! Copyright (C) 2004, 2010 Slava Pestov, Joe Groff. ! See http://factorcode.org/license.txt for BSD license. USING: kernel math math.private math.order ; IN: math.floats.private : float-unordered? ( x y -- ? ) [ fp-nan? ] either? ; : float-min ( x y -- z ) [ float< ] most ; foldable : float-max ( x y -- z ) [ float> ] most ; foldable M: float >fixnum float>fixnum ; inline M: float >bignum float>bignum ; inline M: float >float ; inline M: float hashcode* nip float>bits ; inline M: float equal? over float? [ float= ] [ 2drop f ] if ; inline M: float number= float= ; inline M: float < float< ; inline M: float <= float<= ; inline M: float > float> ; inline M: float >= float>= ; inline M: float unordered? float-unordered? ; inline M: float u< float-u< ; inline M: float u<= float-u<= ; inline M: float u> float-u> ; inline M: float u>= float-u>= ; inline M: float min over float? [ float-min ] [ call-next-method ] if ; inline M: float max over float? [ float-max ] [ call-next-method ] if ; inline M: float + float+ ; inline M: float - float- ; inline M: float * float* ; inline M: float / float/f ; inline M: float /f float/f ; inline M: float /i float/f >integer ; inline M: real abs dup 0 < [ neg ] when ; inline M: float fp-special? double>bits -52 shift 0x7ff [ bitand ] keep = ; inline M: float fp-nan-payload double>bits 52 2^ 1 - bitand ; inline M: float fp-nan? dup float= not ; M: float fp-qnan? dup fp-nan? [ fp-nan-payload 51 2^ bitand zero? not ] [ drop f ] if ; inline M: float fp-snan? dup fp-nan? [ fp-nan-payload 51 2^ bitand zero? ] [ drop f ] if ; inline M: float fp-infinity? dup fp-special? [ fp-nan-payload zero? ] [ drop f ] if ; inline M: float next-float double>bits dup -0.0 double>bits > [ 1 - bits>double ] [ ! negative non-zero dup -0.0 double>bits = [ drop 0.0 ] [ ! negative zero 1 + bits>double ! positive ] if ] if ; inline M: float prev-float double>bits dup -0.0 double>bits >= [ 1 + bits>double ] [ ! negative dup 0.0 double>bits = [ drop -0.0 ] [ ! positive zero 1 - bits>double ! positive non-zero ] if ] if ; inline M: float fp-sign double>bits 63 bit? ; inline M: float abs double>bits 63 2^ bitnot bitand bits>double ; inline