implements (srfi 60)

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stibear 2014-06-23 03:11:43 +09:00
parent 88a4943148
commit 694d5eafe3
1 changed files with 182 additions and 0 deletions

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piclib/srfi/60.scm Normal file
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(define-library (srfi 60)
(import (scheme base)
(srfi 1))
;; # Bitwise Operations
(define (logand . args)
(letrec ((lgand
(lambda (x y)
(if (or (zero? x) (zero? y))
0
(+ (* (lgand (floor/ x 2) (floor/ y 2)) 2)
(if (or (even? x) (even? y)) 0 1))))))
(fold lgand -1 args)))
(define bitwise-and logand)
(define (logior . args)
(letrec ((lgior
(lambda (x y)
(cond
((= x y) x)
((zero? x) y)
((zero? y) x)
(else
(+ (* (lgior (truncate-quotient x 2)
(truncate-quotient y 2))
2)
(if (and (even? x) (even? y)) 0 1)))))))
(fold lgior 0 args)))
(define bitwise-ior logior)
(define (logxor . args)
(letrec ((lgxor
(lambda (x y)
(cond
((zero? x) y)
((zero? y) x)
(else
(+ (* (lgxor (floor/ x 2) (floor/ y 2)) 2)
(if (even? x)
(if (even? y) 0 1)
(if (even? y) 1 0))))))))
(fold lgxor 0 args)))
(define bitwise-xor logxor)
(define (lognot n)
(- -1 n))
(define bitwise-not lognot)
(define (bitwise-if mask n0 n1)
(logior (logand mask n0)
(logand (lognot mask) n1)))
(define bitwise-merge bitwise-if)
(define (logtest j k)
(not (zero? (logand j k))))
(define any-bits-set? logtest)
;; # Integer Properties
(define (logcount n)
(letrec ((lgcnt
(lambda (n)
(if (zero? n) 0
(+ (lgcnt (floor/ n 2))
(if (even? n) 0 1))))))
(if (negative? n)
(lgcnt (lognot n))
(lgcnt n))))
(define bit-count logcount)
(define (integer-length n)
(let loop ((n n) (count 0))
(if (zero? n)
count
(loop (floor/ n 2) (+ count 1)))))
(define (log2-binary-factors n)
(+ -1 (integer-length (logand n (- n)))))
(define first-set-bit log2-binary-factors)
;; # Bit Within Word
(define (logbit? index n)
(logtest (expt 2 index) n))
(define bit-set? logbit?)
(define (copy-bit index from bit)
(if bit
(logior from (expt 2 index))
(logand from (lognot (expt 2 index)))))
;; # Field of Bits
(define (ash n count)
(if (negative? count)
(let ((k (expt 2 (- count))))
(if (negative? n)
(+ -1 (truncate-quotient (+ 1 n) k))
(truncate-quotient n k)))
(* (expt 2 count) n)))
(define arithmetic-shift ash)
(define (bit-field n start end)
(logand (lognot (ash -1 (- end start)))
(ash n (- start))))
(define (copy-bit-field to from start end)
(bitwise-if (ash (lognot (ash -1 (- end start))) start)
(ash from start)
to))
(define (rotate-bit-field n count start end)
(let* ((width (- start end))
(count (floor-remainder count width))
(mask (lognot (ash -1 width)))
(zn (logand mask (ash n (- start)))))
(logior (ash (logior (logand mask (ash zn count))
(ash zn (- count width)))
start)
(logand (lognot (ash mask start)) n))))
(define (reverse-bit-field n start end)
(letrec ((bit-reverse
(lambda (k n)
(let loop ((m (if (negative? n) (lognot n) n))
(k (- k 1))
(rvs 0))
(if (negative? k)
(if (negative? n) (lognot rvs) rvs)
(loop (ash m -1)
(- k 1)
(logior (ash rvs 1) (logand 1 m))))))))
(let* ((width (- start end))
(mask (lognot (ash -1 width)))
(zn (logand mask (ash n (- start)))))
(logior (ash (bit-reverse width zn) start)
(logand (lognot (ash mask start)) n)))))
;; Bits as Booleans
(define (integer->list k . len)
(let ((len (if (null? len) (integer-length k) len)))
(let loop ((k k) (len len) (acc '()))
(if (or (zero? k) (zero? len))
acc
(loop (floor/ k 2) (- len 1) (cons (if (even? k) #f #t) acc))))))
(define (list->integer lst)
(let loop ((lst lst) (acc 0))
(if (null? lst)
acc
(loop (cdr lst) (+ (* acc 2) (if (car lst) 1 0))))))
(define (booleans->integer . args)
(list->integer args))
(export logand bitwise-and
logior bitwise-ior
logxor bitwise-xor
lognot bitwise-not
bitwise-if bitwise-merge
logtest any-bits-set?
logcount bit-count
integer-length
log2-binary-factors first-set-bit
logbit? bit-set?
copy-bit
bit-field
copy-bit-field
ash arithmetic-shift
rotate-bit-field
reverse-bit-field
integer->list
list->integer
booleans->integer))