vp9_decodeframe.c 74.3 KB
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/*
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 *  Copyright (c) 2010 The WebM project authors. All Rights Reserved.
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 *
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 *  Use of this source code is governed by a BSD-style license
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 *  that can be found in the LICENSE file in the root of the source
 *  tree. An additional intellectual property rights grant can be found
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 *  in the file PATENTS.  All contributing project authors may
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 *  be found in the AUTHORS file in the root of the source tree.
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 */

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#include <assert.h>
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#include <stdlib.h>  // qsort()
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#include "./vp9_rtcd.h"
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#include "./vpx_scale_rtcd.h"

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#include "vpx_mem/vpx_mem.h"
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#include "vpx_ports/mem.h"
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#include "vpx_ports/mem_ops.h"
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#include "vpx_scale/vpx_scale.h"

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#include "vp9/common/vp9_alloccommon.h"
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#include "vp9/common/vp9_common.h"
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#include "vp9/common/vp9_entropy.h"
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#include "vp9/common/vp9_entropymode.h"
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#include "vp9/common/vp9_idct.h"
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#include "vp9/common/vp9_thread_common.h"
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#include "vp9/common/vp9_pred_common.h"
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#include "vp9/common/vp9_quant_common.h"
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#include "vp9/common/vp9_reconintra.h"
#include "vp9/common/vp9_reconinter.h"
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#include "vp9/common/vp9_seg_common.h"
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#include "vp9/common/vp9_thread.h"
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#include "vp9/common/vp9_tile_common.h"
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#include "vp9/decoder/vp9_decodeframe.h"
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#include "vp9/decoder/vp9_detokenize.h"
#include "vp9/decoder/vp9_decodemv.h"
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#include "vp9/decoder/vp9_decoder.h"
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#include "vp9/decoder/vp9_dsubexp.h"
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#include "vp9/decoder/vp9_read_bit_buffer.h"
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#include "vp9/decoder/vp9_reader.h"
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#define MAX_VP9_HEADER_SIZE 80

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static int is_compound_reference_allowed(const VP9_COMMON *cm) {
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  int i;
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  for (i = 1; i < REFS_PER_FRAME; ++i)
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    if (cm->ref_frame_sign_bias[i + 1] != cm->ref_frame_sign_bias[1])
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      return 1;

  return 0;
}

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static void setup_compound_reference_mode(VP9_COMMON *cm) {
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  if (cm->ref_frame_sign_bias[LAST_FRAME] ==
          cm->ref_frame_sign_bias[GOLDEN_FRAME]) {
    cm->comp_fixed_ref = ALTREF_FRAME;
    cm->comp_var_ref[0] = LAST_FRAME;
    cm->comp_var_ref[1] = GOLDEN_FRAME;
  } else if (cm->ref_frame_sign_bias[LAST_FRAME] ==
                 cm->ref_frame_sign_bias[ALTREF_FRAME]) {
    cm->comp_fixed_ref = GOLDEN_FRAME;
    cm->comp_var_ref[0] = LAST_FRAME;
    cm->comp_var_ref[1] = ALTREF_FRAME;
  } else {
    cm->comp_fixed_ref = LAST_FRAME;
    cm->comp_var_ref[0] = GOLDEN_FRAME;
    cm->comp_var_ref[1] = ALTREF_FRAME;
  }
}

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static int read_is_valid(const uint8_t *start, size_t len, const uint8_t *end) {
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  return len != 0 && len <= (size_t)(end - start);
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}

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static int decode_unsigned_max(struct vp9_read_bit_buffer *rb, int max) {
  const int data = vp9_rb_read_literal(rb, get_unsigned_bits(max));
  return data > max ? max : data;
}

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static TX_MODE read_tx_mode(vp9_reader *r) {
  TX_MODE tx_mode = vp9_read_literal(r, 2);
  if (tx_mode == ALLOW_32X32)
    tx_mode += vp9_read_bit(r);
  return tx_mode;
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}

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static void read_tx_mode_probs(struct tx_probs *tx_probs, vp9_reader *r) {
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  int i, j;

  for (i = 0; i < TX_SIZE_CONTEXTS; ++i)
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    for (j = 0; j < TX_SIZES - 3; ++j)
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      vp9_diff_update_prob(r, &tx_probs->p8x8[i][j]);
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  for (i = 0; i < TX_SIZE_CONTEXTS; ++i)
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    for (j = 0; j < TX_SIZES - 2; ++j)
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      vp9_diff_update_prob(r, &tx_probs->p16x16[i][j]);
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  for (i = 0; i < TX_SIZE_CONTEXTS; ++i)
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    for (j = 0; j < TX_SIZES - 1; ++j)
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      vp9_diff_update_prob(r, &tx_probs->p32x32[i][j]);
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}

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static void read_switchable_interp_probs(FRAME_CONTEXT *fc, vp9_reader *r) {
  int i, j;
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  for (j = 0; j < SWITCHABLE_FILTER_CONTEXTS; ++j)
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    for (i = 0; i < SWITCHABLE_FILTERS - 1; ++i)
      vp9_diff_update_prob(r, &fc->switchable_interp_prob[j][i]);
}

static void read_inter_mode_probs(FRAME_CONTEXT *fc, vp9_reader *r) {
  int i, j;
  for (i = 0; i < INTER_MODE_CONTEXTS; ++i)
    for (j = 0; j < INTER_MODES - 1; ++j)
      vp9_diff_update_prob(r, &fc->inter_mode_probs[i][j]);
}

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static REFERENCE_MODE read_frame_reference_mode(const VP9_COMMON *cm,
                                                vp9_reader *r) {
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  if (is_compound_reference_allowed(cm)) {
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    return vp9_read_bit(r) ? (vp9_read_bit(r) ? REFERENCE_MODE_SELECT
                                              : COMPOUND_REFERENCE)
                           : SINGLE_REFERENCE;
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  } else {
    return SINGLE_REFERENCE;
  }
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}

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static void read_frame_reference_mode_probs(VP9_COMMON *cm, vp9_reader *r) {
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  FRAME_CONTEXT *const fc = cm->fc;
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  int i;
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  if (cm->reference_mode == REFERENCE_MODE_SELECT)
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    for (i = 0; i < COMP_INTER_CONTEXTS; ++i)
      vp9_diff_update_prob(r, &fc->comp_inter_prob[i]);
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  if (cm->reference_mode != COMPOUND_REFERENCE)
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    for (i = 0; i < REF_CONTEXTS; ++i) {
      vp9_diff_update_prob(r, &fc->single_ref_prob[i][0]);
      vp9_diff_update_prob(r, &fc->single_ref_prob[i][1]);
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    }

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  if (cm->reference_mode != SINGLE_REFERENCE)
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    for (i = 0; i < REF_CONTEXTS; ++i)
      vp9_diff_update_prob(r, &fc->comp_ref_prob[i]);
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}

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static void update_mv_probs(vp9_prob *p, int n, vp9_reader *r) {
  int i;
  for (i = 0; i < n; ++i)
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    if (vp9_read(r, MV_UPDATE_PROB))
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      p[i] = (vp9_read_literal(r, 7) << 1) | 1;
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}

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static void read_mv_probs(nmv_context *ctx, int allow_hp, vp9_reader *r) {
  int i, j;
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  update_mv_probs(ctx->joints, MV_JOINTS - 1, r);
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  for (i = 0; i < 2; ++i) {
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    nmv_component *const comp_ctx = &ctx->comps[i];
    update_mv_probs(&comp_ctx->sign, 1, r);
    update_mv_probs(comp_ctx->classes, MV_CLASSES - 1, r);
    update_mv_probs(comp_ctx->class0, CLASS0_SIZE - 1, r);
    update_mv_probs(comp_ctx->bits, MV_OFFSET_BITS, r);
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  }

  for (i = 0; i < 2; ++i) {
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    nmv_component *const comp_ctx = &ctx->comps[i];
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    for (j = 0; j < CLASS0_SIZE; ++j)
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      update_mv_probs(comp_ctx->class0_fp[j], MV_FP_SIZE - 1, r);
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    update_mv_probs(comp_ctx->fp, 3, r);
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  }

  if (allow_hp) {
    for (i = 0; i < 2; ++i) {
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      nmv_component *const comp_ctx = &ctx->comps[i];
      update_mv_probs(&comp_ctx->class0_hp, 1, r);
      update_mv_probs(&comp_ctx->hp, 1, r);
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    }
  }
}

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static void inverse_transform_block(MACROBLOCKD* xd, int plane, int block,
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                                    TX_SIZE tx_size, uint8_t *dst, int stride,
                                    int eob) {
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  struct macroblockd_plane *const pd = &xd->plane[plane];
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  if (eob > 0) {
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    TX_TYPE tx_type = DCT_DCT;
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    tran_low_t *const dqcoeff = BLOCK_OFFSET(pd->dqcoeff, block);
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#if CONFIG_VP9_HIGHBITDEPTH
    if (xd->cur_buf->flags & YV12_FLAG_HIGHBITDEPTH) {
      if (xd->lossless) {
        tx_type = DCT_DCT;
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        vp9_highbd_iwht4x4_add(dqcoeff, dst, stride, eob, xd->bd);
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      } else {
        const PLANE_TYPE plane_type = pd->plane_type;
        switch (tx_size) {
          case TX_4X4:
            tx_type = get_tx_type_4x4(plane_type, xd, block);
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            vp9_highbd_iht4x4_add(tx_type, dqcoeff, dst, stride, eob, xd->bd);
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            break;
          case TX_8X8:
            tx_type = get_tx_type(plane_type, xd);
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            vp9_highbd_iht8x8_add(tx_type, dqcoeff, dst, stride, eob, xd->bd);
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            break;
          case TX_16X16:
            tx_type = get_tx_type(plane_type, xd);
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            vp9_highbd_iht16x16_add(tx_type, dqcoeff, dst, stride, eob, xd->bd);
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            break;
          case TX_32X32:
            tx_type = DCT_DCT;
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            vp9_highbd_idct32x32_add(dqcoeff, dst, stride, eob, xd->bd);
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            break;
          default:
            assert(0 && "Invalid transform size");
        }
      }
    } else {
      if (xd->lossless) {
        tx_type = DCT_DCT;
        vp9_iwht4x4_add(dqcoeff, dst, stride, eob);
      } else {
        const PLANE_TYPE plane_type = pd->plane_type;
        switch (tx_size) {
          case TX_4X4:
            tx_type = get_tx_type_4x4(plane_type, xd, block);
            vp9_iht4x4_add(tx_type, dqcoeff, dst, stride, eob);
            break;
          case TX_8X8:
            tx_type = get_tx_type(plane_type, xd);
            vp9_iht8x8_add(tx_type, dqcoeff, dst, stride, eob);
            break;
          case TX_16X16:
            tx_type = get_tx_type(plane_type, xd);
            vp9_iht16x16_add(tx_type, dqcoeff, dst, stride, eob);
            break;
          case TX_32X32:
            tx_type = DCT_DCT;
            vp9_idct32x32_add(dqcoeff, dst, stride, eob);
            break;
          default:
            assert(0 && "Invalid transform size");
            return;
        }
      }
    }
#else
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    if (xd->lossless) {
      tx_type = DCT_DCT;
      vp9_iwht4x4_add(dqcoeff, dst, stride, eob);
    } else {
      const PLANE_TYPE plane_type = pd->plane_type;
      switch (tx_size) {
        case TX_4X4:
          tx_type = get_tx_type_4x4(plane_type, xd, block);
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          vp9_iht4x4_add(tx_type, dqcoeff, dst, stride, eob);
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          break;
        case TX_8X8:
          tx_type = get_tx_type(plane_type, xd);
          vp9_iht8x8_add(tx_type, dqcoeff, dst, stride, eob);
          break;
        case TX_16X16:
          tx_type = get_tx_type(plane_type, xd);
          vp9_iht16x16_add(tx_type, dqcoeff, dst, stride, eob);
          break;
        case TX_32X32:
          tx_type = DCT_DCT;
          vp9_idct32x32_add(dqcoeff, dst, stride, eob);
          break;
        default:
          assert(0 && "Invalid transform size");
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          return;
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      }
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    }
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#endif  // CONFIG_VP9_HIGHBITDEPTH
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    if (eob == 1) {
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      memset(dqcoeff, 0, 2 * sizeof(dqcoeff[0]));
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    } else {
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      if (tx_type == DCT_DCT && tx_size <= TX_16X16 && eob <= 10)
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        memset(dqcoeff, 0, 4 * (4 << tx_size) * sizeof(dqcoeff[0]));
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      else if (tx_size == TX_32X32 && eob <= 34)
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        memset(dqcoeff, 0, 256 * sizeof(dqcoeff[0]));
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      else
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        memset(dqcoeff, 0, (16 << (tx_size << 1)) * sizeof(dqcoeff[0]));
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    }
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  }
}

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struct intra_args {
  MACROBLOCKD *xd;
  vp9_reader *r;
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  int seg_id;
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};

static void predict_and_reconstruct_intra_block(int plane, int block,
                                                BLOCK_SIZE plane_bsize,
                                                TX_SIZE tx_size, void *arg) {
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  struct intra_args *const args = (struct intra_args *)arg;
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  MACROBLOCKD *const xd = args->xd;
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  struct macroblockd_plane *const pd = &xd->plane[plane];
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  MODE_INFO *const mi = xd->mi[0];
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  const PREDICTION_MODE mode = (plane == 0) ? get_y_mode(mi, block)
                                            : mi->mbmi.uv_mode;
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  int x, y;
  uint8_t *dst;
  txfrm_block_to_raster_xy(plane_bsize, tx_size, block, &x, &y);
  dst = &pd->dst.buf[4 * y * pd->dst.stride + 4 * x];
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  vp9_predict_intra_block(xd, block >> (tx_size << 1),
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                          b_width_log2_lookup[plane_bsize], tx_size, mode,
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                          dst, pd->dst.stride, dst, pd->dst.stride,
                          x, y, plane);
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  if (!mi->mbmi.skip) {
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    const int eob = vp9_decode_block_tokens(xd, plane, block,
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                                            plane_bsize, x, y, tx_size,
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                                            args->r, args->seg_id);
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    inverse_transform_block(xd, plane, block, tx_size, dst, pd->dst.stride,
                            eob);
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  }
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}

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struct inter_args {
  MACROBLOCKD *xd;
  vp9_reader *r;
  int *eobtotal;
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  int seg_id;
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};

static void reconstruct_inter_block(int plane, int block,
                                    BLOCK_SIZE plane_bsize,
                                    TX_SIZE tx_size, void *arg) {
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  struct inter_args *args = (struct inter_args *)arg;
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  MACROBLOCKD *const xd = args->xd;
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  struct macroblockd_plane *const pd = &xd->plane[plane];
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  int x, y, eob;
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  txfrm_block_to_raster_xy(plane_bsize, tx_size, block, &x, &y);
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  eob = vp9_decode_block_tokens(xd, plane, block, plane_bsize,
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                                x, y, tx_size, args->r, args->seg_id);
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  inverse_transform_block(xd, plane, block, tx_size,
                          &pd->dst.buf[4 * y * pd->dst.stride + 4 * x],
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                          pd->dst.stride, eob);
  *args->eobtotal += eob;
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}

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static MB_MODE_INFO *set_offsets(VP9_COMMON *const cm, MACROBLOCKD *const xd,
                                 const TileInfo *const tile,
                                 BLOCK_SIZE bsize, int mi_row, int mi_col) {
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  const int bw = num_8x8_blocks_wide_lookup[bsize];
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  const int bh = num_8x8_blocks_high_lookup[bsize];
  const int x_mis = MIN(bw, cm->mi_cols - mi_col);
  const int y_mis = MIN(bh, cm->mi_rows - mi_row);
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  const int offset = mi_row * cm->mi_stride + mi_col;
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  int x, y;
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  xd->mi = cm->mi_grid_visible + offset;
  xd->mi[0] = &cm->mi[offset];
  xd->mi[0]->mbmi.sb_type = bsize;
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  for (y = 0; y < y_mis; ++y)
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    for (x = !y; x < x_mis; ++x) {
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      xd->mi[y * cm->mi_stride + x] = xd->mi[0];
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    }
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  set_skip_context(xd, mi_row, mi_col);
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  // Distance of Mb to the various image edges. These are specified to 8th pel
  // as they are always compared to values that are in 1/8th pel units
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  set_mi_row_col(xd, tile, mi_row, bh, mi_col, bw, cm->mi_rows, cm->mi_cols);
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  vp9_setup_dst_planes(xd->plane, get_frame_new_buffer(cm), mi_row, mi_col);
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  return &xd->mi[0]->mbmi;
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}
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static void decode_block(VP9Decoder *const pbi, MACROBLOCKD *const xd,
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                         const TileInfo *const tile,
                         int mi_row, int mi_col,
                         vp9_reader *r, BLOCK_SIZE bsize) {
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  VP9_COMMON *const cm = &pbi->common;
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  const int less8x8 = bsize < BLOCK_8X8;
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  MB_MODE_INFO *mbmi = set_offsets(cm, xd, tile, bsize, mi_row, mi_col);
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  if (bsize >= BLOCK_8X8 && (cm->subsampling_x || cm->subsampling_y)) {
    const BLOCK_SIZE uv_subsize =
        ss_size_lookup[bsize][cm->subsampling_x][cm->subsampling_y];
    if (uv_subsize == BLOCK_INVALID)
      vpx_internal_error(xd->error_info,
                         VPX_CODEC_CORRUPT_FRAME, "Invalid block size.");
  }

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  vp9_read_mode_info(pbi, xd, tile, mi_row, mi_col, r);
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  if (less8x8)
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    bsize = BLOCK_8X8;
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  if (mbmi->skip) {
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    reset_skip_context(xd, bsize);
  }
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  if (!is_inter_block(mbmi)) {
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    struct intra_args arg = {xd, r, mbmi->segment_id};
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    vp9_foreach_transformed_block(xd, bsize,
                                  predict_and_reconstruct_intra_block, &arg);
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  } else {
    // Prediction
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    vp9_dec_build_inter_predictors_sb(pbi, xd, mi_row, mi_col, bsize);
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    // Reconstruction
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    if (!mbmi->skip) {
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      int eobtotal = 0;
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      struct inter_args arg = {xd, r, &eobtotal, mbmi->segment_id};
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      vp9_foreach_transformed_block(xd, bsize, reconstruct_inter_block, &arg);
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      if (!less8x8 && eobtotal == 0)
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        mbmi->skip = 1;  // skip loopfilter
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    }
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  }
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  xd->corrupted |= vp9_reader_has_error(r);
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}

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static PARTITION_TYPE read_partition(VP9_COMMON *cm, MACROBLOCKD *xd,
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                                     int hbs,
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                                     int mi_row, int mi_col, BLOCK_SIZE bsize,
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                                     vp9_reader *r) {
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  const int ctx = partition_plane_context(xd, mi_row, mi_col, bsize);
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  const vp9_prob *const probs = get_partition_probs(cm, ctx);
  const int has_rows = (mi_row + hbs) < cm->mi_rows;
  const int has_cols = (mi_col + hbs) < cm->mi_cols;
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  FRAME_COUNTS *counts = xd->counts;
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  PARTITION_TYPE p;
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  if (has_rows && has_cols)
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    p = (PARTITION_TYPE)vp9_read_tree(r, vp9_partition_tree, probs);
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  else if (!has_rows && has_cols)
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    p = vp9_read(r, probs[1]) ? PARTITION_SPLIT : PARTITION_HORZ;
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  else if (has_rows && !has_cols)
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    p = vp9_read(r, probs[2]) ? PARTITION_SPLIT : PARTITION_VERT;
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  else
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    p = PARTITION_SPLIT;

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  if (counts)
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    ++counts->partition[ctx][p];
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  return p;
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}

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static void decode_partition(VP9Decoder *const pbi, MACROBLOCKD *const xd,
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                             const TileInfo *const tile,
                             int mi_row, int mi_col,
                             vp9_reader* r, BLOCK_SIZE bsize) {
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  VP9_COMMON *const cm = &pbi->common;
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  const int hbs = num_8x8_blocks_wide_lookup[bsize] / 2;
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  PARTITION_TYPE partition;
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  BLOCK_SIZE subsize;
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  if (mi_row >= cm->mi_rows || mi_col >= cm->mi_cols)
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    return;

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  partition = read_partition(cm, xd, hbs, mi_row, mi_col, bsize, r);
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  subsize = get_subsize(bsize, partition);
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  if (bsize == BLOCK_8X8) {
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    decode_block(pbi, xd, tile, mi_row, mi_col, r, subsize);
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  } else {
    switch (partition) {
      case PARTITION_NONE:
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        decode_block(pbi, xd, tile, mi_row, mi_col, r, subsize);
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        break;
      case PARTITION_HORZ:
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        decode_block(pbi, xd, tile, mi_row, mi_col, r, subsize);
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        if (mi_row + hbs < cm->mi_rows)
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          decode_block(pbi, xd, tile, mi_row + hbs, mi_col, r, subsize);
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        break;
      case PARTITION_VERT:
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        decode_block(pbi, xd, tile, mi_row, mi_col, r, subsize);
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        if (mi_col + hbs < cm->mi_cols)
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          decode_block(pbi, xd, tile, mi_row, mi_col + hbs, r, subsize);
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        break;
      case PARTITION_SPLIT:
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        decode_partition(pbi, xd, tile, mi_row, mi_col, r, subsize);
        decode_partition(pbi, xd, tile, mi_row, mi_col + hbs, r, subsize);
        decode_partition(pbi, xd, tile, mi_row + hbs, mi_col, r, subsize);
        decode_partition(pbi, xd, tile, mi_row + hbs, mi_col + hbs, r, subsize);
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        break;
      default:
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        assert(0 && "Invalid partition type");
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    }
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  }
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  // update partition context
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  if (bsize >= BLOCK_8X8 &&
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      (bsize == BLOCK_8X8 || partition != PARTITION_SPLIT))
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    update_partition_context(xd, mi_row, mi_col, subsize, bsize);
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}

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static void setup_token_decoder(const uint8_t *data,
                                const uint8_t *data_end,
                                size_t read_size,
                                struct vpx_internal_error_info *error_info,
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                                vp9_reader *r,
                                vpx_decrypt_cb decrypt_cb,
                                void *decrypt_state) {
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  // Validate the calculated partition length. If the buffer
  // described by the partition can't be fully read, then restrict
  // it to the portion that can be (for EC mode) or throw an error.
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  if (!read_is_valid(data, read_size, data_end))
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    vpx_internal_error(error_info, VPX_CODEC_CORRUPT_FRAME,
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                       "Truncated packet or corrupt tile length");
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  if (vp9_reader_init(r, data, read_size, decrypt_cb, decrypt_state))
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    vpx_internal_error(error_info, VPX_CODEC_MEM_ERROR,
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                       "Failed to allocate bool decoder %d", 1);
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}

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static void read_coef_probs_common(vp9_coeff_probs_model *coef_probs,
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                                   vp9_reader *r) {
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  int i, j, k, l, m;

  if (vp9_read_bit(r))
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    for (i = 0; i < PLANE_TYPES; ++i)
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      for (j = 0; j < REF_TYPES; ++j)
        for (k = 0; k < COEF_BANDS; ++k)
          for (l = 0; l < BAND_COEFF_CONTEXTS(k); ++l)
            for (m = 0; m < UNCONSTRAINED_NODES; ++m)
              vp9_diff_update_prob(r, &coef_probs[i][j][k][l][m]);
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}
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static void read_coef_probs(FRAME_CONTEXT *fc, TX_MODE tx_mode,
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                            vp9_reader *r) {
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    const TX_SIZE max_tx_size = tx_mode_to_biggest_tx_size[tx_mode];
    TX_SIZE tx_size;
    for (tx_size = TX_4X4; tx_size <= max_tx_size; ++tx_size)
      read_coef_probs_common(fc->coef_probs[tx_size], r);
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}

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static void setup_segmentation(struct segmentation *seg,
                               struct vp9_read_bit_buffer *rb) {
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  int i, j;

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  seg->update_map = 0;
  seg->update_data = 0;
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  seg->enabled = vp9_rb_read_bit(rb);
  if (!seg->enabled)
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    return;

  // Segmentation map update
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  seg->update_map = vp9_rb_read_bit(rb);
  if (seg->update_map) {
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    for (i = 0; i < SEG_TREE_PROBS; i++)
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      seg->tree_probs[i] = vp9_rb_read_bit(rb) ? vp9_rb_read_literal(rb, 8)
                                               : MAX_PROB;
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    seg->temporal_update = vp9_rb_read_bit(rb);
    if (seg->temporal_update) {
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      for (i = 0; i < PREDICTION_PROBS; i++)
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        seg->pred_probs[i] = vp9_rb_read_bit(rb) ? vp9_rb_read_literal(rb, 8)
                                                 : MAX_PROB;
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    } else {
      for (i = 0; i < PREDICTION_PROBS; i++)
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        seg->pred_probs[i] = MAX_PROB;
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    }
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  }
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  // Segmentation data update
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  seg->update_data = vp9_rb_read_bit(rb);
  if (seg->update_data) {
    seg->abs_delta = vp9_rb_read_bit(rb);
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    vp9_clearall_segfeatures(seg);
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    for (i = 0; i < MAX_SEGMENTS; i++) {
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      for (j = 0; j < SEG_LVL_MAX; j++) {
        int data = 0;
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        const int feature_enabled = vp9_rb_read_bit(rb);
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        if (feature_enabled) {
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          vp9_enable_segfeature(seg, i, j);
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          data = decode_unsigned_max(rb, vp9_seg_feature_data_max(j));
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          if (vp9_is_segfeature_signed(j))
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            data = vp9_rb_read_bit(rb) ? -data : data;
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        }
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        vp9_set_segdata(seg, i, j, data);
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      }
    }
  }
}

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static void setup_loopfilter(struct loopfilter *lf,
                             struct vp9_read_bit_buffer *rb) {
  lf->filter_level = vp9_rb_read_literal(rb, 6);
  lf->sharpness_level = vp9_rb_read_literal(rb, 3);
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  // Read in loop filter deltas applied at the MB level based on mode or ref
  // frame.
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  lf->mode_ref_delta_update = 0;
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  lf->mode_ref_delta_enabled = vp9_rb_read_bit(rb);
  if (lf->mode_ref_delta_enabled) {
    lf->mode_ref_delta_update = vp9_rb_read_bit(rb);
    if (lf->mode_ref_delta_update) {
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      int i;

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      for (i = 0; i < MAX_REF_LF_DELTAS; i++)
        if (vp9_rb_read_bit(rb))
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          lf->ref_deltas[i] = vp9_rb_read_signed_literal(rb, 6);
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      for (i = 0; i < MAX_MODE_LF_DELTAS; i++)
        if (vp9_rb_read_bit(rb))
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          lf->mode_deltas[i] = vp9_rb_read_signed_literal(rb, 6);
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    }
  }
}

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static INLINE int read_delta_q(struct vp9_read_bit_buffer *rb) {
  return vp9_rb_read_bit(rb) ? vp9_rb_read_signed_literal(rb, 4) : 0;
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}
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static void setup_quantization(VP9_COMMON *const cm, MACROBLOCKD *const xd,
                               struct vp9_read_bit_buffer *rb) {
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  cm->base_qindex = vp9_rb_read_literal(rb, QINDEX_BITS);
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  cm->y_dc_delta_q = read_delta_q(rb);
  cm->uv_dc_delta_q = read_delta_q(rb);
  cm->uv_ac_delta_q = read_delta_q(rb);
  cm->dequant_bit_depth = cm->bit_depth;
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  xd->lossless = cm->base_qindex == 0 &&
                 cm->y_dc_delta_q == 0 &&
                 cm->uv_dc_delta_q == 0 &&
                 cm->uv_ac_delta_q == 0;
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#if CONFIG_VP9_HIGHBITDEPTH
  xd->bd = (int)cm->bit_depth;
#endif
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}

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static void setup_segmentation_dequant(VP9_COMMON *const cm) {
  // Build y/uv dequant values based on segmentation.
  if (cm->seg.enabled) {
    int i;
    for (i = 0; i < MAX_SEGMENTS; ++i) {
      const int qindex = vp9_get_qindex(&cm->seg, i, cm->base_qindex);
      cm->y_dequant[i][0] = vp9_dc_quant(qindex, cm->y_dc_delta_q,
                                         cm->bit_depth);
      cm->y_dequant[i][1] = vp9_ac_quant(qindex, 0, cm->bit_depth);
      cm->uv_dequant[i][0] = vp9_dc_quant(qindex, cm->uv_dc_delta_q,
                                          cm->bit_depth);
      cm->uv_dequant[i][1] = vp9_ac_quant(qindex, cm->uv_ac_delta_q,
                                          cm->bit_depth);
    }
  } else {
    const int qindex = cm->base_qindex;
    // When segmentation is disabled, only the first value is used.  The
    // remaining are don't cares.
    cm->y_dequant[0][0] = vp9_dc_quant(qindex, cm->y_dc_delta_q, cm->bit_depth);
    cm->y_dequant[0][1] = vp9_ac_quant(qindex, 0, cm->bit_depth);
    cm->uv_dequant[0][0] = vp9_dc_quant(qindex, cm->uv_dc_delta_q,
                                        cm->bit_depth);
    cm->uv_dequant[0][1] = vp9_ac_quant(qindex, cm->uv_ac_delta_q,
                                        cm->bit_depth);
  }
}

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static INTERP_FILTER read_interp_filter(struct vp9_read_bit_buffer *rb) {
  const INTERP_FILTER literal_to_filter[] = { EIGHTTAP_SMOOTH,
                                              EIGHTTAP,
                                              EIGHTTAP_SHARP,
                                              BILINEAR };
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  return vp9_rb_read_bit(rb) ? SWITCHABLE
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                             : literal_to_filter[vp9_rb_read_literal(rb, 2)];
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}

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void vp9_read_frame_size(struct vp9_read_bit_buffer *rb,
                         int *width, int *height) {
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  *width = vp9_rb_read_literal(rb, 16) + 1;
  *height = vp9_rb_read_literal(rb, 16) + 1;
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}

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static void setup_display_size(VP9_COMMON *cm, struct vp9_read_bit_buffer *rb) {
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  cm->display_width = cm->width;
  cm->display_height = cm->height;
  if (vp9_rb_read_bit(rb))
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    vp9_read_frame_size(rb, &cm->display_width, &cm->display_height);
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}
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static void resize_mv_buffer(VP9_COMMON *cm) {
  vpx_free(cm->cur_frame->mvs);
  cm->cur_frame->mi_rows = cm->mi_rows;
  cm->cur_frame->mi_cols = cm->mi_cols;
  cm->cur_frame->mvs = (MV_REF *)vpx_calloc(cm->mi_rows * cm->mi_cols,
                                            sizeof(*cm->cur_frame->mvs));
}

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static void resize_context_buffers(VP9_COMMON *cm, int width, int height) {
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#if CONFIG_SIZE_LIMIT
  if (width > DECODE_WIDTH_LIMIT || height > DECODE_HEIGHT_LIMIT)
    vpx_internal_error(&cm->error, VPX_CODEC_CORRUPT_FRAME,
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                       "Dimensions of %dx%d beyond allowed size of %dx%d.",
                       width, height, DECODE_WIDTH_LIMIT, DECODE_HEIGHT_LIMIT);
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#endif
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  if (cm->width != width || cm->height != height) {
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    const int new_mi_rows =
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        ALIGN_POWER_OF_TWO(height, MI_SIZE_LOG2) >> MI_SIZE_LOG2;
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    const int new_mi_cols =
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        ALIGN_POWER_OF_TWO(width,  MI_SIZE_LOG2) >> MI_SIZE_LOG2;

    // Allocations in vp9_alloc_context_buffers() depend on individual
    // dimensions as well as the overall size.
    if (new_mi_cols > cm->mi_cols || new_mi_rows > cm->mi_rows) {
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      if (vp9_alloc_context_buffers(cm, width, height))
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        vpx_internal_error(&cm->error, VPX_CODEC_MEM_ERROR,
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                           "Failed to allocate context buffers");
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    } else {
      vp9_set_mb_mi(cm, width, height);
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    }
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    vp9_init_context_buffers(cm);
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    cm->width = width;
    cm->height = height;
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  }
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  if (cm->cur_frame->mvs == NULL || cm->mi_rows > cm->cur_frame->mi_rows ||
      cm->mi_cols > cm->cur_frame->mi_cols) {
    resize_mv_buffer(cm);
  }
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}

static void setup_frame_size(VP9_COMMON *cm, struct vp9_read_bit_buffer *rb) {
  int width, height;
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  BufferPool *const pool = cm->buffer_pool;
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  vp9_read_frame_size(rb, &width, &height);
  resize_context_buffers(cm, width, height);
  setup_display_size(cm, rb);
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  lock_buffer_pool(pool);
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  if (vp9_realloc_frame_buffer(
          get_frame_new_buffer(cm), cm->width, cm->height,
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          cm->subsampling_x, cm->subsampling_y,
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          cm->use_highbitdepth,
#endif
          VP9_DEC_BORDER_IN_PIXELS,
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          cm->byte_alignment,
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          &pool->frame_bufs[cm->new_fb_idx].raw_frame_buffer, pool->get_fb_cb,
          pool->cb_priv)) {
    unlock_buffer_pool(pool);
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    vpx_internal_error(&cm->error, VPX_CODEC_MEM_ERROR,
                       "Failed to allocate frame buffer");
  }