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/* Helper for single-precision AdvSIMD routines which depend on exp

   Copyright (C) 2024 Free Software Foundation, Inc.
   This file is part of the GNU C Library.

   The GNU C Library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Lesser General Public
   License as published by the Free Software Foundation; either
   version 2.1 of the License, or (at your option) any later version.

   The GNU C Library is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   Lesser General Public License for more details.

   You should have received a copy of the GNU Lesser General Public
   License along with the GNU C Library; if not, see
   <https://www.gnu.org/licenses/>.  */

#ifndef AARCH64_FPU_V_EXPF_INLINE_H
#define AARCH64_FPU_V_EXPF_INLINE_H

#include "v_math.h"

struct v_expf_data
{
  float32x4_t poly[5];
  float32x4_t shift;
  float invln2_and_ln2[4];
};

/* maxerr: 1.45358 +0.5 ulp.  */
#define V_EXPF_DATA                                                           \
  {                                                                           \
    .poly = { V4 (0x1.0e4020p-7f), V4 (0x1.573e2ep-5f), V4 (0x1.555e66p-3f),  \
	      V4 (0x1.fffdb6p-2f), V4 (0x1.ffffecp-1f) },                     \
    .shift = V4 (0x1.8p23f),                                                  \
    .invln2_and_ln2 = { 0x1.715476p+0f, 0x1.62e4p-1f, 0x1.7f7d1cp-20f, 0 },   \
  }

#define ExponentBias v_u32 (0x3f800000) /* asuint(1.0f).  */
#define C(i) d->poly[i]

static inline float32x4_t
v_expf_inline (float32x4_t x, const struct v_expf_data *d)
{
  /* Helper routine for calculating exp(x).
     Copied from v_expf.c, with all special-case handling removed - the
     calling routine should handle special values if required.  */

  /* exp(x) = 2^n (1 + poly(r)), with 1 + poly(r) in [1/sqrt(2),sqrt(2)]
     x = ln2*n + r, with r in [-ln2/2, ln2/2].  */
  float32x4_t n, r, z;
  float32x4_t invln2_and_ln2 = vld1q_f32 (d->invln2_and_ln2);
  z = vfmaq_laneq_f32 (d->shift, x, invln2_and_ln2, 0);
  n = vsubq_f32 (z, d->shift);
  r = vfmsq_laneq_f32 (x, n, invln2_and_ln2, 1);
  r = vfmsq_laneq_f32 (r, n, invln2_and_ln2, 2);
  uint32x4_t e = vshlq_n_u32 (vreinterpretq_u32_f32 (z), 23);
  float32x4_t scale = vreinterpretq_f32_u32 (vaddq_u32 (e, ExponentBias));

  /* Custom order-4 Estrin avoids building high order monomial.  */
  float32x4_t r2 = vmulq_f32 (r, r);
  float32x4_t p, q, poly;
  p = vfmaq_f32 (C (1), C (0), r);
  q = vfmaq_f32 (C (3), C (2), r);
  q = vfmaq_f32 (q, p, r2);
  p = vmulq_f32 (C (4), r);
  poly = vfmaq_f32 (p, q, r2);
  return vfmaq_f32 (scale, poly, scale);
}

#endif