xref: /freebsd/contrib/arm-optimized-routines/pl/math/v_log_inline.h (revision 3f0efe05432b1633991114ca4ca330102a561959)
1 /*
2  * Double-precision vector log(x) function - inline version
3  *
4  * Copyright (c) 2019-2023, Arm Limited.
5  * SPDX-License-Identifier: MIT OR Apache-2.0 WITH LLVM-exception
6  */
7 
8 #include "v_math.h"
9 #include "math_config.h"
10 
11 #ifndef V_LOG_INLINE_POLY_ORDER
12 #  error Cannot use inline log helper without specifying poly order (options are 4 or 5)
13 #endif
14 
15 #if V_LOG_INLINE_POLY_ORDER == 4
16 #  define POLY                                                                \
17     {                                                                         \
18       V2 (-0x1.ffffffffcbad3p-2), V2 (0x1.555555578ed68p-2),                  \
19 	  V2 (-0x1.0000d3a1e7055p-2), V2 (0x1.999392d02a63ep-3)               \
20     }
21 #elif V_LOG_INLINE_POLY_ORDER == 5
22 #  define POLY                                                                \
23     {                                                                         \
24       V2 (-0x1.ffffffffffff7p-2), V2 (0x1.55555555170d4p-2),                  \
25 	  V2 (-0x1.0000000399c27p-2), V2 (0x1.999b2e90e94cap-3),              \
26 	  V2 (-0x1.554e550bd501ep-3)                                          \
27     }
28 #else
29 #  error Can only choose order 4 or 5 for log poly
30 #endif
31 
32 struct v_log_inline_data
33 {
34   float64x2_t poly[V_LOG_INLINE_POLY_ORDER];
35   float64x2_t ln2;
36   uint64x2_t off, sign_exp_mask;
37 };
38 
39 #define V_LOG_CONSTANTS                                                       \
40   {                                                                           \
41     .poly = POLY, .ln2 = V2 (0x1.62e42fefa39efp-1),                           \
42     .sign_exp_mask = V2 (0xfff0000000000000), .off = V2 (0x3fe6900900000000)  \
43   }
44 
45 #define A(i) d->poly[i]
46 #define N (1 << V_LOG_TABLE_BITS)
47 #define IndexMask (N - 1)
48 
49 struct entry
50 {
51   float64x2_t invc;
52   float64x2_t logc;
53 };
54 
55 static inline struct entry
56 log_lookup (uint64x2_t i)
57 {
58   /* Since N is a power of 2, n % N = n & (N - 1).  */
59   struct entry e;
60   uint64_t i0 = (i[0] >> (52 - V_LOG_TABLE_BITS)) & IndexMask;
61   uint64_t i1 = (i[1] >> (52 - V_LOG_TABLE_BITS)) & IndexMask;
62   float64x2_t e0 = vld1q_f64 (&__v_log_data.table[i0].invc);
63   float64x2_t e1 = vld1q_f64 (&__v_log_data.table[i1].invc);
64   e.invc = vuzp1q_f64 (e0, e1);
65   e.logc = vuzp2q_f64 (e0, e1);
66   return e;
67 }
68 
69 static inline float64x2_t
70 v_log_inline (float64x2_t x, const struct v_log_inline_data *d)
71 {
72   float64x2_t z, r, r2, p, y, kd, hi;
73   uint64x2_t ix, iz, tmp;
74   int64x2_t k;
75   struct entry e;
76 
77   ix = vreinterpretq_u64_f64 (x);
78 
79   /* x = 2^k z; where z is in range [Off,2*Off) and exact.
80      The range is split into N subintervals.
81      The ith subinterval contains z and c is near its center.  */
82   tmp = vsubq_u64 (ix, d->off);
83   k = vshrq_n_s64 (vreinterpretq_s64_u64 (tmp), 52); /* arithmetic shift.  */
84   iz = vsubq_u64 (ix, vandq_u64 (tmp, d->sign_exp_mask));
85   z = vreinterpretq_f64_u64 (iz);
86   e = log_lookup (tmp);
87 
88   /* log(x) = log1p(z/c-1) + log(c) + k*Ln2.  */
89   r = vfmaq_f64 (v_f64 (-1.0), z, e.invc);
90   kd = vcvtq_f64_s64 (k);
91 
92   /* hi = r + log(c) + k*Ln2.  */
93   hi = vfmaq_f64 (vaddq_f64 (e.logc, r), kd, d->ln2);
94   /* y = r2*(A0 + r*A1 + r2*(A2 + r*A3 + r2*A4)) + hi.  */
95   r2 = vmulq_f64 (r, r);
96   y = vfmaq_f64 (A (2), A (3), r);
97   p = vfmaq_f64 (A (0), A (1), r);
98 #if V_LOG_POLY_ORDER == 5
99   y = vfmaq_f64 (y, A (4), r2);
100 #endif
101   y = vfmaq_f64 (p, y, r2);
102 
103   return vfmaq_f64 (hi, y, r2);
104 }
105