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I used these shell commands: ../glibc/scripts/update-copyrights $PWD/../gnulib/build-aux/update-copyright (cd ../glibc && git commit -am"[this commit message]") and then ignored the output, which consisted lines saying "FOO: warning: copyright statement not found" for each of 6694 files FOO. I then removed trailing white space from benchtests/bench-pthread-locks.c and iconvdata/tst-iconv-big5-hkscs-to-2ucs4.c, to work around this diagnostic from Savannah: remote: *** pre-commit check failed ... remote: *** error: lines with trailing whitespace found remote: error: hook declined to update refs/heads/master
291 lines
7.9 KiB
C
291 lines
7.9 KiB
C
/* Manipulation of the bit representation of 'long double' quantities.
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Copyright (C) 2006-2021 Free Software Foundation, Inc.
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This file is part of the GNU C Library.
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The GNU C Library is free software; you can redistribute it and/or
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modify it under the terms of the GNU Lesser General Public
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License as published by the Free Software Foundation; either
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version 2.1 of the License, or (at your option) any later version.
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The GNU C Library is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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Lesser General Public License for more details.
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You should have received a copy of the GNU Lesser General Public
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License along with the GNU C Library; if not, see
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<https://www.gnu.org/licenses/>. */
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#ifndef _MATH_LDBL_H_
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#define _MATH_LDBL_H_ 1
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#include <ieee754.h>
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#include <stdint.h>
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/* To suit our callers we return *hi64 and *lo64 as if they came from
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an ieee854 112 bit mantissa, that is, 48 bits in *hi64 (plus one
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implicit bit) and 64 bits in *lo64. */
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static inline void
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ldbl_extract_mantissa (int64_t *hi64, uint64_t *lo64, int *exp, long double x)
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{
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/* We have 105 bits of mantissa plus one implicit digit. Since
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106 bits are representable we use the first implicit digit for
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the number before the decimal point and the second implicit bit
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as bit 53 of the mantissa. */
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uint64_t hi, lo;
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union ibm_extended_long_double u;
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u.ld = x;
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*exp = u.d[0].ieee.exponent - IEEE754_DOUBLE_BIAS;
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lo = ((uint64_t) u.d[1].ieee.mantissa0 << 32) | u.d[1].ieee.mantissa1;
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hi = ((uint64_t) u.d[0].ieee.mantissa0 << 32) | u.d[0].ieee.mantissa1;
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if (u.d[0].ieee.exponent != 0)
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{
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int ediff;
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/* If not a denormal or zero then we have an implicit 53rd bit. */
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hi |= (uint64_t) 1 << 52;
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if (u.d[1].ieee.exponent != 0)
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lo |= (uint64_t) 1 << 52;
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else
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/* A denormal is to be interpreted as having a biased exponent
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of 1. */
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lo = lo << 1;
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/* We are going to shift 4 bits out of hi later, because we only
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want 48 bits in *hi64. That means we want 60 bits in lo, but
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we currently only have 53. Shift the value up. */
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lo = lo << 7;
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/* The lower double is normalized separately from the upper.
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We may need to adjust the lower mantissa to reflect this.
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The difference between the exponents can be larger than 53
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when the low double is much less than 1ULP of the upper
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(in which case there are significant bits, all 0's or all
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1's, between the two significands). The difference between
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the exponents can be less than 53 when the upper double
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exponent is nearing its minimum value (in which case the low
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double is denormal ie. has an exponent of zero). */
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ediff = u.d[0].ieee.exponent - u.d[1].ieee.exponent - 53;
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if (ediff > 0)
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{
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if (ediff < 64)
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lo = lo >> ediff;
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else
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lo = 0;
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}
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else if (ediff < 0)
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lo = lo << -ediff;
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if (u.d[0].ieee.negative != u.d[1].ieee.negative
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&& lo != 0)
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{
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hi--;
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lo = ((uint64_t) 1 << 60) - lo;
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if (hi < (uint64_t) 1 << 52)
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{
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/* We have a borrow from the hidden bit, so shift left 1. */
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hi = (hi << 1) | (lo >> 59);
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lo = (((uint64_t) 1 << 60) - 1) & (lo << 1);
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*exp = *exp - 1;
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}
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}
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}
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else
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/* If the larger magnitude double is denormal then the smaller
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one must be zero. */
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hi = hi << 1;
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*lo64 = (hi << 60) | lo;
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*hi64 = hi >> 4;
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}
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static inline long double
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ldbl_insert_mantissa (int sign, int exp, int64_t hi64, uint64_t lo64)
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{
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union ibm_extended_long_double u;
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int expnt2;
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uint64_t hi, lo;
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u.d[0].ieee.negative = sign;
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u.d[1].ieee.negative = sign;
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u.d[0].ieee.exponent = exp + IEEE754_DOUBLE_BIAS;
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u.d[1].ieee.exponent = 0;
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expnt2 = exp - 53 + IEEE754_DOUBLE_BIAS;
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/* Expect 113 bits (112 bits + hidden) right justified in two longs.
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The low order 53 bits (52 + hidden) go into the lower double */
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lo = (lo64 >> 7) & (((uint64_t) 1 << 53) - 1);
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/* The high order 53 bits (52 + hidden) go into the upper double */
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hi = lo64 >> 60;
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hi |= hi64 << 4;
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if (lo != 0)
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{
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int lzcount;
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/* hidden bit of low double controls rounding of the high double.
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If hidden is '1' and either the explicit mantissa is non-zero
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or hi is odd, then round up hi and adjust lo (2nd mantissa)
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plus change the sign of the low double to compensate. */
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if ((lo & ((uint64_t) 1 << 52)) != 0
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&& ((hi & 1) != 0 || (lo & (((uint64_t) 1 << 52) - 1)) != 0))
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{
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hi++;
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if ((hi & ((uint64_t) 1 << 53)) != 0)
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{
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hi = hi >> 1;
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u.d[0].ieee.exponent++;
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}
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u.d[1].ieee.negative = !sign;
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lo = ((uint64_t) 1 << 53) - lo;
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}
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/* Normalize the low double. Shift the mantissa left until
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the hidden bit is '1' and adjust the exponent accordingly. */
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if (sizeof (lo) == sizeof (long))
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lzcount = __builtin_clzl (lo);
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else if ((lo >> 32) != 0)
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lzcount = __builtin_clzl ((long) (lo >> 32));
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else
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lzcount = __builtin_clzl ((long) lo) + 32;
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lzcount = lzcount - (64 - 53);
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lo <<= lzcount;
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expnt2 -= lzcount;
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if (expnt2 >= 1)
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/* Not denormal. */
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u.d[1].ieee.exponent = expnt2;
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else
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{
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/* Is denormal. Note that biased exponent of 0 is treated
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as if it was 1, hence the extra shift. */
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if (expnt2 > -53)
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lo >>= 1 - expnt2;
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else
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lo = 0;
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}
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}
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else
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u.d[1].ieee.negative = 0;
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u.d[1].ieee.mantissa1 = lo;
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u.d[1].ieee.mantissa0 = lo >> 32;
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u.d[0].ieee.mantissa1 = hi;
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u.d[0].ieee.mantissa0 = hi >> 32;
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return u.ld;
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}
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/* Handy utility functions to pack/unpack/cononicalize and find the nearbyint
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of long double implemented as double double. */
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static inline long double
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default_ldbl_pack (double a, double aa)
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{
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union ibm_extended_long_double u;
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u.d[0].d = a;
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u.d[1].d = aa;
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return u.ld;
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}
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static inline void
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default_ldbl_unpack (long double l, double *a, double *aa)
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{
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union ibm_extended_long_double u;
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u.ld = l;
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*a = u.d[0].d;
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*aa = u.d[1].d;
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}
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#ifndef ldbl_pack
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# define ldbl_pack default_ldbl_pack
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#endif
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#ifndef ldbl_unpack
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# define ldbl_unpack default_ldbl_unpack
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#endif
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/* Extract high double. */
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#define ldbl_high(x) ((double) x)
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/* Convert a finite long double to canonical form.
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Does not handle +/-Inf properly. */
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static inline void
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ldbl_canonicalize (double *a, double *aa)
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{
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double xh, xl;
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xh = *a + *aa;
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xl = (*a - xh) + *aa;
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*a = xh;
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*aa = xl;
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}
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/* Simple inline nearbyint (double) function.
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Only works in the default rounding mode
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but is useful in long double rounding functions. */
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static inline double
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ldbl_nearbyint (double a)
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{
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double two52 = 0x1p52;
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if (__glibc_likely ((__builtin_fabs (a) < two52)))
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{
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if (__glibc_likely ((a > 0.0)))
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{
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a += two52;
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a -= two52;
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}
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else if (__glibc_likely ((a < 0.0)))
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{
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a = two52 - a;
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a = -(a - two52);
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}
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}
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return a;
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}
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/* Canonicalize a result from an integer rounding function, in any
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rounding mode. *A and *AA are finite and integers, with *A being
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nonzero; if the result is not already canonical, *AA is plus or
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minus a power of 2 that does not exceed the least set bit in
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*A. */
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static inline void
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ldbl_canonicalize_int (double *a, double *aa)
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{
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/* Previously we used EXTRACT_WORDS64 from math_private.h, but in order
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to avoid including internal headers we duplicate that code here. */
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uint64_t ax, aax;
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union { double value; uint64_t word; } extractor;
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extractor.value = *a;
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ax = extractor.word;
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extractor.value = *aa;
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aax = extractor.word;
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int expdiff = ((ax >> 52) & 0x7ff) - ((aax >> 52) & 0x7ff);
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if (expdiff <= 53)
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{
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if (expdiff == 53)
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{
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/* Half way between two double values; noncanonical iff the
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low bit of A's mantissa is 1. */
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if ((ax & 1) != 0)
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{
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*a += 2 * *aa;
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*aa = -*aa;
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}
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}
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else
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{
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/* The sum can be represented in a single double. */
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*a += *aa;
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*aa = 0;
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}
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}
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}
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#endif /* math_ldbl.h */
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