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float.f
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\ hi level floating point library
\ From Forth Dimensions vol IV # 1
\ author Michael Jesch
\ adapted to 32 bits system by PICATOUT
\ float format:
\ seee eeee smmm mmmm mmmm mmmm mmmm mmmm
\ 'm' mantissa bits
\ 's' sign bit
\ 'e' exponent bits
\ mantissa 24 bits 2's complement signed
\ exponent 8 bits 2's complement signed
PRESET
FLOAT \ forget float library if already loaded
MARK FLOAT \ float vocabulary bound
VARIABLE FPSW \ floating point state flags
VARIABLE FBASE \ floating point base
: FRESET ( -- ) \ reset state
0 FPSW C! ;
: FINIT ( -- ) \ initialize floating point library
FRESET BASE @ FBASE ! ;
: FER FPSW C@ ; \ return all flags
: FZE ( -- zeroflag ) \ return zero flag
FER 1 AND 0= NOT ;
: FNE FER ( -- negflag ) \ return negative flag
2 AND 0= NOT ;
: FOV ( -- ovf_flag ) \ return overflow flag
FER 4 AND 0= NOT ;
: SFZ ( f# -- f# ; z ) \ set zero flag from float on TOS
FER $FE AND OVER $FFFFFF AND 0= 1 AND OR FPSW C! ;
: SFN FER ( f# -- f# ; n ) \ set negative flag from float on TOS
$FD AND OVER $800000 AND 22 RSHIFT OR FPSW C! ;
: @EXPONENT ( F# -- m e ; z n ) \ split mantissa and exponent, set flags
FRESET SFZ SFN DUP
FNE IF $FF000000 OR ELSE $FFFFFF AND THEN SWAP \ sign extend mantissa
24 RSHIFT \ exponent
;
: !EXPONENT ( m e -- f# ; z n v )
\ format float from mantissa and exponent
DUP ABS 255 > IF 4 FPSW C! $FF AND THEN \ exponent overflow
OVER ABS $7FFFFF > IF 4 FPSW C! THEN \ mantissa overflow
24 LSHIFT SWAP
$FFFFFF AND OR
SFZ SFN ;
\ print float in scientific notation
\ d.fffffE[-]ee
: E. ( F# -- )
SPACE
DUP $FFFFFF AND
0= IF
DROP
." 0.0"
ELSE
SPACE
BASE @ >R
FBASE @ BASE !
@EXPONENT
SWAP
DUP >R \ save mantissa copy
FNE IF ABS THEN
S>D
<#
BEGIN
# ROT 1+ -ROT
OVER BASE @ U< UNTIL
[CHAR] . HOLD
#S R> SIGN #> TYPE
?DUP IF
[CHAR] E EMIT
DUP 0< IF
ABS
[CHAR] - EMIT
THEN
S>D <# #S #> TYPE
THEN
R> BASE !
THEN
;
: F. ( F# -- )
\ print float in fixed point format
DUP @EXPONENT >R
I ABS 32 U> IF
R> 2DROP E.
ELSE
SPACE
FNE IF ABS THEN
S>D
<#
I 0< IF
I ABS 0 DO # LOOP [CHAR] . HOLD
ELSE
[CHAR] . HOLD I IF
I 0 DO [CHAR] 0 HOLD LOOP
THEN
THEN
R> DROP
#S SWAP 8 LSHIFT SIGN #> TYPE
THEN
;
\ float product
: F* ( F#1 F#2 -- F#3 )
@EXPONENT >R
SWAP @EXPONENT R> + >R
M* DUP 31 RSHIFT -ROT
DABS
BEGIN
2DUP $7FFFFF S>D UD> WHILE
10 D/MOD ROT DROP
R> 1+ >R
REPEAT
DROP SWAP IF NEGATE $FFFFFF AND THEN
R> !EXPONENT
;
\ float division
: F/ ( F#1 F#2 -- F#1/F#2 )
@EXPONENT >R
SWAP @EXPONENT R> + >R
SWAP /
R> !EXPONENT
;
\ align 2 floats to same exponent
\ for addition or substraction
: F-ALIGN ( F#1 F#2 -- M1 M2 E )
@EXPONENT >R
SWAP @EXPONENT ROT R>
BEGIN
>R SWAP >R
J I <> WHILE
J I < IF \ J IS E2
SWAP FBASE @ * SWAP R> 1- SWAP R>
ELSE
R> SWAP FBASE @ * R> 1-
THEN
REPEAT
R> R> DROP
;
\ add 2 floats
: F+ ( f#1 f#2 -- f#1+f#2 )
F-ALIGN
>R +
R> !EXPONENT
;
\ substract 2 floats
: F- ( f#1 f#2 -- f#1-f#2 )
F-ALIGN
>R -
R> !EXPONENT
;
\ increment number
\ of digits displayed after '.'
\ when using F.
: RSCALE ( F# -- F# )
@EXPONENT
1-
SWAP FBASE @ *
SWAP !EXPONENT
;
\ decrement number
\ of digits diplayed after '.'
\ when using F.
: LSCALE ( f# -- f# )
@EXPONENT 1+
SWAP FBASE @ /
SWAP !EXPONENT
;
\ convert float to single
: F>S ( F# -- S )
@EXPONENT >R
BEGIN
I WHILE
I 0> IF
FBASE @ * R> 1- >R
ELSE
FBASE @ / R> 1+ >R
THEN
REPEAT
R> DROP
;
\ convert single to float
: S>F ( s -- f# )
DUP 0< IF
ABS -1
ELSE
0
THEN
SWAP
0
BEGIN
>R
DUP $7FFFFF > WHILE
FBASE @ /
R> 1+
REPEAT
SWAP
IF NEGATE $FFFFFF AND THEN
R> 24 LSHIFT OR
;
\ float absulute value
: FABS ( f# -- f# )
@EXPONENT
SWAP ABS
SWAP !EXPONENT
;
\ float negate
: FNEGATE ( f# -- f# )
@EXPONENT
SWAP
NEGATE
SWAP
!EXPONENT
;
\ float min
: FMIN ( f#1 f#2 -- smallest float )
2DUP
F-ALIGN
DROP
< IF DROP ELSE SWAP DROP THEN
;
\ float max
: FMAX ( f#1 f#2 -- largest float )
2DUP
F-ALIGN
DROP
< IF SWAP DROP ELSE DROP THEN
;
\ f#1 > f#2
: F> ( f#1 f#2 -- f )
F-ALIGN
DROP
>
;
\ f#1 < f#2
: F< ( f#1 f#2 -- f )
F-ALIGN
DROP
<
;
\ check for charcter c
\ move pointer if true
: C? ( a c -- a+ t | a f )
SWAP
COUNT
ROT
= DUP NOT IF
SWAP 1- SWAP
THEN
;
\ parse digits
\ d digits count
\ n parsed integer
\ a+ updated pointer
: PARSE_DIGITS ( d n a -- d+ n+ a+ )
BEGIN
COUNT FBASE @ DIGIT? WHILE
ROT FBASE @ * + SWAP
ROT 1+ -ROT
REPEAT
DROP
1- \ decrement a
;
\ check for exponent
: EXPONENT ( a -- e a+ )
[CHAR] E C? IF
[CHAR] - C? >R
0 0 ROT
PARSE_DIGITS
ROT DROP \ discard digits count
R> IF SWAP NEGATE SWAP THEN
ELSE
0 SWAP
THEN
;
\ parse float number
: FLOAT? ( a -- f# -2 | a 0 )
\ simpler to find the end of null terminated string
DUP ASCIZ
0 0 ROT \ -- a d n asciz
\ check for sign
[CHAR] - C? >R
PARSE_DIGITS
ROT DROP \ d not used
0 -ROT \ reset it
\ check for '.'
[CHAR] . C?
IF PARSE_DIGITS
ROT NEGATE -ROT \ negate digit count
THEN
EXPONENT
\ a d n e asciz
COUNT 0= IF
DROP \ a d n e
ROT + \ a n e-
ROT DROP
SWAP
R> IF NEGATE THEN
SWAP !EXPONENT
-2
ELSE
2DROP 2DROP
0
THEN
;
FINIT