/* * Single-precision erfc(x) function. * * Copyright (c) 2023, Arm Limited. * SPDX-License-Identifier: MIT OR Apache-2.0 WITH LLVM-exception */ #include "math_config.h" #include "pl_sig.h" #include "pl_test.h" #define Shift 0x1p17f #define OneThird 0x1.555556p-2f #define TwoThird 0x1.555556p-1f #define TwoOverFifteen 0x1.111112p-3f #define TwoOverFive 0x1.99999ap-2f #define Tenth 0x1.99999ap-4f #define SignMask 0x7fffffff /* Fast erfcf approximation based on series expansion near x rounded to nearest multiple of 1/64. Let d = x - r, and scale = 2 / sqrt(pi) * exp(-r^2). For x near r, erfc(x) ~ erfc(r) - scale * d * poly(r, d), with poly(r, d) = 1 - r d + (2/3 r^2 - 1/3) d^2 - r (1/3 r^2 - 1/2) d^3 + (2/15 r^4 - 2/5 r^2 + 1/10) d^4 Values of erfc(r) and scale are read from lookup tables. Stored values are scaled to avoid hitting the subnormal range. Note that for x < 0, erfc(x) = 2.0 - erfc(-x). Maximum error: 1.63 ULP (~1.0 ULP for x < 0.0). erfcf(0x1.1dbf7ap+3) got 0x1.f51212p-120 want 0x1.f51216p-120. */ float erfcf (float x) { /* Get top words and sign. */ uint32_t ix = asuint (x); uint32_t ia = ix & SignMask; uint32_t sign = ix & ~SignMask; /* |x| < 0x1.0p-26 => accurate to 0.5 ULP (top12(0x1p-26) = 0x328). */ if (unlikely (ia < 0x32800000)) return 1.0f - x; /* Small case. */ /* For |x| < 10.0625, the following approximation holds. */ if (likely (ia < 0x41210000)) { /* Lookup erfc(r) and scale(r) in tables, e.g. set erfc(r) to 1 and scale to 2/sqrt(pi), when x reduced to r = 0. */ float a = asfloat (ia); float z = a + Shift; uint32_t i = asuint (z) - asuint (Shift); float r = z - Shift; /* These values are scaled by 2^-47. */ float erfcr = __erfcf_data.tab[i].erfc; float scale = __erfcf_data.tab[i].scale; /* erfc(x) ~ erfc(r) - scale * d * poly (r, d). */ float d = a - r; float d2 = d * d; float r2 = r * r; float p1 = -r; float p2 = fmaf (TwoThird, r2, -OneThird); float p3 = -r * fmaf (OneThird, r2, -0.5f); float p4 = fmaf (fmaf (TwoOverFifteen, r2, -TwoOverFive), r2, Tenth); float y = fmaf (p4, d, p3); y = fmaf (y, d, p2); y = fmaf (y, d, p1); y = fmaf (-fmaf (y, d2, d), scale, erfcr); /* Handle sign and scale back in a single fma. */ float off = asfloat (sign >> 1); float fac = asfloat (asuint (0x1p-47f) | sign); y = fmaf (y, fac, off); /* The underflow exception needs to be signaled explicitly when result gets into subormnal range. */ if (x >= 0x1.2639cp+3f) force_eval_float (opt_barrier_float (0x1p-123f) * 0x1p-123f); return y; } /* erfcf(nan)=nan, erfcf(+inf)=0 and erfcf(-inf)=2. */ if (unlikely (ia >= 0x7f800000)) return asfloat (sign >> 1) + 1.0f / x; /* Special cases. */ /* Above this threshold erfcf is constant and needs to raise underflow exception for positive x. */ return sign ? 2.0f : __math_uflowf (0); } PL_SIG (S, F, 1, erfc, -4.0, 10.0) PL_TEST_ULP (erfcf, 1.14) PL_TEST_SYM_INTERVAL (erfcf, 0, 0x1p-26, 40000) PL_TEST_INTERVAL (erfcf, 0x1p-26, 10.0625, 40000) PL_TEST_INTERVAL (erfcf, -0x1p-26, -4.0, 40000) PL_TEST_INTERVAL (erfcf, 10.0625, inf, 40000) PL_TEST_INTERVAL (erfcf, -4.0, -inf, 40000)