scsh-0.6/ps-compiler/prescheme/test/list.scm

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2003-05-01 06:21:33 -04:00
; Copyright (c) 1994 by Richard Kelsey. See file COPYING.
; write s-expressions
; Memory
(define *memory*)
(define *hp*)
(define (initialize-memory! size)
(set! *memory* (allocate-memory size))
;(if (null-pointer? *memory*)
; (error "out of memory, unable to continue"))
(set! *hp* *memory*))
(define (allocate size)
(let ((p *hp*))
(set! *hp* (address+ *hp* size))
p))
(define (words->a-units x)
(* x 4))
; Data
(define tag-bits 1)
(define tag-mask (- (shift-left 1 tag-bits) 1))
(define tag/fixnum 0)
(define tag/pair 1)
(define (enter-fixnum x)
(+ (shift-left x tag-bits) tag/fixnum))
(define (extract-fixnum x)
(arithmetic-shift-right x tag-bits))
(define (make-predicate tag)
(lambda (x)
(= tag (bitwise-and x tag-mask))))
(define fixnum? (make-predicate tag/fixnum))
(define my-pair? (make-predicate tag/pair))
(define (make-accessor tag offset)
(lambda (x)
(word-ref (address+ (integer->address (+ x (- 0 tag)))
(words->a-units offset)))))
(define (make-setter tag offset)
(lambda (x v)
(word-set! (address+ (integer->address (+ x (- 0 tag)))
(words->a-units offset))
v)))
(define pair-size 16) ; bytes
(define head (make-accessor tag/pair 0))
(define tail (make-accessor tag/pair 1))
(define set-head! (make-setter tag/pair 0))
(define set-tail! (make-setter tag/pair 1))
(define (make-pair x y)
(let ((p (+ tag/pair (address->integer (allocate pair-size)))))
(set-head! p x)
(set-tail! p y)
p))
(define null tag/pair)
(define (my-null? x)
(= x null))
(define (print-s-exp x out)
(cond ((fixnum? x)
(write-number-no-newline (extract-fixnum x) out))
((my-null? x)
(write-char #\( out)
(write-char #\) out))
((my-pair? x)
(write-char #\( out)
(print-s-exp (head x) out)
(let loop ((x (tail x)))
(cond ((my-null? x)
(write-char #\) out))
((my-pair? x)
(write-char #\space out)
(print-s-exp (head x) out)
(loop (tail x)))
(else
(write-char #\space out)
(write-char #\. out)
(write-char #\space out)
(print-s-exp x out)
(write-char #\) out)))))))
(define *input-port*)
(define *peeked-char?* #f)
(define *peeked-char*)
(define (readc)
(cond (*peeked-char?*
(set! *peeked-char?* #f)
*peeked-char*)
(else
(call-with-values
(lambda ()
(read-char *input-port*))
(lambda (ch eof? status)
(if eof? (ascii->char 0) ch))))))
(define (peekc)
(if *peeked-char?*
*peeked-char*
(call-with-values
(lambda ()
(read-char *input-port*))
(lambda (ch eof? status)
(if eof?
(ascii->char 0)
(begin
(set! *peeked-char?* #t)
(set! *peeked-char* ch)
ch))))))
(define (digit? ch)
(let ((ch (char->ascii ch)))
(and (>= ch (char->ascii #\0))
(<= ch (char->ascii #\9)))))
(define (read-number)
(let loop ()
(case (peekc)
((#\-)
(readc)
(- 0 (really-read-number)))
((#\+)
(readc)
(really-read-number))
(else
(really-read-number)))))
(define (really-read-number)
(let loop ((r 0))
(let ((ch (peekc)))
(cond ((digit? ch)
(readc)
(loop (+ (- (char->ascii ch) (char->ascii #\0))
(* r 10))))
(else r)))))
(define (read-s-exp)
(case (peekc)
((#\space #\newline)
(readc)
(read-s-exp))
((#\- #\+)
(enter-fixnum (read-number)))
((#\()
(readc)
(read-list))
(else
(if (digit? (peekc))
(enter-fixnum (read-number))
-1))))
(define (read-list)
(case (peekc)
((#\space #\newline)
(readc)
(read-list))
((#\))
(readc)
null)
((#\.)
(readc) ; eat the dot
(let ((res (read-s-exp)))
(if (read-r-paren)
res
-1)))
(else
(let ((head (read-s-exp)))
(make-pair head (read-list))))))
(define (read-r-paren)
(case (peekc)
((#\space #\newline)
(readc)
(read-r-paren))
((#\))
#t)
(else #f)))
; Printing integers
; Return 10**n such that 10**n <= x < 10**(n+1)
(define (integer-mask x)
(do ((x x (quotient x 10))
(mask 1 (* mask 10)))
((< x 10) mask)))
; Write positive integer X out to PORT
(define (write-number x port)
(write-number-no-newline x port)
(write-char '#\newline port))
(define (write-number-no-newline x port)
(let ((x (cond ((< x 0)
(write-char '#\- port)
(- 0 x))
(else
x))))
(let loop ((x x) (mask (integer-mask x)))
(let ((digit (quotient x mask)))
(write-char (ascii->char (+ digit (char->ascii '#\0))) port)
(if (> mask 1)
(loop (remainder x mask) (quotient mask 10)))))))
(define (test size)
(initialize-memory! size)
(let ((s-exp (make-pair (enter-fixnum 1)
(make-pair (enter-fixnum 2)
(make-pair (make-pair (enter-fixnum 3) (enter-fixnum 4))
null))))
(out (current-output-port)))
(print-s-exp s-exp out)
(newline out)
(set! *input-port* (current-input-port))
(print-s-exp (read-s-exp) out)
(newline out)))