Quelle warp_plane_neon.c Sprache: C

/*
* Copyright (c) 2018, Alliance for Open Media. All rights reserved.
*
* This source code is subject to the terms of the BSD 2 Clause License and
* the Alliance for Open Media Patent License 1.0. If the BSD 2 Clause License
* was not distributed with this source code in the LICENSE file, you can
* obtain it at www.aomedia.org/license/software. If the Alliance for Open
* Media Patent License 1.0 was not distributed with this source code in the
* PATENTS file, you can obtain it at www.aomedia.org/license/patent.
*/

#include "warp_plane_neon.h"

static AOM_FORCE_INLINE int16x8_t horizontal_filter_4x1_f4(const uint8x16_t in,
                                                           int sx, int alpha) {
  const int32x4_t add_const = vdupq_n_s32(1 << (8 + FILTER_BITS - 1));

  // Loading the 8 filter taps
  int16x8_t f[4];
  load_filters_4(f, sx, alpha);

  int16x8_t in16_lo = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(in)));
  int16x8_t in16_hi = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(in)));

  int16x8_t m0 = vmulq_s16(f[0], in16_lo);
  int16x8_t m1 = vmulq_s16(f[1], vextq_s16(in16_lo, in16_hi, 1));
  int16x8_t m2 = vmulq_s16(f[2], vextq_s16(in16_lo, in16_hi, 2));
  int16x8_t m3 = vmulq_s16(f[3], vextq_s16(in16_lo, in16_hi, 3));

  int32x4_t m0123_pairs[] = { vpaddlq_s16(m0), vpaddlq_s16(m1), vpaddlq_s16(m2),
                              vpaddlq_s16(m3) };

  int32x4_t tmp_res_low = horizontal_add_4d_s32x4(m0123_pairs);

  tmp_res_low = vaddq_s32(tmp_res_low, add_const);

  uint16x8_t res =
      vcombine_u16(vqrshrun_n_s32(tmp_res_low, ROUND0_BITS), vdup_n_u16(0));
  return vreinterpretq_s16_u16(res);
}

static AOM_FORCE_INLINE int16x8_t horizontal_filter_8x1_f8(const uint8x16_t in,
                                                           int sx, int alpha) {
  const int32x4_t add_const = vdupq_n_s32(1 << (8 + FILTER_BITS - 1));

  // Loading the 8 filter taps
  int16x8_t f[8];
  load_filters_8(f, sx, alpha);

  int16x8_t in16_lo = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(in)));
  int16x8_t in16_hi = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(in)));

  int16x8_t m0 = vmulq_s16(f[0], in16_lo);
  int16x8_t m1 = vmulq_s16(f[1], vextq_s16(in16_lo, in16_hi, 1));
  int16x8_t m2 = vmulq_s16(f[2], vextq_s16(in16_lo, in16_hi, 2));
  int16x8_t m3 = vmulq_s16(f[3], vextq_s16(in16_lo, in16_hi, 3));
  int16x8_t m4 = vmulq_s16(f[4], vextq_s16(in16_lo, in16_hi, 4));
  int16x8_t m5 = vmulq_s16(f[5], vextq_s16(in16_lo, in16_hi, 5));
  int16x8_t m6 = vmulq_s16(f[6], vextq_s16(in16_lo, in16_hi, 6));
  int16x8_t m7 = vmulq_s16(f[7], vextq_s16(in16_lo, in16_hi, 7));

  int32x4_t m0123_pairs[] = { vpaddlq_s16(m0), vpaddlq_s16(m1), vpaddlq_s16(m2),
                              vpaddlq_s16(m3) };
  int32x4_t m4567_pairs[] = { vpaddlq_s16(m4), vpaddlq_s16(m5), vpaddlq_s16(m6),
                              vpaddlq_s16(m7) };

  int32x4_t tmp_res_low = horizontal_add_4d_s32x4(m0123_pairs);
  int32x4_t tmp_res_high = horizontal_add_4d_s32x4(m4567_pairs);

  tmp_res_low = vaddq_s32(tmp_res_low, add_const);
  tmp_res_high = vaddq_s32(tmp_res_high, add_const);

  uint16x8_t res = vcombine_u16(vqrshrun_n_s32(tmp_res_low, ROUND0_BITS),
                                vqrshrun_n_s32(tmp_res_high, ROUND0_BITS));
  return vreinterpretq_s16_u16(res);
}

static AOM_FORCE_INLINE int16x8_t
horizontal_filter_4x1_f1_beta0(const uint8x16_t in, int16x8_t f_s16) {
  const int32x4_t add_const = vdupq_n_s32(1 << (8 + FILTER_BITS - 1));

  int16x8_t in16_lo = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(in)));
  int16x8_t in16_hi = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(in)));

  int16x8_t m0 = vmulq_s16(f_s16, in16_lo);
  int16x8_t m1 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 1));
  int16x8_t m2 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 2));
  int16x8_t m3 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 3));

  int32x4_t m0123_pairs[] = { vpaddlq_s16(m0), vpaddlq_s16(m1), vpaddlq_s16(m2),
                              vpaddlq_s16(m3) };

  int32x4_t tmp_res_low = horizontal_add_4d_s32x4(m0123_pairs);

  tmp_res_low = vaddq_s32(tmp_res_low, add_const);

  uint16x8_t res =
      vcombine_u16(vqrshrun_n_s32(tmp_res_low, ROUND0_BITS), vdup_n_u16(0));
  return vreinterpretq_s16_u16(res);
}

static AOM_FORCE_INLINE int16x8_t horizontal_filter_4x1_f1(const uint8x16_t in,
                                                           int sx) {
  int16x8_t f_s16 =
      vld1q_s16((int16_t *)(av1_warped_filter + (sx >> WARPEDDIFF_PREC_BITS)));
  return horizontal_filter_4x1_f1_beta0(in, f_s16);
}

static AOM_FORCE_INLINE int16x8_t
horizontal_filter_8x1_f1_beta0(const uint8x16_t in, int16x8_t f_s16) {
  const int32x4_t add_const = vdupq_n_s32(1 << (8 + FILTER_BITS - 1));

  int16x8_t in16_lo = vreinterpretq_s16_u16(vmovl_u8(vget_low_u8(in)));
  int16x8_t in16_hi = vreinterpretq_s16_u16(vmovl_u8(vget_high_u8(in)));

  int16x8_t m0 = vmulq_s16(f_s16, in16_lo);
  int16x8_t m1 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 1));
  int16x8_t m2 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 2));
  int16x8_t m3 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 3));
  int16x8_t m4 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 4));
  int16x8_t m5 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 5));
  int16x8_t m6 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 6));
  int16x8_t m7 = vmulq_s16(f_s16, vextq_s16(in16_lo, in16_hi, 7));

  int32x4_t m0123_pairs[] = { vpaddlq_s16(m0), vpaddlq_s16(m1), vpaddlq_s16(m2),
                              vpaddlq_s16(m3) };
  int32x4_t m4567_pairs[] = { vpaddlq_s16(m4), vpaddlq_s16(m5), vpaddlq_s16(m6),
                              vpaddlq_s16(m7) };

  int32x4_t tmp_res_low = horizontal_add_4d_s32x4(m0123_pairs);
  int32x4_t tmp_res_high = horizontal_add_4d_s32x4(m4567_pairs);

  tmp_res_low = vaddq_s32(tmp_res_low, add_const);
  tmp_res_high = vaddq_s32(tmp_res_high, add_const);

  uint16x8_t res = vcombine_u16(vqrshrun_n_s32(tmp_res_low, ROUND0_BITS),
                                vqrshrun_n_s32(tmp_res_high, ROUND0_BITS));
  return vreinterpretq_s16_u16(res);
}

static AOM_FORCE_INLINE int16x8_t horizontal_filter_8x1_f1(const uint8x16_t in,
                                                           int sx) {
  int16x8_t f_s16 =
      vld1q_s16((int16_t *)(av1_warped_filter + (sx >> WARPEDDIFF_PREC_BITS)));
  return horizontal_filter_8x1_f1_beta0(in, f_s16);
}

static AOM_FORCE_INLINE void vertical_filter_4x1_f1(const int16x8_t *src,
                                                    int32x4_t *res, int sy) {
  int16x4_t s0 = vget_low_s16(src[0]);
  int16x4_t s1 = vget_low_s16(src[1]);
  int16x4_t s2 = vget_low_s16(src[2]);
  int16x4_t s3 = vget_low_s16(src[3]);
  int16x4_t s4 = vget_low_s16(src[4]);
  int16x4_t s5 = vget_low_s16(src[5]);
  int16x4_t s6 = vget_low_s16(src[6]);
  int16x4_t s7 = vget_low_s16(src[7]);

  int16x8_t f =
      vld1q_s16((int16_t *)(av1_warped_filter + (sy >> WARPEDDIFF_PREC_BITS)));

  int32x4_t m0123 = vmull_lane_s16(s0, vget_low_s16(f), 0);
  m0123 = vmlal_lane_s16(m0123, s1, vget_low_s16(f), 1);
  m0123 = vmlal_lane_s16(m0123, s2, vget_low_s16(f), 2);
  m0123 = vmlal_lane_s16(m0123, s3, vget_low_s16(f), 3);
  m0123 = vmlal_lane_s16(m0123, s4, vget_high_s16(f), 0);
  m0123 = vmlal_lane_s16(m0123, s5, vget_high_s16(f), 1);
  m0123 = vmlal_lane_s16(m0123, s6, vget_high_s16(f), 2);
  m0123 = vmlal_lane_s16(m0123, s7, vget_high_s16(f), 3);

  *res = m0123;
}

static AOM_FORCE_INLINE void vertical_filter_4x1_f4(const int16x8_t *src,
                                                    int32x4_t *res, int sy,
                                                    int gamma) {
  int16x8_t s0, s1, s2, s3;
  transpose_elems_s16_4x8(
      vget_low_s16(src[0]), vget_low_s16(src[1]), vget_low_s16(src[2]),
      vget_low_s16(src[3]), vget_low_s16(src[4]), vget_low_s16(src[5]),
      vget_low_s16(src[6]), vget_low_s16(src[7]), &s0, &s1, &s2, &s3);

  int16x8_t f[4];
  load_filters_4(f, sy, gamma);

  int32x4_t m0 = vmull_s16(vget_low_s16(s0), vget_low_s16(f[0]));
  m0 = vmlal_s16(m0, vget_high_s16(s0), vget_high_s16(f[0]));
  int32x4_t m1 = vmull_s16(vget_low_s16(s1), vget_low_s16(f[1]));
  m1 = vmlal_s16(m1, vget_high_s16(s1), vget_high_s16(f[1]));
  int32x4_t m2 = vmull_s16(vget_low_s16(s2), vget_low_s16(f[2]));
  m2 = vmlal_s16(m2, vget_high_s16(s2), vget_high_s16(f[2]));
  int32x4_t m3 = vmull_s16(vget_low_s16(s3), vget_low_s16(f[3]));
  m3 = vmlal_s16(m3, vget_high_s16(s3), vget_high_s16(f[3]));

  int32x4_t m0123_pairs[] = { m0, m1, m2, m3 };

  *res = horizontal_add_4d_s32x4(m0123_pairs);
}

static AOM_FORCE_INLINE void vertical_filter_8x1_f1(const int16x8_t *src,
                                                    int32x4_t *res_low,
                                                    int32x4_t *res_high,
                                                    int sy) {
  int16x8_t s0 = src[0];
  int16x8_t s1 = src[1];
  int16x8_t s2 = src[2];
  int16x8_t s3 = src[3];
  int16x8_t s4 = src[4];
  int16x8_t s5 = src[5];
  int16x8_t s6 = src[6];
  int16x8_t s7 = src[7];

  int16x8_t f =
      vld1q_s16((int16_t *)(av1_warped_filter + (sy >> WARPEDDIFF_PREC_BITS)));

  int32x4_t m0123 = vmull_lane_s16(vget_low_s16(s0), vget_low_s16(f), 0);
  m0123 = vmlal_lane_s16(m0123, vget_low_s16(s1), vget_low_s16(f), 1);
  m0123 = vmlal_lane_s16(m0123, vget_low_s16(s2), vget_low_s16(f), 2);
  m0123 = vmlal_lane_s16(m0123, vget_low_s16(s3), vget_low_s16(f), 3);
  m0123 = vmlal_lane_s16(m0123, vget_low_s16(s4), vget_high_s16(f), 0);
  m0123 = vmlal_lane_s16(m0123, vget_low_s16(s5), vget_high_s16(f), 1);
  m0123 = vmlal_lane_s16(m0123, vget_low_s16(s6), vget_high_s16(f), 2);
  m0123 = vmlal_lane_s16(m0123, vget_low_s16(s7), vget_high_s16(f), 3);

  int32x4_t m4567 = vmull_lane_s16(vget_high_s16(s0), vget_low_s16(f), 0);
  m4567 = vmlal_lane_s16(m4567, vget_high_s16(s1), vget_low_s16(f), 1);
  m4567 = vmlal_lane_s16(m4567, vget_high_s16(s2), vget_low_s16(f), 2);
  m4567 = vmlal_lane_s16(m4567, vget_high_s16(s3), vget_low_s16(f), 3);
  m4567 = vmlal_lane_s16(m4567, vget_high_s16(s4), vget_high_s16(f), 0);
  m4567 = vmlal_lane_s16(m4567, vget_high_s16(s5), vget_high_s16(f), 1);
  m4567 = vmlal_lane_s16(m4567, vget_high_s16(s6), vget_high_s16(f), 2);
  m4567 = vmlal_lane_s16(m4567, vget_high_s16(s7), vget_high_s16(f), 3);

  *res_low = m0123;
  *res_high = m4567;
}

static AOM_FORCE_INLINE void vertical_filter_8x1_f8(const int16x8_t *src,
                                                    int32x4_t *res_low,
                                                    int32x4_t *res_high, int sy,
                                                    int gamma) {
  int16x8_t s0 = src[0];
  int16x8_t s1 = src[1];
  int16x8_t s2 = src[2];
  int16x8_t s3 = src[3];
  int16x8_t s4 = src[4];
  int16x8_t s5 = src[5];
  int16x8_t s6 = src[6];
  int16x8_t s7 = src[7];
  transpose_elems_inplace_s16_8x8(&s0, &s1, &s2, &s3, &s4, &s5, &s6, &s7);

  int16x8_t f[8];
  load_filters_8(f, sy, gamma);

  int32x4_t m0 = vmull_s16(vget_low_s16(s0), vget_low_s16(f[0]));
  m0 = vmlal_s16(m0, vget_high_s16(s0), vget_high_s16(f[0]));
  int32x4_t m1 = vmull_s16(vget_low_s16(s1), vget_low_s16(f[1]));
  m1 = vmlal_s16(m1, vget_high_s16(s1), vget_high_s16(f[1]));
  int32x4_t m2 = vmull_s16(vget_low_s16(s2), vget_low_s16(f[2]));
  m2 = vmlal_s16(m2, vget_high_s16(s2), vget_high_s16(f[2]));
  int32x4_t m3 = vmull_s16(vget_low_s16(s3), vget_low_s16(f[3]));
  m3 = vmlal_s16(m3, vget_high_s16(s3), vget_high_s16(f[3]));
  int32x4_t m4 = vmull_s16(vget_low_s16(s4), vget_low_s16(f[4]));
  m4 = vmlal_s16(m4, vget_high_s16(s4), vget_high_s16(f[4]));
  int32x4_t m5 = vmull_s16(vget_low_s16(s5), vget_low_s16(f[5]));
  m5 = vmlal_s16(m5, vget_high_s16(s5), vget_high_s16(f[5]));
  int32x4_t m6 = vmull_s16(vget_low_s16(s6), vget_low_s16(f[6]));
  m6 = vmlal_s16(m6, vget_high_s16(s6), vget_high_s16(f[6]));
  int32x4_t m7 = vmull_s16(vget_low_s16(s7), vget_low_s16(f[7]));
  m7 = vmlal_s16(m7, vget_high_s16(s7), vget_high_s16(f[7]));

  int32x4_t m0123_pairs[] = { m0, m1, m2, m3 };
  int32x4_t m4567_pairs[] = { m4, m5, m6, m7 };

  *res_low = horizontal_add_4d_s32x4(m0123_pairs);
  *res_high = horizontal_add_4d_s32x4(m4567_pairs);
}

void av1_warp_affine_neon(const int32_t *mat, const uint8_t *ref, int width,
                          int height, int stride, uint8_t *pred, int p_col,
                          int p_row, int p_width, int p_height, int p_stride,
                          int subsampling_x, int subsampling_y,
                          ConvolveParams *conv_params, int16_t alpha,
                          int16_t beta, int16_t gamma, int16_t delta) {
  av1_warp_affine_common(mat, ref, width, height, stride, pred, p_col, p_row,
                         p_width, p_height, p_stride, subsampling_x,
                         subsampling_y, conv_params, alpha, beta, gamma, delta);
}

Messung V0.5

¤ Dauer der Verarbeitung: 0.10 Sekunden (vorverarbeitet) ¤

Wurzel

Suchen

Beweissystem der NASA

Beweissystem Isabelle

NIST Cobol Testsuite

Cephes Mathematical Library

Wiener Entwicklungsmethode

Haftungshinweis

Die Informationen auf dieser Webseite wurden nach bestem Wissen sorgfältig zusammengestellt. Es wird jedoch weder Vollständigkeit, noch Richtigkeit, noch Qualität der bereit gestellten Informationen zugesichert.

Bemerkung:

Die farbliche Syntaxdarstellung und die Messung sind noch experimentell.