1 //===-- Common constants for math functions ---------------------*- C++ -*-===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 9 #ifndef LLVM_LIBC_SRC_MATH_GENERIC_COMMON_CONSTANTS_H 10 #define LLVM_LIBC_SRC_MATH_GENERIC_COMMON_CONSTANTS_H 11 12 #include "src/__support/FPUtil/triple_double.h" 13 #include "src/__support/macros/config.h" 14 #include "src/__support/number_pair.h" 15 16 namespace LIBC_NAMESPACE_DECL { 17 18 // Lookup table for (1/f) where f = 1 + n*2^(-7), n = 0..127. 19 extern const double ONE_OVER_F[128]; 20 21 // Lookup table for log(f) = log(1 + n*2^(-7)) where n = 0..127. 22 extern const double LOG_F[128]; 23 24 // Lookup table for range reduction constants r for logarithms. 25 extern const float R[128]; 26 27 // Lookup table for range reduction constants r for logarithms. 28 extern const double RD[128]; 29 30 // Lookup table for compensated constants for exact range reduction when FMA 31 // instructions are not available. 32 extern const double CD[128]; 33 34 // Lookup table for -log(r) 35 extern const double LOG_R[128]; 36 extern const NumberPair<double> LOG_R_DD[128]; 37 38 // Lookup table for -log2(r) 39 extern const double LOG2_R[128]; 40 41 // Minimax polynomial for (log(1 + x) - x)/x^2, generated by sollya with: 42 // > P = fpminimax((log(1 + x) - x)/x^2, 5, [|D...|], [-2^-8, 2^-7]); 43 constexpr double LOG_COEFFS[6] = {-0x1.fffffffffffffp-2, 0x1.5555555554a9bp-2, 44 -0x1.0000000094567p-2, 0x1.99999dcc9823cp-3, 45 -0x1.55550ac2e537ap-3, 0x1.21a02c4e624d7p-3}; 46 47 // Logarithm Range Reduction - Step 2, 3, and 4. 48 extern const int S2[193]; 49 extern const int S3[161]; 50 extern const int S4[130]; 51 52 extern const double R2[193]; 53 54 // log(2) generated by Sollya with: 55 // > a = 2^-43 * nearestint(2^43*log(2)); 56 // LSB = 2^-43 is chosen so that e_x * LOG_2_HI is exact for -1075 < e_x < 1024. 57 constexpr double LOG_2_HI = 0x1.62e42fefa38p-1; // LSB = 2^-43 58 // > b = round(log10(2) - a, D, RN); 59 constexpr double LOG_2_LO = 0x1.ef35793c7673p-45; // LSB = 2^-97 60 61 // Lookup table for exp(m) with m = -104, ..., 89. 62 // -104 = floor(log(single precision's min denormal)) 63 // 89 = ceil(log(single precision's max normal)) 64 // Table is generated with Sollya as follow: 65 // > display = hexadecimal; 66 // > for i from -104 to 89 do { D(exp(i)); }; 67 extern const double EXP_M1[195]; 68 69 // Lookup table for exp(m * 2^(-7)) with m = 0, ..., 127. 70 // Table is generated with Sollya as follow: 71 // > display = hexadecimal; 72 // > for i from 0 to 127 do { D(exp(i / 128)); }; 73 extern const double EXP_M2[128]; 74 75 // Lookup table for 2^(k * 2^-6) with k = 0..63. 76 extern const fputil::TripleDouble EXP2_MID1[64]; 77 78 // Lookup table for 2^(k * 2^-12) with k = 0..63. 79 extern const fputil::TripleDouble EXP2_MID2[64]; 80 81 } // namespace LIBC_NAMESPACE_DECL 82 83 #endif // LLVM_LIBC_SRC_MATH_GENERIC_COMMON_CONSTANTS_H 84