188 lines
5.2 KiB
Factor
188 lines
5.2 KiB
Factor
! Copyright (C) 2004, 2010 Slava Pestov.
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! Copyright (C) 2008, Doug Coleman.
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! See http://factorcode.org/license.txt for BSD license.
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USING: kernel kernel.private sequences sequences.private math
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math.private math.order combinators ;
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IN: math.integers.private
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: fixnum-min ( x y -- z ) [ fixnum< ] most ; foldable
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: fixnum-max ( x y -- z ) [ fixnum> ] most ; foldable
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M: integer numerator ; inline
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M: integer denominator drop 1 ; inline
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M: fixnum >fixnum ; inline
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M: fixnum >bignum fixnum>bignum ; inline
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M: fixnum >integer ; inline
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M: fixnum >float fixnum>float ; inline
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M: fixnum integer>fixnum ; inline
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M: fixnum integer>fixnum-strict ; inline
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M: fixnum hashcode* nip ; inline
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M: fixnum equal? over bignum? [ >bignum bignum= ] [ 2drop f ] if ; inline
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M: fixnum number= eq? ; inline
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M: fixnum < fixnum< ; inline
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M: fixnum <= fixnum<= ; inline
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M: fixnum > fixnum> ; inline
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M: fixnum >= fixnum>= ; inline
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M: fixnum u< fixnum< ; inline
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M: fixnum u<= fixnum<= ; inline
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M: fixnum u> fixnum> ; inline
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M: fixnum u>= fixnum>= ; inline
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M: fixnum min over fixnum? [ fixnum-min ] [ call-next-method ] if ; inline
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M: fixnum max over fixnum? [ fixnum-max ] [ call-next-method ] if ; inline
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M: fixnum + fixnum+ ; inline
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M: fixnum - fixnum- ; inline
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M: fixnum * fixnum* ; inline
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M: fixnum /i fixnum/i ; inline
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M: fixnum mod fixnum-mod ; inline
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M: fixnum /mod fixnum/mod ; inline
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M: fixnum bitand fixnum-bitand ; inline
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M: fixnum bitor fixnum-bitor ; inline
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M: fixnum bitxor fixnum-bitxor ; inline
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M: fixnum shift integer>fixnum fixnum-shift ; inline
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M: fixnum bitnot fixnum-bitnot ; inline
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: fixnum-bit? ( n m -- b )
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neg shift 1 bitand zero? not ; inline
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M: fixnum bit? fixnum-bit? ; inline
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: fixnum-log2 ( x -- n )
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0 swap [ dup 1 eq? ] [ [ 1 + ] [ 2/ ] bi* ] until drop ; inline
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M: fixnum (log2) fixnum-log2 ; inline
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M: bignum >fixnum bignum>fixnum ; inline
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M: bignum >bignum ; inline
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M: bignum integer>fixnum bignum>fixnum ; inline
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M: bignum integer>fixnum-strict
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dup bignum>fixnum
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2dup number= [ nip ] [ drop out-of-fixnum-range ] if ; inline
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M: bignum hashcode* nip bignum>fixnum ;
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M: bignum equal?
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over bignum? [ bignum= ] [
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swap dup fixnum? [ >bignum bignum= ] [ 2drop f ] if
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] if ; inline
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M: bignum number= bignum= ; inline
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M: bignum < bignum< ; inline
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M: bignum <= bignum<= ; inline
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M: bignum > bignum> ; inline
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M: bignum >= bignum>= ; inline
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M: bignum u< bignum< ; inline
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M: bignum u<= bignum<= ; inline
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M: bignum u> bignum> ; inline
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M: bignum u>= bignum>= ; inline
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M: bignum + bignum+ ; inline
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M: bignum - bignum- ; inline
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M: bignum * bignum* ; inline
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M: bignum /i bignum/i ; inline
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M: bignum mod bignum-mod ; inline
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M: bignum /mod bignum/mod ; inline
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M: bignum bitand bignum-bitand ; inline
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M: bignum bitor bignum-bitor ; inline
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M: bignum bitxor bignum-bitxor ; inline
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M: bignum shift integer>fixnum bignum-shift ; inline
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M: bignum bitnot bignum-bitnot ; inline
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M: bignum bit? bignum-bit? ; inline
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M: bignum (log2) bignum-log2 ; inline
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! Converting ratios to floats. Based on FLOAT-RATIO from
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! sbcl/src/code/float.lisp, which has the following license:
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! "The software is in the public domain and is
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! provided with absolutely no warranty."
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! First step: pre-scaling
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: twos ( x -- y ) dup 1 - bitxor log2 ; inline
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: scale-denonimator ( den -- scaled-den scale' )
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dup twos neg [ shift ] keep ; inline
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: (epsilon?) ( num shift -- ? )
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dup neg? [ neg 2^ 1 - bitand zero? not ] [ 2drop f ] if ; inline
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: pre-scale ( num den -- epsilon? mantissa den' scale )
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2dup [ log2 ] bi@ -
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[ neg 54 + [ (epsilon?) ] [ shift ] 2bi ]
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[ [ scale-denonimator ] dip + ] bi-curry bi* ; inline
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! Second step: loop
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: (2/-with-epsilon) ( epsilon? num -- epsilon?' num' )
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[ 1 bitand zero? not or ] [ 2/ ] bi ; inline
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: /f-loop ( epsilon? mantissa den scale -- epsilon?' fraction-and-guard rem scale' )
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[ 2over /i log2 53 > ]
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[ [ (2/-with-epsilon) ] [ ] [ 1 + ] tri* ] while
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[ /mod ] dip ; inline
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! Third step: post-scaling
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: scale-float ( mantissa scale -- float' )
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{
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{ [ dup 1024 > ] [ 2drop 1/0. ] }
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{ [ dup -1023 < ] [ 1021 + shift bits>double ] }
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[ [ 52 2^ 1 - bitand ] dip 1022 + 52 shift bitor bits>double ]
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} cond ; inline
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: post-scale ( mantissa scale -- n )
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[ 2/ ] dip over log2 52 > [ [ 2/ ] [ 1 + ] bi* ] when
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scale-float ; inline
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: round-to-nearest ( epsilon? fraction-and-guard rem -- fraction-and-guard' )
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over odd?
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[
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zero? [
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dup 2 bitand zero? not rot or [ 1 + ] when
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] [ nip 1 + ] if
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] [ drop nip ] if ;
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inline
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! Main word
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: /f-abs ( m n -- f )
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over zero? [ nip zero? 0/0. 0.0 ? ] [
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[ drop 1/0. ] [
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pre-scale
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/f-loop
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[ round-to-nearest ] dip
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post-scale
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] if-zero
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] if ; inline
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: bignum/f ( m n -- f )
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[ [ abs ] bi@ /f-abs ] [ [ 0 < ] bi@ xor ] 2bi [ neg ] when ; inline
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M: bignum /f ( m n -- f ) { bignum bignum } declare bignum/f ;
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CONSTANT: bignum/f-threshold 0x20,0000,0000,0000
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: fixnum/f ( m n -- m/n )
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[ >float ] bi@ float/f ; inline
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M: fixnum /f
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{ fixnum fixnum } declare
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2dup [ abs bignum/f-threshold >= ] either?
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[ bignum/f ] [ fixnum/f ] if ; inline
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: bignum>float ( bignum -- float )
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{ bignum } declare 1 >bignum bignum/f ;
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M: bignum >float bignum>float ; inline
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