mirror of
https://github.com/Relintai/pandemonium_engine.git
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494 lines
20 KiB
C++
494 lines
20 KiB
C++
/********************************************************************
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* *
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* THIS FILE IS PART OF THE OggTheora SOFTWARE CODEC SOURCE CODE. *
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* USE, DISTRIBUTION AND REPRODUCTION OF THIS LIBRARY SOURCE IS *
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* GOVERNED BY A BSD-STYLE SOURCE LICENSE INCLUDED WITH THIS SOURCE *
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* IN 'COPYING'. PLEASE READ THESE TERMS BEFORE DISTRIBUTING. *
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* *
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* THE Theora SOURCE CODE IS COPYRIGHT (C) 2002-2009 *
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* by the Xiph.Org Foundation http://www.xiph.org/ *
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* *
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********************************************************************
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function:
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last mod: $Id: encint.h 16503 2009-08-22 18:14:02Z giles $
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********************************************************************/
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#if !defined(_encint_H)
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# define _encint_H (1)
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# if defined(HAVE_CONFIG_H)
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# include "config.h"
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# endif
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# include "theora/theoraenc.h"
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# include "internal.h"
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# include "ocintrin.h"
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# include "mathops.h"
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# include "enquant.h"
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# include "huffenc.h"
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/*# define OC_COLLECT_METRICS*/
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typedef oc_mv oc_mv2[2];
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typedef struct oc_enc_opt_vtable oc_enc_opt_vtable;
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typedef struct oc_mb_enc_info oc_mb_enc_info;
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typedef struct oc_mode_scheme_chooser oc_mode_scheme_chooser;
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typedef struct oc_iir_filter oc_iir_filter;
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typedef struct oc_frame_metrics oc_frame_metrics;
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typedef struct oc_rc_state oc_rc_state;
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typedef struct th_enc_ctx oc_enc_ctx;
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typedef struct oc_token_checkpoint oc_token_checkpoint;
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/*Constants for the packet-out state machine specific to the encoder.*/
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/*Next packet to emit: Data packet, but none are ready yet.*/
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#define OC_PACKET_EMPTY (0)
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/*Next packet to emit: Data packet, and one is ready.*/
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#define OC_PACKET_READY (1)
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/*All features enabled.*/
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#define OC_SP_LEVEL_SLOW (0)
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/*Enable early skip.*/
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#define OC_SP_LEVEL_EARLY_SKIP (1)
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/*Disable motion compensation.*/
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#define OC_SP_LEVEL_NOMC (2)
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/*Maximum valid speed level.*/
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#define OC_SP_LEVEL_MAX (2)
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/*The bits used for each of the MB mode codebooks.*/
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extern const unsigned char OC_MODE_BITS[2][OC_NMODES];
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/*The bits used for each of the MV codebooks.*/
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extern const unsigned char OC_MV_BITS[2][64];
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/*The minimum value that can be stored in a SB run for each codeword.
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The last entry is the upper bound on the length of a single SB run.*/
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extern const ogg_uint16_t OC_SB_RUN_VAL_MIN[8];
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/*The bits used for each SB run codeword.*/
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extern const unsigned char OC_SB_RUN_CODE_NBITS[7];
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/*The bits used for each block run length (starting with 1).*/
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extern const unsigned char OC_BLOCK_RUN_CODE_NBITS[30];
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/*Encoder specific functions with accelerated variants.*/
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struct oc_enc_opt_vtable{
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unsigned (*frag_sad)(const unsigned char *_src,
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const unsigned char *_ref,int _ystride);
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unsigned (*frag_sad_thresh)(const unsigned char *_src,
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const unsigned char *_ref,int _ystride,unsigned _thresh);
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unsigned (*frag_sad2_thresh)(const unsigned char *_src,
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const unsigned char *_ref1,const unsigned char *_ref2,int _ystride,
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unsigned _thresh);
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unsigned (*frag_satd_thresh)(const unsigned char *_src,
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const unsigned char *_ref,int _ystride,unsigned _thresh);
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unsigned (*frag_satd2_thresh)(const unsigned char *_src,
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const unsigned char *_ref1,const unsigned char *_ref2,int _ystride,
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unsigned _thresh);
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unsigned (*frag_intra_satd)(const unsigned char *_src,int _ystride);
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void (*frag_sub)(ogg_int16_t _diff[64],const unsigned char *_src,
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const unsigned char *_ref,int _ystride);
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void (*frag_sub_128)(ogg_int16_t _diff[64],
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const unsigned char *_src,int _ystride);
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void (*frag_copy2)(unsigned char *_dst,
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const unsigned char *_src1,const unsigned char *_src2,int _ystride);
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void (*frag_recon_intra)(unsigned char *_dst,int _ystride,
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const ogg_int16_t _residue[64]);
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void (*frag_recon_inter)(unsigned char *_dst,
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const unsigned char *_src,int _ystride,const ogg_int16_t _residue[64]);
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void (*fdct8x8)(ogg_int16_t _y[64],const ogg_int16_t _x[64]);
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};
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void oc_enc_vtable_init(oc_enc_ctx *_enc);
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/*Encoder-specific macroblock information.*/
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struct oc_mb_enc_info{
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/*Neighboring macro blocks that have MVs available from the current frame.*/
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unsigned cneighbors[4];
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/*Neighboring macro blocks to use for MVs from the previous frame.*/
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unsigned pneighbors[4];
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/*The number of current-frame neighbors.*/
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unsigned char ncneighbors;
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/*The number of previous-frame neighbors.*/
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unsigned char npneighbors;
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/*Flags indicating which MB modes have been refined.*/
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unsigned char refined;
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/*Motion vectors for a macro block for the current frame and the
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previous two frames.
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Each is a set of 2 vectors against OC_FRAME_GOLD and OC_FRAME_PREV, which
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can be used to estimate constant velocity and constant acceleration
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predictors.
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Uninitialized MVs are (0,0).*/
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oc_mv2 analysis_mv[3];
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/*Current unrefined analysis MVs.*/
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oc_mv unref_mv[2];
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/*Unrefined block MVs.*/
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oc_mv block_mv[4];
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/*Refined block MVs.*/
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oc_mv ref_mv[4];
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/*Minimum motion estimation error from the analysis stage.*/
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ogg_uint16_t error[2];
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/*MB error for half-pel refinement for each frame type.*/
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unsigned satd[2];
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/*Block error for half-pel refinement.*/
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unsigned block_satd[4];
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};
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/*State machine to estimate the opportunity cost of coding a MB mode.*/
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struct oc_mode_scheme_chooser{
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/*Pointers to the a list containing the index of each mode in the mode
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alphabet used by each scheme.
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The first entry points to the dynamic scheme0_ranks, while the remaining 7
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point to the constant entries stored in OC_MODE_SCHEMES.*/
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const unsigned char *mode_ranks[8];
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/*The ranks for each mode when coded with scheme 0.
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These are optimized so that the more frequent modes have lower ranks.*/
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unsigned char scheme0_ranks[OC_NMODES];
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/*The list of modes, sorted in descending order of frequency, that
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corresponds to the ranks above.*/
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unsigned char scheme0_list[OC_NMODES];
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/*The number of times each mode has been chosen so far.*/
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int mode_counts[OC_NMODES];
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/*The list of mode coding schemes, sorted in ascending order of bit cost.*/
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unsigned char scheme_list[8];
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/*The number of bits used by each mode coding scheme.*/
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ptrdiff_t scheme_bits[8];
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};
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void oc_mode_scheme_chooser_init(oc_mode_scheme_chooser *_chooser);
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/*A 2nd order low-pass Bessel follower.
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We use this for rate control because it has fast reaction time, but is
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critically damped.*/
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struct oc_iir_filter{
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ogg_int32_t c[2];
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ogg_int64_t g;
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ogg_int32_t x[2];
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ogg_int32_t y[2];
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};
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/*The 2-pass metrics associated with a single frame.*/
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struct oc_frame_metrics{
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/*The log base 2 of the scale factor for this frame in Q24 format.*/
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ogg_int32_t log_scale;
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/*The number of application-requested duplicates of this frame.*/
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unsigned dup_count:31;
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/*The frame type from pass 1.*/
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unsigned frame_type:1;
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};
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/*Rate control state information.*/
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struct oc_rc_state{
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/*The target average bits per frame.*/
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ogg_int64_t bits_per_frame;
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/*The current buffer fullness (bits available to be used).*/
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ogg_int64_t fullness;
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/*The target buffer fullness.
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This is where we'd like to be by the last keyframe the appears in the next
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buf_delay frames.*/
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ogg_int64_t target;
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/*The maximum buffer fullness (total size of the buffer).*/
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ogg_int64_t max;
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/*The log of the number of pixels in a frame in Q57 format.*/
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ogg_int64_t log_npixels;
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/*The exponent used in the rate model in Q8 format.*/
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unsigned exp[2];
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/*The number of frames to distribute the buffer usage over.*/
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int buf_delay;
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/*The total drop count from the previous frame.
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This includes duplicates explicitly requested via the
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TH_ENCCTL_SET_DUP_COUNT API as well as frames we chose to drop ourselves.*/
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ogg_uint32_t prev_drop_count;
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/*The log of an estimated scale factor used to obtain the real framerate, for
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VFR sources or, e.g., 12 fps content doubled to 24 fps, etc.*/
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ogg_int64_t log_drop_scale;
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/*The log of estimated scale factor for the rate model in Q57 format.*/
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ogg_int64_t log_scale[2];
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/*The log of the target quantizer level in Q57 format.*/
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ogg_int64_t log_qtarget;
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/*Will we drop frames to meet bitrate target?*/
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unsigned char drop_frames;
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/*Do we respect the maximum buffer fullness?*/
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unsigned char cap_overflow;
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/*Can the reservoir go negative?*/
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unsigned char cap_underflow;
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/*Second-order lowpass filters to track scale and VFR.*/
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oc_iir_filter scalefilter[2];
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int inter_count;
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int inter_delay;
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int inter_delay_target;
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oc_iir_filter vfrfilter;
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/*Two-pass mode state.
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0 => 1-pass encoding.
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1 => 1st pass of 2-pass encoding.
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2 => 2nd pass of 2-pass encoding.*/
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int twopass;
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/*Buffer for current frame metrics.*/
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unsigned char twopass_buffer[48];
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/*The number of bytes in the frame metrics buffer.
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When 2-pass encoding is enabled, this is set to 0 after each frame is
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submitted, and must be non-zero before the next frame will be accepted.*/
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int twopass_buffer_bytes;
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int twopass_buffer_fill;
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/*Whether or not to force the next frame to be a keyframe.*/
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unsigned char twopass_force_kf;
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/*The metrics for the previous frame.*/
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oc_frame_metrics prev_metrics;
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/*The metrics for the current frame.*/
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oc_frame_metrics cur_metrics;
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/*The buffered metrics for future frames.*/
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oc_frame_metrics *frame_metrics;
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int nframe_metrics;
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int cframe_metrics;
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/*The index of the current frame in the circular metric buffer.*/
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int frame_metrics_head;
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/*The frame count of each type (keyframes, delta frames, and dup frames);
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32 bits limits us to 2.268 years at 60 fps.*/
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ogg_uint32_t frames_total[3];
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/*The number of frames of each type yet to be processed.*/
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ogg_uint32_t frames_left[3];
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/*The sum of the scale values for each frame type.*/
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ogg_int64_t scale_sum[2];
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/*The start of the window over which the current scale sums are taken.*/
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int scale_window0;
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/*The end of the window over which the current scale sums are taken.*/
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int scale_window_end;
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/*The frame count of each type in the current 2-pass window; this does not
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include dup frames.*/
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int nframes[3];
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/*The total accumulated estimation bias.*/
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ogg_int64_t rate_bias;
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};
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void oc_rc_state_init(oc_rc_state *_rc,oc_enc_ctx *_enc);
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void oc_rc_state_clear(oc_rc_state *_rc);
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void oc_enc_rc_resize(oc_enc_ctx *_enc);
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int oc_enc_select_qi(oc_enc_ctx *_enc,int _qti,int _clamp);
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void oc_enc_calc_lambda(oc_enc_ctx *_enc,int _frame_type);
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int oc_enc_update_rc_state(oc_enc_ctx *_enc,
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long _bits,int _qti,int _qi,int _trial,int _droppable);
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int oc_enc_rc_2pass_out(oc_enc_ctx *_enc,unsigned char **_buf);
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int oc_enc_rc_2pass_in(oc_enc_ctx *_enc,unsigned char *_buf,size_t _bytes);
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/*The internal encoder state.*/
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struct th_enc_ctx{
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/*Shared encoder/decoder state.*/
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oc_theora_state state;
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/*Buffer in which to assemble packets.*/
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oggpack_buffer opb;
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/*Encoder-specific macroblock information.*/
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oc_mb_enc_info *mb_info;
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/*DC coefficients after prediction.*/
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ogg_int16_t *frag_dc;
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/*The list of coded macro blocks, in coded order.*/
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unsigned *coded_mbis;
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/*The number of coded macro blocks.*/
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size_t ncoded_mbis;
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/*Whether or not packets are ready to be emitted.
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This takes on negative values while there are remaining header packets to
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be emitted, reaches 0 when the codec is ready for input, and becomes
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positive when a frame has been processed and data packets are ready.*/
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int packet_state;
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/*The maximum distance between keyframes.*/
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ogg_uint32_t keyframe_frequency_force;
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/*The number of duplicates to produce for the next frame.*/
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ogg_uint32_t dup_count;
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/*The number of duplicates remaining to be emitted for the current frame.*/
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ogg_uint32_t nqueued_dups;
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/*The number of duplicates emitted for the last frame.*/
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ogg_uint32_t prev_dup_count;
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/*The current speed level.*/
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int sp_level;
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/*Whether or not VP3 compatibility mode has been enabled.*/
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unsigned char vp3_compatible;
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/*Whether or not any INTER frames have been coded.*/
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unsigned char coded_inter_frame;
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/*Whether or not previous frame was dropped.*/
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unsigned char prevframe_dropped;
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/*Stores most recently chosen Huffman tables for each frame type, DC and AC
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coefficients, and luma and chroma tokens.
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The actual Huffman table used for a given coefficient depends not only on
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the choice made here, but also its index in the zig-zag ordering.*/
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unsigned char huff_idxs[2][2][2];
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/*Current count of bits used by each MV coding mode.*/
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size_t mv_bits[2];
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/*The mode scheme chooser for estimating mode coding costs.*/
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oc_mode_scheme_chooser chooser;
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/*The number of vertical super blocks in an MCU.*/
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int mcu_nvsbs;
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/*The SSD error for skipping each fragment in the current MCU.*/
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unsigned *mcu_skip_ssd;
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/*The DCT token lists for each coefficient and each plane.*/
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unsigned char **dct_tokens[3];
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/*The extra bits associated with each DCT token.*/
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ogg_uint16_t **extra_bits[3];
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/*The number of DCT tokens for each coefficient for each plane.*/
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ptrdiff_t ndct_tokens[3][64];
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/*Pending EOB runs for each coefficient for each plane.*/
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ogg_uint16_t eob_run[3][64];
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/*The offset of the first DCT token for each coefficient for each plane.*/
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unsigned char dct_token_offs[3][64];
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/*The last DC coefficient for each plane and reference frame.*/
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int dc_pred_last[3][3];
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#if defined(OC_COLLECT_METRICS)
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/*Fragment SATD statistics for MB mode estimation metrics.*/
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unsigned *frag_satd;
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/*Fragment SSD statistics for MB mode estimation metrics.*/
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unsigned *frag_ssd;
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#endif
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/*The R-D optimization parameter.*/
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int lambda;
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/*The huffman tables in use.*/
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th_huff_code huff_codes[TH_NHUFFMAN_TABLES][TH_NDCT_TOKENS];
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/*The quantization parameters in use.*/
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th_quant_info qinfo;
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oc_iquant *enquant_tables[64][3][2];
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oc_iquant_table enquant_table_data[64][3][2];
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/*An "average" quantizer for each quantizer type (INTRA or INTER) and qi
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value.
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This is used to paramterize the rate control decisions.
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They are kept in the log domain to simplify later processing.
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Keep in mind these are DCT domain quantizers, and so are scaled by an
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additional factor of 4 from the pixel domain.*/
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ogg_int64_t log_qavg[2][64];
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/*The buffer state used to drive rate control.*/
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oc_rc_state rc;
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/*Table for encoder acceleration functions.*/
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oc_enc_opt_vtable opt_vtable;
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};
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void oc_enc_analyze_intra(oc_enc_ctx *_enc,int _recode);
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int oc_enc_analyze_inter(oc_enc_ctx *_enc,int _allow_keyframe,int _recode);
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#if defined(OC_COLLECT_METRICS)
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void oc_enc_mode_metrics_collect(oc_enc_ctx *_enc);
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void oc_enc_mode_metrics_dump(oc_enc_ctx *_enc);
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#endif
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/*Perform fullpel motion search for a single MB against both reference frames.*/
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void oc_mcenc_search(oc_enc_ctx *_enc,int _mbi);
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/*Refine a MB MV for one frame.*/
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void oc_mcenc_refine1mv(oc_enc_ctx *_enc,int _mbi,int _frame);
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/*Refine the block MVs.*/
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void oc_mcenc_refine4mv(oc_enc_ctx *_enc,int _mbi);
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/*Used to rollback a tokenlog transaction when we retroactively decide to skip
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a fragment.
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A checkpoint is taken right before each token is added.*/
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struct oc_token_checkpoint{
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/*The color plane the token was added to.*/
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unsigned char pli;
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/*The zig-zag index the token was added to.*/
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unsigned char zzi;
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/*The outstanding EOB run count before the token was added.*/
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ogg_uint16_t eob_run;
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/*The token count before the token was added.*/
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ptrdiff_t ndct_tokens;
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};
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void oc_enc_tokenize_start(oc_enc_ctx *_enc);
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int oc_enc_tokenize_ac(oc_enc_ctx *_enc,int _pli,ptrdiff_t _fragi,
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ogg_int16_t *_qdct,const ogg_uint16_t *_dequant,const ogg_int16_t *_dct,
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int _zzi,oc_token_checkpoint **_stack,int _acmin);
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void oc_enc_tokenlog_rollback(oc_enc_ctx *_enc,
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const oc_token_checkpoint *_stack,int _n);
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void oc_enc_pred_dc_frag_rows(oc_enc_ctx *_enc,
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int _pli,int _fragy0,int _frag_yend);
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void oc_enc_tokenize_dc_frag_list(oc_enc_ctx *_enc,int _pli,
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const ptrdiff_t *_coded_fragis,ptrdiff_t _ncoded_fragis,
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int _prev_ndct_tokens1,int _prev_eob_run1);
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void oc_enc_tokenize_finish(oc_enc_ctx *_enc);
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/*Utility routine to encode one of the header packets.*/
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int oc_state_flushheader(oc_theora_state *_state,int *_packet_state,
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oggpack_buffer *_opb,const th_quant_info *_qinfo,
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const th_huff_code _codes[TH_NHUFFMAN_TABLES][TH_NDCT_TOKENS],
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const char *_vendor,th_comment *_tc,ogg_packet *_op);
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/*Encoder-specific accelerated functions.*/
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void oc_enc_frag_sub(const oc_enc_ctx *_enc,ogg_int16_t _diff[64],
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const unsigned char *_src,const unsigned char *_ref,int _ystride);
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void oc_enc_frag_sub_128(const oc_enc_ctx *_enc,ogg_int16_t _diff[64],
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const unsigned char *_src,int _ystride);
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unsigned oc_enc_frag_sad(const oc_enc_ctx *_enc,const unsigned char *_src,
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const unsigned char *_ref,int _ystride);
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unsigned oc_enc_frag_sad_thresh(const oc_enc_ctx *_enc,
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const unsigned char *_src,const unsigned char *_ref,int _ystride,
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unsigned _thresh);
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unsigned oc_enc_frag_sad2_thresh(const oc_enc_ctx *_enc,
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const unsigned char *_src,const unsigned char *_ref1,
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const unsigned char *_ref2,int _ystride,unsigned _thresh);
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unsigned oc_enc_frag_satd_thresh(const oc_enc_ctx *_enc,
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const unsigned char *_src,const unsigned char *_ref,int _ystride,
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unsigned _thresh);
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unsigned oc_enc_frag_satd2_thresh(const oc_enc_ctx *_enc,
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const unsigned char *_src,const unsigned char *_ref1,
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const unsigned char *_ref2,int _ystride,unsigned _thresh);
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unsigned oc_enc_frag_intra_satd(const oc_enc_ctx *_enc,
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const unsigned char *_src,int _ystride);
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void oc_enc_frag_copy2(const oc_enc_ctx *_enc,unsigned char *_dst,
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const unsigned char *_src1,const unsigned char *_src2,int _ystride);
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void oc_enc_frag_recon_intra(const oc_enc_ctx *_enc,
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unsigned char *_dst,int _ystride,const ogg_int16_t _residue[64]);
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void oc_enc_frag_recon_inter(const oc_enc_ctx *_enc,unsigned char *_dst,
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const unsigned char *_src,int _ystride,const ogg_int16_t _residue[64]);
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void oc_enc_fdct8x8(const oc_enc_ctx *_enc,ogg_int16_t _y[64],
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const ogg_int16_t _x[64]);
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/*Default pure-C implementations.*/
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void oc_enc_vtable_init_c(oc_enc_ctx *_enc);
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void oc_enc_frag_sub_c(ogg_int16_t _diff[64],
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const unsigned char *_src,const unsigned char *_ref,int _ystride);
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void oc_enc_frag_sub_128_c(ogg_int16_t _diff[64],
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const unsigned char *_src,int _ystride);
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void oc_enc_frag_copy2_c(unsigned char *_dst,
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const unsigned char *_src1,const unsigned char *_src2,int _ystride);
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unsigned oc_enc_frag_sad_c(const unsigned char *_src,
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const unsigned char *_ref,int _ystride);
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unsigned oc_enc_frag_sad_thresh_c(const unsigned char *_src,
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const unsigned char *_ref,int _ystride,unsigned _thresh);
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unsigned oc_enc_frag_sad2_thresh_c(const unsigned char *_src,
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const unsigned char *_ref1,const unsigned char *_ref2,int _ystride,
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unsigned _thresh);
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unsigned oc_enc_frag_satd_thresh_c(const unsigned char *_src,
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const unsigned char *_ref,int _ystride,unsigned _thresh);
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unsigned oc_enc_frag_satd2_thresh_c(const unsigned char *_src,
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const unsigned char *_ref1,const unsigned char *_ref2,int _ystride,
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unsigned _thresh);
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unsigned oc_enc_frag_intra_satd_c(const unsigned char *_src,int _ystride);
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void oc_enc_fdct8x8_c(ogg_int16_t _y[64],const ogg_int16_t _x[64]);
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#endif
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