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1 /*
2  * s_tanf.c - single precision tangent function
3  *
4  * Copyright (c) 2009-2018, Arm Limited.
5  * SPDX-License-Identifier: MIT
6  */
7 
8 /*
9  * Source: my own head, and Remez-generated polynomial approximations.
10  */
11 
12 #include <math.h>
13 #include "math_private.h"
14 #include <errno.h>
15 #include <fenv.h>
16 #include "rredf.h"
17 
18 #ifdef __cplusplus
19 extern "C" {
20 #endif /* __cplusplus */
21 
tanf(float x)22 float tanf(float x)
23 {
24     int q;
25 
26     /*
27      * Range-reduce x to the range [-pi/4,pi/4].
28      */
29     {
30         /*
31          * I enclose the call to __mathlib_rredf in braces so that
32          * the address-taken-ness of qq does not propagate
33          * throughout the rest of the function, for what that might
34          * be worth.
35          */
36         int qq;
37         x = __mathlib_rredf(x, &qq);
38         q = qq;
39     }
40     if (__builtin_expect(q < 0, 0)) { /* this signals tiny, inf, or NaN */
41         unsigned k = fai(x) << 1;
42         if (k < 0xFF000000)            /* tiny */
43             return FLOAT_CHECKDENORM(x);
44         else if (k == 0xFF000000)      /* inf */
45             return MATHERR_TANF_INF(x);
46         else                           /* NaN */
47             return FLOAT_INFNAN(x);
48     }
49 
50     /*
51      * We use a direct polynomial approximation for tan(x) on
52      * [-pi/4,pi/4], and then take the negative reciprocal of the
53      * result if we're in an interval surrounding an odd rather than
54      * even multiple of pi/2.
55      *
56      * Coefficients generated by the command
57 
58 ./auxiliary/remez.jl --variable=x2 --suffix=f -- '0' '(pi/BigFloat(4))^2' 5 0 'x==0 ? 1/BigFloat(3) : (tan(sqrt(x))-sqrt(x))/sqrt(x^3)' 'sqrt(x^3)'
59 
60      */
61     {
62         float x2 = x*x;
63         x += x * (x2 * (
64                       3.333294809182307633621540045249152105330074691488121206914336806061620616979305e-01f+x2*(1.334274588580033216191949445078951865160600494428914956688702429547258497367525e-01f+x2*(5.315177279765676178198868818834880279286012428084733419724267810723468887753723e-02f+x2*(2.520300881849204519070372772571624013984546591252791443673871814078418474596388e-02f+x2*(2.051177187082974766686645514206648277055233230110624602600687812103764075834307e-03f+x2*(9.943421494628597182458186353995299429948224864648292162238582752158235742046109e-03f)))))
65                       ));
66         if (q & 1)
67             x = -1.0f/x;
68 
69         return x;
70     }
71 }
72 
73 #ifdef __cplusplus
74 } /* end of extern "C" */
75 #endif /* __cplusplus */
76 
77 /* end of s_tanf.c */
78