xref: /llvm-project/libc/src/math/generic/log10f16.cpp (revision 69d3a44eded0b0792c8d69e830579f84b8e81eeb) 
1*69d3a44eSOverMighty //===-- Half-precision log10(x) function ----------------------------------===//
2*69d3a44eSOverMighty //
3*69d3a44eSOverMighty // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4*69d3a44eSOverMighty // See https://llvm.org/LICENSE.txt for license information.
5*69d3a44eSOverMighty // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6*69d3a44eSOverMighty //
7*69d3a44eSOverMighty //===----------------------------------------------------------------------===//
8*69d3a44eSOverMighty 
9*69d3a44eSOverMighty #include "src/math/log10f16.h"
10*69d3a44eSOverMighty #include "expxf16.h"
11*69d3a44eSOverMighty #include "hdr/errno_macros.h"
12*69d3a44eSOverMighty #include "hdr/fenv_macros.h"
13*69d3a44eSOverMighty #include "src/__support/FPUtil/FEnvImpl.h"
14*69d3a44eSOverMighty #include "src/__support/FPUtil/FPBits.h"
15*69d3a44eSOverMighty #include "src/__support/FPUtil/PolyEval.h"
16*69d3a44eSOverMighty #include "src/__support/FPUtil/cast.h"
17*69d3a44eSOverMighty #include "src/__support/FPUtil/except_value_utils.h"
18*69d3a44eSOverMighty #include "src/__support/FPUtil/multiply_add.h"
19*69d3a44eSOverMighty #include "src/__support/common.h"
20*69d3a44eSOverMighty #include "src/__support/macros/config.h"
21*69d3a44eSOverMighty #include "src/__support/macros/optimization.h"
22*69d3a44eSOverMighty #include "src/__support/macros/properties/cpu_features.h"
23*69d3a44eSOverMighty 
24*69d3a44eSOverMighty namespace LIBC_NAMESPACE_DECL {
25*69d3a44eSOverMighty 
26*69d3a44eSOverMighty #ifdef LIBC_TARGET_CPU_HAS_FMA
27*69d3a44eSOverMighty static constexpr size_t N_LOG10F16_EXCEPTS = 11;
28*69d3a44eSOverMighty #else
29*69d3a44eSOverMighty static constexpr size_t N_LOG10F16_EXCEPTS = 17;
30*69d3a44eSOverMighty #endif
31*69d3a44eSOverMighty 
32*69d3a44eSOverMighty static constexpr fputil::ExceptValues<float16, N_LOG10F16_EXCEPTS>
33*69d3a44eSOverMighty     LOG10F16_EXCEPTS = {{
34*69d3a44eSOverMighty         // (input, RZ output, RU offset, RD offset, RN offset)
35*69d3a44eSOverMighty         // x = 0x1.e3cp-3, log10f16(x) = -0x1.40cp-1 (RZ)
36*69d3a44eSOverMighty         {0x338fU, 0xb903U, 0U, 1U, 0U},
37*69d3a44eSOverMighty         // x = 0x1.fep-3, log10f16(x) = -0x1.35p-1 (RZ)
38*69d3a44eSOverMighty         {0x33f8U, 0xb8d4U, 0U, 1U, 1U},
39*69d3a44eSOverMighty #ifndef LIBC_TARGET_CPU_HAS_FMA
40*69d3a44eSOverMighty         // x = 0x1.394p-1, log10f16(x) = -0x1.b4cp-3 (RZ)
41*69d3a44eSOverMighty         {0x38e5U, 0xb2d3U, 0U, 1U, 1U},
42*69d3a44eSOverMighty #endif
43*69d3a44eSOverMighty         // x = 0x1.ea8p-1, log10f16(x) = -0x1.31p-6 (RZ)
44*69d3a44eSOverMighty         {0x3baaU, 0xa4c4U, 0U, 1U, 1U},
45*69d3a44eSOverMighty         // x = 0x1.ebp-1, log10f16(x) = -0x1.29cp-6 (RZ)
46*69d3a44eSOverMighty         {0x3bacU, 0xa4a7U, 0U, 1U, 1U},
47*69d3a44eSOverMighty         // x = 0x1.f3p-1, log10f16(x) = -0x1.6dcp-7 (RZ)
48*69d3a44eSOverMighty         {0x3bccU, 0xa1b7U, 0U, 1U, 1U},
49*69d3a44eSOverMighty // x = 0x1.f38p-1, log10f16(x) = -0x1.5f8p-7 (RZ)
50*69d3a44eSOverMighty #ifndef LIBC_TARGET_CPU_HAS_FMA
51*69d3a44eSOverMighty         {0x3bceU, 0xa17eU, 0U, 1U, 1U},
52*69d3a44eSOverMighty         // x = 0x1.fd8p-1, log10f16(x) = -0x1.168p-9 (RZ)
53*69d3a44eSOverMighty         {0x3bf6U, 0x985aU, 0U, 1U, 1U},
54*69d3a44eSOverMighty         // x = 0x1.ff8p-1, log10f16(x) = -0x1.bccp-12 (RZ)
55*69d3a44eSOverMighty         {0x3bfeU, 0x8ef3U, 0U, 1U, 1U},
56*69d3a44eSOverMighty         // x = 0x1.374p+0, log10f16(x) = 0x1.5b8p-4 (RZ)
57*69d3a44eSOverMighty         {0x3cddU, 0x2d6eU, 1U, 0U, 1U},
58*69d3a44eSOverMighty         // x = 0x1.3ecp+1, log10f16(x) = 0x1.958p-2 (RZ)
59*69d3a44eSOverMighty         {0x40fbU, 0x3656U, 1U, 0U, 1U},
60*69d3a44eSOverMighty #endif
61*69d3a44eSOverMighty         // x = 0x1.4p+3, log10f16(x) = 0x1p+0 (RZ)
62*69d3a44eSOverMighty         {0x4900U, 0x3c00U, 0U, 0U, 0U},
63*69d3a44eSOverMighty         // x = 0x1.9p+6, log10f16(x) = 0x1p+1 (RZ)
64*69d3a44eSOverMighty         {0x5640U, 0x4000U, 0U, 0U, 0U},
65*69d3a44eSOverMighty         // x = 0x1.f84p+6, log10f16(x) = 0x1.0ccp+1 (RZ)
66*69d3a44eSOverMighty         {0x57e1U, 0x4033U, 1U, 0U, 0U},
67*69d3a44eSOverMighty         // x = 0x1.f4p+9, log10f16(x) = 0x1.8p+1 (RZ)
68*69d3a44eSOverMighty         {0x63d0U, 0x4200U, 0U, 0U, 0U},
69*69d3a44eSOverMighty         // x = 0x1.388p+13, log10f16(x) = 0x1p+2 (RZ)
70*69d3a44eSOverMighty         {0x70e2U, 0x4400U, 0U, 0U, 0U},
71*69d3a44eSOverMighty         // x = 0x1.674p+13, log10f16(x) = 0x1.03cp+2 (RZ)
72*69d3a44eSOverMighty         {0x719dU, 0x440fU, 1U, 0U, 0U},
73*69d3a44eSOverMighty     }};
74*69d3a44eSOverMighty 
75*69d3a44eSOverMighty LLVM_LIBC_FUNCTION(float16, log10f16, (float16 x)) {
76*69d3a44eSOverMighty   using FPBits = fputil::FPBits<float16>;
77*69d3a44eSOverMighty   FPBits x_bits(x);
78*69d3a44eSOverMighty 
79*69d3a44eSOverMighty   uint16_t x_u = x_bits.uintval();
80*69d3a44eSOverMighty 
81*69d3a44eSOverMighty   // If x <= 0, or x is 1, or x is +inf, or x is NaN.
82*69d3a44eSOverMighty   if (LIBC_UNLIKELY(x_u == 0U || x_u == 0x3c00U || x_u >= 0x7c00U)) {
83*69d3a44eSOverMighty     // log10(NaN) = NaN
84*69d3a44eSOverMighty     if (x_bits.is_nan()) {
85*69d3a44eSOverMighty       if (x_bits.is_signaling_nan()) {
86*69d3a44eSOverMighty         fputil::raise_except_if_required(FE_INVALID);
87*69d3a44eSOverMighty         return FPBits::quiet_nan().get_val();
88*69d3a44eSOverMighty       }
89*69d3a44eSOverMighty 
90*69d3a44eSOverMighty       return x;
91*69d3a44eSOverMighty     }
92*69d3a44eSOverMighty 
93*69d3a44eSOverMighty     // log10(+/-0) = −inf
94*69d3a44eSOverMighty     if ((x_u & 0x7fffU) == 0U) {
95*69d3a44eSOverMighty       fputil::raise_except_if_required(FE_DIVBYZERO);
96*69d3a44eSOverMighty       return FPBits::inf(Sign::NEG).get_val();
97*69d3a44eSOverMighty     }
98*69d3a44eSOverMighty 
99*69d3a44eSOverMighty     if (x_u == 0x3c00U)
100*69d3a44eSOverMighty       return FPBits::zero().get_val();
101*69d3a44eSOverMighty 
102*69d3a44eSOverMighty     // When x < 0.
103*69d3a44eSOverMighty     if (x_u > 0x8000U) {
104*69d3a44eSOverMighty       fputil::set_errno_if_required(EDOM);
105*69d3a44eSOverMighty       fputil::raise_except_if_required(FE_INVALID);
106*69d3a44eSOverMighty       return FPBits::quiet_nan().get_val();
107*69d3a44eSOverMighty     }
108*69d3a44eSOverMighty 
109*69d3a44eSOverMighty     // log10(+inf) = +inf
110*69d3a44eSOverMighty     return FPBits::inf().get_val();
111*69d3a44eSOverMighty   }
112*69d3a44eSOverMighty 
113*69d3a44eSOverMighty   if (auto r = LOG10F16_EXCEPTS.lookup(x_u); LIBC_UNLIKELY(r.has_value()))
114*69d3a44eSOverMighty     return r.value();
115*69d3a44eSOverMighty 
116*69d3a44eSOverMighty   // To compute log10(x), we perform the following range reduction:
117*69d3a44eSOverMighty   //   x = 2^m * 1.mant,
118*69d3a44eSOverMighty   //   log10(x) = m * log10(2) + log10(1.mant).
119*69d3a44eSOverMighty   // To compute log10(1.mant), let f be the highest 6 bits including the hidden
120*69d3a44eSOverMighty   // bit, and d be the difference (1.mant - f), i.e., the remaining 5 bits of
121*69d3a44eSOverMighty   // the mantissa, then:
122*69d3a44eSOverMighty   //   log10(1.mant) = log10(f) + log10(1.mant / f)
123*69d3a44eSOverMighty   //                 = log10(f) + log10(1 + d/f)
124*69d3a44eSOverMighty   // since d/f is sufficiently small.
125*69d3a44eSOverMighty   // We store log10(f) and 1/f in the lookup tables LOG10F_F and ONE_OVER_F_F
126*69d3a44eSOverMighty   // respectively.
127*69d3a44eSOverMighty 
128*69d3a44eSOverMighty   int m = -FPBits::EXP_BIAS;
129*69d3a44eSOverMighty 
130*69d3a44eSOverMighty   // When x is subnormal, normalize it.
131*69d3a44eSOverMighty   if ((x_u & FPBits::EXP_MASK) == 0U) {
132*69d3a44eSOverMighty     // Can't pass an integer to fputil::cast directly.
133*69d3a44eSOverMighty     constexpr float NORMALIZE_EXP = 1U << FPBits::FRACTION_LEN;
134*69d3a44eSOverMighty     x_bits = FPBits(x_bits.get_val() * fputil::cast<float16>(NORMALIZE_EXP));
135*69d3a44eSOverMighty     x_u = x_bits.uintval();
136*69d3a44eSOverMighty     m -= FPBits::FRACTION_LEN;
137*69d3a44eSOverMighty   }
138*69d3a44eSOverMighty 
139*69d3a44eSOverMighty   uint16_t mant = x_bits.get_mantissa();
140*69d3a44eSOverMighty   // Leading 10 - 5 = 5 bits of the mantissa.
141*69d3a44eSOverMighty   int f = mant >> 5;
142*69d3a44eSOverMighty   // Unbiased exponent.
143*69d3a44eSOverMighty   m += x_u >> FPBits::FRACTION_LEN;
144*69d3a44eSOverMighty 
145*69d3a44eSOverMighty   // Set bits to 1.mant instead of 2^m * 1.mant.
146*69d3a44eSOverMighty   x_bits.set_biased_exponent(FPBits::EXP_BIAS);
147*69d3a44eSOverMighty   float mant_f = x_bits.get_val();
148*69d3a44eSOverMighty   // v = 1.mant * 1/f - 1 = d/f
149*69d3a44eSOverMighty   float v = fputil::multiply_add(mant_f, ONE_OVER_F_F[f], -1.0f);
150*69d3a44eSOverMighty 
151*69d3a44eSOverMighty   // Degree-3 minimax polynomial generated by Sollya with the following
152*69d3a44eSOverMighty   // commands:
153*69d3a44eSOverMighty   //   > display = hexadecimal;
154*69d3a44eSOverMighty   //   > P = fpminimax(log10(1 + x)/x, 2, [|SG...|], [-2^-5, 2^-5]);
155*69d3a44eSOverMighty   //   > x * P;
156*69d3a44eSOverMighty   float log10p1_d_over_f =
157*69d3a44eSOverMighty       v * fputil::polyeval(v, 0x1.bcb7bp-2f, -0x1.bce168p-3f, 0x1.28acb8p-3f);
158*69d3a44eSOverMighty   // log10(1.mant) = log10(f) + log10(1 + d/f)
159*69d3a44eSOverMighty   float log10_1_mant = LOG10F_F[f] + log10p1_d_over_f;
160*69d3a44eSOverMighty   return fputil::cast<float16>(
161*69d3a44eSOverMighty       fputil::multiply_add(static_cast<float>(m), LOG10F_2, log10_1_mant));
162*69d3a44eSOverMighty }
163*69d3a44eSOverMighty 
164*69d3a44eSOverMighty } // namespace LIBC_NAMESPACE_DECL
165