2012-11-28 13:40:54 +00:00
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/* Implement powl for x86 using extra-precision log.
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2018-01-01 00:32:25 +00:00
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Copyright (C) 2012-2018 Free Software Foundation, Inc.
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2012-11-28 13:40:54 +00:00
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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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<http://www.gnu.org/licenses/>. */
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#include <math.h>
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#include <math_private.h>
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2018-05-10 00:53:04 +00:00
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#include <math-underflow.h>
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2014-06-23 20:12:33 +00:00
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#include <stdbool.h>
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2012-11-28 13:40:54 +00:00
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/* High parts and low parts of -log (k/16), for integer k from 12 to
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24. */
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static const long double powl_log_table[] =
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{
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0x4.9a58844d36e49e1p-4L, -0x1.0522624fd558f574p-68L,
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0x3.527da7915b3c6de4p-4L, 0x1.7d4ef4b901b99b9ep-68L,
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0x2.22f1d044fc8f7bc8p-4L, -0x1.8e97c071a42fc388p-68L,
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0x1.08598b59e3a0688ap-4L, 0x3.fd9bf503372c12fcp-72L,
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-0x0p+0L, 0x0p+0L,
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-0xf.85186008b15330cp-8L, 0x1.9b47488a6687672cp-72L,
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-0x1.e27076e2af2e5e9ep-4L, -0xa.87ffe1fe9e155dcp-72L,
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-0x2.bfe60e14f27a791p-4L, 0x1.83bebf1bdb88a032p-68L,
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-0x3.91fef8f353443584p-4L, -0xb.b03de5ff734495cp-72L,
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-0x4.59d72aeae98380e8p-4L, 0xc.e0aa3be4747dc1p-72L,
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-0x5.1862f08717b09f4p-4L, -0x2.decdeccf1cd10578p-68L,
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-0x5.ce75fdaef401a738p-4L, -0x9.314feb4fbde5aaep-72L,
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-0x6.7cc8fb2fe612fcbp-4L, 0x2.5ca2642feb779f98p-68L,
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};
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/* High 32 bits of log2 (e), and remainder rounded to 64 bits. */
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static const long double log2e_hi = 0x1.71547652p+0L;
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static const long double log2e_lo = 0xb.82fe1777d0ffda1p-36L;
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/* Given a number with high part HI and low part LO, add the number X
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to it and store the result in *RHI and *RLO. It is given that
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either |X| < |0.7 * HI|, or HI == LO == 0, and that the values are
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small enough that no overflow occurs. The result does not need to
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be exact to 128 bits; 78-bit accuracy of the final accumulated
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result suffices. */
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static inline void
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acc_split (long double *rhi, long double *rlo, long double hi, long double lo,
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long double x)
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{
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long double thi = hi + x;
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long double tlo = (hi - thi) + x + lo;
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*rhi = thi + tlo;
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*rlo = (thi - *rhi) + tlo;
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}
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extern long double __powl_helper (long double x, long double y);
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libm_hidden_proto (__powl_helper)
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2014-06-23 20:12:33 +00:00
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/* Given X a value that is finite and nonzero, or a NaN, and Y a
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finite nonzero value with 0x1p-79 <= |Y| <= 0x1p78, compute X to
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the power Y. */
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2012-11-28 13:40:54 +00:00
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long double
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__powl_helper (long double x, long double y)
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{
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2014-06-23 20:12:33 +00:00
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if (isnan (x))
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2012-11-28 13:40:54 +00:00
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return __ieee754_expl (y * __ieee754_logl (x));
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2014-06-23 20:12:33 +00:00
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bool negate;
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if (x < 0)
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{
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long double absy = fabsl (y);
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if (absy >= 0x1p64L)
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negate = false;
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else
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{
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unsigned long long yll = absy;
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if (yll != absy)
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return __ieee754_expl (y * __ieee754_logl (x));
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negate = (yll & 1) != 0;
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}
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x = fabsl (x);
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}
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else
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negate = false;
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2012-11-28 13:40:54 +00:00
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/* We need to compute Y * log2 (X) to at least 64 bits after the
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point for normal results (that is, to at least 78 bits
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precision). */
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int x_int_exponent;
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long double x_frac;
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x_frac = __frexpl (x, &x_int_exponent);
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if (x_frac <= 0x0.aaaaaaaaaaaaaaaap0L) /* 2.0L / 3.0L, rounded down */
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{
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x_frac *= 2.0;
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x_int_exponent--;
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}
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long double log_x_frac_hi, log_x_frac_lo;
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/* Determine an initial approximation to log (X_FRAC) using
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POWL_LOG_TABLE, and multiply by a value K/16 to reduce to an
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interval (24/25, 26/25). */
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int k = (int) ((16.0L / x_frac) + 0.5L);
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log_x_frac_hi = powl_log_table[2 * k - 24];
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log_x_frac_lo = powl_log_table[2 * k - 23];
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long double x_frac_low;
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if (k == 16)
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x_frac_low = 0.0L;
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else
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{
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/* Mask off low 5 bits of X_FRAC so the multiplication by K/16
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is exact. These bits are small enough that they can be
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corrected for by adding log2 (e) * X_FRAC_LOW to the final
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result. */
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int32_t se;
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2017-08-03 19:55:04 +00:00
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uint32_t i0, i1;
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2012-11-28 13:40:54 +00:00
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GET_LDOUBLE_WORDS (se, i0, i1, x_frac);
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x_frac_low = x_frac;
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i1 &= 0xffffffe0;
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SET_LDOUBLE_WORDS (x_frac, se, i0, i1);
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x_frac_low -= x_frac;
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x_frac_low /= x_frac;
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x_frac *= k / 16.0L;
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}
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/* Now compute log (X_FRAC) for X_FRAC in (24/25, 26/25). Separate
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W = X_FRAC - 1 into high 16 bits and remaining bits, so that
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multiplications for low-order power series terms are exact. The
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remaining bits are small enough that adding a 64-bit value of
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log2 (1 + W_LO / (1 + W_HI)) will be a sufficient correction for
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them. */
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long double w = x_frac - 1;
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long double w_hi, w_lo;
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int32_t se;
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2017-08-03 19:55:04 +00:00
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uint32_t i0, i1;
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2012-11-28 13:40:54 +00:00
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GET_LDOUBLE_WORDS (se, i0, i1, w);
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i0 &= 0xffff0000;
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i1 = 0;
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SET_LDOUBLE_WORDS (w_hi, se, i0, i1);
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w_lo = w - w_hi;
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long double wp = w_hi;
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acc_split (&log_x_frac_hi, &log_x_frac_lo, log_x_frac_hi, log_x_frac_lo, wp);
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wp *= -w_hi;
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acc_split (&log_x_frac_hi, &log_x_frac_lo, log_x_frac_hi, log_x_frac_lo,
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wp / 2.0L);
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wp *= -w_hi;
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acc_split (&log_x_frac_hi, &log_x_frac_lo, log_x_frac_hi, log_x_frac_lo,
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wp * 0x0.5555p0L); /* -W_HI**3 / 3, high part. */
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acc_split (&log_x_frac_hi, &log_x_frac_lo, log_x_frac_hi, log_x_frac_lo,
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wp * 0x0.5555555555555555p-16L); /* -W_HI**3 / 3, low part. */
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wp *= -w_hi;
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acc_split (&log_x_frac_hi, &log_x_frac_lo, log_x_frac_hi, log_x_frac_lo,
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wp / 4.0L);
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/* Subsequent terms are small enough that they only need be computed
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to 64 bits. */
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for (int i = 5; i <= 17; i++)
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{
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wp *= -w_hi;
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acc_split (&log_x_frac_hi, &log_x_frac_lo, log_x_frac_hi, log_x_frac_lo,
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wp / i);
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}
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/* Convert LOG_X_FRAC_HI + LOG_X_FRAC_LO to a base-2 logarithm. */
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long double log2_x_frac_hi, log2_x_frac_lo;
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long double log_x_frac_hi32, log_x_frac_lo64;
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GET_LDOUBLE_WORDS (se, i0, i1, log_x_frac_hi);
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i1 = 0;
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SET_LDOUBLE_WORDS (log_x_frac_hi32, se, i0, i1);
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log_x_frac_lo64 = (log_x_frac_hi - log_x_frac_hi32) + log_x_frac_lo;
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long double log2_x_frac_hi1 = log_x_frac_hi32 * log2e_hi;
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long double log2_x_frac_lo1
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= log_x_frac_lo64 * log2e_hi + log_x_frac_hi * log2e_lo;
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log2_x_frac_hi = log2_x_frac_hi1 + log2_x_frac_lo1;
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log2_x_frac_lo = (log2_x_frac_hi1 - log2_x_frac_hi) + log2_x_frac_lo1;
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/* Correct for the masking off of W_LO. */
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long double log2_1p_w_lo;
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asm ("fyl2xp1"
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: "=t" (log2_1p_w_lo)
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: "0" (w_lo / (1.0L + w_hi)), "u" (1.0L)
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: "st(1)");
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acc_split (&log2_x_frac_hi, &log2_x_frac_lo, log2_x_frac_hi, log2_x_frac_lo,
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log2_1p_w_lo);
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/* Correct for the masking off of X_FRAC_LOW. */
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acc_split (&log2_x_frac_hi, &log2_x_frac_lo, log2_x_frac_hi, log2_x_frac_lo,
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x_frac_low * M_LOG2El);
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/* Add the integer and fractional parts of the base-2 logarithm. */
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long double log2_x_hi, log2_x_lo;
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log2_x_hi = x_int_exponent + log2_x_frac_hi;
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log2_x_lo = ((x_int_exponent - log2_x_hi) + log2_x_frac_hi) + log2_x_frac_lo;
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/* Compute the base-2 logarithm of the result. */
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long double log2_res_hi, log2_res_lo;
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long double log2_x_hi32, log2_x_lo64;
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GET_LDOUBLE_WORDS (se, i0, i1, log2_x_hi);
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i1 = 0;
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SET_LDOUBLE_WORDS (log2_x_hi32, se, i0, i1);
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log2_x_lo64 = (log2_x_hi - log2_x_hi32) + log2_x_lo;
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long double y_hi32, y_lo32;
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GET_LDOUBLE_WORDS (se, i0, i1, y);
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i1 = 0;
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SET_LDOUBLE_WORDS (y_hi32, se, i0, i1);
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y_lo32 = y - y_hi32;
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log2_res_hi = log2_x_hi32 * y_hi32;
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log2_res_lo = log2_x_hi32 * y_lo32 + log2_x_lo64 * y;
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/* Split the base-2 logarithm of the result into integer and
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fractional parts. */
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long double log2_res_int = __roundl (log2_res_hi);
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long double log2_res_frac = log2_res_hi - log2_res_int + log2_res_lo;
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2014-06-23 20:12:33 +00:00
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/* If the integer part is very large, the computed fractional part
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may be outside the valid range for f2xm1. */
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if (fabsl (log2_res_int) > 16500)
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log2_res_frac = 0;
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2012-11-28 13:40:54 +00:00
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/* Compute the final result. */
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long double res;
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asm ("f2xm1" : "=t" (res) : "0" (log2_res_frac));
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res += 1.0L;
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2014-06-23 20:12:33 +00:00
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if (negate)
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res = -res;
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2012-11-28 13:40:54 +00:00
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asm ("fscale" : "=t" (res) : "0" (res), "u" (log2_res_int));
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2015-09-25 22:29:10 +00:00
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math_check_force_underflow (res);
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2012-11-28 13:40:54 +00:00
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return res;
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}
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libm_hidden_def (__powl_helper)
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