1 /*
2 * Single-precision vector cos function.
3 *
4 * Copyright (c) 2019, Arm Limited.
5 * SPDX-License-Identifier: MIT
6 */
7
8 #include "mathlib.h"
9 #include "v_math.h"
10 #if V_SUPPORTED
11
12 static const float Poly[] = {
13 /* 1.886 ulp error */
14 0x1.5b2e76p-19f,
15 -0x1.9f42eap-13f,
16 0x1.110df4p-7f,
17 -0x1.555548p-3f,
18 };
19 #define Pi1 v_f32 (0x1.921fb6p+1f)
20 #define Pi2 v_f32 (-0x1.777a5cp-24f)
21 #define Pi3 v_f32 (-0x1.ee59dap-49f)
22 #define A3 v_f32 (Poly[3])
23 #define A5 v_f32 (Poly[2])
24 #define A7 v_f32 (Poly[1])
25 #define A9 v_f32 (Poly[0])
26 #define RangeVal v_f32 (0x1p20f)
27 #define InvPi v_f32 (0x1.45f306p-2f)
28 #define Shift v_f32 (0x1.8p+23f)
29 #define AbsMask v_u32 (0x7fffffff)
30 #define HalfPi v_f32 (0x1.921fb6p0f)
31
32 VPCS_ATTR
33 static v_f32_t
specialcase(v_f32_t x,v_f32_t y,v_u32_t cmp)34 specialcase (v_f32_t x, v_f32_t y, v_u32_t cmp)
35 {
36 /* Fall back to scalar code. */
37 return v_call_f32 (cosf, x, y, cmp);
38 }
39
40 VPCS_ATTR
41 v_f32_t
V_NAME(cosf)42 V_NAME(cosf) (v_f32_t x)
43 {
44 v_f32_t n, r, r2, y;
45 v_u32_t odd, cmp;
46
47 r = v_as_f32_u32 (v_as_u32_f32 (x) & AbsMask);
48 cmp = v_cond_u32 (v_as_u32_f32 (r) >= v_as_u32_f32 (RangeVal));
49
50 /* n = rint((|x|+pi/2)/pi) - 0.5 */
51 n = v_fma_f32 (InvPi, r + HalfPi, Shift);
52 odd = v_as_u32_f32 (n) << 31;
53 n -= Shift;
54 n -= v_f32 (0.5f);
55
56 /* r = |x| - n*pi (range reduction into -pi/2 .. pi/2) */
57 r = v_fma_f32 (-Pi1, n, r);
58 r = v_fma_f32 (-Pi2, n, r);
59 r = v_fma_f32 (-Pi3, n, r);
60
61 /* y = sin(r) */
62 r2 = r * r;
63 y = v_fma_f32 (A9, r2, A7);
64 y = v_fma_f32 (y, r2, A5);
65 y = v_fma_f32 (y, r2, A3);
66 y = v_fma_f32 (y * r2, r, r);
67
68 /* sign fix */
69 y = v_as_f32_u32 (v_as_u32_f32 (y) ^ odd);
70
71 if (unlikely (v_any_u32 (cmp)))
72 return specialcase (x, y, cmp);
73 return y;
74 }
75 VPCS_ALIAS
76 #endif
77