Leaked source code of windows server 2003
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244 lines
6.4 KiB

/***
*tenpow.c - multiply a _LDBL12 by a power of 10
*
* Copyright (c) 1991-2001, Microsoft Corporation. All rights reserved.
*
*Purpose:
*
*Revision History:
* 07-17-91 GDP Initial version (ported from assembly)
* 11-15-93 GJF Merged in NT SDK verions. Replaced MIPS and _ALPHA_
* by _M_MRX000 and _M_ALPHA (resp.).
* 10-02-94 BWT PPC changes
* 07-15-96 GJF Added parantheses to fix precedence problem in expr.
* Also, detab-ed.
* 05-05-99 RDL Added _M_IA64 to #if def's for alignment.
* 07-15-01 PML Remove all ALPHA, MIPS, and PPC code
*
*******************************************************************************/
#include <cv.h>
extern _LDBL12 _pow10pos[];
extern _LDBL12 _pow10neg[];
/***
*void _CALLTYPE5 __ld12mul(_LDBL12 *px, _LDBL12 *py) -
* _LDBL12 multiplication
*
*Purpose: multiply two _LDBL12 numbers
*
*Entry: px,py: pointers to the _LDBL12 operands
*
*Exit: *px contains the product
*
*Exceptions:
*
*******************************************************************************/
void _CALLTYPE5 __ld12mul(_LDBL12 *px, _LDBL12 *py)
{
u_short sign = 0;
_LDBL12 tempman; /*this is actually a 12-byte mantissa,
not a 12-byte long double */
int i;
u_short expx, expy, expsum;
int roffs,poffs,qoffs;
int sticky = 0;
*UL_LO_12(&tempman) = 0;
*UL_MED_12(&tempman) = 0;
*UL_HI_12(&tempman) = 0;
expx = *U_EXP_12(px);
expy = *U_EXP_12(py);
sign = (expx ^ expy) & (u_short)0x8000;
expx &= 0x7fff;
expy &= 0x7fff;
expsum = expx+expy;
if (expx >= LD_MAXEXP
|| expy >= LD_MAXEXP
|| expsum > LD_MAXEXP+ LD_BIASM1){
/* overflow to infinity */
PUT_INF_12(px,sign);
return;
}
if (expsum <= LD_BIASM1-63) {
/* underflow to zero */
PUT_ZERO_12(px);
return;
}
if (expx == 0) {
/*
* If this is a denormal temp real then the mantissa
* was shifted right once to set bit 63 to zero.
*/
expsum++; /* Correct for this */
if (ISZERO_12(px)) {
/* put positive sign */
*U_EXP_12(px) = 0;
return;
}
}
if (expy == 0) {
expsum++; /* because arg2 is denormal */
if (ISZERO_12(py)) {
PUT_ZERO_12(px);
return;
}
}
roffs = 0;
for (i=0;i<5;i++) {
int j;
poffs = i<<1;
qoffs = 8;
for (j=5-i;j>0;j--) {
u_long prod;
#if defined(_M_IA64) || defined(_M_AMD64)
/* a variable to hold temprary sums */
u_long sum;
#endif
int carry;
u_short *p, *q;
u_long *r;
p = USHORT_12(px,poffs);
q = USHORT_12(py,qoffs);
r = ULONG_12(&tempman,roffs);
prod = (u_long)*p * (u_long)*q;
#if defined(_M_IA64) || defined(_M_AMD64)
/* handle misalignment problems */
if (i&0x1){ /* i is odd */
carry = __addl(*ALIGN(r), prod, &sum);
*ALIGN(r) = sum;
}
else /* i is even */
carry = __addl(*r, prod, r);
#else
carry = __addl(*r,prod,r);
#endif
if (carry) {
/* roffs should be less than 8 in this case */
(*USHORT_12(&tempman,roffs+4))++;
}
poffs+=2;
qoffs-=2;
}
roffs+=2;
}
expsum -= LD_BIASM1;
/* normalize */
while ((s_short)expsum > 0 &&
((*UL_HI_12(&tempman) & MSB_ULONG) == 0)) {
__shl_12(&tempman);
expsum--;
}
if ((s_short)expsum <= 0) {
expsum--;
while ((s_short)expsum < 0) {
if (*U_XT_12(&tempman) & 0x1)
sticky++;
__shr_12(&tempman);
expsum++;
}
if (sticky)
*U_XT_12(&tempman) |= 0x1;
}
if (*U_XT_12(&tempman) > 0x8000 ||
((*UL_LO_12(&tempman) & 0x1ffff) == 0x18000)) {
/* round up */
if (*UL_MANLO_12(&tempman) == MAX_ULONG) {
*UL_MANLO_12(&tempman) = 0;
if (*UL_MANHI_12(&tempman) == MAX_ULONG) {
*UL_MANHI_12(&tempman) = 0;
if (*U_EXP_12(&tempman) == MAX_USHORT) {
/* 12-byte mantissa overflow */
*U_EXP_12(&tempman) = MSB_USHORT;
expsum++;
}
else
(*U_EXP_12(&tempman))++;
}
else
(*UL_MANHI_12(&tempman))++;
}
else
(*UL_MANLO_12(&tempman))++;
}
/* check for exponent overflow */
if (expsum >= 0x7fff){
PUT_INF_12(px, sign);
return;
}
/* put result in px */
*U_XT_12(px) = *USHORT_12(&tempman,2);
*UL_MANLO_12(px) = *UL_MED_12(&tempman);
*UL_MANHI_12(px) = *UL_HI_12(&tempman);
*U_EXP_12(px) = expsum | sign;
}
void _CALLTYPE5
__multtenpow12(_LDBL12 *pld12, int pow, unsigned mult12)
{
_LDBL12 *pow_10p = _pow10pos-8;
if (pow == 0)
return;
if (pow < 0) {
pow = -pow;
pow_10p = _pow10neg-8;
}
if (!mult12)
*U_XT_12(pld12) = 0;
while (pow) {
int last3; /* the 3 LSBits of pow */
_LDBL12 unround;
_LDBL12 *py;
pow_10p += 7;
last3 = pow & 0x7;
pow >>= 3;
if (last3 == 0)
continue;
py = pow_10p + last3;
#ifdef _LDSUPPORT
if (mult12) {
#endif
/* do an exact 12byte multiplication */
if (*U_XT_12(py) >= 0x8000) {
/* copy number */
unround = *py;
/* unround adjacent byte */
(*UL_MANLO_12(&unround))--;
/* point to new operand */
py = &unround;
}
__ld12mul(pld12,py);
#ifdef _LDSUPPORT
}
else {
/* do a 10byte multiplication */
py = (_LDBL12 *)TEN_BYTE_PART(py);
*(long double *)TEN_BYTE_PART(pld12) *=
*(long double *)py;
}
#endif
}
}