retroforth/interface/io/floatingpoint.retro
crc 00586f3354 move interfaces to interface/
FossilOrigin-Name: 95a4793e965f0787a8664e4dc3a4f49f66098c30c2a209b6a6d7c2c5fb79193a
2019-11-21 19:48:05 +00:00

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Text

~~~
{{
'io:FloatingPoint var
:identify
@io:FloatingPoint n:zero? [
#2 io:scan-for dup n:negative?
[ drop 'IO_DEVICE_TYPE_0002_NOT_FOUND s:put nl ]
[ !io:FloatingPoint ] choose ] if ;
---reveal---
:io:float-operation identify @io:FloatingPoint io:invoke ;
}}
~~~
# Floating Point
~~~
:n:to-float (n-_f:-n) #0 io:float-operation ;
:s:to-float (s-_f:-n) #1 io:float-operation ;
:f:to-number (f:a-__-n) #2 io:float-operation ;
:f:to-string (f:n-__-s) s:empty dup #3 io:float-operation ;
:f:+ (f:ab-c) #4 io:float-operation ;
:f:- (f:ab-c) #5 io:float-operation ;
:f:* (f:ab-c) #6 io:float-operation ;
:f:/ (f:ab-c) #7 io:float-operation ;
:f:floor (f:ab-c) #8 io:float-operation ;
:f:ceiling (f:f-f) #9 io:float-operation ;
:f:sqrt (f:f-f) #10 io:float-operation ;
:f:eq? (f:ab-c) #11 io:float-operation ;
:f:-eq? (f:ab-c) #12 io:float-operation ;
:f:lt? (f:ab-c) #13 io:float-operation ;
:f:gt? (f:ab-c) #14 io:float-operation ;
:f:depth (-n) #15 io:float-operation ;
:f:dup (f:a-aa) #16 io:float-operation ;
:f:drop (f:a-) #17 io:float-operation ;
:f:swap (f:ab-ba) #18 io:float-operation ;
:f:log (f:ab-c) #19 io:float-operation ;
:f:power (f:ab-c) #20 io:float-operation ;
:f:sin (f:f-f) #21 io:float-operation ;
:f:cos (f:f-f) #22 io:float-operation ;
:f:tan (f:f-f) #23 io:float-operation ;
:f:asin (f:f-f) #24 io:float-operation ;
:f:acos (f:f-f) #25 io:float-operation ;
:f:atan (f:f-f) #26 io:float-operation ;
:f:push (f:f-) #27 io:float-operation ;
:f:pop (f:-f) #28 io:float-operation ;
:f:adepth (-n) #29 io:float-operation ;
:f:square (f:n-m) f:dup f:* ;
:f:over (f:ab-aba) f:push f:dup f:pop f:swap ;
:f:tuck (f:ab-bab) f:dup f:push f:swap f:pop ;
:f:nip (f:ab-b) f:swap f:drop ;
:f:drop-pair (f:ab-) f:drop f:drop ;
:f:dup-pair (f:ab-abab) f:over f:over ;
:f:rot (f:abc-bca) f:push f:swap f:pop f:swap ;
:f:positive? (-f__f:a-) #0 n:to-float f:gt? ;
:f:negative? (-f__f:a-) #0 n:to-float f:lt? ;
:f:negate (f:a-b) #-1 n:to-float f:* ;
:f:abs (f:a-b) f:dup f:negative? [ f:negate ] if ;
:prefix:. (s-__f:-a)
compiling? [ s:keep ] [ s:temp ] choose &s:to-float class:word ; immediate
:f:put (f:a-) f:to-string s:put ;
:f:PI (f:-F) .3.141592 ;
:f:E (f:-F) .2.718281 ;
:f:NAN (f:-n) .0 .0 f:/ ;
:f:INF (f:-n) .1.0 .0 f:/ ;
:f:-INF (f:-n) .-1.0 .0 f:/ ;
:f:nan? (f:n-,-f) f:dup f:-eq? ;
:f:inf? (f:n-,-f) f:INF f:eq? ;
:f:-inf? (f:n-,-f) f:-INF f:eq? ;
:f:round (-|f:a-b)
f:dup f:negative?
[ .0.5 f:- f:ceiling ]
[ .0.5 f:+ f:floor ] choose ;
:f:min (f:nn-n) f:dup-pair f:lt? &f:drop &f:nip choose ;
:f:max (f:nn-n) f:dup-pair f:gt? &f:drop &f:nip choose ;
:f:limit (f:nlu-n) f:swap f:push f:min f:pop f:max ;
:f:between? (f:nlu-n) f:rot f:dup f:push f:rot f:rot f:limit f:pop f:eq? ;
:f:inc (f:n-n) .1 f:+ ;
:f:dec (f:n-n) .1 f:- ;
:f:case (f:ff-,q-)
f:over f:eq? [ f:drop call #-1 ] [ drop #0 ] choose 0; pop drop-pair ;
:f:sign (-n|f:a-)
f:dup .0 f:eq? [ #0 f:drop ] if;
.0 f:gt? [ #1 ] [ #-1 ] choose ;
~~~
---------------------------------------------------------------
# Floating Point Encoding
This implements a means of encoding floating point values
into signed integer cells. The technique is described in
the paper titled "Encoding floating point numbers to shorter
integers" by Kiyoshi Yoneda and Charles Childers.
This will extend the `f:` vocabulary and adds a new `e:`
vocabulary.
## Code & Commentary
Define some constants. The range is slightly reduced from
the standard integer range as the smallest value is used
for NaN.
~~~
n:MAX n:dec 'e:MAX const
n:MAX n:dec n:negate 'e:MIN const
n:MIN 'e:NAN const
n:MAX 'e:INF const
n:MAX n:negate 'e:-INF const
~~~
~~~
:e:n? (u-f) e:MIN n:inc e:MAX n:dec n:between? ;
:e:max? (u-f) e:MAX eq? ;
:e:min? (u-f) e:MIN eq? ;
:e:zero? (u-f) n:zero? ;
:e:nan? (u-f) e:NAN eq? ;
:e:inf? (u-f) e:INF eq? ;
:e:-inf? (u-f) e:-INF eq? ;
:e:clip (u-u) e:MIN e:MAX n:limit ;
~~~
Since 32-bit cells take about 9 decimal digits, if you set
`[ .1e5 ] &f:E1 set-hook`
you will have 5 decimal digits left for the integer part of
the encoded number, which corresponds to 8 decimal digits
decoded.
Encode/decode words to secure dynamic range. This portion
is the essence of the method.
~~~
:f:E1 (-|f:-n)_e-unit_in_float hook .1.e5 ; (decimal_digits_to_shift_left
:f:-shift (|f:n-n)_shift_left f:E1 f:* ;
:f:+shift (|f:n-n)_shift_right f:E1 f:/ ;
:f:signed-sqrt (|f:n-n) f:dup f:sign f:abs f:sqrt n:to-float f:* ;
:f:+encode (|f:n-n) f:signed-sqrt f:-shift ;
:f:-encode (|f:n-n) f:dup f:sign f:+shift f:dup f:* n:to-float f:* ;
:f:signed-square (|f:n-n) f:dup f:sign f:dup f:* n:to-float f:* ;
~~~
Deal with special cases.
~~~
:f:to-e (-e|f:n-)
f:dup f:nan? [ f:drop e:NAN ] if;
f:dup f:inf? [ f:drop e:INF ] if;
f:dup f:-inf? [ f:drop e:-INF ] if;
f:+encode f:round f:to-number e:clip (e
e:MIN [ f:drop ] case
e:MAX [ f:drop ] case ;
:e:to-f (e-|f:-n)
e:NAN [ f:NAN ] case
e:INF [ f:INF ] case
e:-INF [ f:-INF ] case
n:to-float f:-encode ;
~~~
~~~
:f:store (a-|f:n-) [ f:to-e ] dip store ;
:f:fetch (a-|f:-n) fetch e:to-f ;
~~~
~~~
:f:dump-stack (-)
f:depth dup [ f:push ] times
[ f:pop f:dup f:put sp ] times ;
:f:dump-astack (-)
f:adepth dup [ f:pop ] times
[ f:dup f:put sp f:push ] times ;
~~~
~~~
:e:put (e-)
e:MAX [ 'e:MAX s:put ] case
e:MIN [ 'e:MIN s:put ] case
#0 [ 'e:0 s:put ] case
e:NAN [ 'e:NAN s:put ] case
e:INF [ 'e:INF s:put ] case
e:-INF [ 'e:-INF s:put ] case
e:to-f f:put ;
~~~