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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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#ifndef VP9_ENCODER_VP9_ONYX_INT_H_
#define VP9_ENCODER_VP9_ONYX_INT_H_
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#include <stdio.h>
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#include "./vpx_config.h"
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#include "vpx_ports/mem.h"
#include "vpx/internal/vpx_codec_internal.h"
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#include "vpx/vp8cx.h"
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#include "vp9/common/vp9_ppflags.h"
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#include "vp9/common/vp9_entropy.h"
#include "vp9/common/vp9_entropymode.h"
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#include "vp9/common/vp9_onyxc_int.h"
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#include "vp9/encoder/vp9_encodemb.h"
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#include "vp9/encoder/vp9_firstpass.h"
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#include "vp9/encoder/vp9_lookahead.h"
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#include "vp9/encoder/vp9_mbgraph.h"
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#include "vp9/encoder/vp9_mcomp.h"
#include "vp9/encoder/vp9_quantize.h"
#include "vp9/encoder/vp9_ratectrl.h"
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#include "vp9/encoder/vp9_svc_layercontext.h"
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#include "vp9/encoder/vp9_tokenize.h"
#include "vp9/encoder/vp9_variance.h"
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#ifdef __cplusplus
extern "C" {
#endif

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// #define MODE_TEST_HIT_STATS
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#define DEFAULT_GF_INTERVAL         10
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#define MAX_MODES 30
#define MAX_REFS  6
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typedef struct {
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  int nmvjointcost[MV_JOINTS];
  int nmvcosts[2][MV_VALS];
  int nmvcosts_hp[2][MV_VALS];
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  vp9_prob segment_pred_probs[PREDICTION_PROBS];
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  unsigned char *last_frame_seg_map_copy;
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  // 0 = Intra, Last, GF, ARF
  signed char last_ref_lf_deltas[MAX_REF_LF_DELTAS];
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  // 0 = ZERO_MV, MV
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  signed char last_mode_lf_deltas[MAX_MODE_LF_DELTAS];
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  FRAME_CONTEXT fc;
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} CODING_CONTEXT;

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// This enumerator type needs to be kept aligned with the mode order in
// const MODE_DEFINITION vp9_mode_order[MAX_MODES] used in the rd code.
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typedef enum {
  THR_NEARESTMV,
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  THR_NEARESTA,
  THR_NEARESTG,
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  THR_DC,

  THR_NEWMV,
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  THR_NEWA,
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  THR_NEWG,

  THR_NEARMV,
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  THR_NEARA,
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  THR_COMP_NEARESTLA,
  THR_COMP_NEARESTGA,
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  THR_TM,
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  THR_COMP_NEARLA,
  THR_COMP_NEWLA,
  THR_NEARG,
  THR_COMP_NEARGA,
  THR_COMP_NEWGA,
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  THR_ZEROMV,
  THR_ZEROG,
  THR_ZEROA,
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  THR_COMP_ZEROLA,
  THR_COMP_ZEROGA,
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  THR_H_PRED,
  THR_V_PRED,
  THR_D135_PRED,
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  THR_D207_PRED,
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  THR_D153_PRED,
  THR_D63_PRED,
  THR_D117_PRED,
  THR_D45_PRED,
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} THR_MODES;
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typedef enum {
  THR_LAST,
  THR_GOLD,
  THR_ALTR,
  THR_COMP_LA,
  THR_COMP_GA,
  THR_INTRA,
} THR_MODES_SUB8X8;

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typedef enum {
  DIAMOND = 0,
  NSTEP = 1,
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  HEX = 2,
  BIGDIA = 3,
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  SQUARE = 4,
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  FAST_HEX = 5,
  FAST_DIAMOND = 6
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} SEARCH_METHODS;

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typedef enum {
  USE_FULL_RD = 0,
  USE_LARGESTINTRA,
  USE_LARGESTINTRA_MODELINTER,
  USE_LARGESTALL
} TX_SIZE_SEARCH_METHOD;

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typedef enum {
  NOT_IN_USE = 0,
  RELAXED_NEIGHBORING_MIN_MAX = 1,
  STRICT_NEIGHBORING_MIN_MAX = 2
} AUTO_MIN_MAX_MODE;

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typedef enum {
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  // Terminate search early based on distortion so far compared to
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  // qp step, distortion in the neighborhood of the frame, etc.
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  FLAG_EARLY_TERMINATE = 1 << 0,
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  // Skips comp inter modes if the best so far is an intra mode.
  FLAG_SKIP_COMP_BESTINTRA = 1 << 1,
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  // Skips comp inter modes if the best single intermode so far does
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  // not have the same reference as one of the two references being
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  // tested.
  FLAG_SKIP_COMP_REFMISMATCH = 1 << 2,
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  // Skips oblique intra modes if the best so far is an inter mode.
  FLAG_SKIP_INTRA_BESTINTER = 1 << 3,
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  // Skips oblique intra modes  at angles 27, 63, 117, 153 if the best
  // intra so far is not one of the neighboring directions.
  FLAG_SKIP_INTRA_DIRMISMATCH = 1 << 4,
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  // Skips intra modes other than DC_PRED if the source variance is small
  FLAG_SKIP_INTRA_LOWVAR = 1 << 5,
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} MODE_SEARCH_SKIP_LOGIC;

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typedef enum {
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  SUBPEL_TREE = 0,
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  // Other methods to come
} SUBPEL_SEARCH_METHODS;

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typedef enum {
  LAST_FRAME_PARTITION_OFF = 0,
  LAST_FRAME_PARTITION_LOW_MOTION = 1,
  LAST_FRAME_PARTITION_ALL = 2
} LAST_FRAME_PARTITION_METHOD;

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typedef enum {
  // No recode.
  DISALLOW_RECODE = 0,
  // Allow recode for KF and exceeding maximum frame bandwidth.
  ALLOW_RECODE_KFMAXBW = 1,
  // Allow recode only for KF/ARF/GF frames.
  ALLOW_RECODE_KFARFGF = 2,
  // Allow recode for all frames based on bitrate constraints.
  ALLOW_RECODE = 3,
} RECODE_LOOP_TYPE;

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typedef enum {
  // encode_breakout is disabled.
  ENCODE_BREAKOUT_DISABLED = 0,
  // encode_breakout is enabled.
  ENCODE_BREAKOUT_ENABLED = 1,
  // encode_breakout is enabled with small max_thresh limit.
  ENCODE_BREAKOUT_LIMITED = 2
} ENCODE_BREAKOUT_TYPE;

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typedef enum {
  // Search partitions using RD/NONRD criterion
  SEARCH_PARTITION = 0,

  // Always use a fixed size partition
  FIXED_PARTITION = 1,

  // Use a fixed size partition in every 64X64 SB, where the size is
  // determined based on source variance
  VAR_BASED_FIXED_PARTITION = 2,

  // Use an arbitrary partitioning scheme based on source variance within
  // a 64X64 SB
  VAR_BASED_PARTITION
} PARTITION_SEARCH_TYPE;

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typedef struct {
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  // Frame level coding parameter update
  int frame_parameter_update;
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  // Motion search method (Diamond, NSTEP, Hex, Big Diamond, Square, etc).
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  SEARCH_METHODS search_method;
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  RECODE_LOOP_TYPE recode_loop;
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  // Subpel_search_method can only be subpel_tree which does a subpixel
  // logarithmic search that keeps stepping at 1/2 pixel units until
  // you stop getting a gain, and then goes on to 1/4 and repeats
  // the same process. Along the way it skips many diagonals.
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  SUBPEL_SEARCH_METHODS subpel_search_method;
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  // Maximum number of steps in logarithmic subpel search before giving up.
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  int subpel_iters_per_step;
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  // Control when to stop subpel search
  int subpel_force_stop;

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  // Thresh_mult is used to set a threshold for the rd score. A higher value
  // means that we will accept the best mode so far more often. This number
  // is used in combination with the current block size, and thresh_freq_fact
  // to pick a threshold.
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  int thresh_mult[MAX_MODES];
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  int thresh_mult_sub8x8[MAX_REFS];
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  // This parameter controls the number of steps we'll do in a diamond
  // search.
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  int max_step_search_steps;
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  // This parameter controls which step in the n-step process we start at.
  // It's changed adaptively based on circumstances.
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  int reduce_first_step_size;
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  // If this is set to 1, we limit the motion search range to 2 times the
  // largest motion vector found in the last frame.
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  int auto_mv_step_size;
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  // Trellis (dynamic programming) optimization of quantized values (+1, 0).
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  int optimize_coefficients;
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  // Always set to 0. If on it enables 0 cost background transmission
  // (except for the initial transmission of the segmentation). The feature is
  // disabled because the addition of very large block sizes make the
  // backgrounds very to cheap to encode, and the segmentation we have
  // adds overhead.
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  int static_segmentation;
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  // If 1 we iterate finding a best reference for 2 ref frames together - via
  // a log search that iterates 4 times (check around mv for last for best
  // error of combined predictor then check around mv for alt). If 0 we
  // we just use the best motion vector found for each frame by itself.
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  int comp_inter_joint_search_thresh;
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  // This variable is used to cap the maximum number of times we skip testing a
  // mode to be evaluated. A high value means we will be faster.
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  int adaptive_rd_thresh;
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  // Enables skipping the reconstruction step (idct, recon) in the
  // intermediate steps assuming the last frame didn't have too many intra
  // blocks and the q is less than a threshold.
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  int skip_encode_sb;
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  int skip_encode_frame;
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  // This variable allows us to reuse the last frames partition choices
  // (64x64 v 32x32 etc) for this frame. It can be set to only use the last
  // frame as a starting point in low motion scenes or always use it. If set
  // we use last partitioning_redo frequency to determine how often to redo
  // the partitioning from scratch. Adjust_partitioning_from_last_frame
  // enables us to adjust up or down one partitioning from the last frames
  // partitioning.
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  LAST_FRAME_PARTITION_METHOD use_lastframe_partitioning;
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  // Determine which method we use to determine transform size. We can choose
  // between options like full rd, largest for prediction size, largest
  // for intra and model coefs for the rest.
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  TX_SIZE_SEARCH_METHOD tx_size_search_method;
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  // Low precision 32x32 fdct keeps everything in 16 bits and thus is less
  // precise but significantly faster than the non lp version.
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  int use_lp32x32fdct;
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  // TODO(JBB): remove this as its no longer used.

  // After looking at the first set of modes (set by index here), skip
  // checking modes for reference frames that don't match the reference frame
  // of the best so far.
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  int mode_skip_start;
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  // TODO(JBB): Remove this.
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  int reference_masking;
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  PARTITION_SEARCH_TYPE partition_search_type;

  // Used if partition_search_type = FIXED_SIZE_PARTITION
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  BLOCK_SIZE always_this_block_size;
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  // Skip rectangular partition test when partition type none gives better
  // rd than partition type split.
  int less_rectangular_check;

  // Disable testing non square partitions. (eg 16x32)
  int use_square_partition_only;

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  // Sets min and max partition sizes for this 64x64 region based on the
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  // same 64x64 in last encoded frame, and the left and above neighbor.
  AUTO_MIN_MAX_MODE auto_min_max_partition_size;
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  // Min and max partition size we enable (block_size) as per auto
  // min max, but also used by adjust partitioning, and pick_partitioning.
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  BLOCK_SIZE min_partition_size;
  BLOCK_SIZE max_partition_size;
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  // Whether or not we allow partitions one smaller or one greater than the last
  // frame's partitioning. Only used if use_lastframe_partitioning is set.
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  int adjust_partitioning_from_last_frame;
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  // How frequently we re do the partitioning from scratch. Only used if
  // use_lastframe_partitioning is set.
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  int last_partitioning_redo_frequency;
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  // Disables sub 8x8 blocksizes in different scenarios: Choices are to disable
  // it always, to allow it for only Last frame and Intra, disable it for all
  // inter modes or to enable it always.
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  int disable_split_mask;
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  // TODO(jingning): combine the related motion search speed features
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  // This allows us to use motion search at other sizes as a starting
  // point for this motion search and limits the search range around it.
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  int adaptive_motion_search;
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  // Allows sub 8x8 modes to use the prediction filter that was determined
  // best for 8x8 mode. If set to 0 we always re check all the filters for
  // sizes less than 8x8, 1 means we check all filter modes if no 8x8 filter
  // was selected, and 2 means we use 8 tap if no 8x8 filter mode was selected.
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  int adaptive_pred_interp_filter;
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  // Implements various heuristics to skip searching modes
  // The heuristics selected are based on  flags
  // defined in the MODE_SEARCH_SKIP_HEURISTICS enum
  unsigned int mode_search_skip_flags;
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  // A source variance threshold below which the split mode is disabled
  unsigned int disable_split_var_thresh;
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  // A source variance threshold below which filter search is disabled
  // Choose a very large value (UINT_MAX) to use 8-tap always
  unsigned int disable_filter_search_var_thresh;
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  // These bit masks allow you to enable or disable intra modes for each
  // transform size separately.
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  int intra_y_mode_mask[TX_SIZES];
  int intra_uv_mode_mask[TX_SIZES];
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  // This variable enables an early break out of mode testing if the model for
  // rd built from the prediction signal indicates a value that's much
  // higher than the best rd we've seen so far.
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  int use_rd_breakout;
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  // This enables us to use an estimate for intra rd based on dc mode rather
  // than choosing an actual uv mode in the stage of encoding before the actual
  // final encode.
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  int use_uv_intra_rd_estimate;
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  // This feature controls how the loop filter level is determined:
  // 0: Try the full image with different values.
  // 1: Try a small portion of the image with different values.
  // 2: Estimate the level based on quantizer and frame type
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  int use_fast_lpf_pick;
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  // This feature limits the number of coefficients updates we actually do
  // by only looking at counts from 1/2 the bands.
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  int use_fast_coef_updates;  // 0: 2-loop, 1: 1-loop, 2: 1-loop reduced
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  // This flag controls the use of non-RD mode decision.
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  int use_nonrd_pick_mode;
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  // This variable sets the encode_breakout threshold. Currently, it is only
  // enabled in real time mode.
  int encode_breakout_thresh;
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  // A binary mask indicating if NEARESTMV, NEARMV, ZEROMV, NEWMV
  // modes are disabled in order from LSB to MSB for each BLOCK_SIZE.
  int disable_inter_mode_mask[BLOCK_SIZES];
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  // This feature controls whether we do the expensive context update and
  // calculation in the rd coefficient costing loop.
  int use_fast_coef_costing;
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  // This variable controls the maximum block size where intra blocks can be
  // used in inter frames.
  // TODO(aconverse): Fold this into one of the other many mode skips
  BLOCK_SIZE max_intra_bsize;
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} SPEED_FEATURES;

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typedef enum {
  NORMAL      = 0,
  FOURFIVE    = 1,
  THREEFIVE   = 2,
  ONETWO      = 3
} VPX_SCALING;

typedef enum {
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  VP9_LAST_FLAG = 1 << 0,
  VP9_GOLD_FLAG = 1 << 1,
  VP9_ALT_FLAG = 1 << 2,
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} VP9_REFFRAME;

typedef enum {
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  USAGE_LOCAL_FILE_PLAYBACK = 0,
  USAGE_STREAM_FROM_SERVER  = 1,
  USAGE_CONSTRAINED_QUALITY = 2,
  USAGE_CONSTANT_QUALITY    = 3,
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} END_USAGE;

typedef enum {
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  // Good Quality Fast Encoding. The encoder balances quality with the
  // amount of time it takes to encode the output. (speed setting
  // controls how fast)
  MODE_GOODQUALITY = 1,

  // One Pass - Best Quality. The encoder places priority on the
  // quality of the output over encoding speed. The output is compressed
  // at the highest possible quality. This option takes the longest
  // amount of time to encode. (speed setting ignored)
  MODE_BESTQUALITY = 2,

  // Two Pass - First Pass. The encoder generates a file of statistics
  // for use in the second encoding pass. (speed setting controls how fast)
  MODE_FIRSTPASS = 3,

  // Two Pass - Second Pass. The encoder uses the statistics that were
  // generated in the first encoding pass to create the compressed
  // output. (speed setting controls how fast)
  MODE_SECONDPASS = 4,

  // Two Pass - Second Pass Best.  The encoder uses the statistics that
  // were generated in the first encoding pass to create the compressed
  // output using the highest possible quality, and taking a
  // longer amount of time to encode. (speed setting ignored)
  MODE_SECONDPASS_BEST = 5,

  // Realtime/Live Encoding. This mode is optimized for realtime
  // encoding (for example, capturing a television signal or feed from
  // a live camera). (speed setting controls how fast)
  MODE_REALTIME = 6,
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} MODE;

typedef enum {
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  FRAMEFLAGS_KEY    = 1 << 0,
  FRAMEFLAGS_GOLDEN = 1 << 1,
  FRAMEFLAGS_ALTREF = 1 << 2,
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} FRAMETYPE_FLAGS;

typedef enum {
  NO_AQ = 0,
  VARIANCE_AQ = 1,
  COMPLEXITY_AQ = 2,
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  AQ_MODE_COUNT  // This should always be the last member of the enum
} AQ_MODE;
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typedef struct {
  int version;  // 4 versions of bitstream defined:
                //   0 - best quality/slowest decode,
                //   3 - lowest quality/fastest decode
  int width;  // width of data passed to the compressor
  int height;  // height of data passed to the compressor
  double framerate;  // set to passed in framerate
  int64_t target_bandwidth;  // bandwidth to be used in kilobits per second

  int noise_sensitivity;  // pre processing blur: recommendation 0
  int sharpness;  // sharpening output: recommendation 0:
  int cpu_used;
  unsigned int rc_max_intra_bitrate_pct;

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  MODE mode;
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  // Key Framing Operations
  int auto_key;  // autodetect cut scenes and set the keyframes
  int key_freq;  // maximum distance to key frame.

  int lag_in_frames;  // how many frames lag before we start encoding

  // ----------------------------------------------------------------
  // DATARATE CONTROL OPTIONS

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  END_USAGE end_usage;  // vbr or cbr
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  // buffer targeting aggressiveness
  int under_shoot_pct;
  int over_shoot_pct;

  // buffering parameters
  int64_t starting_buffer_level;  // in seconds
  int64_t optimal_buffer_level;
  int64_t maximum_buffer_size;

  // Frame drop threshold.
  int drop_frames_water_mark;

  // controlling quality
  int fixed_q;
  int worst_allowed_q;
  int best_allowed_q;
  int cq_level;
  int lossless;
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  AQ_MODE aq_mode;  // Adaptive Quantization mode
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  // two pass datarate control
  int two_pass_vbrbias;        // two pass datarate control tweaks
  int two_pass_vbrmin_section;
  int two_pass_vbrmax_section;
  // END DATARATE CONTROL OPTIONS
  // ----------------------------------------------------------------

  // Spatial and temporal scalability.
  int ss_number_layers;  // Number of spatial layers.
  int ts_number_layers;  // Number of temporal layers.
  // Bitrate allocation for spatial layers.
  int ss_target_bitrate[VPX_SS_MAX_LAYERS];
  // Bitrate allocation (CBR mode) and framerate factor, for temporal layers.
  int ts_target_bitrate[VPX_TS_MAX_LAYERS];
  int ts_rate_decimator[VPX_TS_MAX_LAYERS];

  // these parameters aren't to be used in final build don't use!!!
  int play_alternate;
  int alt_freq;

  int encode_breakout;  // early breakout : for video conf recommend 800

  /* Bitfield defining the error resiliency features to enable.
   * Can provide decodable frames after losses in previous
   * frames and decodable partitions after losses in the same frame.
   */
  unsigned int error_resilient_mode;

  /* Bitfield defining the parallel decoding mode where the
   * decoding in successive frames may be conducted in parallel
   * just by decoding the frame headers.
   */
  unsigned int frame_parallel_decoding_mode;

  int arnr_max_frames;
  int arnr_strength;
  int arnr_type;

  int tile_columns;
  int tile_rows;

  struct vpx_fixed_buf         two_pass_stats_in;
  struct vpx_codec_pkt_list  *output_pkt_list;

  vp8e_tuning tuning;
} VP9_CONFIG;

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typedef struct VP9_COMP {
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  DECLARE_ALIGNED(16, int16_t, y_quant[QINDEX_RANGE][8]);
  DECLARE_ALIGNED(16, int16_t, y_quant_shift[QINDEX_RANGE][8]);
  DECLARE_ALIGNED(16, int16_t, y_zbin[QINDEX_RANGE][8]);
  DECLARE_ALIGNED(16, int16_t, y_round[QINDEX_RANGE][8]);
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  DECLARE_ALIGNED(16, int16_t, uv_quant[QINDEX_RANGE][8]);
  DECLARE_ALIGNED(16, int16_t, uv_quant_shift[QINDEX_RANGE][8]);
  DECLARE_ALIGNED(16, int16_t, uv_zbin[QINDEX_RANGE][8]);
  DECLARE_ALIGNED(16, int16_t, uv_round[QINDEX_RANGE][8]);
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#if CONFIG_ALPHA
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  DECLARE_ALIGNED(16, int16_t, a_quant[QINDEX_RANGE][8]);
  DECLARE_ALIGNED(16, int16_t, a_quant_shift[QINDEX_RANGE][8]);
  DECLARE_ALIGNED(16, int16_t, a_zbin[QINDEX_RANGE][8]);
  DECLARE_ALIGNED(16, int16_t, a_round[QINDEX_RANGE][8]);
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#endif
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  MACROBLOCK mb;
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  VP9_COMMON common;
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  VP9_CONFIG oxcf;
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  struct lookahead_ctx    *lookahead;
  struct lookahead_entry  *source;
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#if CONFIG_MULTIPLE_ARF
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  struct lookahead_entry  *alt_ref_source[REF_FRAMES];
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#else
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  struct lookahead_entry  *alt_ref_source;
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#endif
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  YV12_BUFFER_CONFIG *Source;
  YV12_BUFFER_CONFIG *un_scaled_source;
  YV12_BUFFER_CONFIG scaled_source;
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  int key_frame_frequency;
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  int gold_is_last;  // gold same as last frame ( short circuit gold searches)
  int alt_is_last;  // Alt same as last ( short circuit altref search)
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  int gold_is_alt;  // don't do both alt and gold search ( just do gold).
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  int scaled_ref_idx[3];
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  int lst_fb_idx;
  int gld_fb_idx;
  int alt_fb_idx;
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#if CONFIG_MULTIPLE_ARF
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  int alt_ref_fb_idx[REF_FRAMES - 3];
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#endif
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  int refresh_last_frame;
  int refresh_golden_frame;
  int refresh_alt_ref_frame;
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  int ext_refresh_frame_flags_pending;
  int ext_refresh_last_frame;
  int ext_refresh_golden_frame;
  int ext_refresh_alt_ref_frame;

  int ext_refresh_frame_context_pending;
  int ext_refresh_frame_context;

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  YV12_BUFFER_CONFIG last_frame_uf;
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  TOKENEXTRA *tok;
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  unsigned int tok_count[4][1 << 6];
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#if CONFIG_MULTIPLE_ARF
  // Position within a frame coding order (including any additional ARF frames).
  unsigned int sequence_number;
  // Next frame in naturally occurring order that has not yet been coded.
  int next_frame_in_order;
#endif
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  // Ambient reconstruction err target for force key frames
  int ambient_err;
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  int rd_threshes[MAX_SEGMENTS][BLOCK_SIZES][MAX_MODES];
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  int rd_thresh_freq_fact[BLOCK_SIZES][MAX_MODES];
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  int rd_thresh_sub8x8[MAX_SEGMENTS][BLOCK_SIZES][MAX_REFS];
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  int rd_thresh_freq_sub8x8[BLOCK_SIZES][MAX_REFS];
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  int64_t rd_comp_pred_diff[REFERENCE_MODES];
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  int64_t rd_prediction_type_threshes[MAX_REF_FRAMES][REFERENCE_MODES];
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  int64_t rd_tx_select_diff[TX_MODES];
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  // FIXME(rbultje) can this overflow?
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  int rd_tx_select_threshes[MAX_REF_FRAMES][TX_MODES];
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  int64_t rd_filter_diff[SWITCHABLE_FILTER_CONTEXTS];
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  int64_t rd_filter_threshes[MAX_REF_FRAMES][SWITCHABLE_FILTER_CONTEXTS];
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  int64_t rd_filter_cache[SWITCHABLE_FILTER_CONTEXTS];
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  int64_t mask_filter_rd;
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  int RDMULT;
  int RDDIV;
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  CODING_CONTEXT coding_context;
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  int zbin_mode_boost;
  int zbin_mode_boost_enabled;
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  int active_arnr_frames;           // <= cpi->oxcf.arnr_max_frames
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  int active_arnr_strength;         // <= cpi->oxcf.arnr_max_strength
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  double output_framerate;
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  int64_t last_time_stamp_seen;
  int64_t last_end_time_stamp_seen;
  int64_t first_time_stamp_ever;
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  RATE_CONTROL rc;
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  int cq_target_quality;
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  vp9_coeff_count coef_counts[TX_SIZES][PLANE_TYPES];
  vp9_coeff_probs_model frame_coef_probs[TX_SIZES][PLANE_TYPES];
  vp9_coeff_stats frame_branch_ct[TX_SIZES][PLANE_TYPES];
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  struct vpx_codec_pkt_list  *output_pkt_list;
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  MBGRAPH_FRAME_STATS mbgraph_stats[MAX_LAG_BUFFERS];
  int mbgraph_n_frames;             // number of frames filled in the above
  int static_mb_pct;                // % forced skip mbs by segmentation
  int seg0_progress, seg0_idx, seg0_cnt;

  // for real time encoding
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  int speed;
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  int cpu_used;
  int pass;
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  int ref_frame_flags;
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  SPEED_FEATURES sf;
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  unsigned int max_mv_magnitude;
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  int mv_step_param;
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  // Default value is 1. From first pass stats, encode_breakout may be disabled.
  ENCODE_BREAKOUT_TYPE allow_encode_breakout;

  // Get threshold from external input. In real time mode, it can be
  // overwritten according to encoding speed.
  int encode_breakout;

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  unsigned char *segmentation_map;
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  // segment threashold for encode breakout
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  int  segment_encode_breakout[MAX_SEGMENTS];
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  unsigned char *complexity_map;

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  unsigned char *active_map;
  unsigned int active_map_enabled;
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  fractional_mv_step_fp *find_fractional_mv_step;
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  fractional_mv_step_comp_fp *find_fractional_mv_step_comp;
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  vp9_full_search_fn_t full_search_sad;
  vp9_refining_search_fn_t refining_search_sad;
  vp9_diamond_search_fn_t diamond_search_sad;
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  vp9_variance_fn_ptr_t fn_ptr[BLOCK_SIZES];
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  uint64_t time_receive_data;
  uint64_t time_compress_data;
  uint64_t time_pick_lpf;
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  uint64_t time_encode_sb_row;
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  struct twopass_rc twopass;
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  YV12_BUFFER_CONFIG alt_ref_buffer;
  YV12_BUFFER_CONFIG *frames[MAX_LAG_BUFFERS];
  int fixed_divide[512];
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#if CONFIG_INTERNAL_STATS
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  unsigned int mode_chosen_counts[MAX_MODES];

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  int    count;
  double total_y;
  double total_u;
  double total_v;
  double total;
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  uint64_t total_sq_error;
  uint64_t total_samples;

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  double totalp_y;
  double totalp_u;
  double totalp_v;
  double totalp;
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  uint64_t totalp_sq_error;
  uint64_t totalp_samples;

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  int    bytes;
  double summed_quality;
  double summed_weights;
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  double summedp_quality;
  double summedp_weights;
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  unsigned int tot_recode_hits;


  double total_ssimg_y;
  double total_ssimg_u;
  double total_ssimg_v;
  double total_ssimg_all;

  int b_calculate_ssimg;
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#endif
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  int b_calculate_psnr;
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  // Per MB activity measurement
  unsigned int activity_avg;
  unsigned int *mb_activity_map;
  int *mb_norm_activity_map;
  int output_partition;
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  // Force next frame to intra when kf_auto says so.
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  int force_next_frame_intra;
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  int droppable;
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  int dummy_packing;    /* flag to indicate if packing is dummy */
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  unsigned int tx_stepdown_count[TX_SIZES];
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  int initial_width;
  int initial_height;
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  int use_svc;

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  SVC svc;
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#if CONFIG_MULTIPLE_ARF
  // ARF tracking variables.
  int multi_arf_enabled;
  unsigned int frame_coding_order_period;
  unsigned int new_frame_coding_order_period;
  int frame_coding_order[MAX_LAG_BUFFERS * 2];
  int arf_buffer_idx[MAX_LAG_BUFFERS * 3 / 2];
  int arf_weight[MAX_LAG_BUFFERS];
  int arf_buffered;
  int this_frame_weight;
  int max_arf_level;
#endif
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#ifdef MODE_TEST_HIT_STATS
  // Debug / test stats
  int64_t mode_test_hits[BLOCK_SIZES];
#endif
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  // Y,U,V,(A)
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  ENTROPY_CONTEXT *above_context[MAX_MB_PLANE];
  ENTROPY_CONTEXT left_context[MAX_MB_PLANE][16];

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  PARTITION_CONTEXT *above_seg_context;
  PARTITION_CONTEXT left_seg_context[8];
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} VP9_COMP;
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void vp9_initialize_enc();

struct VP9_COMP *vp9_create_compressor(VP9_CONFIG *oxcf);
void vp9_remove_compressor(VP9_COMP *cpi);

void vp9_change_config(VP9_COMP *cpi, VP9_CONFIG *oxcf);

  // receive a frames worth of data. caller can assume that a copy of this
  // frame is made and not just a copy of the pointer..
int vp9_receive_raw_frame(VP9_COMP *cpi, unsigned int frame_flags,
                          YV12_BUFFER_CONFIG *sd, int64_t time_stamp,
                          int64_t end_time_stamp);

int vp9_get_compressed_data(VP9_COMP *cpi, unsigned int *frame_flags,
                            size_t *size, uint8_t *dest,
                            int64_t *time_stamp, int64_t *time_end, int flush);

int vp9_get_preview_raw_frame(VP9_COMP *cpi, YV12_BUFFER_CONFIG *dest,
                              vp9_ppflags_t *flags);

int vp9_use_as_reference(VP9_COMP *cpi, int ref_frame_flags);

int vp9_update_reference(VP9_COMP *cpi, int ref_frame_flags);

int vp9_copy_reference_enc(VP9_COMP *cpi, VP9_REFFRAME ref_frame_flag,
                           YV12_BUFFER_CONFIG *sd);

int vp9_get_reference_enc(VP9_COMP *cpi, int index,
                          YV12_BUFFER_CONFIG **fb);

int vp9_set_reference_enc(VP9_COMP *cpi, VP9_REFFRAME ref_frame_flag,
                          YV12_BUFFER_CONFIG *sd);

int vp9_update_entropy(VP9_COMP *cpi, int update);

int vp9_set_roimap(VP9_COMP *cpi, unsigned char *map,
                   unsigned int rows, unsigned int cols,
                   int delta_q[MAX_SEGMENTS],
                   int delta_lf[MAX_SEGMENTS],
                   unsigned int threshold[MAX_SEGMENTS]);

int vp9_set_active_map(VP9_COMP *cpi, unsigned char *map,
                       unsigned int rows, unsigned int cols);

int vp9_set_internal_size(VP9_COMP *cpi,
                          VPX_SCALING horiz_mode, VPX_SCALING vert_mode);

int vp9_set_size_literal(VP9_COMP *cpi, unsigned int width,
                         unsigned int height);

void vp9_set_svc(VP9_COMP *cpi, int use_svc);

int vp9_get_quantizer(struct VP9_COMP *cpi);

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static int get_ref_frame_idx(const VP9_COMP *cpi,
                             MV_REFERENCE_FRAME ref_frame) {
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  if (ref_frame == LAST_FRAME) {
    return cpi->lst_fb_idx;
  } else if (ref_frame == GOLDEN_FRAME) {
    return cpi->gld_fb_idx;
  } else {
    return cpi->alt_fb_idx;
  }
}

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static YV12_BUFFER_CONFIG *get_ref_frame_buffer(VP9_COMP *cpi,
                                                MV_REFERENCE_FRAME ref_frame) {
  VP9_COMMON *const cm = &cpi->common;
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  return &cm->frame_bufs[cm->ref_frame_map[get_ref_frame_idx(cpi,
                                                             ref_frame)]].buf;
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}

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void vp9_set_speed_features(VP9_COMP *cpi);
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int vp9_calc_ss_err(const YV12_BUFFER_CONFIG *source,
                    const YV12_BUFFER_CONFIG *reference);
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void vp9_alloc_compressor_data(VP9_COMP *cpi);
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int vp9_compute_qdelta(const VP9_COMP *cpi, double qstart, double qtarget);
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static int get_token_alloc(int mb_rows, int mb_cols) {
  return mb_rows * mb_cols * (48 * 16 + 4);
}

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extern const int q_trans[];

int64_t vp9_rescale(int64_t val, int64_t num, int denom);

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static void set_ref_ptrs(VP9_COMMON *cm, MACROBLOCKD *xd,
                         MV_REFERENCE_FRAME ref0, MV_REFERENCE_FRAME ref1) {
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  xd->block_refs[0] = &cm->frame_refs[ref0 >= LAST_FRAME ? ref0 - LAST_FRAME
                                                         : 0];
  xd->block_refs[1] = &cm->frame_refs[ref1 >= LAST_FRAME ? ref1 - LAST_FRAME
                                                         : 0];
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}

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#ifdef __cplusplus
}  // extern "C"
#endif

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#endif  // VP9_ENCODER_VP9_ONYX_INT_H_