encoder.c 158 KB
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/*
 * Copyright (c) 2010 The WebM project authors. All Rights Reserved.
 *
 *  Use of this source code is governed by a BSD-style license
 *  that can be found in the LICENSE file in the root of the source
 *  tree. An additional intellectual property rights grant can be found
 *  in the file PATENTS.  All contributing project authors may
 *  be found in the AUTHORS file in the root of the source tree.
 */

#include <math.h>
#include <stdio.h>
#include <limits.h>

#include "./vpx_config.h"

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#include "vp10/common/alloccommon.h"
#include "vp10/common/filter.h"
#include "vp10/common/idct.h"
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#if CONFIG_VP9_POSTPROC
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#include "vp10/common/postproc.h"
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#endif
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#include "vp10/common/reconinter.h"
#include "vp10/common/reconintra.h"
#include "vp10/common/tile_common.h"
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#include "vp10/encoder/aq_complexity.h"
#include "vp10/encoder/aq_cyclicrefresh.h"
#include "vp10/encoder/aq_variance.h"
#include "vp10/encoder/bitstream.h"
#include "vp10/encoder/context_tree.h"
#include "vp10/encoder/encodeframe.h"
#include "vp10/encoder/encodemv.h"
#include "vp10/encoder/encoder.h"
#include "vp10/encoder/ethread.h"
#include "vp10/encoder/firstpass.h"
#include "vp10/encoder/mbgraph.h"
#include "vp10/encoder/picklpf.h"
#include "vp10/encoder/ratectrl.h"
#include "vp10/encoder/rd.h"
#include "vp10/encoder/resize.h"
#include "vp10/encoder/segmentation.h"
#include "vp10/encoder/skin_detection.h"
#include "vp10/encoder/speed_features.h"
#include "vp10/encoder/svc_layercontext.h"
#include "vp10/encoder/temporal_filter.h"
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#include "./vp10_rtcd.h"
#include "./vpx_dsp_rtcd.h"
#include "./vpx_scale_rtcd.h"
#include "vpx/internal/vpx_psnr.h"
#if CONFIG_INTERNAL_STATS
#include "vpx_dsp/ssim.h"
#endif
#include "vpx_dsp/vpx_filter.h"
#include "vpx_ports/mem.h"
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#include "vpx_ports/system_state.h"
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#include "vpx_ports/vpx_timer.h"
#include "vpx_scale/vpx_scale.h"

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#define AM_SEGMENT_ID_INACTIVE 7
#define AM_SEGMENT_ID_ACTIVE 0

#define SHARP_FILTER_QTHRESH 0          /* Q threshold for 8-tap sharp filter */

#define ALTREF_HIGH_PRECISION_MV 1      // Whether to use high precision mv
                                         //  for altref computation.
#define HIGH_PRECISION_MV_QTHRESH 200   // Q threshold for high precision
                                         // mv. Choose a very high value for
                                         // now so that HIGH_PRECISION is always
                                         // chosen.
// #define OUTPUT_YUV_REC

#ifdef OUTPUT_YUV_DENOISED
FILE *yuv_denoised_file = NULL;
#endif
#ifdef OUTPUT_YUV_SKINMAP
FILE *yuv_skinmap_file = NULL;
#endif
#ifdef OUTPUT_YUV_REC
FILE *yuv_rec_file;
#endif

#if 0
FILE *framepsnr;
FILE *kf_list;
FILE *keyfile;
#endif

static INLINE void Scale2Ratio(VPX_SCALING mode, int *hr, int *hs) {
  switch (mode) {
    case NORMAL:
      *hr = 1;
      *hs = 1;
      break;
    case FOURFIVE:
      *hr = 4;
      *hs = 5;
      break;
    case THREEFIVE:
      *hr = 3;
      *hs = 5;
    break;
    case ONETWO:
      *hr = 1;
      *hs = 2;
    break;
    default:
      *hr = 1;
      *hs = 1;
       assert(0);
      break;
  }
}

// Mark all inactive blocks as active. Other segmentation features may be set
// so memset cannot be used, instead only inactive blocks should be reset.
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static void suppress_active_map(VP10_COMP *cpi) {
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  unsigned char *const seg_map = cpi->segmentation_map;
  int i;
  if (cpi->active_map.enabled || cpi->active_map.update)
    for (i = 0; i < cpi->common.mi_rows * cpi->common.mi_cols; ++i)
      if (seg_map[i] == AM_SEGMENT_ID_INACTIVE)
        seg_map[i] = AM_SEGMENT_ID_ACTIVE;
}

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static void apply_active_map(VP10_COMP *cpi) {
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  struct segmentation *const seg = &cpi->common.seg;
  unsigned char *const seg_map = cpi->segmentation_map;
  const unsigned char *const active_map = cpi->active_map.map;
  int i;

  assert(AM_SEGMENT_ID_ACTIVE == CR_SEGMENT_ID_BASE);

  if (frame_is_intra_only(&cpi->common)) {
    cpi->active_map.enabled = 0;
    cpi->active_map.update = 1;
  }

  if (cpi->active_map.update) {
    if (cpi->active_map.enabled) {
      for (i = 0; i < cpi->common.mi_rows * cpi->common.mi_cols; ++i)
        if (seg_map[i] == AM_SEGMENT_ID_ACTIVE) seg_map[i] = active_map[i];
      vp10_enable_segmentation(seg);
      vp10_enable_segfeature(seg, AM_SEGMENT_ID_INACTIVE, SEG_LVL_SKIP);
      vp10_enable_segfeature(seg, AM_SEGMENT_ID_INACTIVE, SEG_LVL_ALT_LF);
      // Setting the data to -MAX_LOOP_FILTER will result in the computed loop
      // filter level being zero regardless of the value of seg->abs_delta.
      vp10_set_segdata(seg, AM_SEGMENT_ID_INACTIVE,
                      SEG_LVL_ALT_LF, -MAX_LOOP_FILTER);
    } else {
      vp10_disable_segfeature(seg, AM_SEGMENT_ID_INACTIVE, SEG_LVL_SKIP);
      vp10_disable_segfeature(seg, AM_SEGMENT_ID_INACTIVE, SEG_LVL_ALT_LF);
      if (seg->enabled) {
        seg->update_data = 1;
        seg->update_map = 1;
      }
    }
    cpi->active_map.update = 0;
  }
}

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int vp10_set_active_map(VP10_COMP* cpi,
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                       unsigned char* new_map_16x16,
                       int rows,
                       int cols) {
  if (rows == cpi->common.mb_rows && cols == cpi->common.mb_cols) {
    unsigned char *const active_map_8x8 = cpi->active_map.map;
    const int mi_rows = cpi->common.mi_rows;
    const int mi_cols = cpi->common.mi_cols;
    cpi->active_map.update = 1;
    if (new_map_16x16) {
      int r, c;
      for (r = 0; r < mi_rows; ++r) {
        for (c = 0; c < mi_cols; ++c) {
          active_map_8x8[r * mi_cols + c] =
              new_map_16x16[(r >> 1) * cols + (c >> 1)]
                  ? AM_SEGMENT_ID_ACTIVE
                  : AM_SEGMENT_ID_INACTIVE;
        }
      }
      cpi->active_map.enabled = 1;
    } else {
      cpi->active_map.enabled = 0;
    }
    return 0;
  } else {
    return -1;
  }
}

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int vp10_get_active_map(VP10_COMP* cpi,
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                       unsigned char* new_map_16x16,
                       int rows,
                       int cols) {
  if (rows == cpi->common.mb_rows && cols == cpi->common.mb_cols &&
      new_map_16x16) {
    unsigned char* const seg_map_8x8 = cpi->segmentation_map;
    const int mi_rows = cpi->common.mi_rows;
    const int mi_cols = cpi->common.mi_cols;
    memset(new_map_16x16, !cpi->active_map.enabled, rows * cols);
    if (cpi->active_map.enabled) {
      int r, c;
      for (r = 0; r < mi_rows; ++r) {
        for (c = 0; c < mi_cols; ++c) {
          // Cyclic refresh segments are considered active despite not having
          // AM_SEGMENT_ID_ACTIVE
          new_map_16x16[(r >> 1) * cols + (c >> 1)] |=
              seg_map_8x8[r * mi_cols + c] != AM_SEGMENT_ID_INACTIVE;
        }
      }
    }
    return 0;
  } else {
    return -1;
  }
}

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void vp10_set_high_precision_mv(VP10_COMP *cpi, int allow_high_precision_mv) {
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  MACROBLOCK *const mb = &cpi->td.mb;
  cpi->common.allow_high_precision_mv = allow_high_precision_mv;
  if (cpi->common.allow_high_precision_mv) {
    mb->mvcost = mb->nmvcost_hp;
    mb->mvsadcost = mb->nmvsadcost_hp;
  } else {
    mb->mvcost = mb->nmvcost;
    mb->mvsadcost = mb->nmvsadcost;
  }
}

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static void setup_frame(VP10_COMP *cpi) {
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  VP10_COMMON *const cm = &cpi->common;
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  // Set up entropy context depending on frame type. The decoder mandates
  // the use of the default context, index 0, for keyframes and inter
  // frames where the error_resilient_mode or intra_only flag is set. For
  // other inter-frames the encoder currently uses only two contexts;
  // context 1 for ALTREF frames and context 0 for the others.
  if (frame_is_intra_only(cm) || cm->error_resilient_mode) {
    vp10_setup_past_independence(cm);
  } else {
    if (!cpi->use_svc)
      cm->frame_context_idx = cpi->refresh_alt_ref_frame;
  }

  if (cm->frame_type == KEY_FRAME) {
    if (!is_two_pass_svc(cpi))
      cpi->refresh_golden_frame = 1;
    cpi->refresh_alt_ref_frame = 1;
    vp10_zero(cpi->interp_filter_selected);
  } else {
    *cm->fc = cm->frame_contexts[cm->frame_context_idx];
    vp10_zero(cpi->interp_filter_selected[0]);
  }
}

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static void vp10_enc_setup_mi(VP10_COMMON *cm) {
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  int i;
  cm->mi = cm->mip + cm->mi_stride + 1;
  memset(cm->mip, 0, cm->mi_stride * (cm->mi_rows + 1) * sizeof(*cm->mip));
  cm->prev_mi = cm->prev_mip + cm->mi_stride + 1;
  // Clear top border row
  memset(cm->prev_mip, 0, sizeof(*cm->prev_mip) * cm->mi_stride);
  // Clear left border column
  for (i = 1; i < cm->mi_rows + 1; ++i)
    memset(&cm->prev_mip[i * cm->mi_stride], 0, sizeof(*cm->prev_mip));

  cm->mi_grid_visible = cm->mi_grid_base + cm->mi_stride + 1;
  cm->prev_mi_grid_visible = cm->prev_mi_grid_base + cm->mi_stride + 1;

  memset(cm->mi_grid_base, 0,
         cm->mi_stride * (cm->mi_rows + 1) * sizeof(*cm->mi_grid_base));
}

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static int vp10_enc_alloc_mi(VP10_COMMON *cm, int mi_size) {
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  cm->mip = vpx_calloc(mi_size, sizeof(*cm->mip));
  if (!cm->mip)
    return 1;
  cm->prev_mip = vpx_calloc(mi_size, sizeof(*cm->prev_mip));
  if (!cm->prev_mip)
    return 1;
  cm->mi_alloc_size = mi_size;

  cm->mi_grid_base = (MODE_INFO **)vpx_calloc(mi_size, sizeof(MODE_INFO*));
  if (!cm->mi_grid_base)
    return 1;
  cm->prev_mi_grid_base = (MODE_INFO **)vpx_calloc(mi_size, sizeof(MODE_INFO*));
  if (!cm->prev_mi_grid_base)
    return 1;

  return 0;
}

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static void vp10_enc_free_mi(VP10_COMMON *cm) {
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  vpx_free(cm->mip);
  cm->mip = NULL;
  vpx_free(cm->prev_mip);
  cm->prev_mip = NULL;
  vpx_free(cm->mi_grid_base);
  cm->mi_grid_base = NULL;
  vpx_free(cm->prev_mi_grid_base);
  cm->prev_mi_grid_base = NULL;
}

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static void vp10_swap_mi_and_prev_mi(VP10_COMMON *cm) {
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  // Current mip will be the prev_mip for the next frame.
  MODE_INFO **temp_base = cm->prev_mi_grid_base;
  MODE_INFO *temp = cm->prev_mip;
  cm->prev_mip = cm->mip;
  cm->mip = temp;

  // Update the upper left visible macroblock ptrs.
  cm->mi = cm->mip + cm->mi_stride + 1;
  cm->prev_mi = cm->prev_mip + cm->mi_stride + 1;

  cm->prev_mi_grid_base = cm->mi_grid_base;
  cm->mi_grid_base = temp_base;
  cm->mi_grid_visible = cm->mi_grid_base + cm->mi_stride + 1;
  cm->prev_mi_grid_visible = cm->prev_mi_grid_base + cm->mi_stride + 1;
}

void vp10_initialize_enc(void) {
  static volatile int init_done = 0;

  if (!init_done) {
    vp10_rtcd();
    vpx_dsp_rtcd();
    vpx_scale_rtcd();
    vp10_init_intra_predictors();
    vp10_init_me_luts();
    vp10_rc_init_minq_luts();
    vp10_entropy_mv_init();
    vp10_temporal_filter_init();
    init_done = 1;
  }
}

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static void dealloc_compressor_data(VP10_COMP *cpi) {
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  VP10_COMMON *const cm = &cpi->common;
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  int i;

  vpx_free(cpi->mbmi_ext_base);
  cpi->mbmi_ext_base = NULL;

  vpx_free(cpi->tile_data);
  cpi->tile_data = NULL;

  // Delete sementation map
  vpx_free(cpi->segmentation_map);
  cpi->segmentation_map = NULL;
  vpx_free(cpi->coding_context.last_frame_seg_map_copy);
  cpi->coding_context.last_frame_seg_map_copy = NULL;

  vpx_free(cpi->nmvcosts[0]);
  vpx_free(cpi->nmvcosts[1]);
  cpi->nmvcosts[0] = NULL;
  cpi->nmvcosts[1] = NULL;

  vpx_free(cpi->nmvcosts_hp[0]);
  vpx_free(cpi->nmvcosts_hp[1]);
  cpi->nmvcosts_hp[0] = NULL;
  cpi->nmvcosts_hp[1] = NULL;

  vpx_free(cpi->nmvsadcosts[0]);
  vpx_free(cpi->nmvsadcosts[1]);
  cpi->nmvsadcosts[0] = NULL;
  cpi->nmvsadcosts[1] = NULL;

  vpx_free(cpi->nmvsadcosts_hp[0]);
  vpx_free(cpi->nmvsadcosts_hp[1]);
  cpi->nmvsadcosts_hp[0] = NULL;
  cpi->nmvsadcosts_hp[1] = NULL;

  vp10_cyclic_refresh_free(cpi->cyclic_refresh);
  cpi->cyclic_refresh = NULL;

  vpx_free(cpi->active_map.map);
  cpi->active_map.map = NULL;

  vp10_free_ref_frame_buffers(cm->buffer_pool);
#if CONFIG_VP9_POSTPROC
  vp10_free_postproc_buffers(cm);
#endif
  vp10_free_context_buffers(cm);

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  vpx_free_frame_buffer(&cpi->last_frame_uf);
  vpx_free_frame_buffer(&cpi->scaled_source);
  vpx_free_frame_buffer(&cpi->scaled_last_source);
  vpx_free_frame_buffer(&cpi->alt_ref_buffer);
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  vp10_lookahead_destroy(cpi->lookahead);

  vpx_free(cpi->tile_tok[0][0]);
  cpi->tile_tok[0][0] = 0;

  vp10_free_pc_tree(&cpi->td);

  for (i = 0; i < cpi->svc.number_spatial_layers; ++i) {
    LAYER_CONTEXT *const lc = &cpi->svc.layer_context[i];
    vpx_free(lc->rc_twopass_stats_in.buf);
    lc->rc_twopass_stats_in.buf = NULL;
    lc->rc_twopass_stats_in.sz = 0;
  }

  if (cpi->source_diff_var != NULL) {
    vpx_free(cpi->source_diff_var);
    cpi->source_diff_var = NULL;
  }

  for (i = 0; i < MAX_LAG_BUFFERS; ++i) {
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    vpx_free_frame_buffer(&cpi->svc.scaled_frames[i]);
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  }
  memset(&cpi->svc.scaled_frames[0], 0,
         MAX_LAG_BUFFERS * sizeof(cpi->svc.scaled_frames[0]));

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  vpx_free_frame_buffer(&cpi->svc.empty_frame.img);
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  memset(&cpi->svc.empty_frame, 0, sizeof(cpi->svc.empty_frame));
}

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static void save_coding_context(VP10_COMP *cpi) {
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  CODING_CONTEXT *const cc = &cpi->coding_context;
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  VP10_COMMON *cm = &cpi->common;
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  // Stores a snapshot of key state variables which can subsequently be
  // restored with a call to vp10_restore_coding_context. These functions are
  // intended for use in a re-code loop in vp10_compress_frame where the
  // quantizer value is adjusted between loop iterations.
  vp10_copy(cc->nmvjointcost,  cpi->td.mb.nmvjointcost);

  memcpy(cc->nmvcosts[0], cpi->nmvcosts[0],
         MV_VALS * sizeof(*cpi->nmvcosts[0]));
  memcpy(cc->nmvcosts[1], cpi->nmvcosts[1],
         MV_VALS * sizeof(*cpi->nmvcosts[1]));
  memcpy(cc->nmvcosts_hp[0], cpi->nmvcosts_hp[0],
         MV_VALS * sizeof(*cpi->nmvcosts_hp[0]));
  memcpy(cc->nmvcosts_hp[1], cpi->nmvcosts_hp[1],
         MV_VALS * sizeof(*cpi->nmvcosts_hp[1]));

  vp10_copy(cc->segment_pred_probs, cm->seg.pred_probs);

  memcpy(cpi->coding_context.last_frame_seg_map_copy,
         cm->last_frame_seg_map, (cm->mi_rows * cm->mi_cols));

  vp10_copy(cc->last_ref_lf_deltas, cm->lf.last_ref_deltas);
  vp10_copy(cc->last_mode_lf_deltas, cm->lf.last_mode_deltas);

  cc->fc = *cm->fc;
}

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static void restore_coding_context(VP10_COMP *cpi) {
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  CODING_CONTEXT *const cc = &cpi->coding_context;
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  VP10_COMMON *cm = &cpi->common;
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  // Restore key state variables to the snapshot state stored in the
  // previous call to vp10_save_coding_context.
  vp10_copy(cpi->td.mb.nmvjointcost, cc->nmvjointcost);

  memcpy(cpi->nmvcosts[0], cc->nmvcosts[0], MV_VALS * sizeof(*cc->nmvcosts[0]));
  memcpy(cpi->nmvcosts[1], cc->nmvcosts[1], MV_VALS * sizeof(*cc->nmvcosts[1]));
  memcpy(cpi->nmvcosts_hp[0], cc->nmvcosts_hp[0],
         MV_VALS * sizeof(*cc->nmvcosts_hp[0]));
  memcpy(cpi->nmvcosts_hp[1], cc->nmvcosts_hp[1],
         MV_VALS * sizeof(*cc->nmvcosts_hp[1]));

  vp10_copy(cm->seg.pred_probs, cc->segment_pred_probs);

  memcpy(cm->last_frame_seg_map,
         cpi->coding_context.last_frame_seg_map_copy,
         (cm->mi_rows * cm->mi_cols));

  vp10_copy(cm->lf.last_ref_deltas, cc->last_ref_lf_deltas);
  vp10_copy(cm->lf.last_mode_deltas, cc->last_mode_lf_deltas);

  *cm->fc = cc->fc;
}

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static void configure_static_seg_features(VP10_COMP *cpi) {
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  VP10_COMMON *const cm = &cpi->common;
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  const RATE_CONTROL *const rc = &cpi->rc;
  struct segmentation *const seg = &cm->seg;

  int high_q = (int)(rc->avg_q > 48.0);
  int qi_delta;

  // Disable and clear down for KF
  if (cm->frame_type == KEY_FRAME) {
    // Clear down the global segmentation map
    memset(cpi->segmentation_map, 0, cm->mi_rows * cm->mi_cols);
    seg->update_map = 0;
    seg->update_data = 0;
    cpi->static_mb_pct = 0;

    // Disable segmentation
    vp10_disable_segmentation(seg);

    // Clear down the segment features.
    vp10_clearall_segfeatures(seg);
  } else if (cpi->refresh_alt_ref_frame) {
    // If this is an alt ref frame
    // Clear down the global segmentation map
    memset(cpi->segmentation_map, 0, cm->mi_rows * cm->mi_cols);
    seg->update_map = 0;
    seg->update_data = 0;
    cpi->static_mb_pct = 0;

    // Disable segmentation and individual segment features by default
    vp10_disable_segmentation(seg);
    vp10_clearall_segfeatures(seg);

    // Scan frames from current to arf frame.
    // This function re-enables segmentation if appropriate.
    vp10_update_mbgraph_stats(cpi);

    // If segmentation was enabled set those features needed for the
    // arf itself.
    if (seg->enabled) {
      seg->update_map = 1;
      seg->update_data = 1;

      qi_delta = vp10_compute_qdelta(rc, rc->avg_q, rc->avg_q * 0.875,
                                    cm->bit_depth);
      vp10_set_segdata(seg, 1, SEG_LVL_ALT_Q, qi_delta - 2);
      vp10_set_segdata(seg, 1, SEG_LVL_ALT_LF, -2);

      vp10_enable_segfeature(seg, 1, SEG_LVL_ALT_Q);
      vp10_enable_segfeature(seg, 1, SEG_LVL_ALT_LF);

      // Where relevant assume segment data is delta data
      seg->abs_delta = SEGMENT_DELTADATA;
    }
  } else if (seg->enabled) {
    // All other frames if segmentation has been enabled

    // First normal frame in a valid gf or alt ref group
    if (rc->frames_since_golden == 0) {
      // Set up segment features for normal frames in an arf group
      if (rc->source_alt_ref_active) {
        seg->update_map = 0;
        seg->update_data = 1;
        seg->abs_delta = SEGMENT_DELTADATA;

        qi_delta = vp10_compute_qdelta(rc, rc->avg_q, rc->avg_q * 1.125,
                                      cm->bit_depth);
        vp10_set_segdata(seg, 1, SEG_LVL_ALT_Q, qi_delta + 2);
        vp10_enable_segfeature(seg, 1, SEG_LVL_ALT_Q);

        vp10_set_segdata(seg, 1, SEG_LVL_ALT_LF, -2);
        vp10_enable_segfeature(seg, 1, SEG_LVL_ALT_LF);

        // Segment coding disabled for compred testing
        if (high_q || (cpi->static_mb_pct == 100)) {
          vp10_set_segdata(seg, 1, SEG_LVL_REF_FRAME, ALTREF_FRAME);
          vp10_enable_segfeature(seg, 1, SEG_LVL_REF_FRAME);
          vp10_enable_segfeature(seg, 1, SEG_LVL_SKIP);
        }
      } else {
        // Disable segmentation and clear down features if alt ref
        // is not active for this group

        vp10_disable_segmentation(seg);

        memset(cpi->segmentation_map, 0, cm->mi_rows * cm->mi_cols);

        seg->update_map = 0;
        seg->update_data = 0;

        vp10_clearall_segfeatures(seg);
      }
    } else if (rc->is_src_frame_alt_ref) {
      // Special case where we are coding over the top of a previous
      // alt ref frame.
      // Segment coding disabled for compred testing

      // Enable ref frame features for segment 0 as well
      vp10_enable_segfeature(seg, 0, SEG_LVL_REF_FRAME);
      vp10_enable_segfeature(seg, 1, SEG_LVL_REF_FRAME);

      // All mbs should use ALTREF_FRAME
      vp10_clear_segdata(seg, 0, SEG_LVL_REF_FRAME);
      vp10_set_segdata(seg, 0, SEG_LVL_REF_FRAME, ALTREF_FRAME);
      vp10_clear_segdata(seg, 1, SEG_LVL_REF_FRAME);
      vp10_set_segdata(seg, 1, SEG_LVL_REF_FRAME, ALTREF_FRAME);

      // Skip all MBs if high Q (0,0 mv and skip coeffs)
      if (high_q) {
        vp10_enable_segfeature(seg, 0, SEG_LVL_SKIP);
        vp10_enable_segfeature(seg, 1, SEG_LVL_SKIP);
      }
      // Enable data update
      seg->update_data = 1;
    } else {
      // All other frames.

      // No updates.. leave things as they are.
      seg->update_map = 0;
      seg->update_data = 0;
    }
  }
}

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static void update_reference_segmentation_map(VP10_COMP *cpi) {
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  VP10_COMMON *const cm = &cpi->common;
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  MODE_INFO **mi_8x8_ptr = cm->mi_grid_visible;
  uint8_t *cache_ptr = cm->last_frame_seg_map;
  int row, col;

  for (row = 0; row < cm->mi_rows; row++) {
    MODE_INFO **mi_8x8 = mi_8x8_ptr;
    uint8_t *cache = cache_ptr;
    for (col = 0; col < cm->mi_cols; col++, mi_8x8++, cache++)
      cache[0] = mi_8x8[0]->mbmi.segment_id;
    mi_8x8_ptr += cm->mi_stride;
    cache_ptr += cm->mi_cols;
  }
}

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static void alloc_raw_frame_buffers(VP10_COMP *cpi) {
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  VP10_COMMON *cm = &cpi->common;
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  const VP9EncoderConfig *oxcf = &cpi->oxcf;

  if (!cpi->lookahead)
    cpi->lookahead = vp10_lookahead_init(oxcf->width, oxcf->height,
                                        cm->subsampling_x, cm->subsampling_y,
#if CONFIG_VP9_HIGHBITDEPTH
                                      cm->use_highbitdepth,
#endif
                                      oxcf->lag_in_frames);
  if (!cpi->lookahead)
    vpx_internal_error(&cm->error, VPX_CODEC_MEM_ERROR,
                       "Failed to allocate lag buffers");

  // TODO(agrange) Check if ARF is enabled and skip allocation if not.
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  if (vpx_realloc_frame_buffer(&cpi->alt_ref_buffer,
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                               oxcf->width, oxcf->height,
                               cm->subsampling_x, cm->subsampling_y,
#if CONFIG_VP9_HIGHBITDEPTH
                               cm->use_highbitdepth,
#endif
                               VP9_ENC_BORDER_IN_PIXELS, cm->byte_alignment,
                               NULL, NULL, NULL))
    vpx_internal_error(&cm->error, VPX_CODEC_MEM_ERROR,
                       "Failed to allocate altref buffer");
}

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static void alloc_util_frame_buffers(VP10_COMP *cpi) {
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  VP10_COMMON *const cm = &cpi->common;
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  if (vpx_realloc_frame_buffer(&cpi->last_frame_uf,
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                               cm->width, cm->height,
                               cm->subsampling_x, cm->subsampling_y,
#if CONFIG_VP9_HIGHBITDEPTH
                               cm->use_highbitdepth,
#endif
                               VP9_ENC_BORDER_IN_PIXELS, cm->byte_alignment,
                               NULL, NULL, NULL))
    vpx_internal_error(&cm->error, VPX_CODEC_MEM_ERROR,
                       "Failed to allocate last frame buffer");

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  if (vpx_realloc_frame_buffer(&cpi->scaled_source,
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                               cm->width, cm->height,
                               cm->subsampling_x, cm->subsampling_y,
#if CONFIG_VP9_HIGHBITDEPTH
                               cm->use_highbitdepth,
#endif
                               VP9_ENC_BORDER_IN_PIXELS, cm->byte_alignment,
                               NULL, NULL, NULL))
    vpx_internal_error(&cm->error, VPX_CODEC_MEM_ERROR,
                       "Failed to allocate scaled source buffer");

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  if (vpx_realloc_frame_buffer(&cpi->scaled_last_source,
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                               cm->width, cm->height,
                               cm->subsampling_x, cm->subsampling_y,
#if CONFIG_VP9_HIGHBITDEPTH
                               cm->use_highbitdepth,
#endif
                               VP9_ENC_BORDER_IN_PIXELS, cm->byte_alignment,
                               NULL, NULL, NULL))
    vpx_internal_error(&cm->error, VPX_CODEC_MEM_ERROR,
                       "Failed to allocate scaled last source buffer");
}


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static int alloc_context_buffers_ext(VP10_COMP *cpi) {
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  VP10_COMMON *cm = &cpi->common;
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  int mi_size = cm->mi_cols * cm->mi_rows;

  cpi->mbmi_ext_base = vpx_calloc(mi_size, sizeof(*cpi->mbmi_ext_base));
  if (!cpi->mbmi_ext_base)
    return 1;

  return 0;
}

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void vp10_alloc_compressor_data(VP10_COMP *cpi) {
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  VP10_COMMON *cm = &cpi->common;
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  vp10_alloc_context_buffers(cm, cm->width, cm->height);

  alloc_context_buffers_ext(cpi);

  vpx_free(cpi->tile_tok[0][0]);

  {
    unsigned int tokens = get_token_alloc(cm->mb_rows, cm->mb_cols);
    CHECK_MEM_ERROR(cm, cpi->tile_tok[0][0],
        vpx_calloc(tokens, sizeof(*cpi->tile_tok[0][0])));
  }

  vp10_setup_pc_tree(&cpi->common, &cpi->td);
}

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void vp10_new_framerate(VP10_COMP *cpi, double framerate) {
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  cpi->framerate = framerate < 0.1 ? 30 : framerate;
  vp10_rc_update_framerate(cpi);
}

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static void set_tile_limits(VP10_COMP *cpi) {
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  VP10_COMMON *const cm = &cpi->common;
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  int min_log2_tile_cols, max_log2_tile_cols;
  vp10_get_tile_n_bits(cm->mi_cols, &min_log2_tile_cols, &max_log2_tile_cols);

  if (is_two_pass_svc(cpi) &&
      (cpi->svc.encode_empty_frame_state == ENCODING ||
      cpi->svc.number_spatial_layers > 1)) {
    cm->log2_tile_cols = 0;
    cm->log2_tile_rows = 0;
  } else {
    cm->log2_tile_cols = clamp(cpi->oxcf.tile_columns,
                               min_log2_tile_cols, max_log2_tile_cols);
    cm->log2_tile_rows = cpi->oxcf.tile_rows;
  }
}

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static void update_frame_size(VP10_COMP *cpi) {
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  VP10_COMMON *const cm = &cpi->common;
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  MACROBLOCKD *const xd = &cpi->td.mb.e_mbd;

  vp10_set_mb_mi(cm, cm->width, cm->height);
  vp10_init_context_buffers(cm);
  vp10_init_macroblockd(cm, xd, NULL);
  cpi->td.mb.mbmi_ext_base = cpi->mbmi_ext_base;
  memset(cpi->mbmi_ext_base, 0,
         cm->mi_rows * cm->mi_cols * sizeof(*cpi->mbmi_ext_base));

  set_tile_limits(cpi);

  if (is_two_pass_svc(cpi)) {
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    if (vpx_realloc_frame_buffer(&cpi->alt_ref_buffer,
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                                 cm->width, cm->height,
                                 cm->subsampling_x, cm->subsampling_y,
#if CONFIG_VP9_HIGHBITDEPTH
                                 cm->use_highbitdepth,
#endif
                                 VP9_ENC_BORDER_IN_PIXELS, cm->byte_alignment,
                                 NULL, NULL, NULL))
      vpx_internal_error(&cm->error, VPX_CODEC_MEM_ERROR,
                         "Failed to reallocate alt_ref_buffer");
  }
}

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static void init_buffer_indices(VP10_COMP *cpi) {
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  cpi->lst_fb_idx = 0;
  cpi->gld_fb_idx = 1;
  cpi->alt_fb_idx = 2;
}

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static void init_config(struct VP10_COMP *cpi, VP9EncoderConfig *oxcf) {
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  VP10_COMMON *const cm = &cpi->common;
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  cpi->oxcf = *oxcf;
  cpi->framerate = oxcf->init_framerate;

  cm->profile = oxcf->profile;
  cm->bit_depth = oxcf->bit_depth;
#if CONFIG_VP9_HIGHBITDEPTH
  cm->use_highbitdepth = oxcf->use_highbitdepth;
#endif
  cm->color_space = oxcf->color_space;

  cm->width = oxcf->width;
  cm->height = oxcf->height;
  vp10_alloc_compressor_data(cpi);

  cpi->svc.temporal_layering_mode = oxcf->temporal_layering_mode;

  // Single thread case: use counts in common.
  cpi->td.counts = &cm->counts;

  // Spatial scalability.
  cpi->svc.number_spatial_layers = oxcf->ss_number_layers;
  // Temporal scalability.
  cpi->svc.number_temporal_layers = oxcf->ts_number_layers;

  if ((cpi->svc.number_temporal_layers > 1 && cpi->oxcf.rc_mode == VPX_CBR) ||
      ((cpi->svc.number_temporal_layers > 1 ||
        cpi->svc.number_spatial_layers > 1) &&
       cpi->oxcf.pass != 1)) {
    vp10_init_layer_context(cpi);
  }

  // change includes all joint functionality
  vp10_change_config(cpi, oxcf);

  cpi->static_mb_pct = 0;
  cpi->ref_frame_flags = 0;

  init_buffer_indices(cpi);
}

static void set_rc_buffer_sizes(RATE_CONTROL *rc,
                                const VP9EncoderConfig *oxcf) {
  const int64_t bandwidth = oxcf->target_bandwidth;
  const int64_t starting = oxcf->starting_buffer_level_ms;
  const int64_t optimal = oxcf->optimal_buffer_level_ms;
  const int64_t maximum = oxcf->maximum_buffer_size_ms;

  rc->starting_buffer_level = starting * bandwidth / 1000;
  rc->optimal_buffer_level = (optimal == 0) ? bandwidth / 8
                                            : optimal * bandwidth / 1000;
  rc->maximum_buffer_size = (maximum == 0) ? bandwidth / 8
                                           : maximum * bandwidth / 1000;
}

#if CONFIG_VP9_HIGHBITDEPTH
#define HIGHBD_BFP(BT, SDF, SDAF, VF, SVF, SVAF, SDX3F, SDX8F, SDX4DF) \
    cpi->fn_ptr[BT].sdf = SDF; \
    cpi->fn_ptr[BT].sdaf = SDAF; \
    cpi->fn_ptr[BT].vf = VF; \
    cpi->fn_ptr[BT].svf = SVF; \
    cpi->fn_ptr[BT].svaf = SVAF; \
    cpi->fn_ptr[BT].sdx3f = SDX3F; \
    cpi->fn_ptr[BT].sdx8f = SDX8F; \
    cpi->fn_ptr[BT].sdx4df = SDX4DF;

#define MAKE_BFP_SAD_WRAPPER(fnname) \
static unsigned int fnname##_bits8(const uint8_t *src_ptr, \
                                   int source_stride, \
                                   const uint8_t *ref_ptr, \
                                   int ref_stride) {  \
  return fnname(src_ptr, source_stride, ref_ptr, ref_stride); \
} \
static unsigned int fnname##_bits10(const uint8_t *src_ptr, \
                                    int source_stride, \
                                    const uint8_t *ref_ptr, \
                                    int ref_stride) {  \
  return fnname(src_ptr, source_stride, ref_ptr, ref_stride) >> 2; \
} \
static unsigned int fnname##_bits12(const uint8_t *src_ptr, \
                                    int source_stride, \
                                    const uint8_t *ref_ptr, \
                                    int ref_stride) {  \
  return fnname(src_ptr, source_stride, ref_ptr, ref_stride) >> 4; \
}

#define MAKE_BFP_SADAVG_WRAPPER(fnname) static unsigned int \
fnname##_bits8(const uint8_t *src_ptr, \
               int source_stride, \
               const uint8_t *ref_ptr, \
               int ref_stride, \
               const uint8_t *second_pred) {  \
  return fnname(src_ptr, source_stride, ref_ptr, ref_stride, second_pred); \
} \
static unsigned int fnname##_bits10(const uint8_t *src_ptr, \
                                    int source_stride, \
                                    const uint8_t *ref_ptr, \
                                    int ref_stride, \
                                    const uint8_t *second_pred) {  \
  return fnname(src_ptr, source_stride, ref_ptr, ref_stride, \
                second_pred) >> 2; \
} \
static unsigned int fnname##_bits12(const uint8_t *src_ptr, \
                                    int source_stride, \
                                    const uint8_t *ref_ptr, \
                                    int ref_stride, \
                                    const uint8_t *second_pred) {  \
  return fnname(src_ptr, source_stride, ref_ptr, ref_stride, \
                second_pred) >> 4; \
}

#define MAKE_BFP_SAD3_WRAPPER(fnname) \
static void fnname##_bits8(const uint8_t *src_ptr, \
                           int source_stride, \
                           const uint8_t *ref_ptr, \
                           int  ref_stride, \
                           unsigned int *sad_array) {  \
  fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
} \
static void fnname##_bits10(const uint8_t *src_ptr, \
                            int source_stride, \
                            const uint8_t *ref_ptr, \
                            int  ref_stride, \
                            unsigned int *sad_array) {  \
  int i; \
  fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
  for (i = 0; i < 3; i++) \
    sad_array[i] >>= 2; \
} \
static void fnname##_bits12(const uint8_t *src_ptr, \
                            int source_stride, \
                            const uint8_t *ref_ptr, \
                            int  ref_stride, \
                            unsigned int *sad_array) {  \
  int i; \
  fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
  for (i = 0; i < 3; i++) \
    sad_array[i] >>= 4; \
}

#define MAKE_BFP_SAD8_WRAPPER(fnname) \
static void fnname##_bits8(const uint8_t *src_ptr, \
                           int source_stride, \
                           const uint8_t *ref_ptr, \
                           int  ref_stride, \
                           unsigned int *sad_array) {  \
  fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
} \
static void fnname##_bits10(const uint8_t *src_ptr, \
                            int source_stride, \
                            const uint8_t *ref_ptr, \
                            int  ref_stride, \
                            unsigned int *sad_array) {  \
  int i; \
  fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
  for (i = 0; i < 8; i++) \
    sad_array[i] >>= 2; \
} \
static void fnname##_bits12(const uint8_t *src_ptr, \
                            int source_stride, \
                            const uint8_t *ref_ptr, \
                            int  ref_stride, \
                            unsigned int *sad_array) {  \
  int i; \
  fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
  for (i = 0; i < 8; i++) \
    sad_array[i] >>= 4; \
}
#define MAKE_BFP_SAD4D_WRAPPER(fnname) \
static void fnname##_bits8(const uint8_t *src_ptr, \
                           int source_stride, \
                           const uint8_t* const ref_ptr[], \
                           int  ref_stride, \
                           unsigned int *sad_array) {  \
  fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
} \
static void fnname##_bits10(const uint8_t *src_ptr, \
                            int source_stride, \
                            const uint8_t* const ref_ptr[], \
                            int  ref_stride, \
                            unsigned int *sad_array) {  \
  int i; \
  fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
  for (i = 0; i < 4; i++) \
  sad_array[i] >>= 2; \
} \
static void fnname##_bits12(const uint8_t *src_ptr, \
                            int source_stride, \
                            const uint8_t* const ref_ptr[], \
                            int  ref_stride, \
                            unsigned int *sad_array) {  \
  int i; \
  fnname(src_ptr, source_stride, ref_ptr, ref_stride, sad_array); \
  for (i = 0; i < 4; i++) \
  sad_array[i] >>= 4; \
}

MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad32x16)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad32x16_avg)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad32x16x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad16x32)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad16x32_avg)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad16x32x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad64x32)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad64x32_avg)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad64x32x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad32x64)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad32x64_avg)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad32x64x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad32x32)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad32x32_avg)
MAKE_BFP_SAD3_WRAPPER(vpx_highbd_sad32x32x3)
MAKE_BFP_SAD8_WRAPPER(vpx_highbd_sad32x32x8)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad32x32x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad64x64)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad64x64_avg)
MAKE_BFP_SAD3_WRAPPER(vpx_highbd_sad64x64x3)
MAKE_BFP_SAD8_WRAPPER(vpx_highbd_sad64x64x8)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad64x64x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad16x16)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad16x16_avg)
MAKE_BFP_SAD3_WRAPPER(vpx_highbd_sad16x16x3)
MAKE_BFP_SAD8_WRAPPER(vpx_highbd_sad16x16x8)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad16x16x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad16x8)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad16x8_avg)
MAKE_BFP_SAD3_WRAPPER(vpx_highbd_sad16x8x3)
MAKE_BFP_SAD8_WRAPPER(vpx_highbd_sad16x8x8)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad16x8x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad8x16)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad8x16_avg)
MAKE_BFP_SAD3_WRAPPER(vpx_highbd_sad8x16x3)
MAKE_BFP_SAD8_WRAPPER(vpx_highbd_sad8x16x8)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad8x16x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad8x8)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad8x8_avg)
MAKE_BFP_SAD3_WRAPPER(vpx_highbd_sad8x8x3)
MAKE_BFP_SAD8_WRAPPER(vpx_highbd_sad8x8x8)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad8x8x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad8x4)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad8x4_avg)
MAKE_BFP_SAD8_WRAPPER(vpx_highbd_sad8x4x8)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad8x4x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad4x8)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad4x8_avg)
MAKE_BFP_SAD8_WRAPPER(vpx_highbd_sad4x8x8)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad4x8x4d)
MAKE_BFP_SAD_WRAPPER(vpx_highbd_sad4x4)
MAKE_BFP_SADAVG_WRAPPER(vpx_highbd_sad4x4_avg)
MAKE_BFP_SAD3_WRAPPER(vpx_highbd_sad4x4x3)
MAKE_BFP_SAD8_WRAPPER(vpx_highbd_sad4x4x8)
MAKE_BFP_SAD4D_WRAPPER(vpx_highbd_sad4x4x4d)

Yaowu Xu's avatar
Yaowu Xu committed
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static void  highbd_set_var_fns(VP10_COMP *const cpi) {
Yaowu Xu's avatar
Yaowu Xu committed
1021
  VP10_COMMON *const cm = &cpi->common;
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  if (cm->use_highbitdepth) {
    switch (cm->bit_depth) {
      case VPX_BITS_8:
        HIGHBD_BFP(BLOCK_32X16,
                   vpx_highbd_sad32x16_bits8,
                   vpx_highbd_sad32x16_avg_bits8,
                   vpx_highbd_8_variance32x16,
                   vpx_highbd_8_sub_pixel_variance32x16,
                   vpx_highbd_8_sub_pixel_avg_variance32x16,
                   NULL,
                   NULL,
                   vpx_highbd_sad32x16x4d_bits8)

        HIGHBD_BFP(BLOCK_16X32,
                   vpx_highbd_sad16x32_bits8,
                   vpx_highbd_sad16x32_avg_bits8,
                   vpx_highbd_8_variance16x32,
                   vpx_highbd_8_sub_pixel_variance16x32,
                   vpx_highbd_8_sub_pixel_avg_variance16x32,
                   NULL,
                   NULL,
                   vpx_highbd_sad16x32x4d_bits8)

        HIGHBD_BFP(BLOCK_64X32,
                   vpx_highbd_sad64x32_bits8,
                   vpx_highbd_sad64x32_avg_bits8,
                   vpx_highbd_8_variance64x32,
                   vpx_highbd_8_sub_pixel_variance64x32,
                   vpx_highbd_8_sub_pixel_avg_variance64x32,
                   NULL,
                   NULL,
                   vpx_highbd_sad64x32x4d_bits8)

        HIGHBD_BFP(BLOCK_32X64,
                   vpx_highbd_sad32x64_bits8,
                   vpx_highbd_sad32x64_avg_bits8,
                   vpx_highbd_8_variance32x64,
                   vpx_highbd_8_sub_pixel_variance32x64,
                   vpx_highbd_8_sub_pixel_avg_variance32x64,
                   NULL,
                   NULL,
                   vpx_highbd_sad32x64x4d_bits8)

        HIGHBD_BFP(BLOCK_32X32,
                   vpx_highbd_sad32x32_bits8,
                   vpx_highbd_sad32x32_avg_bits8,
                   vpx_highbd_8_variance32x32,
                   vpx_highbd_8_sub_pixel_variance32x32,
                   vpx_highbd_8_sub_pixel_avg_variance32x32,
                   vpx_highbd_sad32x32x3_bits8,
                   vpx_highbd_sad32x32x8_bits8,
                   vpx_highbd_sad32x32x4d_bits8)

        HIGHBD_BFP(BLOCK_64X64,
                   vpx_highbd_sad64x64_bits8,
                   vpx_highbd_sad64x64_avg_bits8,
                   vpx_highbd_8_variance64x64,
                   vpx_highbd_8_sub_pixel_variance64x64,
                   vpx_highbd_8_sub_pixel_avg_variance64x64,
                   vpx_highbd_sad64x64x3_bits8,
                   vpx_highbd_sad64x64x8_bits8,
                   vpx_highbd_sad64x64x4d_bits8)

        HIGHBD_BFP(BLOCK_16X16,
                   vpx_highbd_sad16x16_bits8,
                   vpx_highbd_sad16x16_avg_bits8,
                   vpx_highbd_8_variance16x16,
                   vpx_highbd_8_sub_pixel_variance16x16,
                   vpx_highbd_8_sub_pixel_avg_variance16x16,
                   vpx_highbd_sad16x16x3_bits8,
                   vpx_highbd_sad16x16x8_bits8,
                   vpx_highbd_sad16x16x4d_bits8)

        HIGHBD_BFP(BLOCK_16X8,
                   vpx_highbd_sad16x8_bits8,
                   vpx_highbd_sad16x8_avg_bits8,
                   vpx_highbd_8_variance16x8,
                   vpx_highbd_8_sub_pixel_variance16x8,
                   vpx_highbd_8_sub_pixel_avg_variance16x8,
                   vpx_highbd_sad16x8x3_bits8,
                   vpx_highbd_sad16x8x8_bits8,
                   vpx_highbd_sad16x8x4d_bits8)

        HIGHBD_BFP(BLOCK_8X16,
                   vpx_highbd_sad8x16_bits8,
                   vpx_highbd_sad8x16_avg_bits8,
                   vpx_highbd_8_variance8x16,
                   vpx_highbd_8_sub_pixel_variance8x16,
                   vpx_highbd_8_sub_pixel_avg_variance8x16,
                   vpx_highbd_sad8x16x3_bits8,
                   vpx_highbd_sad8x16x8_bits8,
                   vpx_highbd_sad8x16x4d_bits8)

        HIGHBD_BFP(BLOCK_8X8,
                   vpx_highbd_sad8x8_bits8,
                   vpx_highbd_sad8x8_avg_bits8,
                   vpx_highbd_8_variance8x8,
                   vpx_highbd_8_sub_pixel_variance8x8,
                   vpx_highbd_8_sub_pixel_avg_variance8x8,
                   vpx_highbd_sad8x8x3_bits8,
                   vpx_highbd_sad8x8x8_bits8,
                   vpx_highbd_sad8x8x4d_bits8)

        HIGHBD_BFP(BLOCK_8X4,
                   vpx_highbd_sad8x4_bits8,
                   vpx_highbd_sad8x4_avg_bits8,
                   vpx_highbd_8_variance8x4,
                   vpx_highbd_8_sub_pixel_variance8x4,
                   vpx_highbd_8_sub_pixel_avg_variance8x4,
                   NULL,
                   vpx_highbd_sad8x4x8_bits8,
                   vpx_highbd_sad8x4x4d_bits8)

        HIGHBD_BFP(BLOCK_4X8,
                   vpx_highbd_sad4x8_bits8,
                   vpx_highbd_sad4x8_avg_bits8,
                   vpx_highbd_8_variance4x8,
                   vpx_highbd_8_sub_pixel_variance4x8,
                   vpx_highbd_8_sub_pixel_avg_variance4x8,
                   NULL,
                   vpx_highbd_sad4x8x8_bits8,
                   vpx_highbd_sad4x8x4d_bits8)

        HIGHBD_BFP(BLOCK_4X4,
                   vpx_highbd_sad4x4_bits8,
                   vpx_highbd_sad4x4_avg_bits8,
                   vpx_highbd_8_variance4x4,
                   vpx_highbd_8_sub_pixel_variance4x4,
                   vpx_highbd_8_sub_pixel_avg_variance4x4,
                   vpx_highbd_sad4x4x3_bits8,
                   vpx_highbd_sad4x4x8_bits8,
                   vpx_highbd_sad4x4x4d_bits8)
        break;

      case VPX_BITS_10:
        HIGHBD_BFP(BLOCK_32X16,
                   vpx_highbd_sad32x16_bits10,
                   vpx_highbd_sad32x16_avg_bits10,
                   vpx_highbd_10_variance32x16,
                   vpx_highbd_10_sub_pixel_variance32x16,
                   vpx_highbd_10_sub_pixel_avg_variance32x16,
                   NULL,
                   NULL,
                   vpx_highbd_sad32x16x4d_bits10)

        HIGHBD_BFP(BLOCK_16X32,
                   vpx_highbd_sad16x32_bits10,
                   vpx_highbd_sad16x32_avg_bits10,
                   vpx_highbd_10_variance16x32,
                   vpx_highbd_10_sub_pixel_variance16x32,
                   vpx_highbd_10_sub_pixel_avg_variance16x32,
                   NULL,
                   NULL,
                   vpx_highbd_sad16x32x4d_bits10)

        HIGHBD_BFP(BLOCK_64X32,
                   vpx_highbd_sad64x32_bits10,
                   vpx_highbd_sad64x32_avg_bits10,
                   vpx_highbd_10_variance64x32,
                   vpx_highbd_10_sub_pixel_variance64x32,
                   vpx_highbd_10_sub_pixel_avg_variance64x32,
                   NULL,
                   NULL,
                   vpx_highbd_sad64x32x4d_bits10)

        HIGHBD_BFP(BLOCK_32X64,
                   vpx_highbd_sad32x64_bits10,
                   vpx_highbd_sad32x64_avg_bits10,
                   vpx_highbd_10_variance32x64,
                   vpx_highbd_10_sub_pixel_variance32x64,
                   vpx_highbd_10_sub_pixel_avg_variance32x64,
                   NULL,
                   NULL,
                   vpx_highbd_sad32x64x4d_bits10)

        HIGHBD_BFP(BLOCK_32X32,
                   vpx_highbd_sad32x32_bits10,
                   vpx_highbd_sad32x32_avg_bits10,
                   vpx_highbd_10_variance32x32,
                   vpx_highbd_10_sub_pixel_variance32x32,
                   vpx_highbd_10_sub_pixel_avg_variance32x32,
                   vpx_highbd_sad32x32x3_bits10,
                   vpx_highbd_sad32x32x8_bits10,
                   vpx_highbd_sad32x32x4d_bits10)

        HIGHBD_BFP(BLOCK_64X64,
                   vpx_highbd_sad64x64_bits10,
                   vpx_highbd_sad64x64_avg_bits10,
                   vpx_highbd_10_variance64x64,
                   vpx_highbd_10_sub_pixel_variance64x64,
                   vpx_highbd_10_sub_pixel_avg_variance64x64,
                   vpx_highbd_sad64x64x3_bits10,
                   vpx_highbd_sad64x64x8_bits10,
                   vpx_highbd_sad64x64x4d_bits10)

        HIGHBD_BFP(BLOCK_16X16,
                   vpx_highbd_sad16x16_bits10,
                   vpx_highbd_sad16x16_avg_bits10,
                   vpx_highbd_10_variance16x16,
                   vpx_highbd_10_sub_pixel_variance16x16,
                   vpx_highbd_10_sub_pixel_avg_variance16x16,
                   vpx_highbd_sad16x16x3_bits10,
                   vpx_highbd_sad16x16x8_bits10,
                   vpx_highbd_sad16x16x4d_bits10)

        HIGHBD_BFP(BLOCK_16X8,
                   vpx_highbd_sad16x8_bits10,
                   vpx_highbd_sad16x8_avg_bits10,
                   vpx_highbd_10_variance16x8,
                   vpx_highbd_10_sub_pixel_variance16x8,
                   vpx_highbd_10_sub_pixel_avg_variance16x8,
                   vpx_highbd_sad16x8x3_bits10,
                   vpx_highbd_sad16x8x8_bits10,
                   vpx_highbd_sad16x8x4d_bits10)

        HIGHBD_BFP(BLOCK_8X16,
                   vpx_highbd_sad8x16_bits10,
                   vpx_highbd_sad8x16_avg_bits10,
                   vpx_highbd_10_variance8x16,
                   vpx_highbd_10_sub_pixel_variance8x16,
                   vpx_highbd_10_sub_pixel_avg_variance8x16,
                   vpx_highbd_sad8x16x3_bits10,
                   vpx_highbd_sad8x16x8_bits10,
                   vpx_highbd_sad8x16x4d_bits10)

        HIGHBD_BFP(BLOCK_8X8,
                   vpx_highbd_sad8x8_bits10,
                   vpx_highbd_sad8x8_avg_bits10,
                   vpx_highbd_10_variance8x8,
                   vpx_highbd_10_sub_pixel_variance8x8,
                   vpx_highbd_10_sub_pixel_avg_variance8x8,
                   vpx_highbd_sad8x8x3_bits10,
                   vpx_highbd_sad8x8x8_bits10,
                   vpx_highbd_sad8x8x4d_bits10)

        HIGHBD_BFP(BLOCK_8X4,
                   vpx_highbd_sad8x4_bits10,
                   vpx_highbd_sad8x4_avg_bits10,
                   vpx_highbd_10_variance8x4,
                   vpx_highbd_10_sub_pixel_variance8x4,
                   vpx_highbd_10_sub_pixel_avg_variance8x4,
                   NULL,
                   vpx_highbd_sad8x4x8_bits10,
                   vpx_highbd_sad8x4x4d_bits10)

        HIGHBD_BFP(BLOCK_4X8,
                   vpx_highbd_sad4x8_bits10,
                   vpx_highbd_sad4x8_avg_bits10,
                   vpx_highbd_10_variance4x8,
                   vpx_highbd_10_sub_pixel_variance4x8,
                   vpx_highbd_10_sub_pixel_avg_variance4x8,
                   NULL,
                   vpx_highbd_sad4x8x8_bits10,
                   vpx_highbd_sad4x8x4d_bits10)

        HIGHBD_BFP(BLOCK_4X4,
                   vpx_highbd_sad4x4_bits10,
                   vpx_highbd_sad4x4_avg_bits10,
                   vpx_highbd_10_variance4x4,
                   vpx_highbd_10_sub_pixel_variance4x4,
                   vpx_highbd_10_sub_pixel_avg_variance4x4,
                   vpx_highbd_sad4x4x3_bits10,
                   vpx_highbd_sad4x4x8_bits10,
                   vpx_highbd_sad4x4x4d_bits10)
        break;

      case VPX_BITS_12:
        HIGHBD_BFP(BLOCK_32X16,
                   vpx_highbd_sad32x16_bits12,
                   vpx_highbd_sad32x16_avg_bits12,
                   vpx_highbd_12_variance32x16,
                   vpx_highbd_12_sub_pixel_variance32x16,
                   vpx_highbd_12_sub_pixel_avg_variance32x16,
                   NULL,
                   NULL,
                   vpx_highbd_sad32x16x4d_bits12)

        HIGHBD_BFP(BLOCK_16X32,
                   vpx_highbd_sad16x32_bits12,
                   vpx_highbd_sad16x32_avg_bits12,
                   vpx_highbd_12_variance16x32,
                   vpx_highbd_12_sub_pixel_variance16x32,
                   vpx_highbd_12_sub_pixel_avg_variance16x32,
                   NULL,
                   NULL,
                   vpx_highbd_sad16x32x4d_bits12)

        HIGHBD_BFP(BLOCK_64X32,
                   vpx_highbd_sad64x32_bits12,
                   vpx_highbd_sad64x32_avg_bits12,
                   vpx_highbd_12_variance64x32,
                   vpx_highbd_12_sub_pixel_variance64x32,
                   vpx_highbd_12_sub_pixel_avg_variance64x32,
                   NULL,
                   NULL,
                   vpx_highbd_sad64x32x4d_bits12)

        HIGHBD_BFP(BLOCK_32X64,
                   vpx_highbd_sad32x64_bits12,
                   vpx_highbd_sad32x64_avg_bits12,
                   vpx_highbd_12_variance32x64,
                   vpx_highbd_12_sub_pixel_variance32x64,
                   vpx_highbd_12_sub_pixel_avg_variance32x64,
                   NULL,
                   NULL,
                   vpx_highbd_sad32x64x4d_bits12)

        HIGHBD_BFP(BLOCK_32X32,
                   vpx_highbd_sad32x32_bits12,
                   vpx_highbd_sad32x32_avg_bits12,
                   vpx_highbd_12_variance32x32,
                   vpx_highbd_12_sub_pixel_variance32x32,
                   vpx_highbd_12_sub_pixel_avg_variance32x32,
                   vpx_highbd_sad32x32x3_bits12,
                   vpx_highbd_sad32x32x8_bits12,
                   vpx_highbd_sad32x32x4d_bits12)

        HIGHBD_BFP(BLOCK_64X64,
                   vpx_highbd_sad64x64_bits12,
                   vpx_highbd_sad64x64_avg_bits12,
                   vpx_highbd_12_variance64x64,
                   vpx_highbd_12_sub_pixel_variance64x64,
                   vpx_highbd_12_sub_pixel_avg_variance64x64,
                   vpx_highbd_sad64x64x3_bits12,
                   vpx_highbd_sad64x64x8_bits12,
                   vpx_highbd_sad64x64x4d_bits12)

        HIGHBD_BFP(BLOCK_16X16,
                   vpx_highbd_sad16x16_bits12,
                   vpx_highbd_sad16x16_avg_bits12,
                   vpx_highbd_12_variance16x16,
                   vpx_highbd_12_sub_pixel_variance16x16,
                   vpx_highbd_12_sub_pixel_avg_variance16x16,
                   vpx_highbd_sad16x16x3_bits12,
                   vpx_highbd_sad16x16x8_bits12,
                   vpx_highbd_sad16x16x4d_bits12)

        HIGHBD_BFP(BLOCK_16X8,
                   vpx_highbd_sad16x8_bits12,
                   vpx_highbd_sad16x8_avg_bits12,
                   vpx_highbd_12_variance16x8,
                   vpx_highbd_12_sub_pixel_variance16x8,
                   vpx_highbd_12_sub_pixel_avg_variance16x8,
                   vpx_highbd_sad16x8x3_bits12,
                   vpx_highbd_sad16x8x8_bits12,
                   vpx_highbd_sad16x8x4d_bits12)

        HIGHBD_BFP(BLOCK_8X16,
                   vpx_highbd_sad8x16_bits12,
                   vpx_highbd_sad8x16_avg_bits12,
                   vpx_highbd_12_variance8x16,
                   vpx_highbd_12_sub_pixel_variance8x16,
                   vpx_highbd_12_sub_pixel_avg_variance8x16,
                   vpx_highbd_sad8x16x3_bits12,
                   vpx_highbd_sad8x16x8_bits12,
                   vpx_highbd_sad8x16x4d_bits12)

        HIGHBD_BFP(BLOCK_8X8,
                   vpx_highbd_sad8x8_bits12,
                   vpx_highbd_sad8x8_avg_bits12,
                   vpx_highbd_12_variance8x8,
                   vpx_highbd_12_sub_pixel_variance8x8,
                   vpx_highbd_12_sub_pixel_avg_variance8x8,
                   vpx_highbd_sad8x8x3_bits12,
                   vpx_highbd_sad8x8x8_bits12,
                   vpx_highbd_sad8x8x4d_bits12)

        HIGHBD_BFP(BLOCK_8X4,
                   vpx_highbd_sad8x4_bits12,
                   vpx_highbd_sad8x4_avg_bits12,
                   vpx_highbd_12_variance8x4,
                   vpx_highbd_12_sub_pixel_variance8x4,
                   vpx_highbd_12_sub_pixel_avg_variance8x4,
                   NULL,
                   vpx_highbd_sad8x4x8_bits12,
                   vpx_highbd_sad8x4x4d_bits12)

        HIGHBD_BFP(BLOCK_4X8,
                   vpx_highbd_sad4x8_bits12,
                   vpx_highbd_sad4x8_avg_bits12,
                   vpx_highbd_12_variance4x8,
                   vpx_highbd_12_sub_pixel_variance4x8,
                   vpx_highbd_12_sub_pixel_avg_variance4x8,
                   NULL,
                   vpx_highbd_sad4x8x8_bits12,
                   vpx_highbd_sad4x8x4d_bits12)

        HIGHBD_BFP(BLOCK_4X4,
                   vpx_highbd_sad4x4_bits12,
                   vpx_highbd_sad4x4_avg_bits12,
                   vpx_highbd_12_variance4x4,
                   vpx_highbd_12_sub_pixel_variance4x4,
                   vpx_highbd_12_sub_pixel_avg_variance4x4,
                   vpx_highbd_sad4x4x3_bits12,
                   vpx_highbd_sad4x4x8_bits12,
                   vpx_highbd_sad4x4x4d_bits12)
        break;

      default:
        assert(0 && "cm->bit_depth should be VPX_BITS_8, "
                    "VPX_BITS_10 or VPX_BITS_12");
    }
  }
}
#endif  // CONFIG_VP9_HIGHBITDEPTH

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static void realloc_segmentation_maps(VP10_COMP *cpi) {
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  VP10_COMMON *const cm = &cpi->common;
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  // Create the encoder segmentation map and set all entries to 0
  vpx_free(cpi->segmentation_map);
  CHECK_MEM_ERROR(cm, cpi->segmentation_map,
                  vpx_calloc(cm->mi_rows * cm->mi_cols, 1));

  // Create a map used for cyclic background refresh.
  if (cpi->cyclic_refresh)
    vp10_cyclic_refresh_free(cpi->cyclic_refresh);
  CHECK_MEM_ERROR(cm, cpi->cyclic_refresh,
                  vp10_cyclic_refresh_alloc(cm->mi_rows, cm->mi_cols));

  // Create a map used to mark inactive areas.
  vpx_free(cpi->active_map.map);
  CHECK_MEM_ERROR(cm, cpi->active_map.map,
                  vpx_calloc(cm->mi_rows * cm->mi_cols, 1));

  // And a place holder structure is the coding context
  // for use if we want to save and restore it
  vpx_free(cpi->coding_context.last_frame_seg_map_copy);
  CHECK_MEM_ERROR(cm, cpi->coding_context.last_frame_seg_map_copy,
                  vpx_calloc(cm->mi_rows * cm->mi_cols, 1));
}

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void vp10_change_config(struct VP10_COMP *cpi, const VP9EncoderConfig *oxcf) {
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  VP10_COMMON *const cm = &cpi->common;
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  RATE_CONTROL *const rc = &cpi->rc;

  if (cm->profile != oxcf->profile)
    cm->profile = oxcf->profile;
  cm->bit_depth = oxcf->bit_depth;
  cm->color_space = oxcf->color_space;

  if (cm->profile <= PROFILE_1)
    assert(cm->bit_depth == VPX_BITS_8);
  else
    assert(cm->bit_depth > VPX_BITS_8);

  cpi->oxcf = *oxcf;
#if CONFIG_VP9_HIGHBITDEPTH
  cpi->td.mb.e_mbd.bd = (int)cm->bit_depth;
#endif  // CONFIG_VP9_HIGHBITDEPTH

  rc->baseline_gf_interval = (MIN_GF_INTERVAL + MAX_GF_INTERVAL) / 2;

  cpi->refresh_golden_frame = 0;
  cpi->refresh_last_frame = 1;
  cm->refresh_frame_context = 1;
  cm->reset_frame_context = 0;

  vp10_reset_segment_features(&cm->seg);
  vp10_set_high_precision_mv(cpi, 0);

  {
    int i;

    for (i = 0; i < MAX_SEGMENTS; i++)
      cpi->segment_encode_breakout[i] = cpi->oxcf.encode_breakout;
  }
  cpi->encode_breakout = cpi->oxcf.encode_breakout;

  set_rc_buffer_sizes(rc, &cpi->oxcf);

  // Under a configuration change, where maximum_buffer_size may change,
  // keep buffer level clipped to the maximum allowed buffer size.
  rc->bits_off_target = MIN(rc->bits_off_target, rc->maximum_buffer_size);
  rc->buffer_level = MIN(rc->buffer_level, rc->maximum_buffer_size);

  // Set up frame rate and related parameters rate control values.
  vp10_new_framerate(cpi, cpi->framerate);

  // Set absolute upper and lower quality limits
  rc->worst_quality = cpi->oxcf.worst_allowed_q;
  rc->best_quality = cpi->oxcf.best_allowed_q;

  cm->interp_filter = cpi->sf.default_interp_filter;

  cm->display_width = cpi->oxcf.width;
  cm->display_height = cpi->oxcf.height;
  cm->width = cpi->oxcf.width;
  cm->height = cpi->oxcf.height;

  if (cpi->initial_width) {
    if (cm->width > cpi->initial_width || cm->height > cpi->initial_height) {
      vp10_free_context_buffers(cm);
      vp10_alloc_compressor_data(cpi);
      realloc_segmentation_maps(cpi);
      cpi->initial_width = cpi->initial_height = 0;
    }
  }
  update_frame_size(cpi);

  if ((cpi->svc.number_temporal_layers > 1 &&
      cpi->oxcf.rc_mode == VPX_CBR) ||
      ((cpi->svc.number_temporal_layers > 1 ||
        cpi->svc.number_spatial_layers > 1) &&
       cpi->oxcf.pass != 1)) {
    vp10_update_layer_context_change_config(cpi,
                                           (int)cpi->oxcf.target_bandwidth);
  }

  cpi->alt_ref_source = NULL;
  rc->is_src_frame_alt_ref = 0;

#if 0
  // Experimental RD Code
  cpi->frame_distortion = 0;
  cpi->last_frame_distortion = 0;
#endif

  set_tile_limits(cpi);

  cpi->ext_refresh_frame_flags_pending = 0;
  cpi->ext_refresh_frame_context_pending = 0;

#if CONFIG_VP9_HIGHBITDEPTH
  highbd_set_var_fns(cpi);
#endif
}

#ifndef M_LOG2_E
#define M_LOG2_E 0.693147180559945309417
#endif
#define log2f(x) (log (x) / (float) M_LOG2_E)

static void cal_nmvjointsadcost(int *mvjointsadcost) {
  mvjointsadcost[0] = 600;
  mvjointsadcost[1] = 300;
  mvjointsadcost[2] = 300;
  mvjointsadcost[3] = 300;
}

static void cal_nmvsadcosts(int *mvsadcost[2]) {
  int i = 1;

  mvsadcost[0][0] = 0;
  mvsadcost[1][0] = 0;

  do {
    double z = 256 * (2 * (log2f(8 * i) + .6));
    mvsadcost[0][i] = (int)z;
    mvsadcost[1][i] = (int)z;
    mvsadcost[0][-i] = (int)z;
    mvsadcost[1][-i] = (int)z;
  } while (++i <= MV_MAX);
}

static void cal_nmvsadcosts_hp(int *mvsadcost[2]) {
  int i = 1;

  mvsadcost[0][0] = 0;
  mvsadcost[1][0] = 0;

  do {
    double z = 256 * (2 * (log2f(8 * i) + .6));
    mvsadcost[0][i] = (int)z;
    mvsadcost[1][i] = (int)z;
    mvsadcost[0][-i] = (int)z;
    mvsadcost[1][-i] = (int)z;
  } while (++i <= MV_MAX);
}


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VP10_COMP *vp10_create_compressor(VP9EncoderConfig *oxcf,
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                                BufferPool *const pool) {
  unsigned int i;
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  VP10_COMP *volatile const cpi = vpx_memalign(32, sizeof(VP10_COMP));
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  VP10_COMMON *volatile const cm = cpi != NULL ? &cpi->common : NULL;
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  if (!cm)
    return NULL;

  vp10_zero(*cpi);

  if (setjmp(cm->error.jmp)) {
    cm->error.setjmp = 0;
    vp10_remove_compressor(cpi);
    return 0;
  }

  cm->error.setjmp = 1;
  cm->alloc_mi = vp10_enc_alloc_mi;
  cm->free_mi = vp10_enc_free_mi;
  cm->setup_mi = vp10_enc_setup_mi;

  CHECK_MEM_ERROR(cm, cm->fc,
                  (FRAME_CONTEXT *)vpx_calloc(1, sizeof(*cm->fc)));
  CHECK_MEM_ERROR(cm, cm->frame_contexts,
                  (FRAME_CONTEXT *)vpx_calloc(FRAME_CONTEXTS,
                  sizeof(*cm->frame_contexts)));

  cpi->use_svc = 0;
  cpi->resize_state = 0;
  cpi->resize_avg_qp = 0;
  cpi->resize_buffer_underflow = 0;
  cpi->common.buffer_pool = pool;

  init_config(cpi, oxcf);
  vp10_rc_init(&cpi->oxcf, oxcf->pass, &cpi->rc);

  cm->current_video_frame = 0;
  cpi->partition_search_skippable_frame = 0;
  cpi->tile_data = NULL;

  realloc_segmentation_maps(cpi);

  CHECK_MEM_ERROR(cm, cpi->nmvcosts[0],
                  vpx_calloc(MV_VALS, sizeof(*cpi->nmvcosts[0])));
  CHECK_MEM_ERROR(cm, cpi->nmvcosts[1],
                  vpx_calloc(MV_VALS, sizeof(*cpi->nmvcosts[1])));
  CHECK_MEM_ERROR(cm, cpi->nmvcosts_hp[0],
                  vpx_calloc(MV_VALS, sizeof(*cpi->nmvcosts_hp[0])));
  CHECK_MEM_ERROR(cm, cpi->nmvcosts_hp[1],
                  vpx_calloc(MV_VALS, sizeof(*cpi->nmvcosts_hp[1])));
  CHECK_MEM_ERROR(cm, cpi->nmvsadcosts[0],
                  vpx_calloc(MV_VALS, sizeof(*cpi->nmvsadcosts[0])));
  CHECK_MEM_ERROR(cm, cpi->nmvsadcosts[1],
                  vpx_calloc(MV_VALS, sizeof(*cpi->nmvsadcosts[1])));
  CHECK_MEM_ERROR(cm, cpi->nmvsadcosts_hp[0],
                  vpx_calloc(MV_VALS, sizeof(*cpi->nmvsadcosts_hp[0])));
  CHECK_MEM_ERROR(cm, cpi->nmvsadcosts_hp[1],
                  vpx_calloc(MV_VALS, sizeof(*cpi->nmvsadcosts_hp[1])));

  for (i = 0; i < (sizeof(cpi->mbgraph_stats) /
                   sizeof(cpi->mbgraph_stats[0])); i++) {
    CHECK_MEM_ERROR(cm, cpi->mbgraph_stats[i].mb_stats,
                    vpx_calloc(cm->MBs *
                               sizeof(*cpi->mbgraph_stats[i].mb_stats), 1));
  }

#if CONFIG_FP_MB_STATS
  cpi->use_fp_mb_stats = 0;
  if (cpi->use_fp_mb_stats) {
    // a place holder used to store the first pass mb stats in the first pass
    CHECK_MEM_ERROR(cm, cpi->twopass.frame_mb_stats_buf,
                    vpx_calloc(cm->MBs * sizeof(uint8_t), 1));
  } else {
    cpi->twopass.frame_mb_stats_buf = NULL;
  }
#endif

  cpi->refresh_alt_ref_frame = 0;
  cpi->multi_arf_last_grp_enabled = 0;

  cpi->b_calculate_psnr = CONFIG_INTERNAL_STATS;
#if CONFIG_INTERNAL_STATS
  cpi->b_calculate_ssimg = 0;
  cpi->b_calculate_blockiness = 1;
  cpi->b_calculate_consistency = 1;
  cpi->total_inconsistency = 0;
  cpi->psnr.worst = 100.0;
  cpi->worst_ssim = 100.0;

  cpi->count = 0;
  cpi->bytes = 0;

  if (cpi->b_calculate_psnr) {
    cpi->total_sq_error = 0;
    cpi->total_samples = 0;

    cpi->totalp_sq_error = 0;
    cpi->totalp_samples = 0;

    cpi->tot_recode_hits = 0;
    cpi->summed_quality = 0;
    cpi->summed_weights = 0;
    cpi->summedp_quality = 0;
    cpi->summedp_weights = 0;
  }

  if (cpi->b_calculate_ssimg) {
    cpi->ssimg.worst= 100.0;
  }
  cpi->fastssim.worst = 100.0;

  cpi->psnrhvs.worst = 100.0;

  if (cpi->b_calculate_blockiness) {
    cpi->total_blockiness = 0;
    cpi->worst_blockiness = 0.0;
  }

  if (cpi->b_calculate_consistency) {
    cpi->ssim_vars = vpx_malloc(sizeof(*cpi->ssim_vars) *
                                4 * cpi->common.mi_rows * cpi->common.mi_cols);
    cpi->worst_consistency = 100.0;
  }

#endif

  cpi->first_time_stamp_ever = INT64_MAX;

  cal_nmvjointsadcost(cpi->td.mb.nmvjointsadcost);
  cpi->td.mb.nmvcost[0] = &cpi->nmvcosts[0][MV_MAX];
  cpi->td.mb.nmvcost[1] = &cpi->nmvcosts[1][MV_MAX];
  cpi->td.mb.nmvsadcost[0] = &cpi->nmvsadcosts[0][MV_MAX];
  cpi->td.mb.nmvsadcost[1] = &cpi->nmvsadcosts[1][MV_MAX];
  cal_nmvsadcosts(cpi->td.mb.nmvsadcost);

  cpi->td.mb.nmvcost_hp[0] = &cpi->nmvcosts_hp[0][MV_MAX];
  cpi->td.mb.nmvcost_hp[1] = &cpi->nmvcosts_hp[1][MV_MAX];
  cpi->td.mb.nmvsadcost_hp[0] = &cpi->nmvsadcosts_hp[0][MV_MAX];
  cpi->td.mb.nmvsadcost_hp[1] = &cpi->nmvsadcosts_hp[1][MV_MAX];
  cal_nmvsadcosts_hp(cpi->td.mb.nmvsadcost_hp);

#if CONFIG_VP9_TEMPORAL_DENOISING
#ifdef OUTPUT_YUV_DENOISED
  yuv_denoised_file = fopen("denoised.yuv", "ab");
#endif
#endif
#ifdef OUTPUT_YUV_SKINMAP
  yuv_skinmap_file = fopen("skinmap.yuv", "ab");
#endif
#ifdef OUTPUT_YUV_REC
  yuv_rec_file = fopen("rec.yuv", "wb");
#endif

#if 0
  framepsnr = fopen("framepsnr.stt", "a");
  kf_list = fopen("kf_list.stt", "w");
#endif

  cpi->allow_encode_breakout = ENCODE_BREAKOUT_ENABLED;

  if (oxcf->pass == 1) {
    vp10_init_first_pass(cpi);
  } else if (oxcf->pass == 2) {
    const size_t packet_sz = sizeof(FIRSTPASS_STATS);
    const int packets = (int)(oxcf->two_pass_stats_in.sz / packet_sz);

    if (cpi->svc.number_spatial_layers > 1
        || cpi->svc.number_temporal_layers > 1) {
      FIRSTPASS_STATS *const stats = oxcf->two_pass_stats_in.buf;
      FIRSTPASS_STATS *stats_copy[VPX_SS_MAX_LAYERS] = {0};
      int i;

      for (i = 0; i < oxcf->ss_number_layers; ++i) {
        FIRSTPASS_STATS *const last_packet_for_layer =
            &stats[packets - oxcf->ss_number_layers + i];
        const int layer_id = (int)last_packet_for_layer->spatial_layer_id;
        const int packets_in_layer = (int)last_packet_for_layer->count + 1;
        if (layer_id >= 0 && layer_id < oxcf->ss_number_layers) {
          LAYER_CONTEXT *const lc = &cpi->svc.layer_context[layer_id];

          vpx_free(lc->rc_twopass_stats_in.buf);

          lc->rc_twopass_stats_in.sz = packets_in_layer * packet_sz;
          CHECK_MEM_ERROR(cm, lc->rc_twopass_stats_in.buf,
                          vpx_malloc(lc->rc_twopass_stats_in.sz));
          lc->twopass.stats_in_start = lc->rc_twopass_stats_in.buf;
          lc->twopass.stats_in = lc->twopass.stats_in_start;
          lc->twopass.stats_in_end = lc->twopass.stats_in_start
                                     + packets_in_layer - 1;
          stats_copy[layer_id] = lc->rc_twopass_stats_in.buf;
        }
      }

      for (i = 0; i < packets; ++i) {
        const int layer_id = (int)stats[i].spatial_layer_id;
        if (layer_id >= 0 && layer_id < oxcf->ss_number_layers
            && stats_copy[layer_id] != NULL) {
          *stats_copy[layer_id] = stats[i];
          ++stats_copy[layer_id];
        }
      }

      vp10_init_second_pass_spatial_svc(cpi);
    } else {
#if CONFIG_FP_MB_STATS
      if (cpi->use_fp_mb_stats) {
        const size_t psz = cpi->common.MBs * sizeof(uint8_t);
        const int ps = (int)(oxcf->firstpass_mb_stats_in.sz / psz);

        cpi->twopass.firstpass_mb_stats.mb_stats_start =
            oxcf->firstpass_mb_stats_in.buf;
        cpi->twopass.firstpass_mb_stats.mb_stats_end =
            cpi->twopass.firstpass_mb_stats.mb_stats_start +
            (ps - 1) * cpi->common.MBs * sizeof(uint8_t);
      }
#endif

      cpi->twopass.stats_in_start = oxcf->two_pass_stats_in.buf;
      cpi->twopass.stats_in = cpi->twopass.stats_in_start;
      cpi->twopass.stats_in_end = &cpi->twopass.stats_in[packets - 1];

      vp10_init_second_pass(cpi);
    }
  }

  vp10_set_speed_features_framesize_independent(cpi);
  vp10_set_speed_features_framesize_dependent(cpi);

  // Allocate memory to store variances for a frame.
  CHECK_MEM_ERROR(cm, cpi->source_diff_var,
                  vpx_calloc(cm->MBs, sizeof(diff)));
  cpi->source_var_thresh = 0;
  cpi->frames_till_next_var_check = 0;

#define BFP(BT, SDF, SDAF, VF, SVF, SVAF, SDX3F, SDX8F, SDX4DF)\
    cpi->fn_ptr[BT].sdf            = SDF; \
    cpi->fn_ptr[BT].sdaf           = SDAF; \
    cpi->fn_ptr[BT].vf             = VF; \
    cpi->fn_ptr[BT].svf            = SVF; \
    cpi->fn_ptr[BT].svaf           = SVAF; \
    cpi->fn_ptr[BT].sdx3f          = SDX3F; \
    cpi->fn_ptr[BT].sdx8f          = SDX8F; \
    cpi->fn_ptr[BT].sdx4df         = SDX4DF;

  BFP(BLOCK_32X16, vpx_sad32x16, vpx_sad32x16_avg,
      vpx_variance32x16, vpx_sub_pixel_variance32x16,
      vpx_sub_pixel_avg_variance32x16, NULL, NULL, vpx_sad32x16x4d)

  BFP(BLOCK_16X32, vpx_sad16x32, vpx_sad16x32_avg,
      vpx_variance16x32, vpx_sub_pixel_variance16x32,
      vpx_sub_pixel_avg_variance16x32, NULL, NULL, vpx_sad16x32x4d)

  BFP(BLOCK_64X32, vpx_sad64x32, vpx_sad64x32_avg,
      vpx_variance64x32, vpx_sub_pixel_variance64x32,
      vpx_sub_pixel_avg_variance64x32, NULL, NULL, vpx_sad64x32x4d)

  BFP(BLOCK_32X64, vpx_sad32x64, vpx_sad32x64_avg,
      vpx_variance32x64, vpx_sub_pixel_variance32x64,
      vpx_sub_pixel_avg_variance32x64, NULL, NULL, vpx_sad32x64x4d)

  BFP(BLOCK_32X32, vpx_sad32x32, vpx_sad32x32_avg,
      vpx_variance32x32, vpx_sub_pixel_variance32x32,
      vpx_sub_pixel_avg_variance32x32, vpx_sad32x32x3, vpx_sad32x32x8,
      vpx_sad32x32x4d)

  BFP(BLOCK_64X64, vpx_sad64x64, vpx_sad64x64_avg,
      vpx_variance64x64, vpx_sub_pixel_variance64x64,
      vpx_sub_pixel_avg_variance64x64, vpx_sad64x64x3, vpx_sad64x64x8,
      vpx_sad64x64x4d)

  BFP(BLOCK_16X16, vpx_sad16x16, vpx_sad16x16_avg,
      vpx_variance16x16, vpx_sub_pixel_variance16x16,
      vpx_sub_pixel_avg_variance16x16, vpx_sad16x16x3, vpx_sad16x16x8,
      vpx_sad16x16x4d)

  BFP(BLOCK_16X8, vpx_sad16x8, vpx_sad16x8_avg,
      vpx_variance16x8, vpx_sub_pixel_variance16x8,
      vpx_sub_pixel_avg_variance16x8,
      vpx_sad16x8x3, vpx_sad16x8x8, vpx_sad16x8x4d)

  BFP(BLOCK_8X16, vpx_sad8x16, vpx_sad8x16_avg,
      vpx_variance8x16, vpx_sub_pixel_variance8x16,
      vpx_sub_pixel_avg_variance8x16,
      vpx_sad8x16x3, vpx_sad8x16x8, vpx_sad8x16x4d)

  BFP(BLOCK_8X8, vpx_sad8x8, vpx_sad8x8_avg,
      vpx_variance8x8, vpx_sub_pixel_variance8x8,
      vpx_sub_pixel_avg_variance8x8,
      vpx_sad8x8x3, vpx_sad8x8x8, vpx_sad8x8x4d)

  BFP(BLOCK_8X4, vpx_sad8x4, vpx_sad8x4_avg,
      vpx_variance8x4, vpx_sub_pixel_variance8x4,
      vpx_sub_pixel_avg_variance8x4, NULL, vpx_sad8x4x8, vpx_sad8x4x4d)

  BFP(BLOCK_4X8, vpx_sad4x8, vpx_sad4x8_avg,
      vpx_variance4x8, vpx_sub_pixel_variance4x8,
      vpx_sub_pixel_avg_variance4x8, NULL, vpx_sad4x8x8, vpx_sad4x8x4d)

  BFP(BLOCK_4X4, vpx_sad4x4, vpx_sad4x4_avg,
      vpx_variance4x4, vpx_sub_pixel_variance4x4,
      vpx_sub_pixel_avg_variance4x4,
      vpx_sad4x4x3, vpx_sad4x4x8, vpx_sad4x4x4d)

#if CONFIG_VP9_HIGHBITDEPTH
  highbd_set_var_fns(cpi);
#endif

  /* vp10_init_quantizer() is first called here. Add check in
   * vp10_frame_init_quantizer() so that vp10_init_quantizer is only
   * called later when needed. This will avoid unnecessary calls of
   * vp10_init_quantizer() for every frame.
   */
  vp10_init_quantizer(cpi);

  vp10_loop_filter_init(cm);

  cm->error.setjmp = 0;

  return cpi;
}
#define SNPRINT(H, T) \
  snprintf((H) + strlen(H), sizeof(H) - strlen(H), (T))

#define SNPRINT2(H, T, V) \
  snprintf((H) + strlen(H), sizeof(H) - strlen(H), (T), (V))

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void vp10_remove_compressor(VP10_COMP *cpi) {
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  VP10_COMMON *const cm = &cpi->common;
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  unsigned int i;
  int t;

  if (!cpi)
    return;

  if (cpi && (cm->current_video_frame > 0)) {
#if CONFIG_INTERNAL_STATS
    vpx_clear_system_state();

    if (cpi->oxcf.pass != 1) {
      char headings[512] = {0};
      char results[512] = {0};
      FILE *f = fopen("opsnr.stt", "a");
      double time_encoded = (cpi->last_end_time_stamp_seen
                             - cpi->first_time_stamp_ever) / 10000000.000;
      double total_encode_time = (cpi->time_receive_data +
                                  cpi->time_compress_data)   / 1000.000;
      const double dr =
          (double)cpi->bytes * (double) 8 / (double)1000 / time_encoded;
      const double peak = (double)((1 << cpi->oxcf.input_bit_depth) - 1);

      if (cpi->b_calculate_psnr) {
        const double total_psnr =
            vpx_sse_to_psnr((double)cpi->total_samples, peak,
                            (double)cpi->total_sq_error);
        const double totalp_psnr =
            vpx_sse_to_psnr((double)cpi->totalp_samples, peak,
                            (double)cpi->totalp_sq_error);
        const double total_ssim = 100 * pow(cpi->summed_quality /
                                            cpi->summed_weights, 8.0);
        const double totalp_ssim = 100 * pow(cpi->summedp_quality /
                                             cpi->summedp_weights, 8.0);

        snprintf(headings, sizeof(headings),
                 "Bitrate\tAVGPsnr\tGLBPsnr\tAVPsnrP\tGLPsnrP\t"
                 "VPXSSIM\tVPSSIMP\tFASTSIM\tPSNRHVS\t"
                 "WstPsnr\tWstSsim\tWstFast\tWstHVS");
        snprintf(results, sizeof(results),
                 "%7.2f\t%7.3f\t%7.3f\t%7.3f\t%7.3f\t"
1962
                 "%7.3f\t%7.3f\t%7.3f\t%7.3f\t"
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                 "%7.3f\t%7.3f\t%7.3f\t%7.3f",
                 dr, cpi->psnr.stat[ALL] / cpi->count, total_psnr,
                 cpi->psnrp.stat[ALL] / cpi->count, totalp_psnr,
                 total_ssim, totalp_ssim,
                 cpi->fastssim.stat[ALL] / cpi->count,
                 cpi->psnrhvs.stat[ALL] / cpi->count,
                 cpi->psnr.worst, cpi->worst_ssim, cpi->fastssim.worst,
                 cpi->psnrhvs.worst);

        if (cpi->b_calculate_blockiness) {
          SNPRINT(headings, "\t  Block\tWstBlck");
          SNPRINT2(results, "\t%7.3f", cpi->total_blockiness / cpi->count);
          SNPRINT2(results, "\t%7.3f", cpi->worst_blockiness);
        }

        if (cpi->b_calculate_consistency) {
          double consistency =
              vpx_sse_to_psnr((double)cpi->totalp_samples, peak,
                              (double)cpi->total_inconsistency);

          SNPRINT(headings, "\tConsist\tWstCons");
          SNPRINT2(results, "\t%7.3f", consistency);
          SNPRINT2(results, "\t%7.3f", cpi->worst_consistency);
        }

        if (cpi->b_calculate_ssimg) {
          SNPRINT(headings, "\t  SSIMG\tWtSSIMG");
          SNPRINT2(results, "\t%7.3f", cpi->ssimg.stat[ALL] / cpi->count);
          SNPRINT2(results, "\t%7.3f", cpi->ssimg.worst);
        }

        fprintf(f, "%s\t    Time\n", headings);
        fprintf(f, "%s\t%8.0f\n", results, total_encode_time);
      }

      fclose(f);
    }

#endif

#if 0
    {
      printf("\n_pick_loop_filter_level:%d\n", cpi->time_pick_lpf / 1000);
      printf("\n_frames recive_data encod_mb_row compress_frame  Total\n");
      printf("%6d %10ld %10ld %10ld %10ld\n", cpi->common.current_video_frame,
             cpi->time_receive_data / 1000, cpi->time_encode_sb_row / 1000,
             cpi->time_compress_data / 1000,
             (cpi->time_receive_data + cpi->time_compress_data) / 1000);
    }
#endif
  }

#if CONFIG_VP9_TEMPORAL_DENOISING
  vp10_denoiser_free(&(cpi->denoiser));
#endif

  for (t = 0; t < cpi->num_workers; ++t) {
    VPxWorker *const worker = &cpi->workers[t];
    EncWorkerData *const thread_data = &cpi->tile_thr_data[t];

    // Deallocate allocated threads.
    vpx_get_worker_interface()->end(worker);

    // Deallocate allocated thread data.
    if (t < cpi->num_workers - 1) {
      vpx_free(thread_data->td->counts);
      vp10_free_pc_tree(thread_data->td);
      vpx_free(thread_data->td);
    }
  }
  vpx_free(cpi->tile_thr_data);
  vpx_free(cpi->workers);

  if (cpi->num_workers > 1)
    vp10_loop_filter_dealloc(&cpi->lf_row_sync);

  dealloc_compressor_data(cpi);

  for (i = 0; i < sizeof(cpi->mbgraph_stats) /
                  sizeof(cpi->mbgraph_stats[0]); ++i) {
    vpx_free(cpi->mbgraph_stats[i].mb_stats);
  }

#if CONFIG_FP_MB_STATS
  if (cpi->use_fp_mb_stats) {
    vpx_free(cpi->twopass.frame_mb_stats_buf);
    cpi->twopass.frame_mb_stats_buf = NULL;
  }
#endif

  vp10_remove_common(cm);
  vp10_free_ref_frame_buffers(cm->buffer_pool);
#if CONFIG_VP9_POSTPROC
  vp10_free_postproc_buffers(cm);
#endif
  vpx_free(cpi);

#if CONFIG_VP9_TEMPORAL_DENOISING
#ifdef OUTPUT_YUV_DENOISED
  fclose(yuv_denoised_file);
#endif
#endif
#ifdef OUTPUT_YUV_SKINMAP
  fclose(yuv_skinmap_file);
#endif
#ifdef OUTPUT_YUV_REC
  fclose(yuv_rec_file);
#endif

#if 0

  if (keyfile)
    fclose(keyfile);

  if (framepsnr)
    fclose(framepsnr);

  if (kf_list)
    fclose(kf_list);

#endif
}

/* TODO(yaowu): The block_variance calls the unoptimized versions of variance()
 * and highbd_8_variance(). It should not.
 */
static void encoder_variance(const uint8_t *a, int  a_stride,
                             const uint8_t *b, int  b_stride,
                             int  w, int  h, unsigned int *sse, int *sum) {
  int i, j;

  *sum = 0;
  *sse = 0;

  for (i = 0; i < h; i++) {
    for (j = 0; j < w; j++) {
      const int diff = a[j] - b[j];
      *sum += diff;
      *sse += diff * diff;
    }

    a += a_stride;
    b += b_stride;
  }
}

#if CONFIG_VP9_HIGHBITDEPTH
static void encoder_highbd_variance64(const uint8_t *a8, int  a_stride,
                                      const uint8_t *b8, int  b_stride,
                                      int w, int h, uint64_t *sse,
                                      uint64_t *sum) {
  int i, j;

  uint16_t *a = CONVERT_TO_SHORTPTR(a8);
  uint16_t *b = CONVERT_TO_SHORTPTR(b8);
  *sum = 0;
  *sse = 0;

  for (i = 0; i < h; i++) {
    for (j = 0; j < w; j++) {
      const int diff = a[j] - b[j];
      *sum += diff;
      *sse += diff * diff;
    }
    a += a_stride;
    b += b_stride;
  }
}

static void encoder_highbd_8_variance(const uint8_t *a8, int  a_stride,
                                      const uint8_t *b8, int  b_stride,
                                      int w, int h,
                                      unsigned int *sse, int *sum) {
  uint64_t sse_long = 0;
  uint64_t sum_long = 0;
  encoder_highbd_variance64(a8, a_stride, b8, b_stride, w, h,
                            &sse_long, &sum_long);
  *sse = (unsigned int)sse_long;
  *sum = (int)sum_long;
}
#endif  // CONFIG_VP9_HIGHBITDEPTH

static int64_t get_sse(const uint8_t *a, int a_stride,
                       const uint8_t *b, int b_stride,
                       int width, int height) {
  const int dw = width % 16;
  const int dh = height % 16;
  int64_t total_sse = 0;
  unsigned int sse = 0;
  int sum = 0;
  int x, y;

  if (dw > 0) {
    encoder_variance(&a[width - dw], a_stride, &b[width - dw], b_stride,
                     dw, height, &sse, &sum);
    total_sse += sse;
  }

  if (dh > 0) {
    encoder_variance(&a[(height - dh) * a_stride], a_stride,
                     &b[(height - dh) * b_stride], b_stride,
                     width - dw, dh, &sse, &sum);
    total_sse += sse;
  }

  for (y = 0; y < height / 16; ++y) {
    const uint8_t *pa = a;
    const uint8_t *pb = b;
    for (x = 0; x < width / 16; ++x) {
      vpx_mse16x16(pa, a_stride, pb, b_stride, &sse);
      total_sse += sse;

      pa += 16;
      pb += 16;
    }

    a += 16 * a_stride;
    b += 16 * b_stride;
  }

  return total_sse;
}

#if CONFIG_VP9_HIGHBITDEPTH
static int64_t highbd_get_sse_shift(const uint8_t *a8, int a_stride,
                                    const uint8_t *b8, int b_stride,
                                    int width, int height,
                                    unsigned int input_shift) {
  const uint16_t *a = CONVERT_TO_SHORTPTR(a8);
  const uint16_t *b = CONVERT_TO_SHORTPTR(b8);
  int64_t total_sse = 0;
  int x, y;
  for (y = 0; y < height; ++y) {
    for (x = 0; x < width; ++x) {
      int64_t diff;
      diff = (a[x] >> input_shift) - (b[x] >> input_shift);
      total_sse += diff * diff;
    }
    a += a_stride;
    b += b_stride;
  }
  return total_sse;
}

static int64_t highbd_get_sse(const uint8_t *a, int a_stride,
                              const uint8_t *b, int b_stride,
                              int width, int height) {
  int64_t total_sse = 0;
  int x, y;
  const int dw = width % 16;
  const int dh = height % 16;
  unsigned int sse = 0;
  int sum = 0;
  if (dw > 0) {
    encoder_highbd_8_variance(&a[width - dw], a_stride,
                              &b[width - dw], b_stride,
                              dw, height, &sse, &sum);
    total_sse += sse;
  }
  if (dh > 0) {
    encoder_highbd_8_variance(&a[(height - dh) * a_stride], a_stride,
                              &b[(height - dh) * b_stride], b_stride,
                              width - dw, dh, &sse, &sum);
    total_sse += sse;
  }
  for (y = 0; y < height / 16; ++y) {
    const uint8_t *pa = a;
    const uint8_t *pb = b;
    for (x = 0; x < width / 16; ++x) {
      vpx_highbd_8_mse16x16(pa, a_stride, pb, b_stride, &sse);
      total_sse += sse;
      pa += 16;
      pb += 16;
    }
    a += 16 * a_stride;
    b += 16 * b_stride;
  }
  return total_sse;
}
#endif  // CONFIG_VP9_HIGHBITDEPTH

typedef struct {
  double psnr[4];       // total/y/u/v
  uint64_t sse[4];      // total/y/u/v
  uint32_t samples[4];  // total/y/u/v
} PSNR_STATS;

static void calc_psnr(const YV12_BUFFER_CONFIG *a, const YV12_BUFFER_CONFIG *b,
                      PSNR_STATS *psnr) {
  static const double peak = 255.0;
  const int widths[3]        = {
      a->y_crop_width, a->uv_crop_width, a->uv_crop_width};
  const int heights[3]       = {
      a->y_crop_height, a->uv_crop_height, a->uv_crop_height};
  const uint8_t *a_planes[3] = {a->y_buffer, a->u_buffer, a->v_buffer};
  const int a_strides[3]     = {a->y_stride, a->uv_stride, a->uv_stride};
  const uint8_t *b_planes[3] = {b->y_buffer, b->u_buffer, b->v_buffer};
  const int b_strides[3]     = {b->y_stride, b->uv_stride, b->uv_stride};
  int i;
  uint64_t total_sse = 0;
  uint32_t total_samples = 0;

  for (i = 0; i < 3; ++i) {
    const int w = widths[i];
    const int h = heights[i];
    const uint32_t samples = w * h;
    const uint64_t sse = get_sse(a_planes[i], a_strides[i],
                                 b_planes[i], b_strides[i],
                                 w, h);
    psnr->sse[1 + i] = sse;
    psnr->samples[1 + i] = samples;
    psnr->psnr[1 + i] = vpx_sse_to_psnr(samples, peak, (double)sse);

    total_sse += sse;
    total_samples += samples;
  }

  psnr->sse[0] = total_sse;
  psnr->samples[0] = total_samples;
  psnr->psnr[0] = vpx_sse_to_psnr((double)total_samples, peak,
                                  (double)total_sse);
}

#if CONFIG_VP9_HIGHBITDEPTH
static void calc_highbd_psnr(const YV12_BUFFER_CONFIG *a,
                             const YV12_BUFFER_CONFIG *b,
                             PSNR_STATS *psnr,
                             unsigned int bit_depth,
                             unsigned int in_bit_depth) {
  const int widths[3] =
      {a->y_crop_width,  a->uv_crop_width,  a->uv_crop_width };
  const int heights[3] =
      {a->y_crop_height, a->uv_crop_height, a->uv_crop_height};
  const uint8_t *a_planes[3] = {a->y_buffer, a->u_buffer,  a->v_buffer };
  const int a_strides[3] = {a->y_stride, a->uv_stride, a->uv_stride};
  const uint8_t *b_planes[3] = {b->y_buffer, b->u_buffer,  b->v_buffer };
  const int b_strides[3] = {b->y_stride, b->uv_stride, b->uv_stride};
  int i;
  uint64_t total_sse = 0;
  uint32_t total_samples = 0;
  const double peak = (double)((1 << in_bit_depth) - 1);
  const unsigned int input_shift = bit_depth - in_bit_depth;

  for (i = 0; i < 3; ++i) {
    const int w = widths[i];
    const int h = heights[i];
    const uint32_t samples = w * h;
    uint64_t sse;
    if (a->flags & YV12_FLAG_HIGHBITDEPTH) {
      if (input_shift) {
        sse = highbd_get_sse_shift(a_planes[i], a_strides[i],
                                   b_planes[i], b_strides[i], w, h,
                                   input_shift);
      } else {
        sse = highbd_get_sse(a_planes[i], a_strides[i],
                             b_planes[i], b_strides[i], w, h);
      }
    } else {
      sse = get_sse(a_planes[i], a_strides[i],
                    b_planes[i], b_strides[i],
                    w, h);
    }
    psnr->sse[1 + i] = sse;
    psnr->samples[1 + i] = samples;
    psnr->psnr[1 + i] = vpx_sse_to_psnr(samples, peak, (double)sse);

    total_sse += sse;
    total_samples += samples;
  }

  psnr->sse[0] = total_sse;
  psnr->samples[0] = total_samples;
  psnr->psnr[0] = vpx_sse_to_psnr((double)total_samples, peak,
                                  (double)total_sse);
}
#endif  // CONFIG_VP9_HIGHBITDEPTH

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static void generate_psnr_packet(VP10_COMP *cpi) {
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