/*

 * Copyright (c) 2020, 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.

 */

/*!\file

 * \brief Defines utility functions used in intra mode search.

 *

 * This includes rdcost estimations, histogram based pruning, etc.

 */

#ifndef AOM_AV1_ENCODER_INTRA_MODE_SEARCH_UTILS_H_

#define AOM_AV1_ENCODER_INTRA_MODE_SEARCH_UTILS_H_

#include "av1/common/enums.h"

#include "av1/common/pred_common.h"

#include "av1/common/reconintra.h"

#include "av1/encoder/encoder.h"

#include "av1/encoder/encodeframe.h"

#include "av1/encoder/model_rd.h"

#include "av1/encoder/palette.h"

#include "av1/encoder/hybrid_fwd_txfm.h"

#ifdef __cplusplus

extern "C" {

#endif

/*!\cond */

// Macro for computing the speed-preset dependent threshold which is used for

// deciding whether to enable/disable variance calculations in

// intra_rd_variance_factor().

#define INTRA_RD_VAR_THRESH(X) (1.0 - (0.25 * (X)))

#define BINS 32

static const float av1_intra_hog_model_bias[DIRECTIONAL_MODES] = {

  0.450578f,  0.695518f,  -0.717944f, -0.639894f,

  -0.602019f, -0.453454f, 0.055857f,  -0.465480f,

};

static const float av1_intra_hog_model_weights[BINS * DIRECTIONAL_MODES] = {

  -3.076402f, -3.757063f, -3.275266f, -3.180665f, -3.452105f, -3.216593f,

  -2.871212f, -3.134296f, -1.822324f, -2.401411f, -1.541016f, -1.195322f,

  -0.434156f, 0.322868f,  2.260546f,  3.368715f,  3.989290f,  3.308487f,

  2.277893f,  0.923793f,  0.026412f,  -0.385174f, -0.718622f, -1.408867f,

  -1.050558f, -2.323941f, -2.225827f, -2.585453f, -3.054283f, -2.875087f,

  -2.985709f, -3.447155f, 3.758139f,  3.204353f,  2.170998f,  0.826587f,

  -0.269665f, -0.702068f, -1.085776f, -2.175249f, -1.623180f, -2.975142f,

  -2.779629f, -3.190799f, -3.521900f, -3.375480f, -3.319355f, -3.897389f,

  -3.172334f, -3.594528f, -2.879132f, -2.547777f, -2.921023f, -2.281844f,

  -1.818988f, -2.041771f, -0.618268f, -1.396458f, -0.567153f, -0.285868f,

  -0.088058f, 0.753494f,  2.092413f,  3.215266f,  -3.300277f, -2.748658f,

  -2.315784f, -2.423671f, -2.257283f, -2.269583f, -2.196660f, -2.301076f,

  -2.646516f, -2.271319f, -2.254366f, -2.300102f, -2.217960f, -2.473300f,

  -2.116866f, -2.528246f, -3.314712f, -1.701010f, -0.589040f, -0.088077f,

  0.813112f,  1.702213f,  2.653045f,  3.351749f,  3.243554f,  3.199409f,

  2.437856f,  1.468854f,  0.533039f,  -0.099065f, -0.622643f, -2.200732f,

  -4.228861f, -2.875263f, -1.273956f, -0.433280f, 0.803771f,  1.975043f,

  3.179528f,  3.939064f,  3.454379f,  3.689386f,  3.116411f,  1.970991f,

  0.798406f,  -0.628514f, -1.252546f, -2.825176f, -4.090178f, -3.777448f,

  -3.227314f, -3.479403f, -3.320569f, -3.159372f, -2.729202f, -2.722341f,

  -3.054913f, -2.742923f, -2.612703f, -2.662632f, -2.907314f, -3.117794f,

  -3.102660f, -3.970972f, -4.891357f, -3.935582f, -3.347758f, -2.721924f,

  -2.219011f, -1.702391f, -0.866529f, -0.153743f, 0.107733f,  1.416882f,

  2.572884f,  3.607755f,  3.974820f,  3.997783f,  2.970459f,  0.791687f,

  -1.478921f, -1.228154f, -1.216955f, -1.765932f, -1.951003f, -1.985301f,

  -1.975881f, -1.985593f, -2.422371f, -2.419978f, -2.531288f, -2.951853f,

  -3.071380f, -3.277027f, -3.373539f, -4.462010f, -0.967888f, 0.805524f,

  2.794130f,  3.685984f,  3.745195f,  3.252444f,  2.316108f,  1.399146f,

  -0.136519f, -0.162811f, -1.004357f, -1.667911f, -1.964662f, -2.937579f,

  -3.019533f, -3.942766f, -5.102767f, -3.882073f, -3.532027f, -3.451956f,

  -2.944015f, -2.643064f, -2.529872f, -2.077290f, -2.809965f, -1.803734f,

  -1.783593f, -1.662585f, -1.415484f, -1.392673f, -0.788794f, -1.204819f,

  -1.998864f, -1.182102f, -0.892110f, -1.317415f, -1.359112f, -1.522867f,

  -1.468552f, -1.779072f, -2.332959f, -2.160346f, -2.329387f, -2.631259f,

  -2.744936f, -3.052494f, -2.787363f, -3.442548f, -4.245075f, -3.032172f,

  -2.061609f, -1.768116f, -1.286072f, -0.706587f, -0.192413f, 0.386938f,

  0.716997f,  1.481393f,  2.216702f,  2.737986f,  3.109809f,  3.226084f,

  2.490098f,  -0.095827f, -3.864816f, -3.507248f, -3.128925f, -2.908251f,

  -2.883836f, -2.881411f, -2.524377f, -2.624478f, -2.399573f, -2.367718f,

  -1.918255f, -1.926277f, -1.694584f, -1.723790f, -0.966491f, -1.183115f,

  -1.430687f, 0.872896f,  2.766550f,  3.610080f,  3.578041f,  3.334928f,

  2.586680f,  1.895721f,  1.122195f,  0.488519f,  -0.140689f, -0.799076f,

  -1.222860f, -1.502437f, -1.900969f, -3.206816f,

};

static const NN_CONFIG av1_intra_hog_model_nnconfig = {

  BINS,               // num_inputs

  DIRECTIONAL_MODES,  // num_outputs

  0,                  // num_hidden_layers

  { 0 },

  {

      av1_intra_hog_model_weights,

  },

  {

      av1_intra_hog_model_bias,

  },

};

#define FIX_PREC_BITS (16)

static inline int get_hist_bin_idx(int dx, int dy) {

  const int32_t ratio = (dy * (1 << FIX_PREC_BITS)) / dx;

  // Find index by bisection

  static const int thresholds[BINS] = {

    -1334015, -441798, -261605, -183158, -138560, -109331, -88359, -72303,

    -59392,   -48579,  -39272,  -30982,  -23445,  -16400,  -9715,  -3194,

    3227,     9748,    16433,   23478,   31015,   39305,   48611,  59425,

    72336,    88392,   109364,  138593,  183191,  261638,  441831, INT32_MAX

  };

  int lo_idx = 0, hi_idx = BINS - 1;

  // Divide into segments of size 8 gives better performance than binary search

  // here.

  if (ratio <= thresholds[7]) {

    lo_idx = 0;

    hi_idx = 7;

  } else if (ratio <= thresholds[15]) {

    lo_idx = 8;

    hi_idx = 15;

  } else if (ratio <= thresholds[23]) {

    lo_idx = 16;

    hi_idx = 23;

  } else {

    lo_idx = 24;

    hi_idx = 31;

  }

  for (int idx = lo_idx; idx <= hi_idx; idx++) {

    if (ratio <= thresholds[idx]) {

      return idx;

    }

  }

  assert(0 && "No valid histogram bin found!");

  return BINS - 1;

}

Unexecuted instantiation: av1_cx_iface.c:get_hist_bin_idx

Unexecuted instantiation: encodeframe.c:get_hist_bin_idx

Unexecuted instantiation: encoder.c:get_hist_bin_idx

Unexecuted instantiation: encoder_utils.c:get_hist_bin_idx

Unexecuted instantiation: ethread.c:get_hist_bin_idx

Unexecuted instantiation: palette.c:get_hist_bin_idx

Unexecuted instantiation: partition_search.c:get_hist_bin_idx

Unexecuted instantiation: rdopt.c:get_hist_bin_idx

Unexecuted instantiation: superres_scale.c:get_hist_bin_idx

Unexecuted instantiation: svc_layercontext.c:get_hist_bin_idx

Unexecuted instantiation: temporal_filter.c:get_hist_bin_idx

Unexecuted instantiation: intra_mode_search.c:get_hist_bin_idx

Unexecuted instantiation: compound_type.c:get_hist_bin_idx

Unexecuted instantiation: encode_strategy.c:get_hist_bin_idx

#undef FIX_PREC_BITS

// Normalizes the hog data.

static inline void normalize_hog(float total, float *hist) {

  for (int i = 0; i < BINS; ++i) hist[i] /= total;

}

Unexecuted instantiation: av1_cx_iface.c:normalize_hog

Unexecuted instantiation: encodeframe.c:normalize_hog

Unexecuted instantiation: encoder.c:normalize_hog

Unexecuted instantiation: encoder_utils.c:normalize_hog

Unexecuted instantiation: ethread.c:normalize_hog

Unexecuted instantiation: palette.c:normalize_hog

Unexecuted instantiation: partition_search.c:normalize_hog

Unexecuted instantiation: rdopt.c:normalize_hog

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Unexecuted instantiation: svc_layercontext.c:normalize_hog

Unexecuted instantiation: temporal_filter.c:normalize_hog

Unexecuted instantiation: intra_mode_search.c:normalize_hog

Unexecuted instantiation: compound_type.c:normalize_hog

Unexecuted instantiation: encode_strategy.c:normalize_hog

static inline void lowbd_generate_hog(const uint8_t *src, int stride, int rows,

                                      int cols, float *hist) {

  float total = 0.1f;

  src += stride;

  for (int r = 1; r < rows - 1; ++r) {

    for (int c = 1; c < cols - 1; ++c) {

      const uint8_t *above = &src[c - stride];

      const uint8_t *below = &src[c + stride];

      const uint8_t *left = &src[c - 1];

      const uint8_t *right = &src[c + 1];

      // Calculate gradient using Sobel filters.

      const int dx = (right[-stride] + 2 * right[0] + right[stride]) -

                     (left[-stride] + 2 * left[0] + left[stride]);

      const int dy = (below[-1] + 2 * below[0] + below[1]) -

                     (above[-1] + 2 * above[0] + above[1]);

      if (dx == 0 && dy == 0) continue;

      const int temp = abs(dx) + abs(dy);

      if (!temp) continue;

      total += temp;

      if (dx == 0) {

        hist[0] += temp / 2;

        hist[BINS - 1] += temp / 2;

      } else {

        const int idx = get_hist_bin_idx(dx, dy);

        assert(idx >= 0 && idx < BINS);

        hist[idx] += temp;

      }

    }

    src += stride;

  }

  normalize_hog(total, hist);

}

Unexecuted instantiation: av1_cx_iface.c:lowbd_generate_hog

Unexecuted instantiation: encodeframe.c:lowbd_generate_hog

Unexecuted instantiation: encoder.c:lowbd_generate_hog

Unexecuted instantiation: encoder_utils.c:lowbd_generate_hog

Unexecuted instantiation: ethread.c:lowbd_generate_hog

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Unexecuted instantiation: encode_strategy.c:lowbd_generate_hog

// Computes and stores pixel level gradient information of a given superblock

// for LBD encode.

static inline void lowbd_compute_gradient_info_sb(MACROBLOCK *const x,

                                                  BLOCK_SIZE sb_size,

                                                  PLANE_TYPE plane) {

  PixelLevelGradientInfo *const grad_info_sb =

      x->pixel_gradient_info + plane * MAX_SB_SQUARE;

  const uint8_t *src = x->plane[plane].src.buf;

  const int stride = x->plane[plane].src.stride;

  const int ss_x = x->e_mbd.plane[plane].subsampling_x;

  const int ss_y = x->e_mbd.plane[plane].subsampling_y;

  const int sb_height = block_size_high[sb_size] >> ss_y;

  const int sb_width = block_size_wide[sb_size] >> ss_x;

  src += stride;

  for (int r = 1; r < sb_height - 1; ++r) {

    for (int c = 1; c < sb_width - 1; ++c) {

      const uint8_t *above = &src[c - stride];

      const uint8_t *below = &src[c + stride];

      const uint8_t *left = &src[c - 1];

      const uint8_t *right = &src[c + 1];

      // Calculate gradient using Sobel filters.

      const int dx = (right[-stride] + 2 * right[0] + right[stride]) -

                     (left[-stride] + 2 * left[0] + left[stride]);

      const int dy = (below[-1] + 2 * below[0] + below[1]) -

                     (above[-1] + 2 * above[0] + above[1]);

      grad_info_sb[r * sb_width + c].is_dx_zero = (dx == 0);

      grad_info_sb[r * sb_width + c].abs_dx_abs_dy_sum =

          (uint16_t)(abs(dx) + abs(dy));

      grad_info_sb[r * sb_width + c].hist_bin_idx =

          (dx != 0) ? get_hist_bin_idx(dx, dy) : -1;

    }

    src += stride;

  }

}

Unexecuted instantiation: av1_cx_iface.c:lowbd_compute_gradient_info_sb

Unexecuted instantiation: encodeframe.c:lowbd_compute_gradient_info_sb

Unexecuted instantiation: encoder.c:lowbd_compute_gradient_info_sb

Unexecuted instantiation: encoder_utils.c:lowbd_compute_gradient_info_sb

Unexecuted instantiation: ethread.c:lowbd_compute_gradient_info_sb

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Unexecuted instantiation: encode_strategy.c:lowbd_compute_gradient_info_sb

#if CONFIG_AV1_HIGHBITDEPTH

static inline void highbd_generate_hog(const uint8_t *src8, int stride,

                                       int rows, int cols, float *hist) {

  float total = 0.1f;

  const uint16_t *src = CONVERT_TO_SHORTPTR(src8);

  src += stride;

  for (int r = 1; r < rows - 1; ++r) {

    for (int c = 1; c < cols - 1; ++c) {

      const uint16_t *above = &src[c - stride];

      const uint16_t *below = &src[c + stride];

      const uint16_t *left = &src[c - 1];

      const uint16_t *right = &src[c + 1];

      // Calculate gradient using Sobel filters.

      const int dx = (right[-stride] + 2 * right[0] + right[stride]) -

                     (left[-stride] + 2 * left[0] + left[stride]);

      const int dy = (below[-1] + 2 * below[0] + below[1]) -

                     (above[-1] + 2 * above[0] + above[1]);

      if (dx == 0 && dy == 0) continue;

      const int temp = abs(dx) + abs(dy);

      if (!temp) continue;

      total += temp;

      if (dx == 0) {

        hist[0] += temp / 2;

        hist[BINS - 1] += temp / 2;

      } else {

        const int idx = get_hist_bin_idx(dx, dy);

        assert(idx >= 0 && idx < BINS);

        hist[idx] += temp;

      }

    }

    src += stride;

  }

  normalize_hog(total, hist);

}

Unexecuted instantiation: av1_cx_iface.c:highbd_generate_hog

Unexecuted instantiation: encodeframe.c:highbd_generate_hog

Unexecuted instantiation: encoder.c:highbd_generate_hog

Unexecuted instantiation: encoder_utils.c:highbd_generate_hog

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Unexecuted instantiation: temporal_filter.c:highbd_generate_hog

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Unexecuted instantiation: encode_strategy.c:highbd_generate_hog

// Computes and stores pixel level gradient information of a given superblock

// for HBD encode.

static inline void highbd_compute_gradient_info_sb(MACROBLOCK *const x,

                                                   BLOCK_SIZE sb_size,

                                                   PLANE_TYPE plane) {

  PixelLevelGradientInfo *const grad_info_sb =

      x->pixel_gradient_info + plane * MAX_SB_SQUARE;

  const uint16_t *src = CONVERT_TO_SHORTPTR(x->plane[plane].src.buf);

  const int stride = x->plane[plane].src.stride;

  const int ss_x = x->e_mbd.plane[plane].subsampling_x;

  const int ss_y = x->e_mbd.plane[plane].subsampling_y;

  const int sb_height = block_size_high[sb_size] >> ss_y;

  const int sb_width = block_size_wide[sb_size] >> ss_x;

  src += stride;

  for (int r = 1; r < sb_height - 1; ++r) {

    for (int c = 1; c < sb_width - 1; ++c) {

      const uint16_t *above = &src[c - stride];

      const uint16_t *below = &src[c + stride];

      const uint16_t *left = &src[c - 1];

      const uint16_t *right = &src[c + 1];

      // Calculate gradient using Sobel filters.

      const int dx = (right[-stride] + 2 * right[0] + right[stride]) -

                     (left[-stride] + 2 * left[0] + left[stride]);

      const int dy = (below[-1] + 2 * below[0] + below[1]) -

                     (above[-1] + 2 * above[0] + above[1]);

      grad_info_sb[r * sb_width + c].is_dx_zero = (dx == 0);

      grad_info_sb[r * sb_width + c].abs_dx_abs_dy_sum =

          (uint16_t)(abs(dx) + abs(dy));

      grad_info_sb[r * sb_width + c].hist_bin_idx =

          (dx != 0) ? get_hist_bin_idx(dx, dy) : -1;

    }

    src += stride;

  }

}

Unexecuted instantiation: av1_cx_iface.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: encodeframe.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: encoder.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: encoder_utils.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: ethread.c:highbd_compute_gradient_info_sb

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Unexecuted instantiation: rdopt.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: superres_scale.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: svc_layercontext.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: temporal_filter.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: intra_mode_search.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: compound_type.c:highbd_compute_gradient_info_sb

Unexecuted instantiation: encode_strategy.c:highbd_compute_gradient_info_sb

#endif  // CONFIG_AV1_HIGHBITDEPTH

static inline void generate_hog(const uint8_t *src8, int stride, int rows,

                                int cols, float *hist, int highbd) {

#if CONFIG_AV1_HIGHBITDEPTH

  if (highbd) {

    highbd_generate_hog(src8, stride, rows, cols, hist);

    return;

  }

#else

  (void)highbd;

#endif  // CONFIG_AV1_HIGHBITDEPTH

  lowbd_generate_hog(src8, stride, rows, cols, hist);

}

Unexecuted instantiation: av1_cx_iface.c:generate_hog

Unexecuted instantiation: encodeframe.c:generate_hog

Unexecuted instantiation: encoder.c:generate_hog

Unexecuted instantiation: encoder_utils.c:generate_hog

Unexecuted instantiation: ethread.c:generate_hog

Unexecuted instantiation: palette.c:generate_hog

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Unexecuted instantiation: rdopt.c:generate_hog

Unexecuted instantiation: superres_scale.c:generate_hog

Unexecuted instantiation: svc_layercontext.c:generate_hog

Unexecuted instantiation: temporal_filter.c:generate_hog

Unexecuted instantiation: intra_mode_search.c:generate_hog

Unexecuted instantiation: compound_type.c:generate_hog

Unexecuted instantiation: encode_strategy.c:generate_hog

static inline void compute_gradient_info_sb(MACROBLOCK *const x,

                                            BLOCK_SIZE sb_size,

                                            PLANE_TYPE plane) {

#if CONFIG_AV1_HIGHBITDEPTH

  if (is_cur_buf_hbd(&x->e_mbd)) {

    highbd_compute_gradient_info_sb(x, sb_size, plane);

    return;

  }

#endif  // CONFIG_AV1_HIGHBITDEPTH

  lowbd_compute_gradient_info_sb(x, sb_size, plane);

}

Unexecuted instantiation: av1_cx_iface.c:compute_gradient_info_sb

Unexecuted instantiation: encodeframe.c:compute_gradient_info_sb

Unexecuted instantiation: encoder.c:compute_gradient_info_sb

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Unexecuted instantiation: svc_layercontext.c:compute_gradient_info_sb

Unexecuted instantiation: temporal_filter.c:compute_gradient_info_sb

Unexecuted instantiation: intra_mode_search.c:compute_gradient_info_sb

Unexecuted instantiation: compound_type.c:compute_gradient_info_sb

Unexecuted instantiation: encode_strategy.c:compute_gradient_info_sb

// Gradient caching at superblock level is allowed only if all of the following

// conditions are satisfied:

// (1) The current frame is an intra only frame

// (2) Non-RD mode decisions are not enabled

// (3) The sf partition_search_type is set to SEARCH_PARTITION

// (4) Either intra_pruning_with_hog or chroma_intra_pruning_with_hog is enabled

//

// SB level caching of gradient data may not help in speedup for the following

// cases:

// (1) Inter frames (due to early intra gating)

// (2) When partition_search_type is not SEARCH_PARTITION

// Hence, gradient data is computed at block level in such cases.

static inline bool is_gradient_caching_for_hog_enabled(

    const AV1_COMP *const cpi) {

  const SPEED_FEATURES *const sf = &cpi->sf;

  return frame_is_intra_only(&cpi->common) && !sf->rt_sf.use_nonrd_pick_mode &&

         (sf->part_sf.partition_search_type == SEARCH_PARTITION) &&

         (sf->intra_sf.intra_pruning_with_hog ||

          sf->intra_sf.chroma_intra_pruning_with_hog);

}

Unexecuted instantiation: av1_cx_iface.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: encodeframe.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: encoder.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: encoder_utils.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: ethread.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: palette.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: partition_search.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: rdopt.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: superres_scale.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: svc_layercontext.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: temporal_filter.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: intra_mode_search.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: compound_type.c:is_gradient_caching_for_hog_enabled

Unexecuted instantiation: encode_strategy.c:is_gradient_caching_for_hog_enabled

// Function to generate pixel level gradient information for a given superblock.

// Sets the flags 'is_sb_gradient_cached' for the specific plane-type if

// gradient info is generated for the same.

static inline void produce_gradients_for_sb(AV1_COMP *cpi, MACROBLOCK *x,

                                            BLOCK_SIZE sb_size, int mi_row,

                                            int mi_col) {

  // Initialise flags related to hog data caching.

  x->is_sb_gradient_cached[PLANE_TYPE_Y] = false;

  x->is_sb_gradient_cached[PLANE_TYPE_UV] = false;

  if (!is_gradient_caching_for_hog_enabled(cpi)) return;

  const SPEED_FEATURES *sf = &cpi->sf;

  const int num_planes = av1_num_planes(&cpi->common);

  av1_setup_src_planes(x, cpi->source, mi_row, mi_col, num_planes, sb_size);

  if (sf->intra_sf.intra_pruning_with_hog) {

    compute_gradient_info_sb(x, sb_size, PLANE_TYPE_Y);

    x->is_sb_gradient_cached[PLANE_TYPE_Y] = true;

  }

  if (sf->intra_sf.chroma_intra_pruning_with_hog && num_planes > 1) {

    compute_gradient_info_sb(x, sb_size, PLANE_TYPE_UV);

    x->is_sb_gradient_cached[PLANE_TYPE_UV] = true;

  }

}

Unexecuted instantiation: av1_cx_iface.c:produce_gradients_for_sb

Unexecuted instantiation: encodeframe.c:produce_gradients_for_sb

Unexecuted instantiation: encoder.c:produce_gradients_for_sb

Unexecuted instantiation: encoder_utils.c:produce_gradients_for_sb

Unexecuted instantiation: ethread.c:produce_gradients_for_sb

Unexecuted instantiation: palette.c:produce_gradients_for_sb

Unexecuted instantiation: partition_search.c:produce_gradients_for_sb

Unexecuted instantiation: rdopt.c:produce_gradients_for_sb

Unexecuted instantiation: superres_scale.c:produce_gradients_for_sb

Unexecuted instantiation: svc_layercontext.c:produce_gradients_for_sb

Unexecuted instantiation: temporal_filter.c:produce_gradients_for_sb

Unexecuted instantiation: intra_mode_search.c:produce_gradients_for_sb

Unexecuted instantiation: compound_type.c:produce_gradients_for_sb

Unexecuted instantiation: encode_strategy.c:produce_gradients_for_sb

// Reuses the pixel level gradient data generated at superblock level for block

// level histogram computation.

static inline void generate_hog_using_gradient_cache(const MACROBLOCK *x,

                                                     int rows, int cols,

                                                     BLOCK_SIZE sb_size,

                                                     PLANE_TYPE plane,

                                                     float *hist) {

  float total = 0.1f;

  const int ss_x = x->e_mbd.plane[plane].subsampling_x;

  const int ss_y = x->e_mbd.plane[plane].subsampling_y;

  const int sb_width = block_size_wide[sb_size] >> ss_x;

  // Derive the offset from the starting of the superblock in order to locate

  // the block level gradient data in the cache.

  const int mi_row_in_sb = x->e_mbd.mi_row & (mi_size_high[sb_size] - 1);

  const int mi_col_in_sb = x->e_mbd.mi_col & (mi_size_wide[sb_size] - 1);

  const int block_offset_in_grad_cache =

      sb_width * (mi_row_in_sb << (MI_SIZE_LOG2 - ss_y)) +

      (mi_col_in_sb << (MI_SIZE_LOG2 - ss_x));

  const PixelLevelGradientInfo *grad_info_blk = x->pixel_gradient_info +

                                                plane * MAX_SB_SQUARE +

                                                block_offset_in_grad_cache;

  // Retrieve the cached gradient information and generate the histogram.

  for (int r = 1; r < rows - 1; ++r) {

    for (int c = 1; c < cols - 1; ++c) {

      const uint16_t abs_dx_abs_dy_sum =

          grad_info_blk[r * sb_width + c].abs_dx_abs_dy_sum;

      if (!abs_dx_abs_dy_sum) continue;

      total += abs_dx_abs_dy_sum;

      const bool is_dx_zero = grad_info_blk[r * sb_width + c].is_dx_zero;

      if (is_dx_zero) {

        hist[0] += abs_dx_abs_dy_sum >> 1;

        hist[BINS - 1] += abs_dx_abs_dy_sum >> 1;

      } else {

        const int8_t idx = grad_info_blk[r * sb_width + c].hist_bin_idx;

        assert(idx >= 0 && idx < BINS);

        hist[idx] += abs_dx_abs_dy_sum;

      }

    }

  }

  normalize_hog(total, hist);

}

Unexecuted instantiation: av1_cx_iface.c:generate_hog_using_gradient_cache

Unexecuted instantiation: encodeframe.c:generate_hog_using_gradient_cache

Unexecuted instantiation: encoder.c:generate_hog_using_gradient_cache

Unexecuted instantiation: encoder_utils.c:generate_hog_using_gradient_cache

Unexecuted instantiation: ethread.c:generate_hog_using_gradient_cache

Unexecuted instantiation: palette.c:generate_hog_using_gradient_cache

Unexecuted instantiation: partition_search.c:generate_hog_using_gradient_cache

Unexecuted instantiation: rdopt.c:generate_hog_using_gradient_cache

Unexecuted instantiation: superres_scale.c:generate_hog_using_gradient_cache

Unexecuted instantiation: svc_layercontext.c:generate_hog_using_gradient_cache

Unexecuted instantiation: temporal_filter.c:generate_hog_using_gradient_cache

Unexecuted instantiation: intra_mode_search.c:generate_hog_using_gradient_cache

Unexecuted instantiation: compound_type.c:generate_hog_using_gradient_cache

Unexecuted instantiation: encode_strategy.c:generate_hog_using_gradient_cache

static inline void collect_hog_data(const MACROBLOCK *x, BLOCK_SIZE bsize,

                                    BLOCK_SIZE sb_size, int plane, float *hog) {

  const MACROBLOCKD *xd = &x->e_mbd;

  const struct macroblockd_plane *const pd = &xd->plane[plane];

  const int ss_x = pd->subsampling_x;

  const int ss_y = pd->subsampling_y;

  const int bh = block_size_high[bsize];

  const int bw = block_size_wide[bsize];

  const int rows =

      ((xd->mb_to_bottom_edge >= 0) ? bh : (xd->mb_to_bottom_edge >> 3) + bh) >>

      ss_y;

  const int cols =

      ((xd->mb_to_right_edge >= 0) ? bw : (xd->mb_to_right_edge >> 3) + bw) >>

      ss_x;

  // If gradient data is already generated at SB level, reuse the cached data.

  // Otherwise, compute the data.

  if (x->is_sb_gradient_cached[plane]) {

    generate_hog_using_gradient_cache(x, rows, cols, sb_size, plane, hog);

  } else {

    const uint8_t *src = x->plane[plane].src.buf;

    const int src_stride = x->plane[plane].src.stride;

    generate_hog(src, src_stride, rows, cols, hog, is_cur_buf_hbd(xd));

  }

  // Scale the hog so the luma and chroma are on the same scale

  for (int b = 0; b < BINS; ++b) {

    hog[b] *= (1 + ss_x) * (1 + ss_y);

  }

}

Unexecuted instantiation: av1_cx_iface.c:collect_hog_data

Unexecuted instantiation: encodeframe.c:collect_hog_data

Unexecuted instantiation: encoder.c:collect_hog_data

Unexecuted instantiation: encoder_utils.c:collect_hog_data

Unexecuted instantiation: ethread.c:collect_hog_data

Unexecuted instantiation: palette.c:collect_hog_data

Unexecuted instantiation: partition_search.c:collect_hog_data

Unexecuted instantiation: rdopt.c:collect_hog_data

Unexecuted instantiation: superres_scale.c:collect_hog_data

Unexecuted instantiation: svc_layercontext.c:collect_hog_data

Unexecuted instantiation: temporal_filter.c:collect_hog_data

Unexecuted instantiation: intra_mode_search.c:collect_hog_data

Unexecuted instantiation: compound_type.c:collect_hog_data

Unexecuted instantiation: encode_strategy.c:collect_hog_data

static inline void prune_intra_mode_with_hog(

    const MACROBLOCK *x, BLOCK_SIZE bsize, BLOCK_SIZE sb_size, float th,

    uint8_t *directional_mode_skip_mask, int is_chroma) {

  const int plane = is_chroma ? AOM_PLANE_U : AOM_PLANE_Y;

  float hist[BINS] = { 0.0f };

  collect_hog_data(x, bsize, sb_size, plane, hist);

  // Make prediction for each of the mode

  float scores[DIRECTIONAL_MODES] = { 0.0f };

  av1_nn_predict(hist, &av1_intra_hog_model_nnconfig, 1, scores);

  for (UV_PREDICTION_MODE uv_mode = UV_V_PRED; uv_mode <= UV_D67_PRED;

       uv_mode++) {

    if (scores[uv_mode - UV_V_PRED] <= th) {

      directional_mode_skip_mask[uv_mode] = 1;

    }

  }

}

Unexecuted instantiation: av1_cx_iface.c:prune_intra_mode_with_hog

Unexecuted instantiation: encodeframe.c:prune_intra_mode_with_hog

Unexecuted instantiation: encoder.c:prune_intra_mode_with_hog

Unexecuted instantiation: encoder_utils.c:prune_intra_mode_with_hog

Unexecuted instantiation: ethread.c:prune_intra_mode_with_hog

Unexecuted instantiation: palette.c:prune_intra_mode_with_hog

Unexecuted instantiation: partition_search.c:prune_intra_mode_with_hog

Unexecuted instantiation: rdopt.c:prune_intra_mode_with_hog

Unexecuted instantiation: superres_scale.c:prune_intra_mode_with_hog

Unexecuted instantiation: svc_layercontext.c:prune_intra_mode_with_hog

Unexecuted instantiation: temporal_filter.c:prune_intra_mode_with_hog

Unexecuted instantiation: intra_mode_search.c:prune_intra_mode_with_hog

Unexecuted instantiation: compound_type.c:prune_intra_mode_with_hog

Unexecuted instantiation: encode_strategy.c:prune_intra_mode_with_hog

#undef BINS

int av1_calc_normalized_variance(aom_variance_fn_t vf, const uint8_t *const buf,

                                 const int stride, const int is_hbd);

// Returns whether caching of source variance for 4x4 sub-blocks is allowed.

static inline bool is_src_var_for_4x4_sub_blocks_caching_enabled(

    const AV1_COMP *const cpi) {

  const SPEED_FEATURES *const sf = &cpi->sf;

  if (cpi->oxcf.mode != ALLINTRA) return false;

  if (sf->part_sf.partition_search_type == SEARCH_PARTITION) return true;

  if (INTRA_RD_VAR_THRESH(cpi->oxcf.speed) <= 0 ||

      (sf->rt_sf.use_nonrd_pick_mode && !sf->rt_sf.hybrid_intra_pickmode))

    return false;

  return true;

}

Unexecuted instantiation: av1_cx_iface.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: encodeframe.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: encoder.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: encoder_utils.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: ethread.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: palette.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: partition_search.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: rdopt.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: superres_scale.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: svc_layercontext.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: temporal_filter.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: intra_mode_search.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: compound_type.c:is_src_var_for_4x4_sub_blocks_caching_enabled

Unexecuted instantiation: encode_strategy.c:is_src_var_for_4x4_sub_blocks_caching_enabled

// Initialize the members of Block4x4VarInfo structure to -1 at the start

// of every superblock.

static inline void init_src_var_info_of_4x4_sub_blocks(

    const AV1_COMP *const cpi, Block4x4VarInfo *src_var_info_of_4x4_sub_blocks,

    const BLOCK_SIZE sb_size) {

  if (!is_src_var_for_4x4_sub_blocks_caching_enabled(cpi)) return;

  const int mi_count_in_sb = mi_size_wide[sb_size] * mi_size_high[sb_size];

  for (int i = 0; i < mi_count_in_sb; i++) {

    src_var_info_of_4x4_sub_blocks[i].var = -1;

    src_var_info_of_4x4_sub_blocks[i].log_var = -1.0;

  }

}

Unexecuted instantiation: av1_cx_iface.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: encodeframe.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: encoder.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: encoder_utils.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: ethread.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: palette.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: partition_search.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: rdopt.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: superres_scale.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: svc_layercontext.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: temporal_filter.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: intra_mode_search.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: compound_type.c:init_src_var_info_of_4x4_sub_blocks

Unexecuted instantiation: encode_strategy.c:init_src_var_info_of_4x4_sub_blocks

// Returns the cost needed to send a uniformly distributed r.v.

static inline int write_uniform_cost(int n, int v) {

  const int l = get_unsigned_bits(n);

  const int m = (1 << l) - n;

  if (l == 0) return 0;

  if (v < m)

    return av1_cost_literal(l - 1);

  else

    return av1_cost_literal(l);

}

Unexecuted instantiation: av1_cx_iface.c:write_uniform_cost

Unexecuted instantiation: encodeframe.c:write_uniform_cost

Unexecuted instantiation: encoder.c:write_uniform_cost

Unexecuted instantiation: encoder_utils.c:write_uniform_cost

Unexecuted instantiation: ethread.c:write_uniform_cost

Unexecuted instantiation: palette.c:write_uniform_cost

Unexecuted instantiation: partition_search.c:write_uniform_cost

Unexecuted instantiation: rdopt.c:write_uniform_cost

Unexecuted instantiation: superres_scale.c:write_uniform_cost

Unexecuted instantiation: svc_layercontext.c:write_uniform_cost

Unexecuted instantiation: temporal_filter.c:write_uniform_cost

Unexecuted instantiation: intra_mode_search.c:write_uniform_cost

Unexecuted instantiation: compound_type.c:write_uniform_cost

Unexecuted instantiation: encode_strategy.c:write_uniform_cost

/*!\endcond */

/*!\brief Returns the rate cost for luma prediction mode info of intra blocks.

 *

 * \callergraph

 */

static inline int intra_mode_info_cost_y(const AV1_COMP *cpi,

                                         const MACROBLOCK *x,

                                         const MB_MODE_INFO *mbmi,

                                         BLOCK_SIZE bsize, int mode_cost,

                                         int discount_color_cost) {

  int total_rate = mode_cost;

  const ModeCosts *mode_costs = &x->mode_costs;

  const int use_palette = mbmi->palette_mode_info.palette_size[0] > 0;

  const int use_filter_intra = mbmi->filter_intra_mode_info.use_filter_intra;

  const int use_intrabc = mbmi->use_intrabc;

  // Can only activate one mode.

  assert(((mbmi->mode != DC_PRED) + use_palette + use_intrabc +

          use_filter_intra) <= 1);

  const int try_palette = av1_allow_palette(

      cpi->common.features.allow_screen_content_tools, mbmi->bsize);

  if (try_palette && mbmi->mode == DC_PRED) {

    const MACROBLOCKD *xd = &x->e_mbd;

    const int bsize_ctx = av1_get_palette_bsize_ctx(bsize);

    const int mode_ctx = av1_get_palette_mode_ctx(xd);

    total_rate +=

        mode_costs->palette_y_mode_cost[bsize_ctx][mode_ctx][use_palette];

    if (use_palette) {

      const uint8_t *const color_map = xd->plane[0].color_index_map;

      int block_width, block_height, rows, cols;

      av1_get_block_dimensions(bsize, 0, xd, &block_width, &block_height, &rows,

                               &cols);

      const int plt_size = mbmi->palette_mode_info.palette_size[0];

      int palette_mode_cost =

          mode_costs

              ->palette_y_size_cost[bsize_ctx][plt_size - PALETTE_MIN_SIZE] +

          write_uniform_cost(plt_size, color_map[0]);

      uint16_t color_cache[2 * PALETTE_MAX_SIZE];

      const int n_cache = av1_get_palette_cache(xd, 0, color_cache);

      palette_mode_cost +=

          av1_palette_color_cost_y(&mbmi->palette_mode_info, color_cache,

                                   n_cache, cpi->common.seq_params->bit_depth);

      if (!discount_color_cost)

        palette_mode_cost +=

            av1_cost_color_map(x, 0, bsize, mbmi->tx_size, PALETTE_MAP);

      total_rate += palette_mode_cost;

    }

  }

  if (av1_filter_intra_allowed(&cpi->common, mbmi)) {

    total_rate += mode_costs->filter_intra_cost[mbmi->bsize][use_filter_intra];

    if (use_filter_intra) {

      total_rate +=

          mode_costs->filter_intra_mode_cost[mbmi->filter_intra_mode_info

                                                 .filter_intra_mode];

    }

  }

  if (av1_is_directional_mode(mbmi->mode)) {

    if (av1_use_angle_delta(bsize)) {

      total_rate +=

          mode_costs->angle_delta_cost[mbmi->mode - V_PRED]

                                      [MAX_ANGLE_DELTA +

                                       mbmi->angle_delta[PLANE_TYPE_Y]];

    }

  }

  if (av1_allow_intrabc(&cpi->common))

    total_rate += mode_costs->intrabc_cost[use_intrabc];

  return total_rate;

}

Unexecuted instantiation: av1_cx_iface.c:intra_mode_info_cost_y

Unexecuted instantiation: encodeframe.c:intra_mode_info_cost_y

Unexecuted instantiation: encoder.c:intra_mode_info_cost_y

Unexecuted instantiation: encoder_utils.c:intra_mode_info_cost_y

Unexecuted instantiation: ethread.c:intra_mode_info_cost_y

Unexecuted instantiation: palette.c:intra_mode_info_cost_y

Unexecuted instantiation: partition_search.c:intra_mode_info_cost_y

Unexecuted instantiation: rdopt.c:intra_mode_info_cost_y

Unexecuted instantiation: superres_scale.c:intra_mode_info_cost_y

Unexecuted instantiation: svc_layercontext.c:intra_mode_info_cost_y

Unexecuted instantiation: temporal_filter.c:intra_mode_info_cost_y

Unexecuted instantiation: intra_mode_search.c:intra_mode_info_cost_y

Unexecuted instantiation: compound_type.c:intra_mode_info_cost_y

Unexecuted instantiation: encode_strategy.c:intra_mode_info_cost_y

/*!\brief Return the rate cost for chroma prediction mode info of intra blocks.

 *

 * \callergraph

 */

static inline int intra_mode_info_cost_uv(const AV1_COMP *cpi,

                                          const MACROBLOCK *x,

                                          const MB_MODE_INFO *mbmi,

                                          BLOCK_SIZE bsize, int mode_cost) {

  int total_rate = mode_cost;

  const ModeCosts *mode_costs = &x->mode_costs;

  const int use_palette = mbmi->palette_mode_info.palette_size[1] > 0;

  const UV_PREDICTION_MODE uv_mode = mbmi->uv_mode;

  // Can only activate one mode.

  assert(((uv_mode != UV_DC_PRED) + use_palette + mbmi->use_intrabc) <= 1);

  const int try_palette = av1_allow_palette(

      cpi->common.features.allow_screen_content_tools, mbmi->bsize);

  if (try_palette && uv_mode == UV_DC_PRED) {

    const PALETTE_MODE_INFO *pmi = &mbmi->palette_mode_info;

    total_rate +=

        mode_costs->palette_uv_mode_cost[pmi->palette_size[0] > 0][use_palette];

    if (use_palette) {

      const int bsize_ctx = av1_get_palette_bsize_ctx(bsize);

      const int plt_size = pmi->palette_size[1];

      const MACROBLOCKD *xd = &x->e_mbd;

      const uint8_t *const color_map = xd->plane[1].color_index_map;

      int palette_mode_cost =

          mode_costs

              ->palette_uv_size_cost[bsize_ctx][plt_size - PALETTE_MIN_SIZE] +

          write_uniform_cost(plt_size, color_map[0]);

      uint16_t color_cache[2 * PALETTE_MAX_SIZE];

      const int n_cache = av1_get_palette_cache(xd, 1, color_cache);

      palette_mode_cost += av1_palette_color_cost_uv(

          pmi, color_cache, n_cache, cpi->common.seq_params->bit_depth);

      palette_mode_cost +=

          av1_cost_color_map(x, 1, bsize, mbmi->tx_size, PALETTE_MAP);

      total_rate += palette_mode_cost;

    }

  }

  const PREDICTION_MODE intra_mode = get_uv_mode(uv_mode);

  if (av1_is_directional_mode(intra_mode)) {

    if (av1_use_angle_delta(bsize)) {

      total_rate +=

          mode_costs->angle_delta_cost[intra_mode - V_PRED]

                                      [mbmi->angle_delta[PLANE_TYPE_UV] +

                                       MAX_ANGLE_DELTA];

    }

  }

  return total_rate;

}

Unexecuted instantiation: av1_cx_iface.c:intra_mode_info_cost_uv

Unexecuted instantiation: encodeframe.c:intra_mode_info_cost_uv

Unexecuted instantiation: encoder.c:intra_mode_info_cost_uv

Unexecuted instantiation: encoder_utils.c:intra_mode_info_cost_uv

Unexecuted instantiation: ethread.c:intra_mode_info_cost_uv

Unexecuted instantiation: palette.c:intra_mode_info_cost_uv

Unexecuted instantiation: partition_search.c:intra_mode_info_cost_uv

Unexecuted instantiation: rdopt.c:intra_mode_info_cost_uv

Unexecuted instantiation: superres_scale.c:intra_mode_info_cost_uv

Unexecuted instantiation: svc_layercontext.c:intra_mode_info_cost_uv

Unexecuted instantiation: temporal_filter.c:intra_mode_info_cost_uv

Unexecuted instantiation: intra_mode_search.c:intra_mode_info_cost_uv

Unexecuted instantiation: compound_type.c:intra_mode_info_cost_uv

Unexecuted instantiation: encode_strategy.c:intra_mode_info_cost_uv

/*!\cond */

// Makes a quick intra prediction and estimate the rdcost with a model without

// going through the whole txfm/quantize/itxfm process.

static int64_t intra_model_rd(const AV1_COMMON *cm, MACROBLOCK *const x,

                              int plane, BLOCK_SIZE plane_bsize,

                              TX_SIZE tx_size, int use_hadamard) {

  MACROBLOCKD *const xd = &x->e_mbd;

  const BitDepthInfo bd_info = get_bit_depth_info(xd);

  int row, col;

  assert(!is_inter_block(xd->mi[0]));

  const int stepr = tx_size_high_unit[tx_size];

  const int stepc = tx_size_wide_unit[tx_size];

  const int txbw = tx_size_wide[tx_size];

  const int txbh = tx_size_high[tx_size];

  const int max_blocks_wide = max_block_wide(xd, plane_bsize, plane);

  const int max_blocks_high = max_block_high(xd, plane_bsize, plane);

  int64_t satd_cost = 0;

  struct macroblock_plane *p = &x->plane[plane];

  struct macroblockd_plane *pd = &xd->plane[plane];

  // Prediction.

  for (row = 0; row < max_blocks_high; row += stepr) {

    for (col = 0; col < max_blocks_wide; col += stepc) {

      av1_predict_intra_block_facade(cm, xd, plane, col, row, tx_size);

      // Here we use p->src_diff and p->coeff as temporary buffers for

      // prediction residue and transform coefficients. The buffers are only

      // used in this for loop, therefore we don't need to properly add offset

      // to the buffers.

      av1_subtract_block(

          bd_info, txbh, txbw, p->src_diff, block_size_wide[plane_bsize],

          p->src.buf + (((row * p->src.stride) + col) << 2), p->src.stride,

          pd->dst.buf + (((row * pd->dst.stride) + col) << 2), pd->dst.stride);

      av1_quick_txfm(use_hadamard, tx_size, bd_info, p->src_diff,

                     block_size_wide[plane_bsize], p->coeff);

      satd_cost += aom_satd(p->coeff, tx_size_2d[tx_size]);

    }

  }

  return satd_cost;

}

Unexecuted instantiation: av1_cx_iface.c:intra_model_rd

Unexecuted instantiation: encodeframe.c:intra_model_rd

Unexecuted instantiation: encoder.c:intra_model_rd

Unexecuted instantiation: encoder_utils.c:intra_model_rd

Unexecuted instantiation: ethread.c:intra_model_rd

Unexecuted instantiation: palette.c:intra_model_rd

Unexecuted instantiation: partition_search.c:intra_model_rd

Unexecuted instantiation: rdopt.c:intra_model_rd

Unexecuted instantiation: superres_scale.c:intra_model_rd

Unexecuted instantiation: svc_layercontext.c:intra_model_rd

Unexecuted instantiation: temporal_filter.c:intra_model_rd

Unexecuted instantiation: intra_mode_search.c:intra_model_rd

Unexecuted instantiation: compound_type.c:intra_model_rd

Unexecuted instantiation: encode_strategy.c:intra_model_rd

/*!\endcond */

/*!\brief Estimate the luma rdcost of a given intra mode and try to prune it.

 *

 * \ingroup intra_mode_search

 * \callergraph

 * This function first makes a quick luma prediction and estimates the rdcost

 * with a model without going through the txfm, then try to prune the current

 * mode if the new estimate y_rd > 1.25 * best_model_rd.

 *

 * \return Returns 1 if the given mode is prune; 0 otherwise.

 */

static inline int model_intra_yrd_and_prune(const AV1_COMP *const cpi,

                                            MACROBLOCK *x, BLOCK_SIZE bsize,

                                            int64_t *best_model_rd) {

  const TX_SIZE tx_size = AOMMIN(TX_32X32, max_txsize_lookup[bsize]);

  const int plane = 0;

  const AV1_COMMON *cm = &cpi->common;

  const int64_t this_model_rd =

      intra_model_rd(cm, x, plane, bsize, tx_size, /*use_hadamard=*/1);

  if (*best_model_rd != INT64_MAX &&

      this_model_rd > *best_model_rd + (*best_model_rd >> 2)) {

    return 1;

  } else if (this_model_rd < *best_model_rd) {

    *best_model_rd = this_model_rd;

  }

  return 0;

}

Unexecuted instantiation: av1_cx_iface.c:model_intra_yrd_and_prune

Unexecuted instantiation: encodeframe.c:model_intra_yrd_and_prune

Unexecuted instantiation: encoder.c:model_intra_yrd_and_prune

Unexecuted instantiation: encoder_utils.c:model_intra_yrd_and_prune

Unexecuted instantiation: ethread.c:model_intra_yrd_and_prune

Unexecuted instantiation: palette.c:model_intra_yrd_and_prune

Unexecuted instantiation: partition_search.c:model_intra_yrd_and_prune

Unexecuted instantiation: rdopt.c:model_intra_yrd_and_prune

Unexecuted instantiation: superres_scale.c:model_intra_yrd_and_prune

Unexecuted instantiation: svc_layercontext.c:model_intra_yrd_and_prune

Unexecuted instantiation: temporal_filter.c:model_intra_yrd_and_prune

Unexecuted instantiation: intra_mode_search.c:model_intra_yrd_and_prune

Unexecuted instantiation: compound_type.c:model_intra_yrd_and_prune

Unexecuted instantiation: encode_strategy.c:model_intra_yrd_and_prune

#ifdef __cplusplus

}  // extern "C"

#endif

#endif  // AOM_AV1_ENCODER_INTRA_MODE_SEARCH_UTILS_H_