| 1 | /* Extended-precision floating point cosine on <-pi/4,pi/4>. |
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| 2 | Copyright (C) 1999-2022 Free Software Foundation, Inc. |
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| 3 | This file is part of the GNU C Library. |
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| 4 | |
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| 5 | The GNU C Library is free software; you can redistribute it and/or |
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| 6 | modify it under the terms of the GNU Lesser General Public |
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| 7 | License as published by the Free Software Foundation; either |
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| 8 | version 2.1 of the License, or (at your option) any later version. |
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| 9 | |
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| 10 | The GNU C Library is distributed in the hope that it will be useful, |
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| 11 | but WITHOUT ANY WARRANTY; without even the implied warranty of |
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| 12 | MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
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| 13 | Lesser General Public License for more details. |
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| 14 | |
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| 15 | You should have received a copy of the GNU Lesser General Public |
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| 16 | License along with the GNU C Library; if not, see |
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| 17 | <https://www.gnu.org/licenses/>. */ |
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| 18 | |
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| 19 | #include <math.h> |
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| 20 | #include <math_private.h> |
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| 21 | |
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| 22 | /* The polynomials have not been optimized for extended-precision and |
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| 23 | may contain more terms than needed. */ |
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| 24 | |
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| 25 | static const long double c[] = { |
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| 26 | #define ONE c[0] |
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| 27 | 1.00000000000000000000000000000000000E+00L, |
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| 28 | |
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| 29 | /* cos x ~ ONE + x^2 ( SCOS1 + SCOS2 * x^2 + ... + SCOS4 * x^6 + SCOS5 * x^8 ) |
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| 30 | x in <0,1/256> */ |
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| 31 | #define SCOS1 c[1] |
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| 32 | #define SCOS2 c[2] |
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| 33 | #define SCOS3 c[3] |
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| 34 | #define SCOS4 c[4] |
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| 35 | #define SCOS5 c[5] |
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| 36 | -5.00000000000000000000000000000000000E-01L, |
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| 37 | 4.16666666666666666666666666556146073E-02L, |
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| 38 | -1.38888888888888888888309442601939728E-03L, |
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| 39 | 2.48015873015862382987049502531095061E-05L, |
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| 40 | -2.75573112601362126593516899592158083E-07L, |
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| 41 | |
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| 42 | /* cos x ~ ONE + x^2 ( COS1 + COS2 * x^2 + ... + COS7 * x^12 + COS8 * x^14 ) |
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| 43 | x in <0,0.1484375> */ |
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| 44 | #define COS1 c[6] |
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| 45 | #define COS2 c[7] |
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| 46 | #define COS3 c[8] |
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| 47 | #define COS4 c[9] |
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| 48 | #define COS5 c[10] |
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| 49 | #define COS6 c[11] |
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| 50 | #define COS7 c[12] |
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| 51 | #define COS8 c[13] |
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| 52 | -4.99999999999999999999999999999999759E-01L, |
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| 53 | 4.16666666666666666666666666651287795E-02L, |
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| 54 | -1.38888888888888888888888742314300284E-03L, |
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| 55 | 2.48015873015873015867694002851118210E-05L, |
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| 56 | -2.75573192239858811636614709689300351E-07L, |
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| 57 | 2.08767569877762248667431926878073669E-09L, |
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| 58 | -1.14707451049343817400420280514614892E-11L, |
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| 59 | 4.77810092804389587579843296923533297E-14L, |
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| 60 | |
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| 61 | /* sin x ~ ONE * x + x^3 ( SSIN1 + SSIN2 * x^2 + ... + SSIN4 * x^6 + SSIN5 * x^8 ) |
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| 62 | x in <0,1/256> */ |
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| 63 | #define SSIN1 c[14] |
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| 64 | #define SSIN2 c[15] |
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| 65 | #define SSIN3 c[16] |
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| 66 | #define SSIN4 c[17] |
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| 67 | #define SSIN5 c[18] |
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| 68 | -1.66666666666666666666666666666666659E-01L, |
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| 69 | 8.33333333333333333333333333146298442E-03L, |
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| 70 | -1.98412698412698412697726277416810661E-04L, |
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| 71 | 2.75573192239848624174178393552189149E-06L, |
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| 72 | -2.50521016467996193495359189395805639E-08L, |
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| 73 | }; |
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| 74 | |
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| 75 | #define SINCOSL_COS_HI 0 |
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| 76 | #define SINCOSL_COS_LO 1 |
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| 77 | #define SINCOSL_SIN_HI 2 |
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| 78 | #define SINCOSL_SIN_LO 3 |
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| 79 | extern const long double __sincosl_table[]; |
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| 80 | |
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| 81 | long double |
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| 82 | __kernel_cosl(long double x, long double y) |
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| 83 | { |
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| 84 | long double h, l, z, sin_l, cos_l_m1; |
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| 85 | int index; |
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| 86 | |
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| 87 | if (signbit (x)) |
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| 88 | { |
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| 89 | x = -x; |
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| 90 | y = -y; |
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| 91 | } |
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| 92 | if (x < 0.1484375L) |
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| 93 | { |
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| 94 | /* Argument is small enough to approximate it by a Chebyshev |
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| 95 | polynomial of degree 16. */ |
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| 96 | if (x < 0x1p-33L) |
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| 97 | if (!((int)x)) return ONE; /* generate inexact */ |
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| 98 | z = x * x; |
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| 99 | return ONE + (z*(COS1+z*(COS2+z*(COS3+z*(COS4+ |
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| 100 | z*(COS5+z*(COS6+z*(COS7+z*COS8)))))))); |
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| 101 | } |
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| 102 | else |
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| 103 | { |
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| 104 | /* So that we don't have to use too large polynomial, we find |
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| 105 | l and h such that x = l + h, where fabsl(l) <= 1.0/256 with 83 |
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| 106 | possible values for h. We look up cosl(h) and sinl(h) in |
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| 107 | pre-computed tables, compute cosl(l) and sinl(l) using a |
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| 108 | Chebyshev polynomial of degree 10(11) and compute |
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| 109 | cosl(h+l) = cosl(h)cosl(l) - sinl(h)sinl(l). */ |
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| 110 | index = (int) (128 * (x - (0.1484375L - 1.0L / 256.0L))); |
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| 111 | h = 0.1484375L + index / 128.0; |
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| 112 | index *= 4; |
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| 113 | l = y - (h - x); |
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| 114 | z = l * l; |
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| 115 | sin_l = l*(ONE+z*(SSIN1+z*(SSIN2+z*(SSIN3+z*(SSIN4+z*SSIN5))))); |
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| 116 | cos_l_m1 = z*(SCOS1+z*(SCOS2+z*(SCOS3+z*(SCOS4+z*SCOS5)))); |
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| 117 | return __sincosl_table [index + SINCOSL_COS_HI] |
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| 118 | + (__sincosl_table [index + SINCOSL_COS_LO] |
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| 119 | - (__sincosl_table [index + SINCOSL_SIN_HI] * sin_l |
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| 120 | - __sincosl_table [index + SINCOSL_COS_HI] * cos_l_m1)); |
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| 121 | } |
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| 122 | } |
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| 123 | |
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