\" c) ($char= #\\ c))
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(write-char #\\ p)
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(write-char c p)]
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[($fx< b 127)
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(write-char c p)]
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[(unicode-printable-char? c)
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(write-char c p)]
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[else (write-inline-hex b p)]))
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(loop x (fxadd1 i) n p))))
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(write-char #\" p)
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(loop x 0 (string-length x) p)
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(write-char #\" p)))
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(define write-string
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(lambda (x p m)
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(if m
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(write-string-escape x p)
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(write-char* x p))))
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(define write-fixnum
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(lambda (x p)
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(define loop
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(lambda (x p)
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(unless (fxzero? x)
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(loop (fxquotient x 10) p)
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(write-char
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($fixnum->char
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($fx+ (fxremainder x 10)
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($char->fixnum #\0)))
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p))))
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(cond
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[(fxzero? x) (write-char #\0 p)]
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[(fx< x 0)
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(write-char #\- p)
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(if (fx= x -536870912)
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(write-char* "536870912" p)
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(loop (fx- 0 x) p))]
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[else (loop x p)])))
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(define write-char*
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(lambda (x p)
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(define loop
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(lambda (x i n p)
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(unless (fx= i n)
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(write-char (string-ref x i) p)
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(loop x (fxadd1 i) n p))))
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(loop x 0 (string-length x) p)))
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(define macro
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(lambda (x h)
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(define macro-forms
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'([quote . "'"]
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[quasiquote . "`"]
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[unquote . ","]
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[unquote-splicing . ",@"]
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[syntax . "#'"]
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[quasisyntax . "#`"]
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[unsyntax . "#,"]
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[unsyntax-splicing . "#,@"]
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[|#primitive| . "#%"]))
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(and (pair? x)
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(let ([d ($cdr x)])
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(and (pair? d)
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(null? ($cdr d))
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(not (hashtable-ref h x #f))))
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(assq ($car x) macro-forms))))
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(define write-pair
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(lambda (x p m h i)
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(cond
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[(macro x h) =>
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(lambda (a)
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(display (cdr a) p)
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(writer (cadr x) p m h i))]
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[else
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(write-char #\( p)
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(let ([i (writer (car x) p m h i)])
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(let ([i (write-list (cdr x) p m h i)])
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(write-char #\) p)
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i))])))
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(define write-ref
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(lambda (n p)
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(write-char #\# p)
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(write-fixnum (fx- -1 n) p)
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(write-char #\# p)))
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(define write-mark
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(lambda (n p)
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(write-char #\# p)
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(write-fixnum (fx- -1 n) p)
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(write-char #\= p)))
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(define write-shareable
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(lambda (x p m h i k)
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(cond
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[(hashtable-ref h x #f) =>
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(lambda (n)
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(cond
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[(fx< n 0)
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(write-ref n p)
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i]
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[(fx= n 0)
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(k x p m h i)]
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[else
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(let ([i (fx- i 1)])
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(hashtable-set! h x i)
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(write-mark i p)
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(k x p m h i))]))]
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[else (k x p m h i)])))
|
|
|
|
(define writer
|
|
(lambda (x p m h i)
|
|
(cond
|
|
[(pair? x)
|
|
(write-shareable x p m h i write-pair)]
|
|
[(symbol? x)
|
|
(if (gensym? x)
|
|
(write-gensym x p m h i)
|
|
(begin (write-symbol x p m) i))]
|
|
[(fixnum? x)
|
|
(write-fixnum x p)
|
|
i]
|
|
[(string? x)
|
|
(write-string x p m)
|
|
i]
|
|
[(boolean? x)
|
|
(write-char* (if x "#t" "#f") p)
|
|
i]
|
|
[(char? x)
|
|
(write-character x p m)
|
|
i]
|
|
[(procedure? x)
|
|
(cond
|
|
[(let ([name (procedure-annotation x)])
|
|
(and (symbol? name) name)) =>
|
|
(lambda (name)
|
|
(write-char* "#<procedure " p)
|
|
(write-char* (symbol->string name) p)
|
|
(write-char* ">" p))]
|
|
[else (write-char* "#<procedure>" p)])
|
|
i]
|
|
[(output-port? x)
|
|
(write-char* "#<output-port " p)
|
|
(write-char* (if (binary-port? p) "(binary)" "(textual)") p)
|
|
(let ([i (writer (output-port-name x) p #t h i)])
|
|
(write-char #\> p)
|
|
i)]
|
|
[(input-port? x)
|
|
(write-char* "#<input-port " p)
|
|
(write-char* (if (binary-port? p) "(binary)" "(textual)") p)
|
|
(let ([i (writer (input-port-name x) p #t h i)])
|
|
(write-char #\> p)
|
|
i)]
|
|
[(vector? x)
|
|
(write-shareable x p m h i write-vector)]
|
|
[(bytevector? x)
|
|
(write-shareable x p m h i write-bytevector)]
|
|
[(null? x)
|
|
(write-char #\( p)
|
|
(write-char #\) p)
|
|
i]
|
|
[(eq? x (void))
|
|
(write-char* "#<void>" p)
|
|
i]
|
|
[(eof-object? x)
|
|
(write-char* "#!eof" p)
|
|
i]
|
|
[(bwp-object? x)
|
|
(write-char* "#!bwp" p)
|
|
i]
|
|
[(hashtable? x)
|
|
(write-char* "#<hashtable>" p)
|
|
i]
|
|
;[(record? x)
|
|
; (write-shareable x p m h i write-struct)]
|
|
[(struct? x)
|
|
(let ([printer (struct-printer x)])
|
|
(if (procedure? printer)
|
|
(begin (printer x p) i)
|
|
(write-shareable x p m h i write-struct)))]
|
|
[(code? x)
|
|
(write-char* "#<code>" p)]
|
|
[($unbound-object? x)
|
|
(write-char* "#<unbound-object>" p)
|
|
i]
|
|
;;; [($forward-ptr? x) FIXME reinstate
|
|
;;; (write-char* "#<forward-ptr>" p)
|
|
;;; i]
|
|
[(number? x)
|
|
(write-char* (number->string x) p)
|
|
i]
|
|
[(transcoder? x)
|
|
(write-char* "#<transcoder " p)
|
|
(let ([n ($transcoder->data x)])
|
|
(write-char* (number->string n) p))
|
|
(write-char* ">" p)]
|
|
[else
|
|
(write-char* "#<unknown>" p)
|
|
i])))
|
|
|
|
(define print-graph (make-parameter #f))
|
|
|
|
(define (hasher x h)
|
|
(define (vec-graph x i j h)
|
|
(unless (fx= i j)
|
|
(graph (vector-ref x i) h)
|
|
(vec-graph x (fxadd1 i) j h)))
|
|
(define (vec-dynamic x i j h)
|
|
(unless (fx= i j)
|
|
(dynamic (vector-ref x i) h)
|
|
(vec-dynamic x (fxadd1 i) j h)))
|
|
(define (graph x h)
|
|
(cond
|
|
[(pair? x)
|
|
(cond
|
|
[(hashtable-ref h x #f) =>
|
|
(lambda (n)
|
|
(hashtable-set! h x (fxadd1 n)))]
|
|
[else
|
|
(hashtable-set! h x 0)
|
|
(graph (car x) h)
|
|
(graph (cdr x) h)])]
|
|
[(vector? x)
|
|
(cond
|
|
[(hashtable-ref h x #f) =>
|
|
(lambda (n)
|
|
(hashtable-set! h x (fxadd1 n)))]
|
|
[else
|
|
(hashtable-set! h x 0)
|
|
(vec-graph x 0 (vector-length x) h)])]
|
|
[(gensym? x)
|
|
(cond
|
|
[(hashtable-ref h x #f) =>
|
|
(lambda (n)
|
|
(hashtable-set! h x (fxadd1 n)))])]
|
|
[(struct? x)
|
|
(cond
|
|
[(hashtable-ref h x #f) =>
|
|
(lambda (n)
|
|
(hashtable-set! h x (fxadd1 n)))]
|
|
[else
|
|
(hashtable-set! h x 0)
|
|
(let ([rtd (struct-type-descriptor x)])
|
|
(unless
|
|
(and (record-type-descriptor? rtd)
|
|
(record-type-opaque? rtd))
|
|
(graph (struct-name x) h)
|
|
(let ([n (struct-length x)])
|
|
(let f ([idx 0])
|
|
(unless (fx= idx n)
|
|
(graph (struct-ref x idx) h)
|
|
(f (fxadd1 idx)))))))])]
|
|
))
|
|
(define (dynamic x h)
|
|
(cond
|
|
[(pair? x)
|
|
(cond
|
|
[(hashtable-ref h x #f) =>
|
|
(lambda (n)
|
|
(hashtable-set! h x (fxadd1 n)))]
|
|
[else
|
|
(hashtable-set! h x 0)
|
|
(dynamic (car x) h)
|
|
(dynamic (cdr x) h)
|
|
(when (and (hashtable-ref h x #f)
|
|
(fxzero? (hashtable-ref h x #f)))
|
|
(hashtable-set! h x #f))])]
|
|
[(vector? x)
|
|
(cond
|
|
[(hashtable-ref h x #f) =>
|
|
(lambda (n)
|
|
(hashtable-set! h x (fxadd1 n)))]
|
|
[else
|
|
(hashtable-set! h x 0)
|
|
(vec-dynamic x 0 (vector-length x) h)
|
|
(when (and (hashtable-ref h x #f)
|
|
(fxzero? (hashtable-ref h x #f)))
|
|
(hashtable-set! h x #f))])]
|
|
[(struct? x)
|
|
(cond
|
|
[(hashtable-ref h x #f) =>
|
|
(lambda (n)
|
|
(hashtable-set! h x (fxadd1 n)))]
|
|
[else
|
|
(hashtable-set! h x 0)
|
|
(let ([rtd (struct-type-descriptor x)])
|
|
(unless
|
|
(and (record-type-descriptor? rtd)
|
|
(record-type-opaque? rtd))
|
|
(dynamic (struct-name x) h)
|
|
(let ([n (struct-length x)])
|
|
(let f ([idx 0])
|
|
(unless (fx= idx n)
|
|
(dynamic (struct-ref x idx) h)
|
|
(f (fxadd1 idx)))))))
|
|
(when (and (hashtable-ref h x #f)
|
|
(fxzero? (hashtable-ref h x #f)))
|
|
(hashtable-set! h x #f))])]
|
|
;;; FIXME: recursive records/structs
|
|
))
|
|
(if (print-graph)
|
|
(graph x h)
|
|
(dynamic x h)))
|
|
|
|
(define (write-to-port x p)
|
|
(let ([h (make-eq-hashtable)])
|
|
(hasher x h)
|
|
(writer x p #t h 0))
|
|
(flush-output-port p))
|
|
|
|
(define (display-to-port x p)
|
|
(let ([h (make-eq-hashtable)])
|
|
(hasher x h)
|
|
(writer x p #f h 0))
|
|
(flush-output-port p))
|
|
|
|
(define formatter
|
|
(lambda (who p fmt args)
|
|
;;; first check
|
|
(let f ([i 0] [args args])
|
|
(cond
|
|
[(fx= i (string-length fmt))
|
|
(unless (null? args)
|
|
(die who
|
|
(format
|
|
"extra arguments given for format string \x2036;~a\x2033;"
|
|
fmt)))]
|
|
[else
|
|
(let ([c (string-ref fmt i)])
|
|
(cond
|
|
[(eqv? c #\~)
|
|
(let ([i (fxadd1 i)])
|
|
(when (fx= i (string-length fmt))
|
|
(die who "invalid ~ at end of format string" fmt))
|
|
(let ([c (string-ref fmt i)])
|
|
(cond
|
|
[(memv c '(#\~ #\%)) (f (fxadd1 i) args)]
|
|
[(memv c '(#\a #\s))
|
|
(when (null? args)
|
|
(die who "insufficient arguments"))
|
|
(f (fxadd1 i) (cdr args))]
|
|
[(memv c '(#\b #\o #\x #\d))
|
|
(when (null? args)
|
|
(die who "insufficient arguments"))
|
|
(let ([a (car args)])
|
|
(cond
|
|
[(or (fixnum? a) (bignum? a) (ratnum? a))
|
|
(void)]
|
|
[(flonum? a)
|
|
(unless (eqv? c #\d)
|
|
(die who
|
|
(format "flonums cannot be printed with ~~~a" c)))]
|
|
[else
|
|
(die who "not a number" a)]))
|
|
(f (fxadd1 i) (cdr args))]
|
|
[else
|
|
(die who "invalid sequence character after ~" c)])))]
|
|
[else (f (fxadd1 i) args)]))]))
|
|
;;; then format
|
|
(let f ([i 0] [args args])
|
|
(unless (fx= i (string-length fmt))
|
|
(let ([c (string-ref fmt i)])
|
|
(cond
|
|
[(eqv? c #\~)
|
|
(let ([i (fxadd1 i)])
|
|
(let ([c (string-ref fmt i)])
|
|
(cond
|
|
[(eqv? c #\~)
|
|
(write-char #\~ p)
|
|
(f (fxadd1 i) args)]
|
|
[(eqv? c #\%)
|
|
(write-char #\newline p)
|
|
(f (fxadd1 i) args)]
|
|
[(eqv? c #\a)
|
|
(display-to-port (car args) p)
|
|
(f (fxadd1 i) (cdr args))]
|
|
[(eqv? c #\s)
|
|
(write-to-port (car args) p)
|
|
(f (fxadd1 i) (cdr args))]
|
|
[(assv c '([#\b . 2] [#\o . 8] [#\x . 16] [#\d . 10]))
|
|
=>
|
|
(lambda (x)
|
|
(let ([a (car args)])
|
|
(cond
|
|
[(or (fixnum? a) (bignum? a) (ratnum? a))
|
|
(display-to-port (number->string a (cdr x)) p)]
|
|
[(flonum? a)
|
|
(display-to-port (number->string a) p)]
|
|
[else
|
|
(die who "BUG: not a number" a)]))
|
|
(f (fxadd1 i) (cdr args)))]
|
|
[else (die who "BUG" c)])))]
|
|
[else
|
|
(write-char c p)
|
|
(f (fxadd1 i) args)]))))
|
|
;;; then flush
|
|
(flush-output-port p)))
|
|
|
|
(define fprintf
|
|
(lambda (p fmt . args)
|
|
(assert-open-textual-output-port p 'fprintf)
|
|
(unless (string? fmt)
|
|
(die 'fprintf "not a string" fmt))
|
|
(formatter 'fprintf p fmt args)))
|
|
|
|
(define display-error
|
|
(lambda (errname who fmt args)
|
|
(unless (string? fmt)
|
|
(die 'print-error "not a string" fmt))
|
|
(let ([p (standard-error-port)])
|
|
(if who
|
|
(fprintf p "~a in ~a: " errname who)
|
|
(fprintf p "~a: " errname))
|
|
(formatter 'print-error p fmt args)
|
|
(write-char #\. p)
|
|
(newline p))))
|
|
|
|
(define format
|
|
(lambda (fmt . args)
|
|
(unless (string? fmt)
|
|
(die 'format "not a string" fmt))
|
|
(let-values ([(p e) (open-string-output-port)])
|
|
(formatter 'format p fmt args)
|
|
(e))))
|
|
|
|
(define printf
|
|
(lambda (fmt . args)
|
|
(unless (string? fmt)
|
|
(die 'printf "not a string" fmt))
|
|
(formatter 'printf (current-output-port) fmt args)))
|
|
|
|
(define write
|
|
(case-lambda
|
|
[(x) (write-to-port x (current-output-port))]
|
|
[(x p)
|
|
(assert-open-textual-output-port p 'write)
|
|
(write-to-port x p)]))
|
|
|
|
(define (put-datum p x)
|
|
(assert-open-textual-output-port p 'put-datum)
|
|
(write-to-port x p))
|
|
|
|
(define display
|
|
(case-lambda
|
|
[(x) (display-to-port x (current-output-port))]
|
|
[(x p)
|
|
(assert-open-textual-output-port p 'display)
|
|
(display-to-port x p)]))
|
|
|
|
(define print-error
|
|
(lambda (who fmt . args)
|
|
(display-error "Error" who fmt args)))
|
|
|
|
(define warning
|
|
(lambda (who fmt . args)
|
|
(display-error "Warning" who fmt args)))
|
|
|
|
(define (assert-open-textual-output-port p who)
|
|
(unless (output-port? p)
|
|
(die who "not an output port" p))
|
|
(unless (textual-port? p)
|
|
(die who "not a textual port" p))
|
|
(when (port-closed? p)
|
|
(die who "port is closed" p)))
|
|
|
|
)
|
|
|