reactos/win32ss/gdi/eng/i386/floatobj.S

1171 lines
30 KiB
ArmAsm

/*
* COPYRIGHT: LGPL, see LGPL.txt in the top level directory
* PROJECT: ReactOS Win32 subsystem
* PURPOSE: FLOATOBJ floating point emulation functions for x86
* FILE: win32ss/gdi/eng/i386/floatobj.S
* PROGRAMMER: Timo Kreuzer
*/
#include <asm.inc>
.code
/*******************************************************************************
* IEEE 754-1985 single precision floating point
*
* | 31 | 30...23 | 22...0 |
* |sign| exponent | fraction |
*
* mantissa = 1 + (fraction / 2^23)
* f = (-1)^sign * mantissa * 2 ^ (exponent - bias)
* bias = 127
*
*******************************************************************************
* win32k x86 floating point emulation
*
* struct _EFLOAT
= {
* LONG lMant;
* LONG lExp;
* };
*
* f = (lMant / 0x40000000) * 2 ^ (lExp - 2)
* = lMant * 2 ^ (lExp - 32)
*
*******************************************************************************
* Optimization notes:
*
* - shld is slow (4 cycles) and not pairable, mov + shl is faster
* - esp is used, because it's available earlier
* - bsr is very slow on old cpus (up to 72 cycles on a p1) while being much
* faster on modern cpus (2-11 cycles). Workarounds using branch trees or
* table lookups are of no use nowadays.
*******************************************************************************
* Compatibility notes:
* - There are issues with very large size values near integer overflow.
* Floating point values are behaving different there. This behavior isn't
* simulated yet. Difference is < 10^-5 %
* - The result of a multiplication can differ from Windows result in the
* least significant bit, that is a difference of 1 / 2^30 or ~10^-9
*******************************************************************************
* Implementation status:
*
* FLOATOBJ_SetFloat - implemented, tested
* FLOATOBJ_SetLong - implemented, tested
* FLOATOBJ_GetFloat - implemented, tested
* FLOATOBJ_GetLong - implemented, tested
* FLOATOBJ_Equal - implemented, tested
* FLOATOBJ_EqualLong - implemented
* FLOATOBJ_GreaterThan - implemented
* FLOATOBJ_GreaterThanLong - wrapper
* FLOATOBJ_LessThan - implemented
* FLOATOBJ_LessThanLong - wrapper
* FLOATOBJ_Neg - implemented
* FLOATOBJ_Mul - implemented, tested, optimized
* FLOATOBJ_MulFloat - wrapper
* FLOATOBJ_MulLong - wrapper, could really need optimization
* FLOATOBJ_Div - implemented
* FLOATOBJ_DivFloat - wrapper
* FLOATOBJ_DivLong - wrapper
* FLOATOBJ_Add - implemented, tested
* FLOATOBJ_AddFloat - wrapper
* FLOATOBJ_AddLong - wrapper
* FLOATOBJ_Sub - implemented, tested
* FLOATOBJ_SubFloat - wrapper
* FLOATOBJ_SubLong - wrapper
*/
#define lMant 0
#define lExp 4
#define PARAM1 8
#define PARAM2 12
/** Globals **/
/* extern const FLOATOBJ gef0; */
PUBLIC _gef0
_gef0:
.long 0, 0
/* extern const FLOATOBJ gef1; */
PUBLIC _gef1
_gef1:
.long HEX(40000000), HEX(00000002)
/* extern const FLOATOBJ gef16; */
PUBLIC _gef16
_gef16:
.long HEX(40000000), HEX(00000006)
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_SetFloat(IN OUT PFLOATOBJ pf, IN FLOATL f);
*/
_FLOATOBJ_SetFloat@8:
PUBLIC _FLOATOBJ_SetFloat@8
push ebp
mov ebp, esp
mov ecx, [esp + PARAM2] /* Load the float into ecx */
mov eax, ecx /* Copy float to eax for later */
test ecx, HEX(7f800000) /* Check for zero exponent - 0 or denormal */
jz SetFloat0 /* If it's all zero, ... */
shl ecx, 7 /* Put the bits for the mantissa in place */
cdq /* Fill edx with the sign from the FLOATL in eax */
and ecx, HEX(7fffffff) /* Mask out invalid field in the mantissa */
shr eax, 23 /* Shift the exponent in eax in place */
or ecx, HEX(40000000) /* Set bit for 1 in the mantissa */
and eax, HEX(0ff) /* Mask out invalid fields in the exponent in eax */
xor ecx, edx /* Make use of the sign bit expanded to full edx */
sub eax, 125 /* Adjust exonent bias */
sub ecx, edx /* Substract -1 or add 1 if sign was set */
mov edx, [esp + PARAM1] /* Load pf into edx */
mov [edx + lMant], ecx /* Save back mantissa */
mov [edx + lExp], eax /* Save back exponent */
pop ebp /* Return */
ret 8
SetFloat0:
mov edx, [esp + PARAM1] /* Load pf into edx */
mov dword ptr [edx + lMant], 0 /* Set mantissa and exponent to 0 */
mov dword ptr [edx + lExp], 0
pop ebp /* Return */
ret 8
/*******************************************************************************
* LONG
* APIENTRY
* FLOATOBJ_GetFloat(IN PFLOATOBJ pf);
*
*/
_FLOATOBJ_GetFloat@4:
PUBLIC _FLOATOBJ_GetFloat@4
push ebp
mov ebp, esp
mov edx, [esp + PARAM1] /* Load pf into edx */
mov eax, [edx + lMant] /* Load mantissa into eax */
mov ecx, [edx + lExp] /* Load exponent into ecx */
cdq /* Calculate abs(mantissa) */
xor eax, edx
add ecx, 125
sub eax, edx
jz GetFloatRet
and ecx, HEX(0ff) /* Mask out invalid fields in the exponent */
and eax, HEX(3fffffff) /* Mask out invalid fields in mantissa */
shl ecx, 23 /* Shift exponent in place */
shr eax, 7 /* Shift mantissa in place */
and edx, HEX(80000000) /* Reduce edx to sign bit only */
or eax, ecx /* Set exponent in result */
or eax, edx /* Set sign bit in result */
GetFloatRet:
/* Return */
pop ebp
ret 4
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_SetLong(OUT PFLOATOBJ pf, IN LONG l);
*
* Instead of using abs(l), which is 3 + 2 instructions, use a branch.
*/
_FLOATOBJ_SetLong@8:
PUBLIC _FLOATOBJ_SetLong@8
push ebp
mov ebp, esp
mov eax, [esp + PARAM2] /* Load l into eax */
mov edx, [esp + PARAM1] /* Load pf into edx */
test eax, eax /* different handling for <0, =0 and >0 */
js SetLongNeg
jz SetLong0
bsr ecx, eax /* Get number of most significant bit aka log2(l) */
mov [edx + lExp], ecx /* Safe log2(l) into exponent */
neg ecx /* Calculate necessary shift */
add ecx, 30
add dword ptr [edx + lExp], 2 /* Adjust exponent */
shl eax, cl /* Shift mantissa in place */
mov [edx + lMant], eax /* Save mantissa */
pop ebp /* Return */
ret 8
SetLongNeg:
neg eax /* Get absolute value of l */
bsr ecx, eax /* Get number of most significant bit aka log2(l) */
neg eax /* Back to negative */
mov [edx + lExp], ecx /* Safe log2(-l) into exponent */
neg ecx /* Calculate necessary shift */
add ecx, 30
add dword ptr [edx + lExp], 2 /* Adjust exponent */
shl eax, cl /* Shift mantissa in place */
mov [edx + lMant], eax /* Save mantissa */
pop ebp /* Return */
ret 8
SetLong0:
mov dword ptr [edx + lMant], 0 /* Set mantissa and exponent to 0 */
mov dword ptr [edx + lExp], 0
pop ebp /* Return */
ret 8
/*******************************************************************************
* LONG
* APIENTRY
* FLOATOBJ_GetLong(IN PFLOATOBJ pf);
*
*/
_FLOATOBJ_GetLong@4:
PUBLIC _FLOATOBJ_GetLong@4
push ebp
mov ebp, esp
mov edx, [ebp + PARAM1] /* Load pf into edx */
mov ecx, 32 /* Load (32 - lExp) into ecx */
sub ecx, [edx + lExp]
jle short GetLong2 /* Check for Overflow */
mov eax, [edx + lMant] /* Load mantissa into eax */
sar eax, cl /* Signed shift mantissa according to exponent */
pop ebp /* Return */
ret 4
GetLong2:
xor eax, eax /* Overflow, return 0 */
pop ebp
ret 4
/******************************************************************************
* BOOL
* APIENTRY
* FLOATOBJ_Equal(IN PFLOATOBJ pf1, IN PFLOATOBJ pf2);
*/
_FLOATOBJ_Equal@8:
PUBLIC _FLOATOBJ_Equal@8
push ebp
mov ebp, esp
mov ecx, [esp + PARAM1] /* Load pf1 into ecx */
mov eax, [esp + PARAM2] /* Load pf2 into ecx */
mov edx, [ecx + lExp] /* Get float1 in ecx, edx */
mov ecx, [ecx + lMant]
sub edx, [eax + lExp] /* Calculate diference to float2 */
sub ecx, [eax + lMant]
or edx, ecx /* Combine */
mov eax, 0 /* Set eax if combination is 0 */
setz al
pop ebp /* Return */
ret 8
/******************************************************************************
* BOOL
* APIENTRY
* FLOATOBJ_EqualLong(IN PFLOATOBJ pf, IN LONG l);
*/
_FLOATOBJ_EqualLong@8:
PUBLIC _FLOATOBJ_EqualLong@8
push ebp
mov ebp, esp
mov eax, [esp + PARAM1] /* Load pf into eax */
mov ecx, 32 /* Load (32 - lExp) into ecx */
sub ecx, [eax + lExp]
mov edx, [eax + lMant] /* Load mantissa into edx */
sar edx, cl /* Signed shift mantissa according to exponent */
shl edx, cl /* Shift the mantissa back */
cmp edx, [eax + lMant] /* Check whether bits were killed by shifting */
jnz EqualLongFalse /* We have truncated the mantissa, return 0 */
sar edx, cl /* Shift the mantissa again */
xor eax, eax /* Set return value ... */
cmp edx, [esp + PARAM2] /* TRUE if shifted mantissa equals the LONG */
setz al
pop ebp /* Return */
ret 8
EqualLongFalse:
xor eax, eax /* Return FALSE */
pop ebp
ret 8
/******************************************************************************
* BOOL
* APIENTRY
* FLOATOBJ_GreaterThan(IN PFLOATOBJ pf, IN PFLOATOBJ pf1);
*
*/
_FLOATOBJ_GreaterThan@8:
PUBLIC _FLOATOBJ_GreaterThan@8
push ebp
mov ebp, esp
mov eax, [ebp + PARAM1] /* Load pointer to efloat1 in eax */
mov edx, [ebp + PARAM2] /* Load pointer to efloat2 in edx */
mov ecx, [eax + lMant] /* Load mantissa1 in ecx */
mov edx, [edx + lMant] /* Load mantissa2 in edx */
sar ecx, 31 /* Calculate sign(lMant1) in ecx */
sar edx, 31 /* Calculate sign(lMant2) in edx */
cmp ecx, edx /* Branch if both have the same sign */
je GreaterThan_2
/* Mantissae have different sign */
mov eax, 0 /* Return (sign(lMant1) > sign(lMant2)) */
setg al
pop ebp
ret 8
GreaterThan_2:
/* Mantissae have the same sign */
mov edx, [ebp + PARAM2] /* Reload pointer to float2 in edx */
test ecx, ecx /* Branch if sign is negative */
js GreaterThan_neg
/* Both mantissae are positive or 0 */
or ecx, [edx + lMant] /* Branch if one mantissa is 0 */
jz GreaterThan_pos2
/* Both mantissae are positive */
mov ecx, [eax + lExp] /* Branch if exponents are equal */
cmp ecx, [edx + lExp]
je GreaterThan_pos2
mov eax, 0 /* Return (lExp1 > lExp2) */
setg al
pop ebp
ret 8
GreaterThan_pos2:
/* Exponents are equal or one mantissa is 0 */
mov ecx, [eax + lMant] /* Return (lMant1 > lMant2) */
cmp ecx, [edx + lMant]
mov eax, 0
setg al
pop ebp
ret 8
GreaterThan_neg:
/* Both mantissae are negative */
mov ecx, [eax + lExp] /* Branch if exponents are equal */
cmp ecx, [edx + lExp]
je GreaterThan_neg2
/* Both mantissae negative, exponents are different */
mov eax, 0 /* Return (lExp1 < lExp2) */
setl al
pop ebp
ret 8
GreaterThan_neg2:
/* Both mantissae negative, exponents are equal */
mov ecx, [eax + lMant] /* Return (lMant1 < lMant2) */
cmp ecx, [edx + lMant]
mov eax, 0
setl al
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_GreaterThanLong(IN OUT PFLOATOBJ pf, IN LONG l);
*
* Currently implemented as a wrapper around FLOATOBJ_SetLong and
* LOATOBJ_GreaterThan
*/
_FLOATOBJ_GreaterThanLong@8:
PUBLIC _FLOATOBJ_GreaterThanLong@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load LONG into eax */
lea ecx, [ebp -8] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push LONG on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetLong@8 /* Set the local FLOATOBJ */
lea ecx, [ebp -8] /* Push pointer to the local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_GreaterThan@8 /* Compare */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/******************************************************************************
* BOOL
* APIENTRY
* FLOATOBJ_LessThan(IN PFLOATOBJ pf, IN PFLOATOBJ pf1);
*
*/
_FLOATOBJ_LessThan@8:
PUBLIC _FLOATOBJ_LessThan@8
push ebp
mov ebp, esp
mov eax, [ebp + PARAM1] /* Load pointer to floats in eax and edx */
mov edx, [ebp + PARAM2]
mov ecx, [eax + lMant] /* Load mantissae in ecx and edx */
mov edx, [edx + lMant]
sar ecx, 31 /* Calculate sign(lMant1) and sign(lMant2) */
sar edx, 31
cmp ecx, edx /* Branch if both have the same sign */
je LessThan_2
/* Mantissae have different sign */
mov eax, 0 /* Return (sign(lMant1) < sign(lMant2)) */
setl al
pop ebp
ret 8
LessThan_2:
/* Mantissae have the same sign */
mov edx, [ebp + PARAM2] /* Reload pointer to float2 in edx */
test ecx, ecx /* Branch if sign is negative */
js LessThan_neg
/* Both mantissae are positive or 0 */
or ecx, [edx + lMant] /* Branch if one mantissa is 0 */
jz LessThan_pos2
/* Both mantissae are positive */
mov ecx, [eax + lExp] /* Branch if exponents are equal */
cmp ecx, [edx + lExp]
je LessThan_pos2
mov eax, 0 /* Return (lExp1 < lExp2) */
setl al
pop ebp
ret 8
LessThan_pos2:
/* Exponents are equal or one mantissa is 0 */
mov ecx, [eax + lMant] /* Return (lMant1 < lMant2) */
cmp ecx, [edx + lMant]
mov eax, 0
setl al
pop ebp
ret 8
LessThan_neg:
/* Both mantissae are negative */
mov ecx, [eax + lExp] /* Branch if exponents are equal */
cmp ecx, [edx + lExp]
je LessThan_neg2
/* Both mantissae negative, exponents are different */
mov eax, 0 /* Return (lExp1 > lExp2) */
setg al
pop ebp
ret 8
LessThan_neg2:
/* Both mantissae negative, exponents are equal */
mov ecx, [eax + lMant] /* Return (lMant1 > lMant2) */
cmp ecx, [edx + lMant]
mov eax, 0
setg al
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_LessThanLong(IN OUT PFLOATOBJ pf, IN LONG l);
*
* Currently implemented as a wrapper around FLOATOBJ_SetLong and FLOATOBJ_LessThan
*/
_FLOATOBJ_LessThanLong@8:
PUBLIC _FLOATOBJ_LessThanLong@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load LONG into eax */
lea ecx, [ebp -8] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push LONG on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetLong@8 /* Set the local FLOATOBJ */
lea ecx, [ebp -8] /* Push pointer to the local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_LessThan@8 /* Compare */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_Mul(IN OUT PFLOATOBJ pf1, IN PFLOATOBJ pf2);
*
* (mant1 * 2^exp1) * (mant2 * 2^exp2) = (mant1 * mant2) * 2^(exp1 + exp2)
* or mant = mant1 * mant2 and exp = exp1 + exp2
* No special handling for 0, where mantissa is 0
*/
_FLOATOBJ_Mul@8:
PUBLIC _FLOATOBJ_Mul@8
push ebp
mov ebp, esp
mov edx, [esp + PARAM1] /* Load pf1 into edx */
mov ecx, [esp + PARAM2] /* Load pf2 into ecx */
mov eax, [ecx + lMant] /* Load mantissa2 into eax */
mov ecx, [ecx + lExp] /* Load exponent2 into ecx */
imul dword ptr [edx + lMant] /* Multiply eax with mantissa 1 */
test edx, edx /* Special handling for result < 0 */
js MulNeg
shl edx, 2 /* Get new mantissa from bits 30 to 62 */
shr eax, 30 /* of edx:eax into edx */
or eax, edx
mov edx, ecx /* Need ecx for the shift, safe exp2 to free edx */
mov ecx, 0 /* Check for highest bit */
sets cl
shr eax, cl /* Normalize mantissa in eax */
jz Mul0 /* All 0? */
lea edx, [edx + ecx -2] /* Normalize exponent in edx */
mov ecx, [esp + PARAM1] /* Load pf1 into ecx */
mov [ecx + lMant], eax /* Save back mantissa */
add [ecx + lExp], edx /* Save back exponent */
pop ebp /* Return */
ret 8
MulNeg:
shl edx, 2 /* Get new mantissa from bits 30 to 62 */
shr eax, 30 /* of edx:eax into edx */
or eax, edx
mov edx, ecx /* Need ecx for the shift, safe exp2 to free edx */
mov ecx, 0 /* Check for highest bit */
setns cl
shr eax, cl /* Normalize mantissa in eax */
jz Mul0 /* All 0? */
lea edx, [edx + ecx -2] /* Normalize exponent in edx */
or eax, HEX(80000000) /* Set sign bit */
mov ecx, [esp + PARAM1] /* Load pf1 into ecx */
mov [ecx + lMant], eax /* Save back mantissa */
add [ecx + lExp], edx /* Save back exponent */
pop ebp /* Return */
ret 8
Mul0:
mov ecx, [esp + PARAM1] /* Load pf1 into ecx */
mov [ecx + lMant], eax /* Store 0 in mantissa */
mov [ecx + lExp], eax /* Store 0 in exponent */
pop ebp /* Return */
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_MulFloat(IN OUT PFLOATOBJ pf, IN FLOATL f);
*
* Currently implemented as a wrapper around FLOATOBJ_SetFloat and FLOATOBJ_Mul
*/
_FLOATOBJ_MulFloat@8:
PUBLIC _FLOATOBJ_MulFloat@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load f into eax */
lea ecx, [ebp -4] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push f on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetFloat@8 /* Set the FLOATOBJ */
lea ecx, [ebp -4] /* Push pointer to local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_Mul@8 /* Multiply */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_MulLong(IN OUT PFLOATOBJ pf, IN LONG l);
*
* Currently implemented as a wrapper around FLOATOBJ_SetLong and FLOATOBJ_Mul
*/
_FLOATOBJ_MulLong@8:
PUBLIC _FLOATOBJ_MulLong@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load l into eax */
lea ecx, [ebp -8] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push l on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetLong@8 /* Set the local FLOATOBJ */
lea ecx, [ebp -8] /* Push pointer to local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_Mul@8 /* Multiply */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/*******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_Div(IN OUT PFLOATOBJ pf1, IN PFLOATOBJ pf2);
*
*/
_FLOATOBJ_Div@8:
PUBLIC _FLOATOBJ_Div@8
push ebp
mov ebp, esp
push ebx
mov eax, [ebp + PARAM2] /* Load lMant2 into eax */
mov eax, [eax + lMant]
cdq /* Calculate abs(lMant2) */
xor eax, edx
sub eax, edx
jz DivError /* Divide by zero error! */
mov ebx, edx /* Copy sign(lMant2) to ebx */
mov ecx, eax /* Copy abs(lMant2) to ecx */
mov eax, [ebp + PARAM1] /* Load lMant1 into eax */
mov eax, [eax + lMant]
cdq /* Calculate abs(lMant1) */
xor eax, edx
sub eax, edx
jz Div0 /* Dividend is 0? */
xor ebx, edx /* combine both signs in ebx */
mov edx, eax /* Prepare edx:eax for integer divide */
xor eax, eax
shr edx, 1
div ecx /* Do an unsigned divide */
xor ecx, ecx /* Adjust result */
test eax, HEX(80000000)
setnz cl
shr eax, cl
xor eax, ebx /* Correct the result's sign */
sub eax, ebx
mov edx, [ebp + PARAM1] /* Load pf1 into edx */
mov [edx + lMant], eax /* Safe back the mantissa */
mov ebx, [ebp + PARAM2] /* Load pf2 into ebx */
sub ecx, [ebx + lExp] /* Calculate exponent offset */
inc ecx
add [edx + lExp], ecx /* Safe back exponent */
pop ebx /* Return */
pop ebp
ret 8
DivError:
Div0:
mov edx, [ebp + PARAM1] /* Load pf into edx */
mov [edx + lMant], eax /* Store 0 in mantissa */
mov [edx + lExp], eax /* Store 0 in exponent */
pop ebx /* Return */
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_DivFloat(IN OUT PFLOATOBJ pf, IN FLOATL f);
*
* Currently implemented as a wrapper around FLOATOBJ_SetFloat and FLOATOBJ_Div
*/
_FLOATOBJ_DivFloat@8:
PUBLIC _FLOATOBJ_DivFloat@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load f into eax */
lea ecx, [ebp -4] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push f on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetFloat@8 /* Set the FLOATOBJ */
lea ecx, [ebp -4] /* Push pointer to local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_Div@8 /* Divide */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_DivLong(IN OUT PFLOATOBJ pf, IN LONG l);
*
* Currently implemented as a wrapper around FLOATOBJ_SetLong and FLOATOBJ_Div
*/
_FLOATOBJ_DivLong@8:
PUBLIC _FLOATOBJ_DivLong@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load l into eax */
lea ecx, [ebp -8] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push l on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetLong@8 /* Set the local FLOATOBJ */
lea ecx, [ebp -8] /* Push pointer to the local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_Div@8 /* Divide */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/*******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_Add(IN OUT PFLOATOBJ pf1, IN PFLOATOBJ pf2);
*
*/
_FLOATOBJ_Add@8:
PUBLIC _FLOATOBJ_Add@8
push ebp
mov ebp, esp
push ebx
mov eax, [ebp + PARAM1] /* Load pointer to pf1 in eax */
mov ebx, [ebp + PARAM2] /* Load pointer to pf2 in ebx */
mov ecx, [eax + lExp] /* Load float1 in (eax,ecx) */
mov edx, [ebx + lExp]
mov eax, [eax + lMant] /* Load float2 in (ebx,edx) */
mov ebx, [ebx + lMant]
cmp ecx, edx /* Check which one has the bigger lExp */
jl Add2
sub ecx, edx /* Calculate lExp1 - lExp2 */
sar eax, 1 /* Shift both mantissae 1 bit right */
sar ebx, 1
sar ebx, cl /* Shift lMant2 according to exponent difference */
add eax, ebx /* Add the manrissae */
jz AddIs0
cdq /* Calculate abs(mantissa) */
xor eax, edx
sub eax, edx
bsr ecx, eax /* Find most significant bit */
neg ecx /* and calculate needed normalize shift */
add ecx, 30
shl eax, cl
dec ecx
xor eax, edx /* Go back to original sign */
sub eax, edx
mov edx, [ebp + PARAM1] /* Reload pointer to float1 */
pop ebx
mov dword ptr [edx + lMant], eax /* Safe mantissa */
sub [edx + lExp], ecx /* Adjust exponent */
pop ebp /* Return */
ret 8
Add2:
sub edx, ecx /* Calculate lExp2 - lExp1 and put it into ecx */
mov ecx, edx
sar ebx, 1 /* Shift both mantissae 1 bit right */
sar eax, 1
sar eax, cl /* Shift lMant2 according to exponent difference */
add eax, ebx /* Add the manrissae */
jz AddIs0
mov ebx, [ebp + PARAM1] /* Reload pointer to float1 */
add [ebx + lExp], ecx /* Adjust exponent part 1 */
cdq /* Calculate abs(mantissa) */
xor eax, edx
sub eax, edx
bsr ecx, eax /* Find most significant bit */
neg ecx /* and calculate needed normalize shift */
add ecx, 30
shl eax, cl
dec ecx
xor eax, edx /* Go back to original sign */
sub eax, edx
mov dword ptr [ebx + lMant], eax /* Safe mantissa and adjust exponent */
sub [ebx + lExp], ecx
pop ebx /* Return */
pop ebp
ret 8
AddIs0:
/* Mantissa is 0, so float to (0,0) */
mov eax, [ebp + PARAM1]
pop ebx
mov dword ptr [eax + lMant], 0
mov dword ptr [eax + lExp], 0
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_AddFloat(IN OUT PFLOATOBJ pf, IN FLOATL f);
*
* Currently implemented as a wrapper around FLOATOBJ_SetFloat and FLOATOBJ_Add
*/
_FLOATOBJ_AddFloat@8:
PUBLIC _FLOATOBJ_AddFloat@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load f into eax */
lea ecx, [ebp -4] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push f on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetFloat@8 /* Set the FLOATOBJ */
lea ecx, [ebp -4] /* Push pointer to local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_Add@8 /* Add */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_AddLong(IN OUT PFLOATOBJ pf, IN LONG l);
*
* Currently implemented as a wrapper around FLOATOBJ_SetLong and FLOATOBJ_Add
*/
_FLOATOBJ_AddLong@8:
PUBLIC _FLOATOBJ_AddLong@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load l into eax */
lea ecx, [ebp -8] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push l on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetLong@8 /* Set the local FLOATOBJ */
lea ecx, [ebp -8] /* Push pointer to the local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_Add@8 /* Add */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/*******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_Sub(IN OUT PFLOATOBJ pf, IN PFLOATOBJ pf1);
*
*/
_FLOATOBJ_Sub@8:
PUBLIC _FLOATOBJ_Sub@8
push ebp
mov ebp, esp
push ebx
mov eax, [ebp + PARAM1] /* Load pointer to floats in eax and ebx */
mov ebx, [ebp + PARAM2]
mov ecx, [eax + lExp] /* Load float1 in (eax,ecx) and float2 in (ebx,edx) */
mov edx, [ebx + lExp]
mov eax, [eax + lMant]
mov ebx, [ebx + lMant]
cmp ecx, edx /* Check which one has the bigger lExp */
jl Sub2
sub ecx, edx /* Calculate lExp1 - lExp2 */
sar eax, 1 /* Shift both mantissae 1 bit right */
sar ebx, 1
sar ebx, cl /* Shift lMant2 according to exponent difference */
sub eax, ebx /* Substract the manrissae */
jz SubIs0
cdq /* Calculate abs(mantissa) */
xor eax, edx
sub eax, edx
bsr ecx, eax /* Find most significant bit */
neg ecx /* and calculate needed normalize shift */
add ecx, 30
shl eax, cl
dec ecx
xor eax, edx /* Go back to original sign */
sub eax, edx
mov edx, [ebp + PARAM1] /* Reload pointer to float1 */
pop ebx
mov dword ptr [edx + lMant], eax /* Safe mantissa and adjust exponent */
sub [edx + lExp], ecx
pop ebp
ret 8
Sub2:
sub edx, ecx /* Calculate lExp2 - lExp1 and put it into ecx */
mov ecx, edx
sar ebx, 1 /* Shift both mantissae 1 bit right */
sar eax, 1
sar eax, cl /* Shift lMant2 according to exponent difference */
sub eax, ebx /* Substract the manrissae */
jz AddIs0
mov ebx, [ebp + PARAM1] /* Reload pointer to float1 */
add [ebx + lExp], ecx /* Adjust exponent part 1 */
cdq /* Calculate abs(mantissa) */
xor eax, edx
sub eax, edx
bsr ecx, eax /* Find most significant bit */
neg ecx /* and calculate needed normalize shift */
add ecx, 30
shl eax, cl
dec ecx
xor eax, edx /* Go back to original sign */
sub eax, edx
mov dword ptr [ebx + lMant], eax /* Safe mantissa */
sub [ebx + lExp], ecx /* Adjust exponent */
pop ebx /* Return */
pop ebp
ret 8
SubIs0:
/* Mantissa is 0, so float to (0,0) */
mov eax, [ebp + PARAM1]
pop ebx
mov dword ptr [eax + lMant], 0
mov dword ptr [eax + lExp], 0
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_SubFloat(IN OUT PFLOATOBJ pf, IN FLOATL f);
*
* Currently implemented as a wrapper around FLOATOBJ_SetFloat and FLOATOBJ_Sub
*/
_FLOATOBJ_SubFloat@8:
PUBLIC _FLOATOBJ_SubFloat@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load f into eax */
lea ecx, [ebp -4] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push f on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetFloat@8 /* Set the FLOATOBJ */
lea ecx, [ebp -4] /* Push pointer to local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_Sub@8 /* Substract */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_SubLong(IN OUT PFLOATOBJ pf, IN LONG l);
*
* Currently implemented as a wrapper around FLOATOBJ_SetLong and FLOATOBJ_Sub
*/
_FLOATOBJ_SubLong@8:
PUBLIC _FLOATOBJ_SubLong@8
push ebp
mov ebp, esp
sub esp, 8 /* Make room for a FLOATOBJ on the stack */
mov eax, [ebp + PARAM2] /* Load l into eax */
lea ecx, [ebp -8] /* Load pointer to local FLOATOBJ into ecx */
push eax /* Push l on the stack */
push ecx /* Push pointer to local FLOATOBJ on the stack */
call _FLOATOBJ_SetLong@8 /* Set the local FLOATOBJ */
lea ecx, [ebp -8] /* Push pointer to the local FLOATOBJ on the stack */
push ecx
push [ebp + PARAM1] /* Push the FLOATOBJ param on the stack */
call _FLOATOBJ_Sub@8 /* Substract */
mov esp, ebp /* Cleanup and return */
pop ebp
ret 8
/*******************************************************************************
* VOID
* APIENTRY
* FLOATOBJ_Neg(IN OUT PFLOATOBJ pf);
*
*/
_FLOATOBJ_Neg@4:
PUBLIC _FLOATOBJ_Neg@4
push ebp
mov ebp, esp
mov ecx, [esp + PARAM1] /* Load pf into ecx */
neg dword ptr [ecx + lMant] /* Negate lMant1 */
pop ebp /* Return */
ret 4
END
/* EOF */