onyx_int.h 19.1 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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 */


#ifndef __INC_VP8_INT_H
#define __INC_VP8_INT_H

#include <stdio.h>
#include "vpx_ports/config.h"
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#include "vp8/common/onyx.h"
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#include "treewriter.h"
#include "tokenize.h"
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#include "vp8/common/onyxc_int.h"
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#include "variance.h"
#include "dct.h"
#include "encodemb.h"
#include "quantize.h"
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#include "vp8/common/entropy.h"
#include "vp8/common/threading.h"
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#include "vpx_ports/mem.h"
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#include "vpx/internal/vpx_codec_internal.h"
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#include "mcomp.h"
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#include "temporal_filter.h"
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#include "vp8/common/findnearmv.h"
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#include "lookahead.h"
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//#define SPEEDSTATS 1
#define MIN_GF_INTERVAL             4
#define DEFAULT_GF_INTERVAL         7

#define KEY_FRAME_CONTEXT 5

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#define MAX_LAG_BUFFERS (CONFIG_REALTIME_ONLY? 1 : 25)
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#define AF_THRESH   25
#define AF_THRESH2  100
#define ARF_DECAY_THRESH 12
#define MAX_MODES 20

#define MIN_THRESHMULT  32
#define MAX_THRESHMULT  512

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#define GF_ZEROMV_ZBIN_BOOST 12
#define LF_ZEROMV_ZBIN_BOOST 6
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#define MV_ZBIN_BOOST        4
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#define ZBIN_OQ_MAX 192

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#if !(CONFIG_REALTIME_ONLY)
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#define VP8_TEMPORAL_ALT_REF 1
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#endif
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typedef struct
{
    int kf_indicated;
    unsigned int frames_since_key;
    unsigned int frames_since_golden;
    int filter_level;
    int frames_till_gf_update_due;
    int recent_ref_frame_usage[MAX_REF_FRAMES];

    MV_CONTEXT mvc[2];
    int mvcosts[2][MVvals+1];

#ifdef MODE_STATS
    // Stats
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    int y_modes[VP8_YMODES];
    int uv_modes[VP8_UV_MODES];
    int i8x8_modes[VP8_I8X8_MODES];
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    int b_modes[10];
    int inter_y_modes[10];
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    int inter_uv_modes[VP8_UV_MODES];
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    int inter_b_modes[10];
#endif
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    /* interframe intra mode probs */
    vp8_prob ymode_prob[VP8_YMODES-1], uv_mode_prob[VP8_UV_MODES-1];
    /* keyframe intra mode probs */
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#if CONFIG_QIMODE
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    vp8_prob kf_ymode_prob[8][VP8_YMODES-1];
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#else
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    vp8_prob kf_ymode_prob[VP8_YMODES-1];
#endif

#if CONFIG_UVINTRA
    vp8_prob kf_uv_mode_prob[VP8_YMODES][VP8_UV_MODES-1];
#else
    vp8_prob kf_uv_mode_prob[VP8_UV_MODES-1];
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#endif
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    /* intra MB type cts this frame */
    int ymode_count[VP8_YMODES], uv_mode_count[VP8_UV_MODES];
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    int count_mb_ref_frame_usage[MAX_REF_FRAMES];

    int this_frame_percent_intra;
    int last_frame_percent_intra;


} CODING_CONTEXT;

typedef struct
{
    double frame;
    double intra_error;
    double coded_error;
    double ssim_weighted_pred_err;
    double pcnt_inter;
    double pcnt_motion;
    double pcnt_second_ref;
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    double pcnt_neutral;
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    double MVr;
    double mvr_abs;
    double MVc;
    double mvc_abs;
    double MVrv;
    double MVcv;
    double mv_in_out_count;
    double duration;
    double count;
}
FIRSTPASS_STATS;

typedef struct
{
    int frames_so_far;
    double frame_intra_error;
    double frame_coded_error;
    double frame_pcnt_inter;
    double frame_pcnt_motion;
    double frame_mvr;
    double frame_mvr_abs;
    double frame_mvc;
    double frame_mvc_abs;

} ONEPASS_FRAMESTATS;

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typedef struct
{
    struct {
        int err;
        union {
            int_mv mv;
            MB_PREDICTION_MODE mode;
        } m;
    } ref[MAX_REF_FRAMES];
} MBGRAPH_MB_STATS;

typedef struct
{
    MBGRAPH_MB_STATS *mb_stats;
} MBGRAPH_FRAME_STATS;
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typedef enum
{
    THR_ZEROMV         = 0,
    THR_DC             = 1,

    THR_NEARESTMV      = 2,
    THR_NEARMV         = 3,

    THR_ZEROG          = 4,
    THR_NEARESTG       = 5,

    THR_ZEROA          = 6,
    THR_NEARESTA       = 7,

    THR_NEARG          = 8,
    THR_NEARA          = 9,

    THR_V_PRED         = 10,
    THR_H_PRED         = 11,
    THR_TM             = 12,

    THR_NEWMV          = 13,
    THR_NEWG           = 14,
    THR_NEWA           = 15,

    THR_SPLITMV        = 16,
    THR_SPLITG         = 17,
    THR_SPLITA         = 18,

    THR_B_PRED         = 19,
}
THR_MODES;

typedef enum
{
    DIAMOND = 0,
    NSTEP = 1,
    HEX = 2
} SEARCH_METHODS;

typedef struct
{
    int RD;
    SEARCH_METHODS search_method;
    int improved_quant;
    int improved_dct;
    int auto_filter;
    int recode_loop;
    int iterative_sub_pixel;
    int half_pixel_search;
    int quarter_pixel_search;
    int thresh_mult[MAX_MODES];
    int max_step_search_steps;
    int first_step;
    int optimize_coefficients;

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    int use_fastquant_for_pick;
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    int no_skip_block4x4_search;
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    int improved_mv_pred;
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} SPEED_FEATURES;

typedef struct
{
    MACROBLOCK  mb;
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#if CONFIG_SEGMENTATION
    int segment_counts[MAX_MB_SEGMENTS + 8];
#else
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    int segment_counts[MAX_MB_SEGMENTS];
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#endif
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    int totalrate;
} MB_ROW_COMP;

typedef struct
{
    TOKENEXTRA *start;
    TOKENEXTRA *stop;
} TOKENLIST;

typedef struct
{
    int ithread;
    void *ptr1;
    void *ptr2;
} ENCODETHREAD_DATA;
typedef struct
{
    int ithread;
    void *ptr1;
} LPFTHREAD_DATA;


typedef struct VP8_ENCODER_RTCD
{
    VP8_COMMON_RTCD            *common;
    vp8_variance_rtcd_vtable_t  variance;
    vp8_fdct_rtcd_vtable_t      fdct;
    vp8_encodemb_rtcd_vtable_t  encodemb;
    vp8_quantize_rtcd_vtable_t  quantize;
    vp8_search_rtcd_vtable_t    search;
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    vp8_temporal_rtcd_vtable_t  temporal;
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} VP8_ENCODER_RTCD;

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enum
{
    BLOCK_16X8,
    BLOCK_8X16,
    BLOCK_8X8,
    BLOCK_4X4,
    BLOCK_16X16,
    BLOCK_MAX_SEGMENTS
};

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typedef struct VP8_COMP
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{

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    DECLARE_ALIGNED(16, short, Y1quant[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, unsigned char, Y1quant_shift[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, short, Y1zbin[QINDEX_RANGE][16]);
    DECLARE_ALIGNED(16, short, Y1round[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, short, Y2quant[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, unsigned char, Y2quant_shift[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, short, Y2zbin[QINDEX_RANGE][16]);
    DECLARE_ALIGNED(16, short, Y2round[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, short, UVquant[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, unsigned char, UVquant_shift[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, short, UVzbin[QINDEX_RANGE][16]);
    DECLARE_ALIGNED(16, short, UVround[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, short, zrun_zbin_boost_y1[QINDEX_RANGE][16]);
    DECLARE_ALIGNED(16, short, zrun_zbin_boost_y2[QINDEX_RANGE][16]);
    DECLARE_ALIGNED(16, short, zrun_zbin_boost_uv[QINDEX_RANGE][16]);
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    DECLARE_ALIGNED(16, short, Y1quant_fast[QINDEX_RANGE][16]);
    DECLARE_ALIGNED(16, short, Y2quant_fast[QINDEX_RANGE][16]);
    DECLARE_ALIGNED(16, short, UVquant_fast[QINDEX_RANGE][16]);
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    MACROBLOCK mb;
    VP8_COMMON common;
    vp8_writer bc, bc2;
    // bool_writer *bc2;

    VP8_CONFIG oxcf;

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    struct lookahead_ctx    *lookahead;
    struct lookahead_entry  *source;
    struct lookahead_entry  *alt_ref_source;

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    YV12_BUFFER_CONFIG *Source;
    YV12_BUFFER_CONFIG *un_scaled_source;
    YV12_BUFFER_CONFIG scaled_source;

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    int source_alt_ref_pending; // frame in src_buffers has been identified to be encoded as an alt ref
    int source_alt_ref_active;  // an alt ref frame has been encoded and is usable

    int is_src_frame_alt_ref;   // source of frame to encode is an exact copy of an alt ref frame
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    int gold_is_last; // golden frame same as last frame ( short circuit gold searches)
    int alt_is_last;  // Alt reference frame same as last ( short circuit altref search)
    int gold_is_alt;  // don't do both alt and gold search ( just do gold).

    //int refresh_alt_ref_frame;
    YV12_BUFFER_CONFIG last_frame_uf;

    TOKENEXTRA *tok;
    unsigned int tok_count;


    unsigned int frames_since_key;
    unsigned int key_frame_frequency;
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    unsigned int this_key_frame_forced;
    unsigned int next_key_frame_forced;
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    // Ambient reconstruction err target for force key frames
    int ambient_err;

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    unsigned int mode_check_freq[MAX_MODES];
    unsigned int mode_test_hit_counts[MAX_MODES];
    unsigned int mode_chosen_counts[MAX_MODES];
    unsigned int mbs_tested_so_far;

    int rd_thresh_mult[MAX_MODES];
    int rd_baseline_thresh[MAX_MODES];
    int rd_threshes[MAX_MODES];

    int RDMULT;
    int RDDIV ;

    CODING_CONTEXT coding_context;

    // Rate targetting variables
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    int64_t prediction_error;
    int64_t last_prediction_error;
    int64_t intra_error;
    int64_t last_intra_error;
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    int this_frame_target;
    int projected_frame_size;
    int last_q[2];                   // Separate values for Intra/Inter

    double rate_correction_factor;
    double key_frame_rate_correction_factor;
    double gf_rate_correction_factor;

    int frames_till_gf_update_due;      // Count down till next GF
    int current_gf_interval;          // GF interval chosen when we coded the last GF

    int gf_overspend_bits;            // Total bits overspent becasue of GF boost (cumulative)

    int non_gf_bitrate_adjustment;     // Used in the few frames following a GF to recover the extra bits spent in that GF

    int kf_overspend_bits;            // Extra bits spent on key frames that need to be recovered on inter frames
    int kf_bitrate_adjustment;        // Current number of bit s to try and recover on each inter frame.
    int max_gf_interval;
    int baseline_gf_interval;
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    int active_arnr_frames;           // <= cpi->oxcf.arnr_max_frames
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    int64_t key_frame_count;
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    int prior_key_frame_distance[KEY_FRAME_CONTEXT];
    int per_frame_bandwidth;          // Current section per frame bandwidth target
    int av_per_frame_bandwidth;        // Average frame size target for clip
    int min_frame_bandwidth;          // Minimum allocation that should be used for any frame
    int inter_frame_target;
    double output_frame_rate;
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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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    int ni_av_qi;
    int ni_tot_qi;
    int ni_frames;
    int avg_frame_qindex;

    int zbin_over_quant;
    int zbin_mode_boost;
    int zbin_mode_boost_enabled;

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    int64_t total_byte_count;
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    int buffered_mode;

    int buffer_level;
    int bits_off_target;

    int rolling_target_bits;
    int rolling_actual_bits;

    int long_rolling_target_bits;
    int long_rolling_actual_bits;

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    int64_t total_actual_bits;
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    int total_target_vs_actual;        // debug stats

    int worst_quality;
    int active_worst_quality;
    int best_quality;
    int active_best_quality;

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    int cq_target_quality;
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    int drop_frames_allowed;          // Are we permitted to drop frames?
    int drop_frame;                  // Drop this frame?
    int drop_count;                  // How many frames have we dropped?
    int max_drop_count;               // How many frames should we drop?
    int max_consec_dropped_frames;     // Limit number of consecutive frames that can be dropped.


    int ymode_count [VP8_YMODES];        /* intra MB type cts this frame */
    int uv_mode_count[VP8_UV_MODES];       /* intra MB type cts this frame */

    unsigned int MVcount [2] [MVvals];  /* (row,col) MV cts this frame */

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    unsigned int coef_counts [BLOCK_TYPES] [COEF_BANDS] [PREV_COEF_CONTEXTS] [MAX_ENTROPY_TOKENS];  /* for this frame */
    //DECLARE_ALIGNED(16, int, coef_counts_backup [BLOCK_TYPES] [COEF_BANDS] [PREV_COEF_CONTEXTS] [MAX_ENTROPY_TOKENS]);   //not used any more
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    //save vp8_tree_probs_from_distribution result for each frame to avoid repeat calculation
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    vp8_prob frame_coef_probs [BLOCK_TYPES] [COEF_BANDS] [PREV_COEF_CONTEXTS] [ENTROPY_NODES];
    unsigned int frame_branch_ct [BLOCK_TYPES] [COEF_BANDS] [PREV_COEF_CONTEXTS] [ENTROPY_NODES][2];
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#if CONFIG_T8X8
    unsigned int coef_counts_8x8 [BLOCK_TYPES] [COEF_BANDS] [PREV_COEF_CONTEXTS] [MAX_ENTROPY_TOKENS];  /* for this frame */
    vp8_prob frame_coef_probs_8x8 [BLOCK_TYPES] [COEF_BANDS] [PREV_COEF_CONTEXTS] [ENTROPY_NODES];
    unsigned int frame_branch_ct_8x8 [BLOCK_TYPES] [COEF_BANDS] [PREV_COEF_CONTEXTS] [ENTROPY_NODES][2];
#endif
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    int gfu_boost;
    int kf_boost;
    int last_boost;

    int target_bandwidth;
    struct vpx_codec_pkt_list  *output_pkt_list;
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#if 0
    // Experimental code for lagged and one pass
    ONEPASS_FRAMESTATS one_pass_frame_stats[MAX_LAG_BUFFERS];
    int one_pass_frame_index;
#endif
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    MBGRAPH_FRAME_STATS mbgraph_stats[MAX_LAG_BUFFERS];
    int mbgraph_n_frames;             // number of frames filled in the above
    int mbgraph_use_arf_segmentation; // set if part of an ARF is considered to be a
                                      // poor predictor, and thus coeffs are skipped
                                      // or coded at a higher Q using MB-segmentation
                                      // this value is the number of MBs that are
                                      // poor predictors (> 0 and < common.MBs)
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    int decimation_factor;
    int decimation_count;

    // for real time encoding
    int avg_encode_time;              //microsecond
    int avg_pick_mode_time;            //microsecond
    int Speed;
    unsigned int cpu_freq;           //Mhz
    int compressor_speed;

    int interquantizer;
    int auto_gold;
    int auto_adjust_gold_quantizer;
    int goldfreq;
    int auto_worst_q;
    int cpu_used;
    int horiz_scale;
    int vert_scale;
    int pass;


    int prob_intra_coded;
    int prob_last_coded;
    int prob_gf_coded;
    int prob_skip_false;
    int last_skip_false_probs[3];
    int last_skip_probs_q[3];
    int recent_ref_frame_usage[MAX_REF_FRAMES];

    int count_mb_ref_frame_usage[MAX_REF_FRAMES];
    int this_frame_percent_intra;
    int last_frame_percent_intra;

    int ref_frame_flags;

    SPEED_FEATURES sf;
    int error_bins[1024];

    // Data used for real time conferencing mode to help determine if it would be good to update the gf
    int inter_zz_count;
    int gf_bad_count;
    int gf_update_recommended;
    int skip_true_count;
    int skip_false_count;
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#if CONFIG_T8X8
    int t4x4_count;
    int t8x8_count;
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#endif
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    unsigned char *segmentation_map;
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    // segment threashold for encode breakout
    int  segment_encode_breakout[MAX_MB_SEGMENTS];
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    unsigned char *active_map;
    unsigned int active_map_enabled;
    // Video conferencing cyclic refresh mode flags etc
    // This is a mode designed to clean up the background over time in live encoding scenarious. It uses segmentation
    int cyclic_refresh_mode_enabled;
    int cyclic_refresh_mode_max_mbs_perframe;
    int cyclic_refresh_mode_index;
    int cyclic_refresh_q;
    signed char *cyclic_refresh_map;

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#if CONFIG_MULTITHREAD
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    // multithread data
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    int * mt_current_mb_col;
    int mt_sync_range;
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    int b_multi_threaded;
    int encoding_thread_count;

    pthread_t *h_encoding_thread;
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    pthread_t h_filter_thread;

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    MB_ROW_COMP *mb_row_ei;
    ENCODETHREAD_DATA *en_thread_data;
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    LPFTHREAD_DATA lpf_thread_data;
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    //events
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    sem_t *h_event_start_encoding;
    sem_t h_event_end_encoding;
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    sem_t h_event_start_lpf;
    sem_t h_event_end_lpf;
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#endif

    TOKENLIST *tplist;
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    unsigned int partition_sz[MAX_PARTITIONS];
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    // end of multithread data


    fractional_mv_step_fp *find_fractional_mv_step;
    vp8_full_search_fn_t full_search_sad;
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    vp8_refining_search_fn_t refining_search_sad;
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    vp8_diamond_search_fn_t diamond_search_sad;
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    vp8_variance_fn_ptr_t fn_ptr[BLOCK_MAX_SEGMENTS];
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    unsigned int time_receive_data;
    unsigned int time_compress_data;
    unsigned int time_pick_lpf;
    unsigned int time_encode_mb_row;

    int base_skip_false_prob[128];

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    struct twopass_rc
    {
        unsigned int section_intra_rating;
        double section_max_qfactor;
        unsigned int next_iiratio;
        unsigned int this_iiratio;
        FIRSTPASS_STATS *total_stats;
        FIRSTPASS_STATS *this_frame_stats;
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        FIRSTPASS_STATS *stats_in, *stats_in_end, *stats_in_start;
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        int first_pass_done;
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        int64_t bits_left;
        int64_t clip_bits_total;
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        double avg_iiratio;
        double modified_error_total;
        double modified_error_used;
        double modified_error_left;
        double total_error_left;
        double total_intra_error_left;
        double total_coded_error_left;
        double start_tot_err_left;
        double kf_intra_err_min;
        double gf_intra_err_min;
        int frames_to_key;
        int maxq_max_limit;
        int maxq_min_limit;
        int gf_decay_rate;
        int static_scene_max_gf_interval;
        int kf_bits;
        int gf_group_error_left;           // Remaining error from uncoded frames in a gf group. Two pass use only

        // Projected total bits available for a key frame group of frames
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        int64_t kf_group_bits;
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        // Error score of frames still to be coded in kf group
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        int64_t kf_group_error_left;
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        int gf_group_bits;                // Projected Bits available for a group of frames including 1 GF or ARF
        int gf_bits;                     // Bits for the golden frame or ARF - 2 pass only
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        int alt_extra_bits;
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        double est_max_qcorrection_factor;
    } twopass;
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#if CONFIG_RUNTIME_CPU_DETECT
    VP8_ENCODER_RTCD            rtcd;
#endif
#if VP8_TEMPORAL_ALT_REF
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    YV12_BUFFER_CONFIG alt_ref_buffer;
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    YV12_BUFFER_CONFIG *frames[MAX_LAG_BUFFERS];
    int fixed_divide[512];
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#endif

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#if CONFIG_INTERNAL_STATS
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    int    count;
    double total_y;
    double total_u;
    double total_v;
    double total ;
    double total_sq_error;
    double totalp_y;
    double totalp_u;
    double totalp_v;
    double totalp;
    double total_sq_error2;
    int    bytes;
    double summed_quality;
    double summed_weights;
    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;
#endif
    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;
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    // Record of which MBs still refer to last golden frame either
    // directly or through 0,0
    unsigned char *gf_active_flags;
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    int gf_active_count;

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    int output_partition;

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    //Store last frame's MV info for next frame MV prediction
    int_mv *lfmv;
    int *lf_ref_frame_sign_bias;
    int *lf_ref_frame;
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    int force_next_frame_intra; /* force next frame to intra when kf_auto says so */
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    int droppable;
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} VP8_COMP;

void control_data_rate(VP8_COMP *cpi);

void vp8_encode_frame(VP8_COMP *cpi);

void vp8_pack_bitstream(VP8_COMP *cpi, unsigned char *dest, unsigned long *size);

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void vp8_activity_masking(VP8_COMP *cpi, MACROBLOCK *x);
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int rd_cost_intra_mb(MACROBLOCKD *x);

void vp8_tokenize_mb(VP8_COMP *, MACROBLOCKD *, TOKENEXTRA **);

void vp8_set_speed_features(VP8_COMP *cpi);
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#if CONFIG_DEBUG
#define CHECK_MEM_ERROR(lval,expr) do {\
        lval = (expr); \
        if(!lval) \
            vpx_internal_error(&cpi->common.error, VPX_CODEC_MEM_ERROR,\
                               "Failed to allocate "#lval" at %s:%d", \
                               __FILE__,__LINE__);\
    } while(0)
#else
#define CHECK_MEM_ERROR(lval,expr) do {\
        lval = (expr); \
        if(!lval) \
            vpx_internal_error(&cpi->common.error, VPX_CODEC_MEM_ERROR,\
                               "Failed to allocate "#lval);\
    } while(0)
#endif
#endif