0,0 → 1,1851 |
/* Copyright (C) 2007-2015 Free Software Foundation, Inc. |
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This file is part of GCC. |
|
GCC is free software; you can redistribute it and/or modify it under |
the terms of the GNU General Public License as published by the Free |
Software Foundation; either version 3, or (at your option) any later |
version. |
|
GCC is distributed in the hope that it will be useful, but WITHOUT ANY |
WARRANTY; without even the implied warranty of MERCHANTABILITY or |
FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License |
for more details. |
|
Under Section 7 of GPL version 3, you are granted additional |
permissions described in the GCC Runtime Library Exception, version |
3.1, as published by the Free Software Foundation. |
|
You should have received a copy of the GNU General Public License and |
a copy of the GCC Runtime Library Exception along with this program; |
see the files COPYING3 and COPYING.RUNTIME respectively. If not, see |
<http://www.gnu.org/licenses/>. */ |
|
#define BID_128RES |
#include "bid_div_macros.h" |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
#include <fenv.h> |
|
#define FE_ALL_FLAGS FE_INVALID|FE_DIVBYZERO|FE_OVERFLOW|FE_UNDERFLOW|FE_INEXACT |
#endif |
|
extern UINT32 convert_table[5][128][2]; |
extern SINT8 factors[][2]; |
extern UINT8 packed_10000_zeros[]; |
|
BID128_FUNCTION_ARG2 (bid128_div, x, y) |
|
UINT256 CA4, CA4r, P256; |
UINT128 CX, CY, T128, CQ, CR, CA, TP128, Qh, res; |
UINT64 sign_x, sign_y, T, carry64, D, Q_high, Q_low, QX, PD, |
valid_y; |
int_float fx, fy, f64; |
UINT32 QX32, tdigit[3], digit, digit_h, digit_low; |
int exponent_x, exponent_y, bin_index, bin_expon, diff_expon, ed2, |
digits_q, amount; |
int nzeros, i, j, k, d5; |
unsigned rmode; |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
fexcept_t binaryflags = 0; |
#endif |
|
valid_y = unpack_BID128_value (&sign_y, &exponent_y, &CY, y); |
|
// unpack arguments, check for NaN or Infinity |
if (!unpack_BID128_value (&sign_x, &exponent_x, &CX, x)) { |
// test if x is NaN |
if ((x.w[1] & 0x7c00000000000000ull) == 0x7c00000000000000ull) { |
#ifdef SET_STATUS_FLAGS |
if ((x.w[1] & 0x7e00000000000000ull) == 0x7e00000000000000ull || // sNaN |
(y.w[1] & 0x7e00000000000000ull) == 0x7e00000000000000ull) |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[1] = (CX.w[1]) & QUIET_MASK64; |
res.w[0] = CX.w[0]; |
BID_RETURN (res); |
} |
// x is Infinity? |
if ((x.w[1] & 0x7800000000000000ull) == 0x7800000000000000ull) { |
// check if y is Inf. |
if (((y.w[1] & 0x7c00000000000000ull) == 0x7800000000000000ull)) |
// return NaN |
{ |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[1] = 0x7c00000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// y is NaN? |
if (((y.w[1] & 0x7c00000000000000ull) != 0x7c00000000000000ull)) |
// return NaN |
{ |
// return +/-Inf |
res.w[1] = ((x.w[1] ^ y.w[1]) & 0x8000000000000000ull) | |
0x7800000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
} |
// x is 0 |
if ((y.w[1] & 0x7800000000000000ull) < 0x7800000000000000ull) { |
if ((!CY.w[0]) && !(CY.w[1] & 0x0001ffffffffffffull)) { |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
// x=y=0, return NaN |
res.w[1] = 0x7c00000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// return 0 |
res.w[1] = (x.w[1] ^ y.w[1]) & 0x8000000000000000ull; |
exponent_x = exponent_x - exponent_y + DECIMAL_EXPONENT_BIAS_128; |
if (exponent_x > DECIMAL_MAX_EXPON_128) |
exponent_x = DECIMAL_MAX_EXPON_128; |
else if (exponent_x < 0) |
exponent_x = 0; |
res.w[1] |= (((UINT64) exponent_x) << 49); |
res.w[0] = 0; |
BID_RETURN (res); |
} |
} |
if (!valid_y) { |
// y is Inf. or NaN |
|
// test if y is NaN |
if ((y.w[1] & 0x7c00000000000000ull) == 0x7c00000000000000ull) { |
#ifdef SET_STATUS_FLAGS |
if ((y.w[1] & 0x7e00000000000000ull) == 0x7e00000000000000ull) // sNaN |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[1] = CY.w[1] & QUIET_MASK64; |
res.w[0] = CY.w[0]; |
BID_RETURN (res); |
} |
// y is Infinity? |
if ((y.w[1] & 0x7800000000000000ull) == 0x7800000000000000ull) { |
// return +/-0 |
res.w[1] = sign_x ^ sign_y; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// y is 0, return +/-Inf |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, ZERO_DIVIDE_EXCEPTION); |
#endif |
res.w[1] = |
((x.w[1] ^ y.w[1]) & 0x8000000000000000ull) | 0x7800000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fegetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
diff_expon = exponent_x - exponent_y + DECIMAL_EXPONENT_BIAS_128; |
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if (__unsigned_compare_gt_128 (CY, CX)) { |
// CX < CY |
|
// 2^64 |
f64.i = 0x5f800000; |
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// fx ~ CX, fy ~ CY |
fx.d = (float) CX.w[1] * f64.d + (float) CX.w[0]; |
fy.d = (float) CY.w[1] * f64.d + (float) CY.w[0]; |
// expon_cy - expon_cx |
bin_index = (fy.i - fx.i) >> 23; |
|
if (CX.w[1]) { |
T = power10_index_binexp_128[bin_index].w[0]; |
__mul_64x128_short (CA, T, CX); |
} else { |
T128 = power10_index_binexp_128[bin_index]; |
__mul_64x128_short (CA, CX.w[0], T128); |
} |
|
ed2 = 33; |
if (__unsigned_compare_gt_128 (CY, CA)) |
ed2++; |
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T128 = power10_table_128[ed2]; |
__mul_128x128_to_256 (CA4, CA, T128); |
|
ed2 += estimate_decimal_digits[bin_index]; |
CQ.w[0] = CQ.w[1] = 0; |
diff_expon = diff_expon - ed2; |
|
} else { |
// get CQ = CX/CY |
__div_128_by_128 (&CQ, &CR, CX, CY); |
|
if (!CR.w[1] && !CR.w[0]) { |
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, |
pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
// get number of decimal digits in CQ |
// 2^64 |
f64.i = 0x5f800000; |
fx.d = (float) CQ.w[1] * f64.d + (float) CQ.w[0]; |
// binary expon. of CQ |
bin_expon = (fx.i - 0x3f800000) >> 23; |
|
digits_q = estimate_decimal_digits[bin_expon]; |
TP128.w[0] = power10_index_binexp_128[bin_expon].w[0]; |
TP128.w[1] = power10_index_binexp_128[bin_expon].w[1]; |
if (__unsigned_compare_ge_128 (CQ, TP128)) |
digits_q++; |
|
ed2 = 34 - digits_q; |
T128.w[0] = power10_table_128[ed2].w[0]; |
T128.w[1] = power10_table_128[ed2].w[1]; |
__mul_128x128_to_256 (CA4, CR, T128); |
diff_expon = diff_expon - ed2; |
__mul_128x128_low (CQ, CQ, T128); |
|
} |
|
__div_256_by_128 (&CQ, &CA4, CY); |
|
#ifdef SET_STATUS_FLAGS |
if (CA4.w[0] || CA4.w[1]) { |
// set status flags |
__set_status_flags (pfpsf, INEXACT_EXCEPTION); |
} |
#ifndef LEAVE_TRAILING_ZEROS |
else |
#endif |
#else |
#ifndef LEAVE_TRAILING_ZEROS |
if (!CA4.w[0] && !CA4.w[1]) |
#endif |
#endif |
#ifndef LEAVE_TRAILING_ZEROS |
// check whether result is exact |
{ |
// check whether CX, CY are short |
if (!CX.w[1] && !CY.w[1] && (CX.w[0] <= 1024) && (CY.w[0] <= 1024)) { |
i = (int) CY.w[0] - 1; |
j = (int) CX.w[0] - 1; |
// difference in powers of 2 factors for Y and X |
nzeros = ed2 - factors[i][0] + factors[j][0]; |
// difference in powers of 5 factors |
d5 = ed2 - factors[i][1] + factors[j][1]; |
if (d5 < nzeros) |
nzeros = d5; |
// get P*(2^M[extra_digits])/10^extra_digits |
__mul_128x128_high (Qh, CQ, reciprocals10_128[nzeros]); |
|
// now get P/10^extra_digits: shift Q_high right by M[extra_digits]-128 |
amount = recip_scale[nzeros]; |
__shr_128_long (CQ, Qh, amount); |
|
diff_expon += nzeros; |
} else { |
// decompose Q as Qh*10^17 + Ql |
//T128 = reciprocals10_128[17]; |
T128.w[0] = 0x44909befeb9fad49ull; |
T128.w[1] = 0x000b877aa3236a4bull; |
__mul_128x128_to_256 (P256, CQ, T128); |
//amount = recip_scale[17]; |
Q_high = (P256.w[2] >> 44) | (P256.w[3] << (64 - 44)); |
Q_low = CQ.w[0] - Q_high * 100000000000000000ull; |
|
if (!Q_low) { |
diff_expon += 17; |
|
tdigit[0] = Q_high & 0x3ffffff; |
tdigit[1] = 0; |
QX = Q_high >> 26; |
QX32 = QX; |
nzeros = 0; |
|
for (j = 0; QX32; j++, QX32 >>= 7) { |
k = (QX32 & 127); |
tdigit[0] += convert_table[j][k][0]; |
tdigit[1] += convert_table[j][k][1]; |
if (tdigit[0] >= 100000000) { |
tdigit[0] -= 100000000; |
tdigit[1]++; |
} |
} |
|
if (tdigit[1] >= 100000000) { |
tdigit[1] -= 100000000; |
if (tdigit[1] >= 100000000) |
tdigit[1] -= 100000000; |
} |
|
digit = tdigit[0]; |
if (!digit && !tdigit[1]) |
nzeros += 16; |
else { |
if (!digit) { |
nzeros += 8; |
digit = tdigit[1]; |
} |
// decompose digit |
PD = (UINT64) digit *0x068DB8BBull; |
digit_h = (UINT32) (PD >> 40); |
digit_low = digit - digit_h * 10000; |
|
if (!digit_low) |
nzeros += 4; |
else |
digit_h = digit_low; |
|
if (!(digit_h & 1)) |
nzeros += |
3 & (UINT32) (packed_10000_zeros[digit_h >> 3] >> |
(digit_h & 7)); |
} |
|
if (nzeros) { |
__mul_64x64_to_128 (CQ, Q_high, reciprocals10_64[nzeros]); |
|
// now get P/10^extra_digits: shift C64 right by M[extra_digits]-64 |
amount = short_recip_scale[nzeros]; |
CQ.w[0] = CQ.w[1] >> amount; |
} else |
CQ.w[0] = Q_high; |
CQ.w[1] = 0; |
|
diff_expon += nzeros; |
} else { |
tdigit[0] = Q_low & 0x3ffffff; |
tdigit[1] = 0; |
QX = Q_low >> 26; |
QX32 = QX; |
nzeros = 0; |
|
for (j = 0; QX32; j++, QX32 >>= 7) { |
k = (QX32 & 127); |
tdigit[0] += convert_table[j][k][0]; |
tdigit[1] += convert_table[j][k][1]; |
if (tdigit[0] >= 100000000) { |
tdigit[0] -= 100000000; |
tdigit[1]++; |
} |
} |
|
if (tdigit[1] >= 100000000) { |
tdigit[1] -= 100000000; |
if (tdigit[1] >= 100000000) |
tdigit[1] -= 100000000; |
} |
|
digit = tdigit[0]; |
if (!digit && !tdigit[1]) |
nzeros += 16; |
else { |
if (!digit) { |
nzeros += 8; |
digit = tdigit[1]; |
} |
// decompose digit |
PD = (UINT64) digit *0x068DB8BBull; |
digit_h = (UINT32) (PD >> 40); |
digit_low = digit - digit_h * 10000; |
|
if (!digit_low) |
nzeros += 4; |
else |
digit_h = digit_low; |
|
if (!(digit_h & 1)) |
nzeros += |
3 & (UINT32) (packed_10000_zeros[digit_h >> 3] >> |
(digit_h & 7)); |
} |
|
if (nzeros) { |
// get P*(2^M[extra_digits])/10^extra_digits |
__mul_128x128_high (Qh, CQ, reciprocals10_128[nzeros]); |
|
//now get P/10^extra_digits: shift Q_high right by M[extra_digits]-128 |
amount = recip_scale[nzeros]; |
__shr_128 (CQ, Qh, amount); |
} |
diff_expon += nzeros; |
|
} |
} |
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
#endif |
|
if (diff_expon >= 0) { |
#ifdef IEEE_ROUND_NEAREST |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
|
D = (CA4r.w[1] | CA4r.w[0]) ? 1 : 0; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) & ((CQ.w[0]) | D); |
|
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
#else |
#ifdef IEEE_ROUND_NEAREST_TIES_AWAY |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
|
D = (CA4r.w[1] | CA4r.w[0]) ? 0 : 1; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) | D; |
|
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
#else |
rmode = rnd_mode; |
if (sign_x ^ sign_y && (unsigned) (rmode - 1) < 2) |
rmode = 3 - rmode; |
switch (rmode) { |
case ROUNDING_TO_NEAREST: // round to nearest code |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
D = (CA4r.w[1] | CA4r.w[0]) ? 1 : 0; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) & ((CQ.w[0]) | D); |
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
break; |
case ROUNDING_TIES_AWAY: |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
D = (CA4r.w[1] | CA4r.w[0]) ? 0 : 1; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) | D; |
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
break; |
case ROUNDING_DOWN: |
case ROUNDING_TO_ZERO: |
break; |
default: // rounding up |
CQ.w[0]++; |
if (!CQ.w[0]) |
CQ.w[1]++; |
break; |
} |
#endif |
#endif |
|
} else { |
#ifdef SET_STATUS_FLAGS |
if (CA4.w[0] || CA4.w[1]) { |
// set status flags |
__set_status_flags (pfpsf, INEXACT_EXCEPTION); |
} |
#endif |
|
handle_UF_128_rem (&res, sign_x ^ sign_y, diff_expon, CQ, |
CA4.w[1] | CA4.w[0], &rnd_mode, pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
|
} |
|
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
|
|
//#define LEAVE_TRAILING_ZEROS |
|
TYPE0_FUNCTION_ARGTYPE1_ARGTYPE2 (UINT128, bid128dd_div, UINT64, x, |
UINT64, y) |
|
UINT256 CA4, CA4r, P256; |
UINT128 CX, CY, T128, CQ, CR, CA, TP128, Qh, res; |
UINT64 sign_x, sign_y, T, carry64, D, Q_high, Q_low, QX, PD, |
valid_y; |
int_float fx, fy, f64; |
UINT32 QX32, tdigit[3], digit, digit_h, digit_low; |
int exponent_x, exponent_y, bin_index, bin_expon, diff_expon, ed2, |
digits_q, amount; |
int nzeros, i, j, k, d5; |
unsigned rmode; |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
fexcept_t binaryflags = 0; |
#endif |
|
valid_y = unpack_BID64 (&sign_y, &exponent_y, &CY.w[0], y); |
|
// unpack arguments, check for NaN or Infinity |
CX.w[1] = 0; |
if (!unpack_BID64 (&sign_x, &exponent_x, &CX.w[0], (x))) { |
#ifdef SET_STATUS_FLAGS |
if ((y & SNAN_MASK64) == SNAN_MASK64) // y is sNaN |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
|
// test if x is NaN |
if ((x & NAN_MASK64) == NAN_MASK64) { |
#ifdef SET_STATUS_FLAGS |
if ((x & SNAN_MASK64) == SNAN_MASK64) // sNaN |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[0] = (CX.w[0] & 0x0003ffffffffffffull); |
__mul_64x64_to_128 (res, res.w[0], power10_table_128[18].w[0]); |
res.w[1] |= ((CX.w[0]) & 0xfc00000000000000ull); |
BID_RETURN (res); |
} |
// x is Infinity? |
if (((x) & 0x7800000000000000ull) == 0x7800000000000000ull) { |
// check if y is Inf. |
if ((((y) & 0x7c00000000000000ull) == 0x7800000000000000ull)) |
// return NaN |
{ |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[1] = 0x7c00000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
if ((((y) & 0x7c00000000000000ull) != 0x7c00000000000000ull)) { |
// otherwise return +/-Inf |
res.w[1] = |
(((x) ^ (y)) & 0x8000000000000000ull) | 0x7800000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
} |
// x is 0 |
if ((((y) & 0x7800000000000000ull) != 0x7800000000000000ull)) { |
if(!CY.w[0]) { |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
// x=y=0, return NaN |
res.w[1] = 0x7c00000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// return 0 |
res.w[1] = ((x) ^ (y)) & 0x8000000000000000ull; |
if (((y) & 0x6000000000000000ull) == 0x6000000000000000ull) |
exponent_y = ((UINT32) ((y) >> 51)) & 0x3ff; |
else |
exponent_y = ((UINT32) ((y) >> 53)) & 0x3ff; |
exponent_x = exponent_x - exponent_y + DECIMAL_EXPONENT_BIAS_128; |
if (exponent_x > DECIMAL_MAX_EXPON_128) |
exponent_x = DECIMAL_MAX_EXPON_128; |
else if (exponent_x < 0) |
exponent_x = 0; |
res.w[1] |= (((UINT64) exponent_x) << 49); |
res.w[0] = 0; |
BID_RETURN (res); |
} |
} |
|
CY.w[1] = 0; |
if (!valid_y) { |
// y is Inf. or NaN |
|
// test if y is NaN |
if ((y & NAN_MASK64) == NAN_MASK64) { |
#ifdef SET_STATUS_FLAGS |
if ((y & SNAN_MASK64) == SNAN_MASK64) // sNaN |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[0] = (CY.w[0] & 0x0003ffffffffffffull); |
__mul_64x64_to_128 (res, res.w[0], power10_table_128[18].w[0]); |
res.w[1] |= ((CY.w[0]) & 0xfc00000000000000ull); |
BID_RETURN (res); |
} |
// y is Infinity? |
if (((y) & 0x7800000000000000ull) == 0x7800000000000000ull) { |
// return +/-0 |
res.w[1] = sign_x ^ sign_y; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// y is 0, return +/-Inf |
res.w[1] = |
(((x) ^ (y)) & 0x8000000000000000ull) | 0x7800000000000000ull; |
res.w[0] = 0; |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, ZERO_DIVIDE_EXCEPTION); |
#endif |
BID_RETURN (res); |
} |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fegetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
diff_expon = exponent_x - exponent_y + DECIMAL_EXPONENT_BIAS_128; |
|
if (__unsigned_compare_gt_128 (CY, CX)) { |
// CX < CY |
|
// 2^64 |
f64.i = 0x5f800000; |
|
// fx ~ CX, fy ~ CY |
fx.d = (float) CX.w[1] * f64.d + (float) CX.w[0]; |
fy.d = (float) CY.w[1] * f64.d + (float) CY.w[0]; |
// expon_cy - expon_cx |
bin_index = (fy.i - fx.i) >> 23; |
|
if (CX.w[1]) { |
T = power10_index_binexp_128[bin_index].w[0]; |
__mul_64x128_short (CA, T, CX); |
} else { |
T128 = power10_index_binexp_128[bin_index]; |
__mul_64x128_short (CA, CX.w[0], T128); |
} |
|
ed2 = 33; |
if (__unsigned_compare_gt_128 (CY, CA)) |
ed2++; |
|
T128 = power10_table_128[ed2]; |
__mul_128x128_to_256 (CA4, CA, T128); |
|
ed2 += estimate_decimal_digits[bin_index]; |
CQ.w[0] = CQ.w[1] = 0; |
diff_expon = diff_expon - ed2; |
|
} else { |
// get CQ = CX/CY |
__div_128_by_128 (&CQ, &CR, CX, CY); |
|
if (!CR.w[1] && !CR.w[0]) { |
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, |
pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
// get number of decimal digits in CQ |
// 2^64 |
f64.i = 0x5f800000; |
fx.d = (float) CQ.w[1] * f64.d + (float) CQ.w[0]; |
// binary expon. of CQ |
bin_expon = (fx.i - 0x3f800000) >> 23; |
|
digits_q = estimate_decimal_digits[bin_expon]; |
TP128.w[0] = power10_index_binexp_128[bin_expon].w[0]; |
TP128.w[1] = power10_index_binexp_128[bin_expon].w[1]; |
if (__unsigned_compare_ge_128 (CQ, TP128)) |
digits_q++; |
|
ed2 = 34 - digits_q; |
T128.w[0] = power10_table_128[ed2].w[0]; |
T128.w[1] = power10_table_128[ed2].w[1]; |
__mul_128x128_to_256 (CA4, CR, T128); |
diff_expon = diff_expon - ed2; |
__mul_128x128_low (CQ, CQ, T128); |
|
} |
|
__div_256_by_128 (&CQ, &CA4, CY); |
|
|
#ifdef SET_STATUS_FLAGS |
if (CA4.w[0] || CA4.w[1]) { |
// set status flags |
__set_status_flags (pfpsf, INEXACT_EXCEPTION); |
} |
#ifndef LEAVE_TRAILING_ZEROS |
else |
#endif |
#else |
#ifndef LEAVE_TRAILING_ZEROS |
if (!CA4.w[0] && !CA4.w[1]) |
#endif |
#endif |
#ifndef LEAVE_TRAILING_ZEROS |
// check whether result is exact |
{ |
// check whether CX, CY are short |
if (!CX.w[1] && !CY.w[1] && (CX.w[0] <= 1024) && (CY.w[0] <= 1024)) { |
i = (int) CY.w[0] - 1; |
j = (int) CX.w[0] - 1; |
// difference in powers of 2 factors for Y and X |
nzeros = ed2 - factors[i][0] + factors[j][0]; |
// difference in powers of 5 factors |
d5 = ed2 - factors[i][1] + factors[j][1]; |
if (d5 < nzeros) |
nzeros = d5; |
// get P*(2^M[extra_digits])/10^extra_digits |
__mul_128x128_high (Qh, CQ, reciprocals10_128[nzeros]); |
//__mul_128x128_to_256(P256, CQ, reciprocals10_128[nzeros]);Qh.w[1]=P256.w[3];Qh.w[0]=P256.w[2]; |
|
// now get P/10^extra_digits: shift Q_high right by M[extra_digits]-128 |
amount = recip_scale[nzeros]; |
__shr_128_long (CQ, Qh, amount); |
|
diff_expon += nzeros; |
} else { |
// decompose Q as Qh*10^17 + Ql |
//T128 = reciprocals10_128[17]; |
T128.w[0] = 0x44909befeb9fad49ull; |
T128.w[1] = 0x000b877aa3236a4bull; |
__mul_128x128_to_256 (P256, CQ, T128); |
//amount = recip_scale[17]; |
Q_high = (P256.w[2] >> 44) | (P256.w[3] << (64 - 44)); |
Q_low = CQ.w[0] - Q_high * 100000000000000000ull; |
|
if (!Q_low) { |
diff_expon += 17; |
|
tdigit[0] = Q_high & 0x3ffffff; |
tdigit[1] = 0; |
QX = Q_high >> 26; |
QX32 = QX; |
nzeros = 0; |
|
for (j = 0; QX32; j++, QX32 >>= 7) { |
k = (QX32 & 127); |
tdigit[0] += convert_table[j][k][0]; |
tdigit[1] += convert_table[j][k][1]; |
if (tdigit[0] >= 100000000) { |
tdigit[0] -= 100000000; |
tdigit[1]++; |
} |
} |
|
|
if (tdigit[1] >= 100000000) { |
tdigit[1] -= 100000000; |
if (tdigit[1] >= 100000000) |
tdigit[1] -= 100000000; |
} |
|
digit = tdigit[0]; |
if (!digit && !tdigit[1]) |
nzeros += 16; |
else { |
if (!digit) { |
nzeros += 8; |
digit = tdigit[1]; |
} |
// decompose digit |
PD = (UINT64) digit *0x068DB8BBull; |
digit_h = (UINT32) (PD >> 40); |
digit_low = digit - digit_h * 10000; |
|
if (!digit_low) |
nzeros += 4; |
else |
digit_h = digit_low; |
|
if (!(digit_h & 1)) |
nzeros += |
3 & (UINT32) (packed_10000_zeros[digit_h >> 3] >> |
(digit_h & 7)); |
} |
|
if (nzeros) { |
__mul_64x64_to_128 (CQ, Q_high, reciprocals10_64[nzeros]); |
|
// now get P/10^extra_digits: shift C64 right by M[extra_digits]-64 |
amount = short_recip_scale[nzeros]; |
CQ.w[0] = CQ.w[1] >> amount; |
} else |
CQ.w[0] = Q_high; |
CQ.w[1] = 0; |
|
diff_expon += nzeros; |
} else { |
tdigit[0] = Q_low & 0x3ffffff; |
tdigit[1] = 0; |
QX = Q_low >> 26; |
QX32 = QX; |
nzeros = 0; |
|
for (j = 0; QX32; j++, QX32 >>= 7) { |
k = (QX32 & 127); |
tdigit[0] += convert_table[j][k][0]; |
tdigit[1] += convert_table[j][k][1]; |
if (tdigit[0] >= 100000000) { |
tdigit[0] -= 100000000; |
tdigit[1]++; |
} |
} |
|
if (tdigit[1] >= 100000000) { |
tdigit[1] -= 100000000; |
if (tdigit[1] >= 100000000) |
tdigit[1] -= 100000000; |
} |
|
digit = tdigit[0]; |
if (!digit && !tdigit[1]) |
nzeros += 16; |
else { |
if (!digit) { |
nzeros += 8; |
digit = tdigit[1]; |
} |
// decompose digit |
PD = (UINT64) digit *0x068DB8BBull; |
digit_h = (UINT32) (PD >> 40); |
digit_low = digit - digit_h * 10000; |
|
if (!digit_low) |
nzeros += 4; |
else |
digit_h = digit_low; |
|
if (!(digit_h & 1)) |
nzeros += |
3 & (UINT32) (packed_10000_zeros[digit_h >> 3] >> |
(digit_h & 7)); |
} |
|
if (nzeros) { |
// get P*(2^M[extra_digits])/10^extra_digits |
__mul_128x128_high (Qh, CQ, reciprocals10_128[nzeros]); |
|
// now get P/10^extra_digits: shift Q_high right by M[extra_digits]-128 |
amount = recip_scale[nzeros]; |
__shr_128 (CQ, Qh, amount); |
} |
diff_expon += nzeros; |
|
} |
} |
get_BID128(&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode,pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
#endif |
|
if (diff_expon >= 0) { |
#ifdef IEEE_ROUND_NEAREST |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
|
D = (CA4r.w[1] | CA4r.w[0]) ? 1 : 0; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) & ((CQ.w[0]) | D); |
|
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
#else |
#ifdef IEEE_ROUND_NEAREST_TIES_AWAY |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
|
D = (CA4r.w[1] | CA4r.w[0]) ? 0 : 1; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) | D; |
|
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
#else |
rmode = rnd_mode; |
if (sign_x ^ sign_y && (unsigned) (rmode - 1) < 2) |
rmode = 3 - rmode; |
switch (rmode) { |
case ROUNDING_TO_NEAREST: // round to nearest code |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
D = (CA4r.w[1] | CA4r.w[0]) ? 1 : 0; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) & ((CQ.w[0]) | D); |
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
break; |
case ROUNDING_TIES_AWAY: |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
D = (CA4r.w[1] | CA4r.w[0]) ? 0 : 1; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) | D; |
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
break; |
case ROUNDING_DOWN: |
case ROUNDING_TO_ZERO: |
break; |
default: // rounding up |
CQ.w[0]++; |
if (!CQ.w[0]) |
CQ.w[1]++; |
break; |
} |
#endif |
#endif |
|
} else { |
#ifdef SET_STATUS_FLAGS |
if (CA4.w[0] || CA4.w[1]) { |
// set status flags |
__set_status_flags (pfpsf, INEXACT_EXCEPTION); |
} |
#endif |
handle_UF_128_rem (&res, sign_x ^ sign_y, diff_expon, CQ, |
CA4.w[1] | CA4.w[0], &rnd_mode, pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
|
} |
|
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
|
|
BID128_FUNCTION_ARGTYPE1_ARG128 (bid128dq_div, UINT64, x, y) |
UINT256 CA4, CA4r, P256; |
UINT128 CX, CY, T128, CQ, CR, CA, TP128, Qh, res; |
UINT64 sign_x, sign_y, T, carry64, D, Q_high, Q_low, QX, valid_y, |
PD; |
int_float fx, fy, f64; |
UINT32 QX32, tdigit[3], digit, digit_h, digit_low; |
int exponent_x, exponent_y, bin_index, bin_expon, diff_expon, ed2, |
digits_q, amount; |
int nzeros, i, j, k, d5; |
unsigned rmode; |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
fexcept_t binaryflags = 0; |
#endif |
|
valid_y = unpack_BID128_value (&sign_y, &exponent_y, &CY, y); |
|
// unpack arguments, check for NaN or Infinity |
CX.w[1] = 0; |
if (!unpack_BID64 (&sign_x, &exponent_x, &CX.w[0], x)) { |
#ifdef SET_STATUS_FLAGS |
if ((y.w[1] & SNAN_MASK64) == SNAN_MASK64) // y is sNaN |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
|
// test if x is NaN |
if ((x & NAN_MASK64) == NAN_MASK64) { |
#ifdef SET_STATUS_FLAGS |
if ((x & SNAN_MASK64) == SNAN_MASK64) // sNaN |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[0] = (CX.w[0] & 0x0003ffffffffffffull); |
__mul_64x64_to_128 (res, res.w[0], power10_table_128[18].w[0]); |
res.w[1] |= ((CX.w[0]) & 0xfc00000000000000ull); |
BID_RETURN (res); |
} |
// x is Infinity? |
if ((x & 0x7800000000000000ull) == 0x7800000000000000ull) { |
// check if y is Inf. |
if (((y.w[1] & 0x7c00000000000000ull) == 0x7800000000000000ull)) |
// return NaN |
{ |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[1] = 0x7c00000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
if (((y.w[1] & 0x7c00000000000000ull) != 0x7c00000000000000ull)) { |
// otherwise return +/-Inf |
res.w[1] = |
((x ^ y.w[1]) & 0x8000000000000000ull) | 0x7800000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
} |
// x is 0 |
if ((y.w[1] & INFINITY_MASK64) != INFINITY_MASK64) { |
if ((!CY.w[0]) && !(CY.w[1] & 0x0001ffffffffffffull)) { |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
// x=y=0, return NaN |
res.w[1] = 0x7c00000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// return 0 |
res.w[1] = (x ^ y.w[1]) & 0x8000000000000000ull; |
exponent_x = exponent_x - exponent_y + (DECIMAL_EXPONENT_BIAS_128<<1) - DECIMAL_EXPONENT_BIAS; |
if (exponent_x > DECIMAL_MAX_EXPON_128) |
exponent_x = DECIMAL_MAX_EXPON_128; |
else if (exponent_x < 0) |
exponent_x = 0; |
res.w[1] |= (((UINT64) exponent_x) << 49); |
res.w[0] = 0; |
BID_RETURN (res); |
} |
} |
exponent_x += (DECIMAL_EXPONENT_BIAS_128 - DECIMAL_EXPONENT_BIAS); |
|
if (!valid_y) { |
// y is Inf. or NaN |
|
// test if y is NaN |
if ((y.w[1] & 0x7c00000000000000ull) == 0x7c00000000000000ull) { |
#ifdef SET_STATUS_FLAGS |
if ((y.w[1] & 0x7e00000000000000ull) == 0x7e00000000000000ull) // sNaN |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[1] = CY.w[1] & QUIET_MASK64; |
res.w[0] = CY.w[0]; |
BID_RETURN (res); |
} |
// y is Infinity? |
if ((y.w[1] & 0x7800000000000000ull) == 0x7800000000000000ull) { |
// return +/-0 |
res.w[1] = sign_x ^ sign_y; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// y is 0, return +/-Inf |
res.w[1] = |
((x ^ y.w[1]) & 0x8000000000000000ull) | 0x7800000000000000ull; |
res.w[0] = 0; |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, ZERO_DIVIDE_EXCEPTION); |
#endif |
BID_RETURN (res); |
} |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fegetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
diff_expon = exponent_x - exponent_y + DECIMAL_EXPONENT_BIAS_128; |
|
if (__unsigned_compare_gt_128 (CY, CX)) { |
// CX < CY |
|
// 2^64 |
f64.i = 0x5f800000; |
|
// fx ~ CX, fy ~ CY |
fx.d = (float) CX.w[1] * f64.d + (float) CX.w[0]; |
fy.d = (float) CY.w[1] * f64.d + (float) CY.w[0]; |
// expon_cy - expon_cx |
bin_index = (fy.i - fx.i) >> 23; |
|
if (CX.w[1]) { |
T = power10_index_binexp_128[bin_index].w[0]; |
__mul_64x128_short (CA, T, CX); |
} else { |
T128 = power10_index_binexp_128[bin_index]; |
__mul_64x128_short (CA, CX.w[0], T128); |
} |
|
ed2 = 33; |
if (__unsigned_compare_gt_128 (CY, CA)) |
ed2++; |
|
T128 = power10_table_128[ed2]; |
__mul_128x128_to_256 (CA4, CA, T128); |
|
ed2 += estimate_decimal_digits[bin_index]; |
CQ.w[0] = CQ.w[1] = 0; |
diff_expon = diff_expon - ed2; |
|
} else { |
// get CQ = CX/CY |
__div_128_by_128 (&CQ, &CR, CX, CY); |
|
if (!CR.w[1] && !CR.w[0]) { |
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, |
pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
// get number of decimal digits in CQ |
// 2^64 |
f64.i = 0x5f800000; |
fx.d = (float) CQ.w[1] * f64.d + (float) CQ.w[0]; |
// binary expon. of CQ |
bin_expon = (fx.i - 0x3f800000) >> 23; |
|
digits_q = estimate_decimal_digits[bin_expon]; |
TP128.w[0] = power10_index_binexp_128[bin_expon].w[0]; |
TP128.w[1] = power10_index_binexp_128[bin_expon].w[1]; |
if (__unsigned_compare_ge_128 (CQ, TP128)) |
digits_q++; |
|
ed2 = 34 - digits_q; |
T128.w[0] = power10_table_128[ed2].w[0]; |
T128.w[1] = power10_table_128[ed2].w[1]; |
__mul_128x128_to_256 (CA4, CR, T128); |
diff_expon = diff_expon - ed2; |
__mul_128x128_low (CQ, CQ, T128); |
|
} |
|
__div_256_by_128 (&CQ, &CA4, CY); |
|
#ifdef SET_STATUS_FLAGS |
if (CA4.w[0] || CA4.w[1]) { |
// set status flags |
__set_status_flags (pfpsf, INEXACT_EXCEPTION); |
} |
#ifndef LEAVE_TRAILING_ZEROS |
else |
#endif |
#else |
#ifndef LEAVE_TRAILING_ZEROS |
if (!CA4.w[0] && !CA4.w[1]) |
#endif |
#endif |
#ifndef LEAVE_TRAILING_ZEROS |
// check whether result is exact |
{ |
//printf("ed2=%d,nz=%d,a=%d,CQ="LX16","LX16", RH="LX16", RL="LX16"\n",ed2,nzeros,amount,CQ.w[1],CQ.w[0],reciprocals10_128[nzeros].w[1],reciprocals10_128[nzeros].w[0]);fflush(stdout); |
// check whether CX, CY are short |
if (!CX.w[1] && !CY.w[1] && (CX.w[0] <= 1024) && (CY.w[0] <= 1024)) { |
i = (int) CY.w[0] - 1; |
j = (int) CX.w[0] - 1; |
// difference in powers of 2 factors for Y and X |
nzeros = ed2 - factors[i][0] + factors[j][0]; |
// difference in powers of 5 factors |
d5 = ed2 - factors[i][1] + factors[j][1]; |
if (d5 < nzeros) |
nzeros = d5; |
// get P*(2^M[extra_digits])/10^extra_digits |
__mul_128x128_high (Qh, CQ, reciprocals10_128[nzeros]); |
//__mul_128x128_to_256(P256, CQ, reciprocals10_128[nzeros]);Qh.w[1]=P256.w[3];Qh.w[0]=P256.w[2]; |
|
// now get P/10^extra_digits: shift Q_high right by M[extra_digits]-128 |
amount = recip_scale[nzeros]; |
__shr_128_long (CQ, Qh, amount); |
|
diff_expon += nzeros; |
} else { |
// decompose Q as Qh*10^17 + Ql |
//T128 = reciprocals10_128[17]; |
T128.w[0] = 0x44909befeb9fad49ull; |
T128.w[1] = 0x000b877aa3236a4bull; |
__mul_128x128_to_256 (P256, CQ, T128); |
//amount = recip_scale[17]; |
Q_high = (P256.w[2] >> 44) | (P256.w[3] << (64 - 44)); |
Q_low = CQ.w[0] - Q_high * 100000000000000000ull; |
|
if (!Q_low) { |
diff_expon += 17; |
|
tdigit[0] = Q_high & 0x3ffffff; |
tdigit[1] = 0; |
QX = Q_high >> 26; |
QX32 = QX; |
nzeros = 0; |
|
for (j = 0; QX32; j++, QX32 >>= 7) { |
k = (QX32 & 127); |
tdigit[0] += convert_table[j][k][0]; |
tdigit[1] += convert_table[j][k][1]; |
if (tdigit[0] >= 100000000) { |
tdigit[0] -= 100000000; |
tdigit[1]++; |
} |
} |
|
|
if (tdigit[1] >= 100000000) { |
tdigit[1] -= 100000000; |
if (tdigit[1] >= 100000000) |
tdigit[1] -= 100000000; |
} |
|
digit = tdigit[0]; |
if (!digit && !tdigit[1]) |
nzeros += 16; |
else { |
if (!digit) { |
nzeros += 8; |
digit = tdigit[1]; |
} |
// decompose digit |
PD = (UINT64) digit *0x068DB8BBull; |
digit_h = (UINT32) (PD >> 40); |
//printf("i=%d, nz=%d, digit=%d (%d, %016I64x %016I64x)\n",i,nzeros,digit_h,digit,PD,digit_h);fflush(stdout); |
digit_low = digit - digit_h * 10000; |
|
if (!digit_low) |
nzeros += 4; |
else |
digit_h = digit_low; |
|
if (!(digit_h & 1)) |
nzeros += |
3 & (UINT32) (packed_10000_zeros[digit_h >> 3] >> |
(digit_h & 7)); |
} |
|
if (nzeros) { |
__mul_64x64_to_128 (CQ, Q_high, reciprocals10_64[nzeros]); |
|
// now get P/10^extra_digits: shift C64 right by M[extra_digits]-64 |
amount = short_recip_scale[nzeros]; |
CQ.w[0] = CQ.w[1] >> amount; |
} else |
CQ.w[0] = Q_high; |
CQ.w[1] = 0; |
|
diff_expon += nzeros; |
} else { |
tdigit[0] = Q_low & 0x3ffffff; |
tdigit[1] = 0; |
QX = Q_low >> 26; |
QX32 = QX; |
nzeros = 0; |
|
for (j = 0; QX32; j++, QX32 >>= 7) { |
k = (QX32 & 127); |
tdigit[0] += convert_table[j][k][0]; |
tdigit[1] += convert_table[j][k][1]; |
if (tdigit[0] >= 100000000) { |
tdigit[0] -= 100000000; |
tdigit[1]++; |
} |
} |
|
if (tdigit[1] >= 100000000) { |
tdigit[1] -= 100000000; |
if (tdigit[1] >= 100000000) |
tdigit[1] -= 100000000; |
} |
|
digit = tdigit[0]; |
if (!digit && !tdigit[1]) |
nzeros += 16; |
else { |
if (!digit) { |
nzeros += 8; |
digit = tdigit[1]; |
} |
// decompose digit |
PD = (UINT64) digit *0x068DB8BBull; |
digit_h = (UINT32) (PD >> 40); |
//printf("i=%d, nz=%d, digit=%d (%d, %016I64x %016I64x)\n",i,nzeros,digit_h,digit,PD,digit_h);fflush(stdout); |
digit_low = digit - digit_h * 10000; |
|
if (!digit_low) |
nzeros += 4; |
else |
digit_h = digit_low; |
|
if (!(digit_h & 1)) |
nzeros += |
3 & (UINT32) (packed_10000_zeros[digit_h >> 3] >> |
(digit_h & 7)); |
} |
|
if (nzeros) { |
// get P*(2^M[extra_digits])/10^extra_digits |
__mul_128x128_high (Qh, CQ, reciprocals10_128[nzeros]); |
|
// now get P/10^extra_digits: shift Q_high right by M[extra_digits]-128 |
amount = recip_scale[nzeros]; |
__shr_128 (CQ, Qh, amount); |
} |
diff_expon += nzeros; |
|
} |
} |
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, |
pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
#endif |
|
if (diff_expon >= 0) { |
#ifdef IEEE_ROUND_NEAREST |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
|
D = (CA4r.w[1] | CA4r.w[0]) ? 1 : 0; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) & ((CQ.w[0]) | D); |
|
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
#else |
#ifdef IEEE_ROUND_NEAREST_TIES_AWAY |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
|
D = (CA4r.w[1] | CA4r.w[0]) ? 0 : 1; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) | D; |
|
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
#else |
rmode = rnd_mode; |
if (sign_x ^ sign_y && (unsigned) (rmode - 1) < 2) |
rmode = 3 - rmode; |
switch (rmode) { |
case ROUNDING_TO_NEAREST: // round to nearest code |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
D = (CA4r.w[1] | CA4r.w[0]) ? 1 : 0; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) & ((CQ.w[0]) | D); |
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
break; |
case ROUNDING_TIES_AWAY: |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
D = (CA4r.w[1] | CA4r.w[0]) ? 0 : 1; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) | D; |
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
break; |
case ROUNDING_DOWN: |
case ROUNDING_TO_ZERO: |
break; |
default: // rounding up |
CQ.w[0]++; |
if (!CQ.w[0]) |
CQ.w[1]++; |
break; |
} |
#endif |
#endif |
|
} else { |
#ifdef SET_STATUS_FLAGS |
if (CA4.w[0] || CA4.w[1]) { |
// set status flags |
__set_status_flags (pfpsf, INEXACT_EXCEPTION); |
} |
#endif |
handle_UF_128_rem (&res, sign_x ^ sign_y, diff_expon, CQ, |
CA4.w[1] | CA4.w[0], &rnd_mode, pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
|
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
|
} |
|
|
BID128_FUNCTION_ARG128_ARGTYPE2 (bid128qd_div, x, UINT64, y) |
UINT256 CA4, CA4r, P256; |
UINT128 CX, CY, T128, CQ, CR, CA, TP128, Qh, res; |
UINT64 sign_x, sign_y, T, carry64, D, Q_high, Q_low, QX, PD, |
valid_y; |
int_float fx, fy, f64; |
UINT32 QX32, tdigit[3], digit, digit_h, digit_low; |
int exponent_x, exponent_y, bin_index, bin_expon, diff_expon, ed2, |
digits_q, amount; |
int nzeros, i, j, k, d5, rmode; |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
fexcept_t binaryflags = 0; |
#endif |
|
|
valid_y = unpack_BID64 (&sign_y, &exponent_y, &CY.w[0], y); |
// unpack arguments, check for NaN or Infinity |
if (!unpack_BID128_value (&sign_x, &exponent_x, &CX, x)) { |
// test if x is NaN |
if ((x.w[1] & 0x7c00000000000000ull) == 0x7c00000000000000ull) { |
#ifdef SET_STATUS_FLAGS |
if ((x.w[1] & 0x7e00000000000000ull) == 0x7e00000000000000ull || // sNaN |
(y & 0x7e00000000000000ull) == 0x7e00000000000000ull) |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[1] = (CX.w[1]) & QUIET_MASK64; |
res.w[0] = CX.w[0]; |
BID_RETURN (res); |
} |
// x is Infinity? |
if ((x.w[1] & 0x7800000000000000ull) == 0x7800000000000000ull) { |
// check if y is Inf. |
if (((y & 0x7c00000000000000ull) == 0x7800000000000000ull)) |
// return NaN |
{ |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[1] = 0x7c00000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// y is NaN? |
if (((y & 0x7c00000000000000ull) != 0x7c00000000000000ull)) |
// return NaN |
{ |
// return +/-Inf |
res.w[1] = ((x.w[1] ^ y) & 0x8000000000000000ull) | |
0x7800000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
} |
// x is 0 |
if ((y & 0x7800000000000000ull) < 0x7800000000000000ull) { |
if (!CY.w[0]) { |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
// x=y=0, return NaN |
res.w[1] = 0x7c00000000000000ull; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// return 0 |
res.w[1] = (x.w[1] ^ y) & 0x8000000000000000ull; |
exponent_x = exponent_x - exponent_y + DECIMAL_EXPONENT_BIAS; |
if (exponent_x > DECIMAL_MAX_EXPON_128) |
exponent_x = DECIMAL_MAX_EXPON_128; |
else if (exponent_x < 0) |
exponent_x = 0; |
res.w[1] |= (((UINT64) exponent_x) << 49); |
res.w[0] = 0; |
BID_RETURN (res); |
} |
} |
CY.w[1] = 0; |
if (!valid_y) { |
// y is Inf. or NaN |
|
// test if y is NaN |
if ((y & NAN_MASK64) == NAN_MASK64) { |
#ifdef SET_STATUS_FLAGS |
if ((y & SNAN_MASK64) == SNAN_MASK64) // sNaN |
__set_status_flags (pfpsf, INVALID_EXCEPTION); |
#endif |
res.w[0] = (CY.w[0] & 0x0003ffffffffffffull); |
__mul_64x64_to_128 (res, res.w[0], power10_table_128[18].w[0]); |
res.w[1] |= ((CY.w[0]) & 0xfc00000000000000ull); |
BID_RETURN (res); |
} |
// y is Infinity? |
if ((y & INFINITY_MASK64) == INFINITY_MASK64) { |
// return +/-0 |
res.w[1] = ((x.w[1] ^ y) & 0x8000000000000000ull); |
res.w[0] = 0; |
BID_RETURN (res); |
} |
// y is 0 |
#ifdef SET_STATUS_FLAGS |
__set_status_flags (pfpsf, ZERO_DIVIDE_EXCEPTION); |
#endif |
res.w[1] = (sign_x ^ sign_y) | INFINITY_MASK64; |
res.w[0] = 0; |
BID_RETURN (res); |
} |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fegetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
diff_expon = exponent_x - exponent_y + DECIMAL_EXPONENT_BIAS; |
|
if (__unsigned_compare_gt_128 (CY, CX)) { |
// CX < CY |
|
// 2^64 |
f64.i = 0x5f800000; |
|
// fx ~ CX, fy ~ CY |
fx.d = (float) CX.w[1] * f64.d + (float) CX.w[0]; |
fy.d = (float) CY.w[1] * f64.d + (float) CY.w[0]; |
// expon_cy - expon_cx |
bin_index = (fy.i - fx.i) >> 23; |
|
if (CX.w[1]) { |
T = power10_index_binexp_128[bin_index].w[0]; |
__mul_64x128_short (CA, T, CX); |
} else { |
T128 = power10_index_binexp_128[bin_index]; |
__mul_64x128_short (CA, CX.w[0], T128); |
} |
|
ed2 = 33; |
if (__unsigned_compare_gt_128 (CY, CA)) |
ed2++; |
|
T128 = power10_table_128[ed2]; |
__mul_128x128_to_256 (CA4, CA, T128); |
|
ed2 += estimate_decimal_digits[bin_index]; |
CQ.w[0] = CQ.w[1] = 0; |
diff_expon = diff_expon - ed2; |
|
} else { |
// get CQ = CX/CY |
__div_128_by_128 (&CQ, &CR, CX, CY); |
|
if (!CR.w[1] && !CR.w[0]) { |
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, |
pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
// get number of decimal digits in CQ |
// 2^64 |
f64.i = 0x5f800000; |
fx.d = (float) CQ.w[1] * f64.d + (float) CQ.w[0]; |
// binary expon. of CQ |
bin_expon = (fx.i - 0x3f800000) >> 23; |
|
digits_q = estimate_decimal_digits[bin_expon]; |
TP128.w[0] = power10_index_binexp_128[bin_expon].w[0]; |
TP128.w[1] = power10_index_binexp_128[bin_expon].w[1]; |
if (__unsigned_compare_ge_128 (CQ, TP128)) |
digits_q++; |
|
ed2 = 34 - digits_q; |
T128.w[0] = power10_table_128[ed2].w[0]; |
T128.w[1] = power10_table_128[ed2].w[1]; |
__mul_128x128_to_256 (CA4, CR, T128); |
diff_expon = diff_expon - ed2; |
__mul_128x128_low (CQ, CQ, T128); |
|
} |
|
__div_256_by_128 (&CQ, &CA4, CY); |
|
|
#ifdef SET_STATUS_FLAGS |
if (CA4.w[0] || CA4.w[1]) { |
// set status flags |
__set_status_flags (pfpsf, INEXACT_EXCEPTION); |
} |
#ifndef LEAVE_TRAILING_ZEROS |
else |
#endif |
#else |
#ifndef LEAVE_TRAILING_ZEROS |
if (!CA4.w[0] && !CA4.w[1]) |
#endif |
#endif |
#ifndef LEAVE_TRAILING_ZEROS |
// check whether result is exact |
{ |
// check whether CX, CY are short |
if (!CX.w[1] && !CY.w[1] && (CX.w[0] <= 1024) && (CY.w[0] <= 1024)) { |
i = (int) CY.w[0] - 1; |
j = (int) CX.w[0] - 1; |
// difference in powers of 2 factors for Y and X |
nzeros = ed2 - factors[i][0] + factors[j][0]; |
// difference in powers of 5 factors |
d5 = ed2 - factors[i][1] + factors[j][1]; |
if (d5 < nzeros) |
nzeros = d5; |
// get P*(2^M[extra_digits])/10^extra_digits |
__mul_128x128_high (Qh, CQ, reciprocals10_128[nzeros]); |
//__mul_128x128_to_256(P256, CQ, reciprocals10_128[nzeros]);Qh.w[1]=P256.w[3];Qh.w[0]=P256.w[2]; |
|
// now get P/10^extra_digits: shift Q_high right by M[extra_digits]-128 |
amount = recip_scale[nzeros]; |
__shr_128_long (CQ, Qh, amount); |
|
diff_expon += nzeros; |
} else { |
// decompose Q as Qh*10^17 + Ql |
//T128 = reciprocals10_128[17]; |
T128.w[0] = 0x44909befeb9fad49ull; |
T128.w[1] = 0x000b877aa3236a4bull; |
__mul_128x128_to_256 (P256, CQ, T128); |
//amount = recip_scale[17]; |
Q_high = (P256.w[2] >> 44) | (P256.w[3] << (64 - 44)); |
Q_low = CQ.w[0] - Q_high * 100000000000000000ull; |
|
if (!Q_low) { |
diff_expon += 17; |
|
tdigit[0] = Q_high & 0x3ffffff; |
tdigit[1] = 0; |
QX = Q_high >> 26; |
QX32 = QX; |
nzeros = 0; |
|
for (j = 0; QX32; j++, QX32 >>= 7) { |
k = (QX32 & 127); |
tdigit[0] += convert_table[j][k][0]; |
tdigit[1] += convert_table[j][k][1]; |
if (tdigit[0] >= 100000000) { |
tdigit[0] -= 100000000; |
tdigit[1]++; |
} |
} |
|
|
if (tdigit[1] >= 100000000) { |
tdigit[1] -= 100000000; |
if (tdigit[1] >= 100000000) |
tdigit[1] -= 100000000; |
} |
|
digit = tdigit[0]; |
if (!digit && !tdigit[1]) |
nzeros += 16; |
else { |
if (!digit) { |
nzeros += 8; |
digit = tdigit[1]; |
} |
// decompose digit |
PD = (UINT64) digit *0x068DB8BBull; |
digit_h = (UINT32) (PD >> 40); |
digit_low = digit - digit_h * 10000; |
|
if (!digit_low) |
nzeros += 4; |
else |
digit_h = digit_low; |
|
if (!(digit_h & 1)) |
nzeros += |
3 & (UINT32) (packed_10000_zeros[digit_h >> 3] >> |
(digit_h & 7)); |
} |
|
if (nzeros) { |
__mul_64x64_to_128 (CQ, Q_high, reciprocals10_64[nzeros]); |
|
// now get P/10^extra_digits: shift C64 right by M[extra_digits]-64 |
amount = short_recip_scale[nzeros]; |
CQ.w[0] = CQ.w[1] >> amount; |
} else |
CQ.w[0] = Q_high; |
CQ.w[1] = 0; |
|
diff_expon += nzeros; |
} else { |
tdigit[0] = Q_low & 0x3ffffff; |
tdigit[1] = 0; |
QX = Q_low >> 26; |
QX32 = QX; |
nzeros = 0; |
|
for (j = 0; QX32; j++, QX32 >>= 7) { |
k = (QX32 & 127); |
tdigit[0] += convert_table[j][k][0]; |
tdigit[1] += convert_table[j][k][1]; |
if (tdigit[0] >= 100000000) { |
tdigit[0] -= 100000000; |
tdigit[1]++; |
} |
} |
|
if (tdigit[1] >= 100000000) { |
tdigit[1] -= 100000000; |
if (tdigit[1] >= 100000000) |
tdigit[1] -= 100000000; |
} |
|
digit = tdigit[0]; |
if (!digit && !tdigit[1]) |
nzeros += 16; |
else { |
if (!digit) { |
nzeros += 8; |
digit = tdigit[1]; |
} |
// decompose digit |
PD = (UINT64) digit *0x068DB8BBull; |
digit_h = (UINT32) (PD >> 40); |
digit_low = digit - digit_h * 10000; |
|
if (!digit_low) |
nzeros += 4; |
else |
digit_h = digit_low; |
|
if (!(digit_h & 1)) |
nzeros += |
3 & (UINT32) (packed_10000_zeros[digit_h >> 3] >> |
(digit_h & 7)); |
} |
|
if (nzeros) { |
// get P*(2^M[extra_digits])/10^extra_digits |
__mul_128x128_high (Qh, CQ, reciprocals10_128[nzeros]); |
|
// now get P/10^extra_digits: shift Q_high right by M[extra_digits]-128 |
amount = recip_scale[nzeros]; |
__shr_128 (CQ, Qh, amount); |
} |
diff_expon += nzeros; |
|
} |
} |
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode,pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
} |
#endif |
|
if (diff_expon >= 0) { |
#ifdef IEEE_ROUND_NEAREST |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
|
D = (CA4r.w[1] | CA4r.w[0]) ? 1 : 0; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) & ((CQ.w[0]) | D); |
|
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
#else |
#ifdef IEEE_ROUND_NEAREST_TIES_AWAY |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
|
D = (CA4r.w[1] | CA4r.w[0]) ? 0 : 1; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) | D; |
|
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
#else |
rmode = rnd_mode; |
if (sign_x ^ sign_y && (unsigned) (rmode - 1) < 2) |
rmode = 3 - rmode; |
switch (rmode) { |
case ROUNDING_TO_NEAREST: // round to nearest code |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
D = (CA4r.w[1] | CA4r.w[0]) ? 1 : 0; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) & ((CQ.w[0]) | D); |
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
break; |
case ROUNDING_TIES_AWAY: |
// rounding |
// 2*CA4 - CY |
CA4r.w[1] = (CA4.w[1] + CA4.w[1]) | (CA4.w[0] >> 63); |
CA4r.w[0] = CA4.w[0] + CA4.w[0]; |
__sub_borrow_out (CA4r.w[0], carry64, CA4r.w[0], CY.w[0]); |
CA4r.w[1] = CA4r.w[1] - CY.w[1] - carry64; |
D = (CA4r.w[1] | CA4r.w[0]) ? 0 : 1; |
carry64 = (1 + (((SINT64) CA4r.w[1]) >> 63)) | D; |
CQ.w[0] += carry64; |
if (CQ.w[0] < carry64) |
CQ.w[1]++; |
break; |
case ROUNDING_DOWN: |
case ROUNDING_TO_ZERO: |
break; |
default: // rounding up |
CQ.w[0]++; |
if (!CQ.w[0]) |
CQ.w[1]++; |
break; |
} |
#endif |
#endif |
|
} else { |
#ifdef SET_STATUS_FLAGS |
if (CA4.w[0] || CA4.w[1]) { |
// set status flags |
__set_status_flags (pfpsf, INEXACT_EXCEPTION); |
} |
#endif |
handle_UF_128_rem (&res, sign_x ^ sign_y, diff_expon, CQ, |
CA4.w[1] | CA4.w[0], &rnd_mode, pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
|
} |
|
get_BID128 (&res, sign_x ^ sign_y, diff_expon, CQ, &rnd_mode, pfpsf); |
#ifdef UNCHANGED_BINARY_STATUS_FLAGS |
(void) fesetexceptflag (&binaryflags, FE_ALL_FLAGS); |
#endif |
BID_RETURN (res); |
|
} |