494 lines
12 KiB
C
494 lines
12 KiB
C
/* Implementation of the degree trignometric functions COSD, SIND, TAND.
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Copyright (C) 2020-2021 Free Software Foundation, Inc.
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Contributed by Steven G. Kargl <kargl@gcc.gnu.org>
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and Fritz Reese <foreese@gcc.gnu.org>
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This file is part of the GNU Fortran runtime library (libgfortran).
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Libgfortran is free software; you can redistribute it and/or
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modify it under the terms of the GNU General Public
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License as published by the Free Software Foundation; either
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version 3 of the License, or (at your option) any later version.
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Libgfortran 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
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GNU General Public License for more details.
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Under Section 7 of GPL version 3, you are granted additional
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permissions described in the GCC Runtime Library Exception, version
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3.1, as published by the Free Software Foundation.
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You should have received a copy of the GNU General Public License and
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a copy of the GCC Runtime Library Exception along with this program;
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see the files COPYING3 and COPYING.RUNTIME respectively. If not, see
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<http://www.gnu.org/licenses/>. */
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/*
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This file is included from both the FE and the runtime library code.
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Operations are generalized using GMP/MPFR functions. When included from
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libgfortran, these should be overridden using macros which will use native
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operations conforming to the same API. From the FE, the GMP/MPFR functions can
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be used as-is.
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The following macros are used and must be defined, unless listed as [optional]:
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FTYPE
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Type name for the real-valued parameter.
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Variables of this type are constructed/destroyed using mpfr_init()
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and mpfr_clear.
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RETTYPE
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Return type of the functions.
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RETURN(x)
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Insert code to return a value.
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The parameter x is the result variable, which was also the input parameter.
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ITYPE
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Type name for integer types.
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SIND, COSD, TRIGD
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Names for the degree-valued trig functions defined by this module.
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ENABLE_SIND, ENABLE_COSD, ENABLE_TAND
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Whether the degree-valued trig functions can be enabled.
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ERROR_RETURN(f, k, x)
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If ENABLE_<xxx>D is not defined, this is substituted to assert an
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error condition for function f, kind k, and parameter x.
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The function argument is one of {sind, cosd, tand}.
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ISFINITE(x)
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Whether x is a regular number or zero (not inf or NaN).
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D2R(x)
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Convert x from radians to degrees.
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SET_COSD30(x)
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Set x to COSD(30), or equivalently, SIND(60).
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TINY_LITERAL [optional]
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Value subtracted from 1 to cause raise INEXACT for COSD(x) for x << 1.
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If not set, COSD(x) for x <= COSD_SMALL_LITERAL simply returns 1.
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COSD_SMALL_LITERAL [optional]
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Value such that x <= COSD_SMALL_LITERAL implies COSD(x) = 1 to within the
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precision of FTYPE. If not set, this condition is not checked.
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SIND_SMALL_LITERAL [optional]
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Value such that x <= SIND_SMALL_LITERAL implies SIND(x) = D2R(x) to within
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the precision of FTYPE. If not set, this condition is not checked.
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*/
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#ifdef SIND
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/* Compute sind(x) = sin(x * pi / 180). */
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RETTYPE
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SIND (FTYPE x)
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{
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#ifdef ENABLE_SIND
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if (ISFINITE (x))
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{
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FTYPE s, one;
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/* sin(-x) = - sin(x). */
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mpfr_init (s);
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mpfr_init_set_ui (one, 1, GFC_RND_MODE);
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mpfr_copysign (s, one, x, GFC_RND_MODE);
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mpfr_clear (one);
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#ifdef SIND_SMALL_LITERAL
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/* sin(x) = x as x -> 0; but only for some precisions. */
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FTYPE ax;
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mpfr_init (ax);
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mpfr_abs (ax, x, GFC_RND_MODE);
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if (mpfr_cmp_ld (ax, SIND_SMALL_LITERAL) < 0)
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{
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D2R (x);
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mpfr_clear (ax);
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return x;
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}
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mpfr_swap (x, ax);
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mpfr_clear (ax);
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#else
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mpfr_abs (x, x, GFC_RND_MODE);
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#endif /* SIND_SMALL_LITERAL */
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/* Reduce angle to x in [0,360]. */
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FTYPE period;
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mpfr_init_set_ui (period, 360, GFC_RND_MODE);
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mpfr_fmod (x, x, period, GFC_RND_MODE);
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mpfr_clear (period);
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/* Special cases with exact results. */
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ITYPE n;
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mpz_init (n);
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if (mpfr_get_z (n, x, GFC_RND_MODE) == 0 && mpz_divisible_ui_p (n, 30))
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{
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/* Flip sign for odd n*pi (x is % 360 so this is only for 180).
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This respects sgn(sin(x)) = sgn(d/dx sin(x)) = sgn(cos(x)). */
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if (mpz_divisible_ui_p (n, 180))
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{
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mpfr_set_ui (x, 0, GFC_RND_MODE);
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if (mpz_cmp_ui (n, 180) == 0)
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mpfr_neg (s, s, GFC_RND_MODE);
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}
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else if (mpz_divisible_ui_p (n, 90))
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mpfr_set_si (x, (mpz_cmp_ui (n, 90) == 0 ? 1 : -1), GFC_RND_MODE);
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else if (mpz_divisible_ui_p (n, 60))
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{
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SET_COSD30 (x);
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if (mpz_cmp_ui (n, 180) >= 0)
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mpfr_neg (x, x, GFC_RND_MODE);
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}
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else
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mpfr_set_ld (x, (mpz_cmp_ui (n, 180) < 0 ? 0.5L : -0.5L),
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GFC_RND_MODE);
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}
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/* Fold [0,360] into the range [0,45], and compute either SIN() or
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COS() depending on symmetry of shifting into the [0,45] range. */
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else
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{
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bool fold_cos = false;
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if (mpfr_cmp_ui (x, 180) <= 0)
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{
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if (mpfr_cmp_ui (x, 90) <= 0)
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{
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if (mpfr_cmp_ui (x, 45) > 0)
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{
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/* x = COS(D2R(90 - x)) */
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mpfr_ui_sub (x, 90, x, GFC_RND_MODE);
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fold_cos = true;
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}
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}
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else
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{
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if (mpfr_cmp_ui (x, 135) <= 0)
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{
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mpfr_sub_ui (x, x, 90, GFC_RND_MODE);
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fold_cos = true;
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}
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else
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mpfr_ui_sub (x, 180, x, GFC_RND_MODE);
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}
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}
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else if (mpfr_cmp_ui (x, 270) <= 0)
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{
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if (mpfr_cmp_ui (x, 225) <= 0)
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mpfr_sub_ui (x, x, 180, GFC_RND_MODE);
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else
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{
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mpfr_ui_sub (x, 270, x, GFC_RND_MODE);
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fold_cos = true;
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}
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mpfr_neg (s, s, GFC_RND_MODE);
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}
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else
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{
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if (mpfr_cmp_ui (x, 315) <= 0)
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{
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mpfr_sub_ui (x, x, 270, GFC_RND_MODE);
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fold_cos = true;
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}
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else
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mpfr_ui_sub (x, 360, x, GFC_RND_MODE);
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mpfr_neg (s, s, GFC_RND_MODE);
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}
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D2R (x);
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if (fold_cos)
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mpfr_cos (x, x, GFC_RND_MODE);
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else
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mpfr_sin (x, x, GFC_RND_MODE);
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}
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mpfr_mul (x, x, s, GFC_RND_MODE);
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mpz_clear (n);
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mpfr_clear (s);
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}
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/* Return NaN for +-Inf and NaN and raise exception. */
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else
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mpfr_sub (x, x, x, GFC_RND_MODE);
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RETURN (x);
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#else
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ERROR_RETURN(sind, KIND, x);
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#endif // ENABLE_SIND
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}
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#endif // SIND
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#ifdef COSD
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/* Compute cosd(x) = cos(x * pi / 180). */
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RETTYPE
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COSD (FTYPE x)
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{
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#ifdef ENABLE_COSD
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#if defined(TINY_LITERAL) && defined(COSD_SMALL_LITERAL)
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static const volatile FTYPE tiny = TINY_LITERAL;
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#endif
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if (ISFINITE (x))
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{
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#ifdef COSD_SMALL_LITERAL
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FTYPE ax;
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mpfr_init (ax);
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mpfr_abs (ax, x, GFC_RND_MODE);
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/* No spurious underflows!. In radians, cos(x) = 1-x*x/2 as x -> 0. */
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if (mpfr_cmp_ld (ax, COSD_SMALL_LITERAL) <= 0)
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{
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mpfr_set_ui (x, 1, GFC_RND_MODE);
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#ifdef TINY_LITERAL
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/* Cause INEXACT. */
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if (!mpfr_zero_p (ax))
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mpfr_sub_d (x, x, tiny, GFC_RND_MODE);
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#endif
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mpfr_clear (ax);
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return x;
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}
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mpfr_swap (x, ax);
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mpfr_clear (ax);
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#else
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mpfr_abs (x, x, GFC_RND_MODE);
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#endif /* COSD_SMALL_LITERAL */
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/* Reduce angle to ax in [0,360]. */
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FTYPE period;
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mpfr_init_set_ui (period, 360, GFC_RND_MODE);
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mpfr_fmod (x, x, period, GFC_RND_MODE);
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mpfr_clear (period);
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/* Special cases with exact results.
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Return negative zero for cosd(270) for consistency with libm cos(). */
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ITYPE n;
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mpz_init (n);
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if (mpfr_get_z (n, x, GFC_RND_MODE) == 0 && mpz_divisible_ui_p (n, 30))
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{
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if (mpz_divisible_ui_p (n, 180))
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mpfr_set_si (x, (mpz_cmp_ui (n, 180) == 0 ? -1 : 1),
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GFC_RND_MODE);
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else if (mpz_divisible_ui_p (n, 90))
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mpfr_set_zero (x, 0);
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else if (mpz_divisible_ui_p (n, 60))
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{
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mpfr_set_ld (x, 0.5, GFC_RND_MODE);
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if (mpz_cmp_ui (n, 60) != 0 && mpz_cmp_ui (n, 300) != 0)
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mpfr_neg (x, x, GFC_RND_MODE);
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}
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else
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{
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SET_COSD30 (x);
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if (mpz_cmp_ui (n, 30) != 0 && mpz_cmp_ui (n, 330) != 0)
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mpfr_neg (x, x, GFC_RND_MODE);
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}
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}
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/* Fold [0,360] into the range [0,45], and compute either SIN() or
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COS() depending on symmetry of shifting into the [0,45] range. */
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else
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{
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bool neg = false;
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bool fold_sin = false;
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if (mpfr_cmp_ui (x, 180) <= 0)
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{
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if (mpfr_cmp_ui (x, 90) <= 0)
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{
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if (mpfr_cmp_ui (x, 45) > 0)
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{
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mpfr_ui_sub (x, 90, x, GFC_RND_MODE);
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fold_sin = true;
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}
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}
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else
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{
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if (mpfr_cmp_ui (x, 135) <= 0)
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{
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mpfr_sub_ui (x, x, 90, GFC_RND_MODE);
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fold_sin = true;
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}
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else
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mpfr_ui_sub (x, 180, x, GFC_RND_MODE);
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neg = true;
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}
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}
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else if (mpfr_cmp_ui (x, 270) <= 0)
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{
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if (mpfr_cmp_ui (x, 225) <= 0)
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mpfr_sub_ui (x, x, 180, GFC_RND_MODE);
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else
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{
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mpfr_ui_sub (x, 270, x, GFC_RND_MODE);
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fold_sin = true;
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}
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neg = true;
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}
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else
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{
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if (mpfr_cmp_ui (x, 315) <= 0)
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{
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mpfr_sub_ui (x, x, 270, GFC_RND_MODE);
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fold_sin = true;
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}
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else
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mpfr_ui_sub (x, 360, x, GFC_RND_MODE);
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}
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D2R (x);
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if (fold_sin)
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mpfr_sin (x, x, GFC_RND_MODE);
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else
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mpfr_cos (x, x, GFC_RND_MODE);
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if (neg)
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mpfr_neg (x, x, GFC_RND_MODE);
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}
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mpz_clear (n);
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}
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/* Return NaN for +-Inf and NaN and raise exception. */
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else
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mpfr_sub (x, x, x, GFC_RND_MODE);
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RETURN (x);
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#else
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ERROR_RETURN(cosd, KIND, x);
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#endif // ENABLE_COSD
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}
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#endif // COSD
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#ifdef TAND
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/* Compute tand(x) = tan(x * pi / 180). */
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RETTYPE
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TAND (FTYPE x)
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{
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#ifdef ENABLE_TAND
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if (ISFINITE (x))
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{
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FTYPE s, one;
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/* tan(-x) = - tan(x). */
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mpfr_init (s);
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mpfr_init_set_ui (one, 1, GFC_RND_MODE);
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mpfr_copysign (s, one, x, GFC_RND_MODE);
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mpfr_clear (one);
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#ifdef SIND_SMALL_LITERAL
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/* tan(x) = x as x -> 0; but only for some precisions. */
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FTYPE ax;
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mpfr_init (ax);
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mpfr_abs (ax, x, GFC_RND_MODE);
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if (mpfr_cmp_ld (ax, SIND_SMALL_LITERAL) < 0)
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{
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D2R (x);
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mpfr_clear (ax);
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return x;
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}
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mpfr_swap (x, ax);
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mpfr_clear (ax);
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#else
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mpfr_abs (x, x, GFC_RND_MODE);
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#endif /* SIND_SMALL_LITERAL */
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/* Reduce angle to x in [0,360]. */
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FTYPE period;
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mpfr_init_set_ui (period, 360, GFC_RND_MODE);
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mpfr_fmod (x, x, period, GFC_RND_MODE);
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mpfr_clear (period);
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/* Special cases with exact results. */
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ITYPE n;
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mpz_init (n);
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if (mpfr_get_z (n, x, GFC_RND_MODE) == 0 && mpz_divisible_ui_p (n, 45))
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{
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if (mpz_divisible_ui_p (n, 180))
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mpfr_set_zero (x, 0);
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/* Though mathematically NaN is more appropriate for tan(n*90),
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returning +/-Inf offers the advantage that 1/tan(n*90) returns 0,
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which is mathematically sound. In fact we rely on this behavior
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to implement COTAND(x) = 1 / TAND(x).
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*/
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else if (mpz_divisible_ui_p (n, 90))
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mpfr_set_inf (x, mpz_cmp_ui (n, 90) == 0 ? 0 : 1);
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else
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{
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mpfr_set_ui (x, 1, GFC_RND_MODE);
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if (mpz_cmp_ui (n, 45) != 0 && mpz_cmp_ui (n, 225) != 0)
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mpfr_neg (x, x, GFC_RND_MODE);
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}
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}
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else
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{
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/* Fold [0,360] into the range [0,90], and compute TAN(). */
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if (mpfr_cmp_ui (x, 180) <= 0)
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{
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if (mpfr_cmp_ui (x, 90) > 0)
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{
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mpfr_ui_sub (x, 180, x, GFC_RND_MODE);
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mpfr_neg (s, s, GFC_RND_MODE);
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}
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}
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else
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{
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if (mpfr_cmp_ui (x, 270) <= 0)
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{
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mpfr_sub_ui (x, x, 180, GFC_RND_MODE);
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}
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else
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{
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mpfr_ui_sub (x, 360, x, GFC_RND_MODE);
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mpfr_neg (s, s, GFC_RND_MODE);
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}
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}
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D2R (x);
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mpfr_tan (x, x, GFC_RND_MODE);
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}
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mpfr_mul (x, x, s, GFC_RND_MODE);
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mpz_clear (n);
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mpfr_clear (s);
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}
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/* Return NaN for +-Inf and NaN and raise exception. */
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else
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mpfr_sub (x, x, x, GFC_RND_MODE);
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RETURN (x);
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#else
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ERROR_RETURN(tand, KIND, x);
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#endif // ENABLE_TAND
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}
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#endif // TAND
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/* vim: set ft=c: */
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