/* * Double-precision asinh(x) function * * Copyright (c) 2022-2023, Arm Limited. * SPDX-License-Identifier: MIT OR Apache-2.0 WITH LLVM-exception */ #include "estrin.h" #include "math_config.h" #include "pl_sig.h" #include "pl_test.h" #define AbsMask 0x7fffffffffffffff #define ExpM26 0x3e50000000000000 /* asuint64(0x1.0p-26). */ #define One 0x3ff0000000000000 /* asuint64(1.0). */ #define Exp511 0x5fe0000000000000 /* asuint64(0x1.0p511). */ #define Ln2 0x1.62e42fefa39efp-1 double optr_aor_log_f64 (double); /* Scalar double-precision asinh implementation. This routine uses different approaches on different intervals: |x| < 2^-26: Return x. Function is exact in this region. |x| < 1: Use custom order-17 polynomial. This is least accurate close to 1. The largest observed error in this region is 1.47 ULPs: asinh(0x1.fdfcd00cc1e6ap-1) got 0x1.c1d6bf874019bp-1 want 0x1.c1d6bf874019cp-1. |x| < 2^511: Upper bound of this region is close to sqrt(DBL_MAX). Calculate the result directly using the definition asinh(x) = ln(x + sqrt(x*x + 1)). The largest observed error in this region is 2.03 ULPs: asinh(-0x1.00094e0f39574p+0) got -0x1.c3508eb6a681ep-1 want -0x1.c3508eb6a682p-1. |x| >= 2^511: We cannot square x without overflow at a low cost. At very large x, asinh(x) ~= ln(2x). At huge x we cannot even double x without overflow, so calculate this as ln(x) + ln(2). The largest observed error in this region is 0.98 ULPs at many values, for instance: asinh(0x1.5255a4cf10319p+975) got 0x1.52652f4cb26cbp+9 want 0x1.52652f4cb26ccp+9. */ double asinh (double x) { uint64_t ix = asuint64 (x); uint64_t ia = ix & AbsMask; double ax = asdouble (ia); uint64_t sign = ix & ~AbsMask; if (ia < ExpM26) { return x; } if (ia < One) { double x2 = x * x; double z2 = x2 * x2; double z4 = z2 * z2; double z8 = z4 * z4; #define C(i) __asinh_data.poly[i] double p = ESTRIN_17 (x2, z2, z4, z8, z8 * z8, C); double y = fma (p, x2 * ax, ax); return asdouble (asuint64 (y) | sign); } if (unlikely (ia >= Exp511)) { return asdouble (asuint64 (optr_aor_log_f64 (ax) + Ln2) | sign); } return asdouble (asuint64 (optr_aor_log_f64 (ax + sqrt (ax * ax + 1))) | sign); } PL_SIG (S, D, 1, asinh, -10.0, 10.0) PL_TEST_ULP (asinh, 1.54) PL_TEST_INTERVAL (asinh, -0x1p-26, 0x1p-26, 50000) PL_TEST_INTERVAL (asinh, 0x1p-26, 1.0, 40000) PL_TEST_INTERVAL (asinh, -0x1p-26, -1.0, 10000) PL_TEST_INTERVAL (asinh, 1.0, 100.0, 40000) PL_TEST_INTERVAL (asinh, -1.0, -100.0, 10000) PL_TEST_INTERVAL (asinh, 100.0, inf, 50000) PL_TEST_INTERVAL (asinh, -100.0, -inf, 10000)