ReC98/libs/BorlandC/math/scantod.asm

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2014-11-10 00:02:11 +00:00
; enum flagBits
isSuppressed = 1
isHalf = 2
isLong = 4
isLongDouble = 8
isExclusive = 10h
isFarPtr = 20h
; int __cdecl _scantod(int *(__cdecl __near near *Get)(), int (__cdecl __near near *UnGet)(), const void *srceP, int width, int *countP, int *statusP)
__scantod proc near
@@localeDot = byte ptr -19h
@@frac = tbyte ptr -18h
@@status = word ptr -0Eh
@@ct = word ptr -0Ch
@@ExpOflow = byte ptr -9
@@expSign = byte ptr -8
@@saw_sign = byte ptr -7
@@FirstDigit = byte ptr -6
@@sign = byte ptr -5
@@digits = word ptr -4
@@decimals = word ptr -2
@@Get = word ptr 4
@@UnGet = word ptr 6
@@srceP = DPTR_ 8
@@width = word ptr (8 + dPtrSize)
@@countP = DPTR_ (8 + dPtrSize + 2)
@@statusP = DPTR_ (8 + dPtrSize + 2 + dPtrSize)
push bp
mov bp, sp
sub sp, 1Ah
push si
push di
mov [bp+@@sign], 0
mov [bp+@@FirstDigit], 1
mov [bp+@@saw_sign], 0
mov [bp+@@expSign], 0
mov [bp+@@ExpOflow], 0
mov [bp+@@ct], 0
mov [bp+@@status], 1
fldz
fstp [bp+@@frac]
fwait
les bx, __localeconvention
mov al, es:[bx]
mov [bp+@@localeDot], al
mov si, 8000h
mov di, -2
std_nextBlank:
inc [bp+@@ct]
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
call [bp+@@Get]
popCX_
pop cx
or ax, ax
jge short not_instantEOF
jmp std_EOF
not_instantEOF:
cbw
xchg ax, bx
test bl, 80h
jnz short std_notSpace
ifdef __HUGE__
mov ax, seg __ctype
mov es, ax
test es:(__ctype+1)[bx], _IS_SP
else
test (__ctype+1)[bx], _IS_SP
endif
jnz short std_nextBlank
std_notSpace:
xchg ax, bx
dec [bp+@@width]
jl short std_fractionLimited
cmp al, '+'
jz short std_signSeen
cmp al, '-'
jnz short std_fracChar
inc [bp+@@sign]
std_signSeen:
inc [bp+@@saw_sign]
std_fracLoop:
dec [bp+@@width]
jl short std_fractionLimited
inc [bp+@@ct]
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
call [bp+@@Get]
popCX_
pop cx
cmp [bp+@@FirstDigit], 1
jnz short std_fracChar
cmp [bp+@@saw_sign], 0
jz short std_fracChar
cmp al, 'I'
jz short relPossibleINF
cmp al, 'N'
jz short relPossibleNAN
jmp short std_fracChar
relPossibleINF:
jmp PossibleINF
relPossibleNAN:
jmp PossibleNAN
std_fracChar:
mov [bp+@@FirstDigit], 0
cmp al, [bp+@@localeDot]
jz short std_fracPoint
cmp al, '9'
ja short std_fracEndJmp
cmp al, '0'
jb short std_fracEndJmp
sub al, '0'
cbw
inc di
jg short std_notFirst
mov byte ptr [bp+@@frac], al
mov di, 1
or al, al
jnz short std_fracLoop
neg di
cmp si, 8000h
jz short std_fracLoop
dec si
jmp short std_fracLoop
std_fractionLimited:
mov al, 'e'
jmp_to_fracEnd:
jmp std_fracEnd
std_EOF:
mov [bp+@@status], EOF
jmp short std_noResult
std_fracEndJmp:
jmp std_fracEnd
std_fracPoint:
cmp si, 8000h
jnz short jmp_to_fracEnd
sub si, si
or di, di
jle short std_fracLoop
mov si, di
jmp short std_fracLoop
std_notFirst:
cmp di, 5
ja short std_beyond5
xchg ax, bx
mov ax, 10
mul word ptr [bp+@@frac]
add ax, bx
adc dl, dh
mov word ptr [bp+@@frac], ax
mov word ptr [bp+@@frac+2], dx
jmp std_fracLoop
std_beyond5:
cmp di, 18
ja short jmp_frac_loop
xchg ax, bx
mov ax, 10
mul word ptr [bp+@@frac+6]
mov word ptr [bp+@@frac+6], ax
mov ax, 10
mul word ptr [bp+@@frac+4]
mov word ptr [bp+@@frac+4], ax
push dx
mov ax, 10
mul word ptr [bp+@@frac+2]
mov word ptr [bp+@@frac+2], ax
push dx
mov ax, 10
mul word ptr [bp+@@frac]
add ax, bx
mov word ptr [bp+@@frac], ax
adc word ptr [bp+@@frac+2], dx
pop dx
adc word ptr [bp+@@frac+4], dx
pop dx
adc word ptr [bp+@@frac+6], dx
jmp_frac_loop:
jmp std_fracLoop
std_noDigitSeen:
mov [bp+@@status], 0
std_noResult:
cmp [bp+@@width], 0
jl short std_fldz
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
push ax
call [bp+@@UnGet]
add sp, 2 + dPtrSize
dec [bp+@@ct]
std_fldz:
fldz
jmp std_end
std_fracEnd:
cmp di, -2
jz short std_noDigitSeen
cmp si, 8000h
jnz short std_exponent
mov si, di
std_exponent:
mov [bp+@@digits], di
mov [bp+@@decimals], si
sub di, di
cmp al, 'E'
jz short std_present
cmp al, 'e'
jnz short std_combine
std_present:
dec [bp+@@width]
jl short std_exponentLimited
inc [bp+@@ct]
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
call [bp+@@Get]
popCX_
pop cx
cmp al, '+'
jz short std_expNext
cmp al, '-'
jnz short std_expGotNext
inc [bp+@@expSign]
std_expNext:
dec [bp+@@width]
jl short std_exponentLimited
inc [bp+@@ct]
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
call [bp+@@Get]
popCX_
pop cx
std_expGotNext:
cmp al, '9'
ja short std_combine
sub al, '0'
jb short std_expNonDigit
cbw
xchg ax, di
mov dx, 10
mul dx
add di, ax
cmp di, 4932
jle short std_expNext
xor di, di
mov [bp+@@ExpOflow], 1
jmp short std_expNext
std_expNonDigit:
add al, '0'
std_combine:
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
push ax
call [bp+@@UnGet]
add sp, 2 + dPtrSize
dec [bp+@@ct]
std_exponentLimited:
test [bp+@@expSign], 0FFh
jz short skip_neg
neg di
neg [bp+@@ExpOflow]
skip_neg:
mov bx, [bp+@@digits]
or bx, bx
jge short std_nonZero
fldz
jmp short std_end
std_nonZero:
mov cx, [bp+@@decimals]
mov ax, cx
add ax, di
cmp [bp+@@ExpOflow], 1
jz short std_isInfinite
cmp [bp+@@ExpOflow], -1
jnz short std_isNormal
fldz
jmp short status2
std_isInfinite:
mov ax, -1
mov word ptr [bp+@@frac], ax
mov word ptr [bp+@@frac+2], ax
mov word ptr [bp+@@frac+4], ax
mov word ptr [bp+@@frac+6], ax
mov word ptr [bp+@@frac+8], 7FFEh
fld [bp+@@frac]
status2:
mov [bp+@@status], 2
jmp short std_end
std_isNormal:
mov ax, bx
cmp bx, 18
jbe short std_usualPoint
mov bx, 18
std_usualPoint:
add ax, cx
sub cx, bx
add di, cx
fild qword ptr [bp+@@frac]
mov ax, di
or ax, ax
jz short std_end
jge short std_pow
neg ax
std_pow:
push ax
nopcall _pow10
pop ax
or di, di
jge short std_expPlus
fdivp st(1), st
jmp short std_end
std_expPlus:
fmulp st(1), st
std_end:
cmp [bp+@@sign], 0
jz short std_exit
fchs
std_exit:
LES_ di, [bp+@@countP]
mov bx, [bp+@@ct]
add ES_[di], bx
LES_ di, [bp+@@statusP]
mov bx, [bp+@@status]
mov ES_[di], bx
jmp @@end
PossibleINF:
inc [bp+@@ct]
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
call [bp+@@Get]
popCX_
pop cx
dec [bp+@@width]
jl short Didnt_pan_out
cmp al, 'N'
jnz short Didnt_pan_out
inc [bp+@@ct]
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
call [bp+@@Get]
popCX_
pop cx
dec [bp+@@width]
jl short Didnt_pan_out
cmp al, 'F'
jnz short Didnt_pan_out
cmp [bp+@@sign], 0
jz short positive_INF
fld INFM
jmp short std_exit
positive_INF:
fld INF
jmp short std_exit
PossibleNAN:
inc [bp+@@ct]
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
call [bp+@@Get]
popCX_
pop cx
dec [bp+@@width]
jl short Didnt_pan_out
cmp al, 'A'
jnz short Didnt_pan_out
inc [bp+@@ct]
if LDATA
push word ptr [bp+@@srceP+2]
endif
push word ptr [bp+@@srceP]
call [bp+@@Get]
popCX_
pop cx
dec [bp+@@width]
jl short Didnt_pan_out
cmp al, 'N'
jnz short Didnt_pan_out
cmp [bp+@@sign], 0
jz short positive_NAN
fld NANM
jmp std_exit
positive_NAN:
fld NAN
jmp std_exit
Didnt_pan_out:
mov [bp+@@status], 0
jmp std_noDigitSeen
@@end:
pop di
pop si
mov sp, bp
pop bp
ret
__scantod endp
; void __cdecl __near _scanpop()
__scanpop proc near
push bp
mov bp, sp
fstp st
pop bp
ret
__scanpop endp
; void __cdecl __near _scanrslt(void *rsltP, int rsltType)
__scanrslt proc near
@@tempQuad = qword ptr -20h
@@tempLong = tbyte ptr -18h
@@temp = tbyte ptr -0Ah
@@rsltP = DPTR_ (4)
@@rsltType = word ptr (4 + dPtrSize)
push bp
mov bp, sp
sub sp, 0Ah
push si
mov si, [bp+@@rsltType]
fstp [bp+@@temp]
test si, isLong
jz short @@longDouble?
mov ax, 1
push ax
fld [bp+@@temp]
sub sp, 0Ah
fstp [bp+@@tempLong]
fld qword ptr _huge_dble
sub sp, 8
fstp [bp+@@tempQuad]
fwait
call __ldtrunc
LES_ bx, [bp+@@rsltP]
fstp qword ptr ES_[bx]
jmp short @@ret
@@longDouble?:
test si, isLongDouble
jz short @@single
LES_ bx, [bp+@@rsltP]
fld [bp+@@temp]
fstp tbyte ptr ES_[bx]
jmp short @@ret
@@single:
xor ax, ax
push ax
fld [bp+@@temp]
sub sp, 0Ah
fstp [bp+@@tempLong]
fld qword ptr INF_QUAD
sub sp, 8
fstp [bp+@@tempQuad]
fwait
call __ldtrunc
LES_ bx, [bp+@@rsltP]
fstp dword ptr ES_[bx]
@@ret:
fwait
pop si
mov sp, bp
pop bp
ret
__scanrslt endp
_turboFloat proc
push bp
mov bp, sp
pop bp
ret
_turboFloat endp