src/math/pow.c

*c9945492SAndroid Build Coastguard Worker/*
*c9945492SAndroid Build Coastguard Worker * Double-precision x^y function.
*c9945492SAndroid Build Coastguard Worker *
*c9945492SAndroid Build Coastguard Worker * Copyright (c) 2018, Arm Limited.
*c9945492SAndroid Build Coastguard Worker * SPDX-License-Identifier: MIT
*c9945492SAndroid Build Coastguard Worker */
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker#include <math.h>
*c9945492SAndroid Build Coastguard Worker#include <stdint.h>
*c9945492SAndroid Build Coastguard Worker#include "libm.h"
*c9945492SAndroid Build Coastguard Worker#include "exp_data.h"
*c9945492SAndroid Build Coastguard Worker#include "pow_data.h"
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker/*
*c9945492SAndroid Build Coastguard WorkerWorst-case error: 0.54 ULP (~= ulperr_exp + 1024*Ln2*relerr_log*2^53)
*c9945492SAndroid Build Coastguard Workerrelerr_log: 1.3 * 2^-68 (Relative error of log, 1.5 * 2^-68 without fma)
*c9945492SAndroid Build Coastguard Workerulperr_exp: 0.509 ULP (ULP error of exp, 0.511 ULP without fma)
*c9945492SAndroid Build Coastguard Worker*/
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker#define T __pow_log_data.tab
*c9945492SAndroid Build Coastguard Worker#define A __pow_log_data.poly
*c9945492SAndroid Build Coastguard Worker#define Ln2hi __pow_log_data.ln2hi
*c9945492SAndroid Build Coastguard Worker#define Ln2lo __pow_log_data.ln2lo
*c9945492SAndroid Build Coastguard Worker#define N (1 << POW_LOG_TABLE_BITS)
*c9945492SAndroid Build Coastguard Worker#define OFF 0x3fe6955500000000
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker/* Top 12 bits of a double (sign and exponent bits).  */
*c9945492SAndroid Build Coastguard Workerstatic inline uint32_t top12(double x)
*c9945492SAndroid Build Coastguard Worker{
*c9945492SAndroid Build Coastguard Worker	return asuint64(x) >> 52;
*c9945492SAndroid Build Coastguard Worker}
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker/* Compute y+TAIL = log(x) where the rounded result is y and TAIL has about
*c9945492SAndroid Build Coastguard Worker   additional 15 bits precision.  IX is the bit representation of x, but
*c9945492SAndroid Build Coastguard Worker   normalized in the subnormal range using the sign bit for the exponent.  */
*c9945492SAndroid Build Coastguard Workerstatic inline double_t log_inline(uint64_t ix, double_t *tail)
*c9945492SAndroid Build Coastguard Worker{
*c9945492SAndroid Build Coastguard Worker	/* double_t for better performance on targets with FLT_EVAL_METHOD==2.  */
*c9945492SAndroid Build Coastguard Worker	double_t z, r, y, invc, logc, logctail, kd, hi, t1, t2, lo, lo1, lo2, p;
*c9945492SAndroid Build Coastguard Worker	uint64_t iz, tmp;
*c9945492SAndroid Build Coastguard Worker	int k, i;
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	/* x = 2^k z; where z is in range [OFF,2*OFF) and exact.
*c9945492SAndroid Build Coastguard Worker	   The range is split into N subintervals.
*c9945492SAndroid Build Coastguard Worker	   The ith subinterval contains z and c is near its center.  */
*c9945492SAndroid Build Coastguard Worker	tmp = ix - OFF;
*c9945492SAndroid Build Coastguard Worker	i = (tmp >> (52 - POW_LOG_TABLE_BITS)) % N;
*c9945492SAndroid Build Coastguard Worker	k = (int64_t)tmp >> 52; /* arithmetic shift */
*c9945492SAndroid Build Coastguard Worker	iz = ix - (tmp & 0xfffULL << 52);
*c9945492SAndroid Build Coastguard Worker	z = asdouble(iz);
*c9945492SAndroid Build Coastguard Worker	kd = (double_t)k;
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	/* log(x) = k*Ln2 + log(c) + log1p(z/c-1).  */
*c9945492SAndroid Build Coastguard Worker	invc = T[i].invc;
*c9945492SAndroid Build Coastguard Worker	logc = T[i].logc;
*c9945492SAndroid Build Coastguard Worker	logctail = T[i].logctail;
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	/* Note: 1/c is j/N or j/N/2 where j is an integer in [N,2N) and
*c9945492SAndroid Build Coastguard Worker     |z/c - 1| < 1/N, so r = z/c - 1 is exactly representible.  */
*c9945492SAndroid Build Coastguard Worker#if __FP_FAST_FMA
*c9945492SAndroid Build Coastguard Worker	r = __builtin_fma(z, invc, -1.0);
*c9945492SAndroid Build Coastguard Worker#else
*c9945492SAndroid Build Coastguard Worker	/* Split z such that rhi, rlo and rhi*rhi are exact and |rlo| <= |r|.  */
*c9945492SAndroid Build Coastguard Worker	double_t zhi = asdouble((iz + (1ULL << 31)) & (-1ULL << 32));
*c9945492SAndroid Build Coastguard Worker	double_t zlo = z - zhi;
*c9945492SAndroid Build Coastguard Worker	double_t rhi = zhi * invc - 1.0;
*c9945492SAndroid Build Coastguard Worker	double_t rlo = zlo * invc;
*c9945492SAndroid Build Coastguard Worker	r = rhi + rlo;
*c9945492SAndroid Build Coastguard Worker#endif
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	/* k*Ln2 + log(c) + r.  */
*c9945492SAndroid Build Coastguard Worker	t1 = kd * Ln2hi + logc;
*c9945492SAndroid Build Coastguard Worker	t2 = t1 + r;
*c9945492SAndroid Build Coastguard Worker	lo1 = kd * Ln2lo + logctail;
*c9945492SAndroid Build Coastguard Worker	lo2 = t1 - t2 + r;
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	/* Evaluation is optimized assuming superscalar pipelined execution.  */
*c9945492SAndroid Build Coastguard Worker	double_t ar, ar2, ar3, lo3, lo4;
*c9945492SAndroid Build Coastguard Worker	ar = A[0] * r; /* A[0] = -0.5.  */
*c9945492SAndroid Build Coastguard Worker	ar2 = r * ar;
*c9945492SAndroid Build Coastguard Worker	ar3 = r * ar2;
*c9945492SAndroid Build Coastguard Worker	/* k*Ln2 + log(c) + r + A[0]*r*r.  */
*c9945492SAndroid Build Coastguard Worker#if __FP_FAST_FMA
*c9945492SAndroid Build Coastguard Worker	hi = t2 + ar2;
*c9945492SAndroid Build Coastguard Worker	lo3 = __builtin_fma(ar, r, -ar2);
*c9945492SAndroid Build Coastguard Worker	lo4 = t2 - hi + ar2;
*c9945492SAndroid Build Coastguard Worker#else
*c9945492SAndroid Build Coastguard Worker	double_t arhi = A[0] * rhi;
*c9945492SAndroid Build Coastguard Worker	double_t arhi2 = rhi * arhi;
*c9945492SAndroid Build Coastguard Worker	hi = t2 + arhi2;
*c9945492SAndroid Build Coastguard Worker	lo3 = rlo * (ar + arhi);
*c9945492SAndroid Build Coastguard Worker	lo4 = t2 - hi + arhi2;
*c9945492SAndroid Build Coastguard Worker#endif
*c9945492SAndroid Build Coastguard Worker	/* p = log1p(r) - r - A[0]*r*r.  */
*c9945492SAndroid Build Coastguard Worker	p = (ar3 * (A[1] + r * A[2] +
*c9945492SAndroid Build Coastguard Worker		    ar2 * (A[3] + r * A[4] + ar2 * (A[5] + r * A[6]))));
*c9945492SAndroid Build Coastguard Worker	lo = lo1 + lo2 + lo3 + lo4 + p;
*c9945492SAndroid Build Coastguard Worker	y = hi + lo;
*c9945492SAndroid Build Coastguard Worker	*tail = hi - y + lo;
*c9945492SAndroid Build Coastguard Worker	return y;
*c9945492SAndroid Build Coastguard Worker}
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker#undef N
*c9945492SAndroid Build Coastguard Worker#undef T
*c9945492SAndroid Build Coastguard Worker#define N (1 << EXP_TABLE_BITS)
*c9945492SAndroid Build Coastguard Worker#define InvLn2N __exp_data.invln2N
*c9945492SAndroid Build Coastguard Worker#define NegLn2hiN __exp_data.negln2hiN
*c9945492SAndroid Build Coastguard Worker#define NegLn2loN __exp_data.negln2loN
*c9945492SAndroid Build Coastguard Worker#define Shift __exp_data.shift
*c9945492SAndroid Build Coastguard Worker#define T __exp_data.tab
*c9945492SAndroid Build Coastguard Worker#define C2 __exp_data.poly[5 - EXP_POLY_ORDER]
*c9945492SAndroid Build Coastguard Worker#define C3 __exp_data.poly[6 - EXP_POLY_ORDER]
*c9945492SAndroid Build Coastguard Worker#define C4 __exp_data.poly[7 - EXP_POLY_ORDER]
*c9945492SAndroid Build Coastguard Worker#define C5 __exp_data.poly[8 - EXP_POLY_ORDER]
*c9945492SAndroid Build Coastguard Worker#define C6 __exp_data.poly[9 - EXP_POLY_ORDER]
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker/* Handle cases that may overflow or underflow when computing the result that
*c9945492SAndroid Build Coastguard Worker   is scale*(1+TMP) without intermediate rounding.  The bit representation of
*c9945492SAndroid Build Coastguard Worker   scale is in SBITS, however it has a computed exponent that may have
*c9945492SAndroid Build Coastguard Worker   overflown into the sign bit so that needs to be adjusted before using it as
*c9945492SAndroid Build Coastguard Worker   a double.  (int32_t)KI is the k used in the argument reduction and exponent
*c9945492SAndroid Build Coastguard Worker   adjustment of scale, positive k here means the result may overflow and
*c9945492SAndroid Build Coastguard Worker   negative k means the result may underflow.  */
*c9945492SAndroid Build Coastguard Workerstatic inline double specialcase(double_t tmp, uint64_t sbits, uint64_t ki)
*c9945492SAndroid Build Coastguard Worker{
*c9945492SAndroid Build Coastguard Worker	double_t scale, y;
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	if ((ki & 0x80000000) == 0) {
*c9945492SAndroid Build Coastguard Worker		/* k > 0, the exponent of scale might have overflowed by <= 460.  */
*c9945492SAndroid Build Coastguard Worker		sbits -= 1009ull << 52;
*c9945492SAndroid Build Coastguard Worker		scale = asdouble(sbits);
*c9945492SAndroid Build Coastguard Worker		y = 0x1p1009 * (scale + scale * tmp);
*c9945492SAndroid Build Coastguard Worker		return eval_as_double(y);
*c9945492SAndroid Build Coastguard Worker	}
*c9945492SAndroid Build Coastguard Worker	/* k < 0, need special care in the subnormal range.  */
*c9945492SAndroid Build Coastguard Worker	sbits += 1022ull << 52;
*c9945492SAndroid Build Coastguard Worker	/* Note: sbits is signed scale.  */
*c9945492SAndroid Build Coastguard Worker	scale = asdouble(sbits);
*c9945492SAndroid Build Coastguard Worker	y = scale + scale * tmp;
*c9945492SAndroid Build Coastguard Worker	if (fabs(y) < 1.0) {
*c9945492SAndroid Build Coastguard Worker		/* Round y to the right precision before scaling it into the subnormal
*c9945492SAndroid Build Coastguard Worker		   range to avoid double rounding that can cause 0.5+E/2 ulp error where
*c9945492SAndroid Build Coastguard Worker		   E is the worst-case ulp error outside the subnormal range.  So this
*c9945492SAndroid Build Coastguard Worker		   is only useful if the goal is better than 1 ulp worst-case error.  */
*c9945492SAndroid Build Coastguard Worker		double_t hi, lo, one = 1.0;
*c9945492SAndroid Build Coastguard Worker		if (y < 0.0)
*c9945492SAndroid Build Coastguard Worker			one = -1.0;
*c9945492SAndroid Build Coastguard Worker		lo = scale - y + scale * tmp;
*c9945492SAndroid Build Coastguard Worker		hi = one + y;
*c9945492SAndroid Build Coastguard Worker		lo = one - hi + y + lo;
*c9945492SAndroid Build Coastguard Worker		y = eval_as_double(hi + lo) - one;
*c9945492SAndroid Build Coastguard Worker		/* Fix the sign of 0.  */
*c9945492SAndroid Build Coastguard Worker		if (y == 0.0)
*c9945492SAndroid Build Coastguard Worker			y = asdouble(sbits & 0x8000000000000000);
*c9945492SAndroid Build Coastguard Worker		/* The underflow exception needs to be signaled explicitly.  */
*c9945492SAndroid Build Coastguard Worker		fp_force_eval(fp_barrier(0x1p-1022) * 0x1p-1022);
*c9945492SAndroid Build Coastguard Worker	}
*c9945492SAndroid Build Coastguard Worker	y = 0x1p-1022 * y;
*c9945492SAndroid Build Coastguard Worker	return eval_as_double(y);
*c9945492SAndroid Build Coastguard Worker}
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker#define SIGN_BIAS (0x800 << EXP_TABLE_BITS)
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker/* Computes sign*exp(x+xtail) where |xtail| < 2^-8/N and |xtail| <= |x|.
*c9945492SAndroid Build Coastguard Worker   The sign_bias argument is SIGN_BIAS or 0 and sets the sign to -1 or 1.  */
*c9945492SAndroid Build Coastguard Workerstatic inline double exp_inline(double_t x, double_t xtail, uint32_t sign_bias)
*c9945492SAndroid Build Coastguard Worker{
*c9945492SAndroid Build Coastguard Worker	uint32_t abstop;
*c9945492SAndroid Build Coastguard Worker	uint64_t ki, idx, top, sbits;
*c9945492SAndroid Build Coastguard Worker	/* double_t for better performance on targets with FLT_EVAL_METHOD==2.  */
*c9945492SAndroid Build Coastguard Worker	double_t kd, z, r, r2, scale, tail, tmp;
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	abstop = top12(x) & 0x7ff;
*c9945492SAndroid Build Coastguard Worker	if (predict_false(abstop - top12(0x1p-54) >=
*c9945492SAndroid Build Coastguard Worker			  top12(512.0) - top12(0x1p-54))) {
*c9945492SAndroid Build Coastguard Worker		if (abstop - top12(0x1p-54) >= 0x80000000) {
*c9945492SAndroid Build Coastguard Worker			/* Avoid spurious underflow for tiny x.  */
*c9945492SAndroid Build Coastguard Worker			/* Note: 0 is common input.  */
*c9945492SAndroid Build Coastguard Worker			double_t one = WANT_ROUNDING ? 1.0 + x : 1.0;
*c9945492SAndroid Build Coastguard Worker			return sign_bias ? -one : one;
*c9945492SAndroid Build Coastguard Worker		}
*c9945492SAndroid Build Coastguard Worker		if (abstop >= top12(1024.0)) {
*c9945492SAndroid Build Coastguard Worker			/* Note: inf and nan are already handled.  */
*c9945492SAndroid Build Coastguard Worker			if (asuint64(x) >> 63)
*c9945492SAndroid Build Coastguard Worker				return __math_uflow(sign_bias);
*c9945492SAndroid Build Coastguard Worker			else
*c9945492SAndroid Build Coastguard Worker				return __math_oflow(sign_bias);
*c9945492SAndroid Build Coastguard Worker		}
*c9945492SAndroid Build Coastguard Worker		/* Large x is special cased below.  */
*c9945492SAndroid Build Coastguard Worker		abstop = 0;
*c9945492SAndroid Build Coastguard Worker	}
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	/* exp(x) = 2^(k/N) * exp(r), with exp(r) in [2^(-1/2N),2^(1/2N)].  */
*c9945492SAndroid Build Coastguard Worker	/* x = ln2/N*k + r, with int k and r in [-ln2/2N, ln2/2N].  */
*c9945492SAndroid Build Coastguard Worker	z = InvLn2N * x;
*c9945492SAndroid Build Coastguard Worker#if TOINT_INTRINSICS
*c9945492SAndroid Build Coastguard Worker	kd = roundtoint(z);
*c9945492SAndroid Build Coastguard Worker	ki = converttoint(z);
*c9945492SAndroid Build Coastguard Worker#elif EXP_USE_TOINT_NARROW
*c9945492SAndroid Build Coastguard Worker	/* z - kd is in [-0.5-2^-16, 0.5] in all rounding modes.  */
*c9945492SAndroid Build Coastguard Worker	kd = eval_as_double(z + Shift);
*c9945492SAndroid Build Coastguard Worker	ki = asuint64(kd) >> 16;
*c9945492SAndroid Build Coastguard Worker	kd = (double_t)(int32_t)ki;
*c9945492SAndroid Build Coastguard Worker#else
*c9945492SAndroid Build Coastguard Worker	/* z - kd is in [-1, 1] in non-nearest rounding modes.  */
*c9945492SAndroid Build Coastguard Worker	kd = eval_as_double(z + Shift);
*c9945492SAndroid Build Coastguard Worker	ki = asuint64(kd);
*c9945492SAndroid Build Coastguard Worker	kd -= Shift;
*c9945492SAndroid Build Coastguard Worker#endif
*c9945492SAndroid Build Coastguard Worker	r = x + kd * NegLn2hiN + kd * NegLn2loN;
*c9945492SAndroid Build Coastguard Worker	/* The code assumes 2^-200 < |xtail| < 2^-8/N.  */
*c9945492SAndroid Build Coastguard Worker	r += xtail;
*c9945492SAndroid Build Coastguard Worker	/* 2^(k/N) ~= scale * (1 + tail).  */
*c9945492SAndroid Build Coastguard Worker	idx = 2 * (ki % N);
*c9945492SAndroid Build Coastguard Worker	top = (ki + sign_bias) << (52 - EXP_TABLE_BITS);
*c9945492SAndroid Build Coastguard Worker	tail = asdouble(T[idx]);
*c9945492SAndroid Build Coastguard Worker	/* This is only a valid scale when -1023*N < k < 1024*N.  */
*c9945492SAndroid Build Coastguard Worker	sbits = T[idx + 1] + top;
*c9945492SAndroid Build Coastguard Worker	/* exp(x) = 2^(k/N) * exp(r) ~= scale + scale * (tail + exp(r) - 1).  */
*c9945492SAndroid Build Coastguard Worker	/* Evaluation is optimized assuming superscalar pipelined execution.  */
*c9945492SAndroid Build Coastguard Worker	r2 = r * r;
*c9945492SAndroid Build Coastguard Worker	/* Without fma the worst case error is 0.25/N ulp larger.  */
*c9945492SAndroid Build Coastguard Worker	/* Worst case error is less than 0.5+1.11/N+(abs poly error * 2^53) ulp.  */
*c9945492SAndroid Build Coastguard Worker	tmp = tail + r + r2 * (C2 + r * C3) + r2 * r2 * (C4 + r * C5);
*c9945492SAndroid Build Coastguard Worker	if (predict_false(abstop == 0))
*c9945492SAndroid Build Coastguard Worker		return specialcase(tmp, sbits, ki);
*c9945492SAndroid Build Coastguard Worker	scale = asdouble(sbits);
*c9945492SAndroid Build Coastguard Worker	/* Note: tmp == 0 or |tmp| > 2^-200 and scale > 2^-739, so there
*c9945492SAndroid Build Coastguard Worker	   is no spurious underflow here even without fma.  */
*c9945492SAndroid Build Coastguard Worker	return eval_as_double(scale + scale * tmp);
*c9945492SAndroid Build Coastguard Worker}
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker/* Returns 0 if not int, 1 if odd int, 2 if even int.  The argument is
*c9945492SAndroid Build Coastguard Worker   the bit representation of a non-zero finite floating-point value.  */
*c9945492SAndroid Build Coastguard Workerstatic inline int checkint(uint64_t iy)
*c9945492SAndroid Build Coastguard Worker{
*c9945492SAndroid Build Coastguard Worker	int e = iy >> 52 & 0x7ff;
*c9945492SAndroid Build Coastguard Worker	if (e < 0x3ff)
*c9945492SAndroid Build Coastguard Worker		return 0;
*c9945492SAndroid Build Coastguard Worker	if (e > 0x3ff + 52)
*c9945492SAndroid Build Coastguard Worker		return 2;
*c9945492SAndroid Build Coastguard Worker	if (iy & ((1ULL << (0x3ff + 52 - e)) - 1))
*c9945492SAndroid Build Coastguard Worker		return 0;
*c9945492SAndroid Build Coastguard Worker	if (iy & (1ULL << (0x3ff + 52 - e)))
*c9945492SAndroid Build Coastguard Worker		return 1;
*c9945492SAndroid Build Coastguard Worker	return 2;
*c9945492SAndroid Build Coastguard Worker}
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker/* Returns 1 if input is the bit representation of 0, infinity or nan.  */
*c9945492SAndroid Build Coastguard Workerstatic inline int zeroinfnan(uint64_t i)
*c9945492SAndroid Build Coastguard Worker{
*c9945492SAndroid Build Coastguard Worker	return 2 * i - 1 >= 2 * asuint64(INFINITY) - 1;
*c9945492SAndroid Build Coastguard Worker}
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Workerdouble pow(double x, double y)
*c9945492SAndroid Build Coastguard Worker{
*c9945492SAndroid Build Coastguard Worker	uint32_t sign_bias = 0;
*c9945492SAndroid Build Coastguard Worker	uint64_t ix, iy;
*c9945492SAndroid Build Coastguard Worker	uint32_t topx, topy;
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	ix = asuint64(x);
*c9945492SAndroid Build Coastguard Worker	iy = asuint64(y);
*c9945492SAndroid Build Coastguard Worker	topx = top12(x);
*c9945492SAndroid Build Coastguard Worker	topy = top12(y);
*c9945492SAndroid Build Coastguard Worker	if (predict_false(topx - 0x001 >= 0x7ff - 0x001 ||
*c9945492SAndroid Build Coastguard Worker			  (topy & 0x7ff) - 0x3be >= 0x43e - 0x3be)) {
*c9945492SAndroid Build Coastguard Worker		/* Note: if |y| > 1075 * ln2 * 2^53 ~= 0x1.749p62 then pow(x,y) = inf/0
*c9945492SAndroid Build Coastguard Worker		   and if |y| < 2^-54 / 1075 ~= 0x1.e7b6p-65 then pow(x,y) = +-1.  */
*c9945492SAndroid Build Coastguard Worker		/* Special cases: (x < 0x1p-126 or inf or nan) or
*c9945492SAndroid Build Coastguard Worker		   (|y| < 0x1p-65 or |y| >= 0x1p63 or nan).  */
*c9945492SAndroid Build Coastguard Worker		if (predict_false(zeroinfnan(iy))) {
*c9945492SAndroid Build Coastguard Worker			if (2 * iy == 0)
*c9945492SAndroid Build Coastguard Worker				return issignaling_inline(x) ? x + y : 1.0;
*c9945492SAndroid Build Coastguard Worker			if (ix == asuint64(1.0))
*c9945492SAndroid Build Coastguard Worker				return issignaling_inline(y) ? x + y : 1.0;
*c9945492SAndroid Build Coastguard Worker			if (2 * ix > 2 * asuint64(INFINITY) ||
*c9945492SAndroid Build Coastguard Worker			    2 * iy > 2 * asuint64(INFINITY))
*c9945492SAndroid Build Coastguard Worker				return x + y;
*c9945492SAndroid Build Coastguard Worker			if (2 * ix == 2 * asuint64(1.0))
*c9945492SAndroid Build Coastguard Worker				return 1.0;
*c9945492SAndroid Build Coastguard Worker			if ((2 * ix < 2 * asuint64(1.0)) == !(iy >> 63))
*c9945492SAndroid Build Coastguard Worker				return 0.0; /* |x|<1 && y==inf or |x|>1 && y==-inf.  */
*c9945492SAndroid Build Coastguard Worker			return y * y;
*c9945492SAndroid Build Coastguard Worker		}
*c9945492SAndroid Build Coastguard Worker		if (predict_false(zeroinfnan(ix))) {
*c9945492SAndroid Build Coastguard Worker			double_t x2 = x * x;
*c9945492SAndroid Build Coastguard Worker			if (ix >> 63 && checkint(iy) == 1)
*c9945492SAndroid Build Coastguard Worker				x2 = -x2;
*c9945492SAndroid Build Coastguard Worker			/* Without the barrier some versions of clang hoist the 1/x2 and
*c9945492SAndroid Build Coastguard Worker			   thus division by zero exception can be signaled spuriously.  */
*c9945492SAndroid Build Coastguard Worker			return iy >> 63 ? fp_barrier(1 / x2) : x2;
*c9945492SAndroid Build Coastguard Worker		}
*c9945492SAndroid Build Coastguard Worker		/* Here x and y are non-zero finite.  */
*c9945492SAndroid Build Coastguard Worker		if (ix >> 63) {
*c9945492SAndroid Build Coastguard Worker			/* Finite x < 0.  */
*c9945492SAndroid Build Coastguard Worker			int yint = checkint(iy);
*c9945492SAndroid Build Coastguard Worker			if (yint == 0)
*c9945492SAndroid Build Coastguard Worker				return __math_invalid(x);
*c9945492SAndroid Build Coastguard Worker			if (yint == 1)
*c9945492SAndroid Build Coastguard Worker				sign_bias = SIGN_BIAS;
*c9945492SAndroid Build Coastguard Worker			ix &= 0x7fffffffffffffff;
*c9945492SAndroid Build Coastguard Worker			topx &= 0x7ff;
*c9945492SAndroid Build Coastguard Worker		}
*c9945492SAndroid Build Coastguard Worker		if ((topy & 0x7ff) - 0x3be >= 0x43e - 0x3be) {
*c9945492SAndroid Build Coastguard Worker			/* Note: sign_bias == 0 here because y is not odd.  */
*c9945492SAndroid Build Coastguard Worker			if (ix == asuint64(1.0))
*c9945492SAndroid Build Coastguard Worker				return 1.0;
*c9945492SAndroid Build Coastguard Worker			if ((topy & 0x7ff) < 0x3be) {
*c9945492SAndroid Build Coastguard Worker				/* |y| < 2^-65, x^y ~= 1 + y*log(x).  */
*c9945492SAndroid Build Coastguard Worker				if (WANT_ROUNDING)
*c9945492SAndroid Build Coastguard Worker					return ix > asuint64(1.0) ? 1.0 + y :
*c9945492SAndroid Build Coastguard Worker								    1.0 - y;
*c9945492SAndroid Build Coastguard Worker				else
*c9945492SAndroid Build Coastguard Worker					return 1.0;
*c9945492SAndroid Build Coastguard Worker			}
*c9945492SAndroid Build Coastguard Worker			return (ix > asuint64(1.0)) == (topy < 0x800) ?
*c9945492SAndroid Build Coastguard Worker				       __math_oflow(0) :
*c9945492SAndroid Build Coastguard Worker				       __math_uflow(0);
*c9945492SAndroid Build Coastguard Worker		}
*c9945492SAndroid Build Coastguard Worker		if (topx == 0) {
*c9945492SAndroid Build Coastguard Worker			/* Normalize subnormal x so exponent becomes negative.  */
*c9945492SAndroid Build Coastguard Worker			ix = asuint64(x * 0x1p52);
*c9945492SAndroid Build Coastguard Worker			ix &= 0x7fffffffffffffff;
*c9945492SAndroid Build Coastguard Worker			ix -= 52ULL << 52;
*c9945492SAndroid Build Coastguard Worker		}
*c9945492SAndroid Build Coastguard Worker	}
*c9945492SAndroid Build Coastguard Worker
*c9945492SAndroid Build Coastguard Worker	double_t lo;
*c9945492SAndroid Build Coastguard Worker	double_t hi = log_inline(ix, &lo);
*c9945492SAndroid Build Coastguard Worker	double_t ehi, elo;
*c9945492SAndroid Build Coastguard Worker#if __FP_FAST_FMA
*c9945492SAndroid Build Coastguard Worker	ehi = y * hi;
*c9945492SAndroid Build Coastguard Worker	elo = y * lo + __builtin_fma(y, hi, -ehi);
*c9945492SAndroid Build Coastguard Worker#else
*c9945492SAndroid Build Coastguard Worker	double_t yhi = asdouble(iy & -1ULL << 27);
*c9945492SAndroid Build Coastguard Worker	double_t ylo = y - yhi;
*c9945492SAndroid Build Coastguard Worker	double_t lhi = asdouble(asuint64(hi) & -1ULL << 27);
*c9945492SAndroid Build Coastguard Worker	double_t llo = hi - lhi + lo;
*c9945492SAndroid Build Coastguard Worker	ehi = yhi * lhi;
*c9945492SAndroid Build Coastguard Worker	elo = ylo * lhi + y * llo; /* |elo| < |ehi| * 2^-25.  */
*c9945492SAndroid Build Coastguard Worker#endif
*c9945492SAndroid Build Coastguard Worker	return exp_inline(ehi, elo, sign_bias);
*c9945492SAndroid Build Coastguard Worker}