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sunterlib/s48/banana/banana.scm

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;;; This file is part of the Scheme Untergrund Library.
;;; Copyright (c) 2003 by Taylor Campbell
;;; For copyright information, see the file COPYING which comes with
;;; the distribution.
;;;;;; - Conditions -
(define-condition-type 'banana-error '(error))
(define banana-error? (condition-predicate 'banana-error))
;; BANANA-ERROR conditions contain information about who signalled
;; them in their CADRs.
(define banana-error-caller cadr)
(define-condition-type 'banana:unknown-byte '(banana-error))
(define unknown-byte-error?
(condition-predicate 'banana:unknown-byte?))
;; See the note about BANANA-ERROR conditions. For that reason,
;; and that BANANA:UNKNOWN-BYTE is a subtype of BANANA-ERROR, all
;; the information in BANANA:UNKNOWN-BYTE conditions (and all the
;; others below BANANA-ERROR) store their own fields in the CDDRs.
(define unknown-byte-error-byte caddr)
(define unknown-byte-error-profile cadddr)
(define-condition-type 'banana:unsupported-type '(banana-error))
(define unsupported-type-error?
(condition-predicate 'banana:unsupported-type))
(define unsupported-type-error-type caddr)
(define unsupported-type-error-value cadddr)
(define-condition-type 'read-eof-error '(read-error))
(define read-eof-error? (condition-predicate 'read-eof-error))
;;;;;; - Utility functions. -
;; Used in NONE-ENCODER/STRING.
(define (map-string->byte-vector f s . rest)
(let* ((len (string-length s))
(new (make-byte-vector len 0)))
(do ((i 0 (+ i 1)))
((= i len) new)
(byte-vector-set! new i
(f (string-ref s i))))))
;; Used in NONE-ENCODER/LIST.
(define (byte-vector-concatentate bvectors)
(let* ((len (fold (lambda (bv counter)
(+ (byte-vector-length bv) counter))
0 bvectors))
(new (make-byte-vector len 0)))
(let loop1 ((to 0) (bvectors bvectors))
(if (null? bvectors)
new
(let* ((bv (car bvectors))
(from-len (byte-vector-length bv)))
(let loop2 ((to to) (from 0))
(if (= from from-len)
(loop1 to (cdr bvectors))
(begin
(byte-vector-set!
new to (byte-vector-ref bv from))
(loop2 (+ to 1) (+ from 1))))))))))
;; Variant of BYTE-VECTOR-CONCATENTATE.
(define (byte-vector-append . vecs)
(if (null? vecs)
;; No need to even bother calling BYTE-VECTOR-CONCATENTATE.
(make-byte-vector 0 0)
(byte-vector-concatentate vecs)))
;; Maybe these and the two above should be done using the
;; SEQUENCES structures that also come with Sunterlib.
(define (byte-vector->string bv)
(let* ((len (byte-vector-length bv))
(new (make-string len)))
(do ((i 0 (+ i 1)))
((= i len) new)
(string-set! new i (ascii->char (byte-vector-ref bv i))))))
(define (string->byte-vector s)
(let* ((len (string-length s))
(new (make-byte-vector len 0)))
(do ((i 0 (+ i 1)))
((= i len) new)
(byte-vector-set! new i (char->ascii (string-ref s i))))))
(define (list->byte-vector l)
(let* ((len (length l))
(new (make-byte-vector len 0)))
(do ((i 0 (+ i 1))
(l l (cdr l)))
((= i len) new)
(byte-vector-set! new i (car l)))))
;; POSINT->BYTE-VECTOR converts nonnegative integers (the name is
;; a tad misleading, but it's easier to write and say than
;; NONNEGINT->BYTE-VECTOR or something) to byte vectors as
;; specified by the Banana protocol.
;;
;; *FIXME* - Shouldn't this be able to be implemented better than
;; by consing up a list...and then reversing that list...and then
;; converting that list into a byte vector?
;;
;; Tail-recursive, iterative version.
(define (posint->byte-vector int)
(do ((int int (arithmetic-shift int -7))
(bytes '() (cons (bitwise-and int #x7f) bytes)))
((zero? int) (list->byte-vector (reverse bytes)))))
;; CPS version.
; (define (posint->byte-vector int)
; (do ((int int (arithmetic-shift int -7))
; (k (lambda (x) x)
; (lambda (x) (k (cons (bitwise-and int #x7f) x)))))
; ((zero? int) (list->byte-vector (k '())))))
;; Linear-recursive version.
; (define (posint->byte-vector int)
; (list->byte-vecctor
; (let loop ((int int))
; (if (zero? int)
; bytes
; (cons (bitwise-and int #x7f)
; (loop (arithmetic-shift int -7)))))))
;; BYTE-VECTOR->POSINT is just like POSINT->BYTE-VECTOR but the
;; other way around.
(define (byte-vector->posint bv)
(let ((len (byte-vector-length bv)))
(do ((i 0 (+ i 1))
(result 0 (+ result (* (byte-vector-ref bv i)
(expt 128 i)))))
((= i len) result))))
;; REAL->BYTE-VECTOR and BYTE-VECTOR->REAL just return 0.0 and a
;; byte vector of zeros, because I haven't the foggiest idea how
;; to implement them correctly.
(define (real->byte-vector r)
(make-byte-vector 8 0))
(define (byte-vector->real bv)
0.0)
(define (prettify-byte b)
(number->string b 16))
(define (map-byte-vector->list f bv)
(let ((len (byte-vector-length bv)))
(do ((i (- len 1) (- i 1))
(result '() (cons (f (byte-vector-ref bv i)) result)))
((negative? i) result))))
(define (prettify-byte-vector bv)
(map-byte-vector->list prettify-byte bv))
(define alist->integer-table
(let ((make (make-table-maker = abs)))
(lambda (alist)
(let ((table (make)))
(for-each (lambda (key/value)
(table-set! table
(car key/value)
(cdr key/value)))
alist)
table))))
;;;;;; Here starts the actual Banana code.
(define-record-type profile :profile
(really-make-profile name encoder decoder-table super-profile)
profile?
(name profile-name)
(encoder profile-encoder)
(decoder-table profile-decoder-table)
(super-profile profile-super-profile))
(define (make-profile name encoder decoder-alist)
(extend-profile #f name encoder decoder-alist))
(define (extend-profile super-profile name encoder decoder-alist)
(really-make-profile name encoder
(alist->integer-table decoder-alist)
super-profile))
;; Why did this ever take a variable number of arguments?
; (define extend-profile
; (case-lambda
; ((super-profile profile)
; (really-make-profile (profile-name profile)
; (profile-encoder profile)
; (profile-decoder-table profile)
; super-profile))
; ((super-profile name encoder decoder-alist)
; (really-make-profile name encoder
; (alist->integer-table decoder-alist)
; super-profile))))
;; ETB = Element Type Byte
(define (lookup-etb-decoder byte profile)
(let loop ((p profile))
(if p
(or (table-ref (profile-decoder-table p) byte)
(loop (profile-super-profile p)))
(signal 'banana:unknown-byte
'lookup-etb-decoder
byte profile))))
(define none-etb/list #x80)
(define none-etb/posint #x81)
(define none-etb/string #x82)
(define none-etb/negint #x83)
(define none-etb/float #x84)
(define none-etb/largeposint #x85)
(define none-etb/largenegint #x86)
(define none-etb-v/list (byte-vector none-etb/list))
(define none-etb-v/posint (byte-vector none-etb/posint))
(define none-etb-v/string (byte-vector none-etb/string))
(define none-etb-v/negint (byte-vector none-etb/negint))
(define none-etb-v/float (byte-vector none-etb/float))
(define none-etb-v/largeposint (byte-vector none-etb/largeposint))
(define none-etb-v/largenegint (byte-vector none-etb/largenegint))
(define none-encoder/list
(lambda (lst)
(if (null? lst)
(byte-vector 0 none-etb/list)
(byte-vector-concatentate
(append (list (posint->byte-vector (length lst)))
(list none-etb-v/list)
(map (lambda (x) (encode x profile/none))
lst))))))
(define none-encoder/posint
(lambda (int)
(byte-vector-append (posint->byte-vector int)
none-etb-v/posint)))
(define none-encoder/string
(lambda (str)
(byte-vector-append
(posint->byte-vector (string-length str))
(byte-vector none-etb/string)
(map-string->byte-vector char->ascii str))))
(define none-encoder/negint
(lambda (int)
(byte-vector-append (posint->byte-vector (- int))
none-etb-v/negint)))
(define none-encoder/float
(lambda (float)
(byte-vector-append none-etb-v/float
(real->byte-vector float))))
(define none-encoder/largeposint
(lambda (int)
(byte-vector-append (posint->byte-vector int)
none-etb-v/largeposint)))
(define none-encoder/largenegint
(lambda (int)
(byte-vector-append (posint->byte-vector (- int))
none-etb-v/largenegint)))
(define none/encode
(lambda (obj)
(let ((not-supported
(lambda (type)
(signal 'banana:unsupported-type
'none/encode
type obj))))
((cond
((number? obj)
(cond
((inexact? obj) none-encoder/float)
((integer? obj)
(if (negative? obj)
(if (< obj -2147483648)
none-encoder/largenegint
none-encoder/negint)
(if (> obj 2147483647)
none-encoder/largeposint
none-encoder/posint)))
((rational? obj) (not-supported "rational"))
((real? obj) none-encoder/float)
((complex? obj) (not-supported "complex"))
(else (not-supported "unknown number"))))
((list? obj) none-encoder/list)
((string? obj) none-encoder/string)
(else (not-supported "unknown value")))
obj))))
;; CPS version, if you want it.
; (define none-decoder/list
; (lambda (bytes inport)
; (let loop ((len (byte-vector->posint bytes))
; (k (lambda (x) x)))
; (if (zero? len)
; (k '())
; (loop (- len 1)
; (lambda (x)
; (k (cons (read-element! inport) x))))))))
;; Linear-recursive version, if you want it.
; (define none-decoder/list
; (lambda (bytes inport)
; (let loop ((len (byte-vector->posint bytes)))
; (if (zero? len)
; '()
; (cons (read-element! inport) (loop (- len 1)))))))
(define none-decoder/list
(lambda (bytes inport)
(let loop ((len (byte-vector->posint bytes)) (vals '()))
(if (zero? len)
(reverse vals)
(loop (- len 1) (cons (read-element! inport
profile/none)
vals))))))
(define none-decoder/posint
(lambda (bytes inport)
(byte-vector->posint bytes)))
(define none-decoder/string
(lambda (bytes inport)
(let* ((len (byte-vector->posint bytes))
(new (make-string len)))
(let loop ((i 0))
(if (= i len)
new
(let ((char (read-char inport)))
(if (eof-object? char)
(signal 'read-eof-error
"reached eof"
'none-decoder/string
inport)
(begin
(string-set! new i char)
(loop (+ i 1))))))))))
(define none-decoder/negint
(lambda (bytes inport)
(- (byte-vector->posint bytes))))
(define none-decoder/float
(lambda (bytes inport)
(let ((s (make-string 9)))
(string-set! s 0 (ascii->char none-etb/float))
(do ((i 1 (+ i 1)))
((= i 9))
(string-set! s i (read-char inport)))
(byte-vector->real (string->byte-vector s)))))
;; NONE-DECODER/POSINT and NONE-DECODER/LARGEPOSINT really do the
;; same thing -- the only difference is that they're called in
;; difference circumstances.
(define none-decoder/largeposint none-decoder/posint)
;; The same can be said of NONE-DECODER/NEGINT and
;; NONE-DECODER/LARGENEGINT.
(define none-decoder/largenegint none-decoder/negint)
(define profile/none
(make-profile "none" none/encode
`((,none-etb/list . ,none-decoder/list)
(,none-etb/posint . ,none-decoder/posint)
(,none-etb/string . ,none-decoder/string)
(,none-etb/negint . ,none-decoder/negint)
(,none-etb/float . ,none-decoder/float)
(,none-etb/largeposint . ,none-decoder/largeposint)
(,none-etb/largenegint . ,none-decoder/largenegint))))
(define (etb? b)
(> b 127))
(define (read-element! inport profile)
(let loop ((bytes '()))
(let ((current-char (read-char inport)))
(if (eof-object? current-char)
(signal 'read-eof-error
"reached EOF"
'read-element!
inport)
(let ((current-byte (char->ascii current-char)))
(if (etb? current-byte)
((lookup-etb-decoder current-byte profile)
(apply byte-vector (reverse bytes))
inport)
(loop (cons current-byte bytes))))))))
(define (decode x . profile)
(let ((profile (if (pair? profile) (car profile) profile/none)))
(cond
((input-port? x) (read-element! x profile))
((string? x) (read-element! (make-string-input-port x)
profile))
((byte-vector? x) (decode (byte-vector->string x) profile))
(else (error "decode: can't decode from source" x)))))
(define (encode obj . profile)
(let ((f (profile-encoder (if (pair? profile)
(car profile)
profile/none))))
(f obj)))
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