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Diffstat (limited to 'Build/source/libs/mpfr/mpfr-3.1.2/src/root.c')
-rw-r--r--Build/source/libs/mpfr/mpfr-3.1.2/src/root.c205
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diff --git a/Build/source/libs/mpfr/mpfr-3.1.2/src/root.c b/Build/source/libs/mpfr/mpfr-3.1.2/src/root.c
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+/* mpfr_root -- kth root.
+
+Copyright 2005, 2006, 2007, 2008, 2009, 2010, 2011, 2012, 2013 Free Software Foundation, Inc.
+Contributed by the AriC and Caramel projects, INRIA.
+
+This file is part of the GNU MPFR Library.
+
+The GNU MPFR Library is free software; you can redistribute it and/or modify
+it under the terms of the GNU Lesser General Public License as published by
+the Free Software Foundation; either version 3 of the License, or (at your
+option) any later version.
+
+The GNU MPFR Library 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 Lesser General Public
+License for more details.
+
+You should have received a copy of the GNU Lesser General Public License
+along with the GNU MPFR Library; see the file COPYING.LESSER. If not, see
+http://www.gnu.org/licenses/ or write to the Free Software Foundation, Inc.,
+51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA. */
+
+#define MPFR_NEED_LONGLONG_H
+#include "mpfr-impl.h"
+
+ /* The computation of y = x^(1/k) is done as follows:
+
+ Let x = sign * m * 2^(k*e) where m is an integer
+
+ with 2^(k*(n-1)) <= m < 2^(k*n) where n = PREC(y)
+
+ and m = s^k + r where 0 <= r and m < (s+1)^k
+
+ we want that s has n bits i.e. s >= 2^(n-1), or m >= 2^(k*(n-1))
+ i.e. m must have at least k*(n-1)+1 bits
+
+ then, not taking into account the sign, the result will be
+ x^(1/k) = s * 2^e or (s+1) * 2^e according to the rounding mode.
+ */
+
+int
+mpfr_root (mpfr_ptr y, mpfr_srcptr x, unsigned long k, mpfr_rnd_t rnd_mode)
+{
+ mpz_t m;
+ mpfr_exp_t e, r, sh;
+ mpfr_prec_t n, size_m, tmp;
+ int inexact, negative;
+ MPFR_SAVE_EXPO_DECL (expo);
+
+ MPFR_LOG_FUNC
+ (("x[%Pu]=%.*Rg k=%lu rnd=%d",
+ mpfr_get_prec (x), mpfr_log_prec, x, k, rnd_mode),
+ ("y[%Pu]=%.*Rg inexact=%d",
+ mpfr_get_prec (y), mpfr_log_prec, y, inexact));
+
+ if (MPFR_UNLIKELY (k <= 1))
+ {
+ if (k < 1) /* k==0 => y=x^(1/0)=x^(+Inf) */
+#if 0
+ /* For 0 <= x < 1 => +0.
+ For x = 1 => 1.
+ For x > 1, => +Inf.
+ For x < 0 => NaN.
+ */
+ {
+ if (MPFR_IS_NEG (x) && !MPFR_IS_ZERO (x))
+ {
+ MPFR_SET_NAN (y);
+ MPFR_RET_NAN;
+ }
+ inexact = mpfr_cmp (x, __gmpfr_one);
+ if (inexact == 0)
+ return mpfr_set_ui (y, 1, rnd_mode); /* 1 may be Out of Range */
+ else if (inexact < 0)
+ return mpfr_set_ui (y, 0, rnd_mode); /* 0+ */
+ else
+ {
+ mpfr_set_inf (y, 1);
+ return 0;
+ }
+ }
+#endif
+ {
+ MPFR_SET_NAN (y);
+ MPFR_RET_NAN;
+ }
+ else /* y =x^(1/1)=x */
+ return mpfr_set (y, x, rnd_mode);
+ }
+
+ /* Singular values */
+ else if (MPFR_UNLIKELY (MPFR_IS_SINGULAR (x)))
+ {
+ if (MPFR_IS_NAN (x))
+ {
+ MPFR_SET_NAN (y); /* NaN^(1/k) = NaN */
+ MPFR_RET_NAN;
+ }
+ else if (MPFR_IS_INF (x)) /* +Inf^(1/k) = +Inf
+ -Inf^(1/k) = -Inf if k odd
+ -Inf^(1/k) = NaN if k even */
+ {
+ if (MPFR_IS_NEG(x) && (k % 2 == 0))
+ {
+ MPFR_SET_NAN (y);
+ MPFR_RET_NAN;
+ }
+ MPFR_SET_INF (y);
+ MPFR_SET_SAME_SIGN (y, x);
+ MPFR_RET (0);
+ }
+ else /* x is necessarily 0: (+0)^(1/k) = +0
+ (-0)^(1/k) = -0 */
+ {
+ MPFR_ASSERTD (MPFR_IS_ZERO (x));
+ MPFR_SET_ZERO (y);
+ MPFR_SET_SAME_SIGN (y, x);
+ MPFR_RET (0);
+ }
+ }
+
+ /* Returns NAN for x < 0 and k even */
+ else if (MPFR_IS_NEG (x) && (k % 2 == 0))
+ {
+ MPFR_SET_NAN (y);
+ MPFR_RET_NAN;
+ }
+
+ /* General case */
+ MPFR_SAVE_EXPO_MARK (expo);
+ mpz_init (m);
+
+ e = mpfr_get_z_2exp (m, x); /* x = m * 2^e */
+ if ((negative = MPFR_IS_NEG(x)))
+ mpz_neg (m, m);
+ r = e % (mpfr_exp_t) k;
+ if (r < 0)
+ r += k; /* now r = e (mod k) with 0 <= e < r */
+ /* x = (m*2^r) * 2^(e-r) where e-r is a multiple of k */
+
+ MPFR_MPZ_SIZEINBASE2 (size_m, m);
+ /* for rounding to nearest, we want the round bit to be in the root */
+ n = MPFR_PREC (y) + (rnd_mode == MPFR_RNDN);
+
+ /* we now multiply m by 2^(r+k*sh) so that root(m,k) will give
+ exactly n bits: we want k*(n-1)+1 <= size_m + k*sh + r <= k*n
+ i.e. sh = floor ((kn-size_m-r)/k) */
+ if ((mpfr_exp_t) size_m + r > k * (mpfr_exp_t) n)
+ sh = 0; /* we already have too many bits */
+ else
+ sh = (k * (mpfr_exp_t) n - (mpfr_exp_t) size_m - r) / k;
+ sh = k * sh + r;
+ if (sh >= 0)
+ {
+ mpz_mul_2exp (m, m, sh);
+ e = e - sh;
+ }
+ else if (r > 0)
+ {
+ mpz_mul_2exp (m, m, r);
+ e = e - r;
+ }
+
+ /* invariant: x = m*2^e, with e divisible by k */
+
+ /* we reuse the variable m to store the kth root, since it is not needed
+ any more: we just need to know if the root is exact */
+ inexact = mpz_root (m, m, k) == 0;
+
+ MPFR_MPZ_SIZEINBASE2 (tmp, m);
+ sh = tmp - n;
+ if (sh > 0) /* we have to flush to 0 the last sh bits from m */
+ {
+ inexact = inexact || ((mpfr_exp_t) mpz_scan1 (m, 0) < sh);
+ mpz_fdiv_q_2exp (m, m, sh);
+ e += k * sh;
+ }
+
+ if (inexact)
+ {
+ if (negative)
+ rnd_mode = MPFR_INVERT_RND (rnd_mode);
+ if (rnd_mode == MPFR_RNDU || rnd_mode == MPFR_RNDA
+ || (rnd_mode == MPFR_RNDN && mpz_tstbit (m, 0)))
+ inexact = 1, mpz_add_ui (m, m, 1);
+ else
+ inexact = -1;
+ }
+
+ /* either inexact is not zero, and the conversion is exact, i.e. inexact
+ is not changed; or inexact=0, and inexact is set only when
+ rnd_mode=MPFR_RNDN and bit (n+1) from m is 1 */
+ inexact += mpfr_set_z (y, m, MPFR_RNDN);
+ MPFR_SET_EXP (y, MPFR_GET_EXP (y) + e / (mpfr_exp_t) k);
+
+ if (negative)
+ {
+ MPFR_CHANGE_SIGN (y);
+ inexact = -inexact;
+ }
+
+ mpz_clear (m);
+ MPFR_SAVE_EXPO_FREE (expo);
+ return mpfr_check_range (y, inexact, rnd_mode);
+}