836c97f0ac
git-svn-id: svn://kolibrios.org@553 a494cfbc-eb01-0410-851d-a64ba20cac60
238 lines
10 KiB
NASM
238 lines
10 KiB
NASM
;*****************************************************************************
|
|
;*
|
|
;* Open Watcom Project
|
|
;*
|
|
;* Portions Copyright (c) 1983-2002 Sybase, Inc. All Rights Reserved.
|
|
;*
|
|
;* ========================================================================
|
|
;*
|
|
;* This file contains Original Code and/or Modifications of Original
|
|
;* Code as defined in and that are subject to the Sybase Open Watcom
|
|
;* Public License version 1.0 (the 'License'). You may not use this file
|
|
;* except in compliance with the License. BY USING THIS FILE YOU AGREE TO
|
|
;* ALL TERMS AND CONDITIONS OF THE LICENSE. A copy of the License is
|
|
;* provided with the Original Code and Modifications, and is also
|
|
;* available at www.sybase.com/developer/opensource.
|
|
;*
|
|
;* The Original Code and all software distributed under the License are
|
|
;* distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
|
|
;* EXPRESS OR IMPLIED, AND SYBASE AND ALL CONTRIBUTORS HEREBY DISCLAIM
|
|
;* ALL SUCH WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF
|
|
;* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR
|
|
;* NON-INFRINGEMENT. Please see the License for the specific language
|
|
;* governing rights and limitations under the License.
|
|
;*
|
|
;* ========================================================================
|
|
;*
|
|
;* Description: WHEN YOU FIGURE OUT WHAT THIS FILE DOES, PLEASE
|
|
;* DESCRIBE IT HERE!
|
|
;*
|
|
;*****************************************************************************
|
|
|
|
|
|
; double modf( double value, double *iptr );
|
|
;
|
|
; Description:
|
|
; The modf function breaks the argument value into integral and
|
|
; fractional parts, each of which has the same sign as the argument.
|
|
; It stores the integral part as a double in the object pointed to
|
|
; by iptr.
|
|
;
|
|
; Returns:
|
|
; The modf function returns the signed fractional part of value.
|
|
;
|
|
; 18-oct-86 ... Fraction in Modf not computed right
|
|
; significant digits
|
|
;
|
|
include mdef.inc
|
|
include struct.inc
|
|
|
|
modstart amodf386
|
|
|
|
xdefp __ModF
|
|
xdefp __ZBuf2F
|
|
|
|
;[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]
|
|
;[]
|
|
;[] __ModF
|
|
;[]
|
|
;[] void __ModF( double near *AX, double near *DX );
|
|
;[] Input: EAX - pointer to double precision float
|
|
;[] EDX - place to store integral part
|
|
;[] Output: [EAX] - fractional part of value.
|
|
;[] [EDX] - integral part of value
|
|
;[]
|
|
;[][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][][]
|
|
|
|
defpe __ModF
|
|
push EBP ; save BP
|
|
push ESI ; save SI
|
|
push EDI ; save DI
|
|
push ECX ; save CX
|
|
push EBX ; save BX
|
|
mov ESI,EDX ; get address for ipart
|
|
mov EBP,EAX ; get address of float
|
|
mov EAX,0[EBP] ; get float
|
|
mov EDX,4[EBP] ; . . .
|
|
xchg ESI,EBP ; flip pointers
|
|
mov 0[EBP],EAX ; store integral part of value
|
|
mov 4[EBP],EDX ; . . .
|
|
_guess ; guess: fraction is zero
|
|
mov ECX,EDX ; - get exponent
|
|
and ECX,7FF00000h ; - get exponent part of R into DI
|
|
je short done ; - set integer part to 0 if exponent = 0
|
|
cmp ECX,(3FFh+52) shl 20; - check for exponent > 52
|
|
_quif b ; - quit if fraction not zero
|
|
xchg EBP,ESI ; - get address of fractional part
|
|
done: sub EAX,EAX ; - set fraction(or integer) to 0
|
|
mov 4[EBP],EAX ; - . . .
|
|
mov 0[EBP],EAX ; - . . .
|
|
pop EBX ; - restore BX
|
|
pop ECX ; - restore CX
|
|
pop EDI ; - restore DI
|
|
pop ESI ; - restore SI
|
|
pop EBP ; - restore BP
|
|
ret ; - return
|
|
_endguess ; endguess
|
|
mov EDI,ECX ; save exponent
|
|
shr ECX,20 ; move exponent to bottom
|
|
sub CX,03FFh ; remove bias
|
|
jb done ; quit if number < 1.0
|
|
push EDX ; save sign
|
|
sub EAX,EAX ; initialize mask to 0
|
|
mov EDX,0FFF00000h ; ...
|
|
cmp CL,20 ; if exponent > 20
|
|
_if a ; then
|
|
sar EDX,21 ; - set ESI to all ones
|
|
rcr EAX,1 ; - set high bit of EBX
|
|
sub CL,21 ; - get shift count for second part
|
|
sar EAX,CL ; - create rest of mask
|
|
_else ; else
|
|
sar EDX,CL ; - create mask in high part only
|
|
_endif ; endif
|
|
and 4[EBP],EDX ; mask off the remaining fraction bits
|
|
and 0[EBP],EAX ; . . .
|
|
not EDX ; complement the mask to get fractional part
|
|
not EAX ; . . .
|
|
mov EBP,ESI ; get address of fractional part
|
|
and EDX,4[EBP] ; get fraction bits
|
|
and EAX,0[EBP] ; . . .
|
|
call Norm ; normalize the fraction
|
|
pop ESI ; restore sign
|
|
or EDX,EDX ; if fraction is not 0
|
|
_if ne ; then
|
|
and ESI,80000000h ; - isolate sign
|
|
or EDX,ESI ; - set sign in fractional part
|
|
_endif ; endif
|
|
mov 4[EBP],EDX ; store fractional part
|
|
mov 0[EBP],EAX ; . . .
|
|
pop EBX ; restore BX
|
|
pop ECX ; restore CX
|
|
pop EDI ; restore DI
|
|
pop ESI ; restore SI
|
|
pop EBP ; restore BP
|
|
ret ; return
|
|
endproc __ModF
|
|
|
|
|
|
;<><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><>
|
|
;<> <>
|
|
;<> __ZBuf2F - convert buffer of significant digits into floating <>
|
|
;<> void __ZBuf2F( char near *buf, double near *value ) <>
|
|
;<> <>
|
|
;<> input: EAX - address of buffer of significant digits <>
|
|
;<> EDX - place to store value <>
|
|
;<> output: [EDX] - floating point number <>
|
|
;<><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><><>
|
|
|
|
defpe __ZBuf2F
|
|
push EBP ; save BP
|
|
push ESI ; save SI
|
|
push EDI ; save DI
|
|
push ECX ; save CX
|
|
push EBX ; save BX
|
|
push EDX ; save pointer to result
|
|
mov ESI,EAX ; get address of buffer
|
|
sub EDX,EDX ; set 54-bit integer to 0
|
|
sub ECX,ECX ; . . .
|
|
sub EAX,EAX ; zero out EAX
|
|
_loop ; loop (convert digits into 54-bit int)
|
|
mov AL,[ESI] ; - get next digit
|
|
cmp AL,0 ; - quit if at end of buffer
|
|
_quif e ; - . . .
|
|
|
|
;[] multiply current value in EDX:ECX by 10
|
|
|
|
mov EDI,EDX ; - save current value
|
|
mov EBX,ECX ; - ...
|
|
_shl ECX,1 ; - multiply number by 4
|
|
_rcl EDX,1 ; - by shifting left 2 places
|
|
_shl ECX,1 ; - . . .
|
|
_rcl EDX,1 ; - . . .
|
|
add ECX,EBX ; - add original value
|
|
adc EDX,EDI ; - (this will make it times 5)
|
|
_shl ECX,1 ; - shift left to make it times 10
|
|
_rcl EDX,1 ; - . . .
|
|
and AL,0Fh ; - isolate binary digit
|
|
add ECX,EAX ; - add in current digit
|
|
adc EDX,0 ; - . . .
|
|
inc ESI ; - point to next digit in buffer
|
|
_endloop ; endloop
|
|
mov EAX,ECX ; get low order word into EAX
|
|
|
|
;[] Turn the integer in EDX:EAX into a real number
|
|
|
|
mov EDI,(3FFh+52) shl 20; set exponent
|
|
call Norm ; convert the 52 bit integer to a float
|
|
pop EBP ; restore pointer to result
|
|
mov 4[EBP],EDX ; store result
|
|
mov 0[EBP],EAX ; . . .
|
|
pop EBX ; restore BX
|
|
pop ECX ; restore CX
|
|
pop EDI ; restore DI
|
|
pop ESI ; restore SI
|
|
pop EBP ; restore BP
|
|
ret ; return to caller
|
|
endproc __ZBuf2F
|
|
|
|
|
|
;[] Norm normalizes an unsigned real in EDX:EAX
|
|
;[] expects the exponent to be in EDI. The real returned is in 'packed'
|
|
;[] format
|
|
;[] ESI is destroyed
|
|
|
|
Norm proc near ; normalize floating point number
|
|
sub ESI,ESI ; clear out SI
|
|
or ESI,EAX ; see if the integer is zero
|
|
or ESI,EDX ; . . .
|
|
je short Z_52ret ; if integer is zero, return to caller
|
|
test EDX,0FFF00000h ; see if we have to shift forward or backward
|
|
_if e ; if (we haven't shifted msb into bit 53)
|
|
_loop ; - loop
|
|
sub EDI,00100000h ; - - exp <-- exp - 1
|
|
_shl EAX,1 ; - - shift integer left by 1 bit
|
|
_rcl EDX,1 ; - - . . .
|
|
test EDX,0FFF00000h;
|
|
_until ne ; - until( msb is shifted into bit 53 )
|
|
_else ; else (we must shift to the right)
|
|
test EDX,0FFE00000h ; -
|
|
je short done1 ; - if msb is bit 53, we are done
|
|
_loop ; - loop
|
|
add EDI,00100000h ; - - exp <-- exp + 1
|
|
shr EDX,1 ; - - shift integer right by 1 bit
|
|
rcr EAX,1 ; - - . . .
|
|
rcr ESI,1 ; - - save lsb
|
|
test EDX,0FFE00000h; -
|
|
_until e ; - until( msb is bit 53 )
|
|
_rcl ESI,1 ; - get lsb
|
|
adc EAX,0 ; - and use it to round off the number
|
|
adc EDX,0 ; - . . .
|
|
_endif ; endif
|
|
done1: and EDX,000FFFFFh ; clear out implied bit
|
|
or EDX,EDI ; put in exponent
|
|
Z_52ret:ret ; return
|
|
endproc Norm
|
|
|
|
endmod
|
|
end
|