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//
// C++ Interface: k9requant
//
// Description: A transcription from m2vrequantizer in C++
//
//
// Author: Jean-Michel PETIT <[email protected]>, (C) 2006
//
// Copyright: See COPYING file that comes with this distribution
//
//
#ifndef K9REQUANT_H
#define K9REQUANT_H
#include "k9common.h"
#include <tqthread.h>
#include <tqmutex.h>
#include <tqwaitcondition.h>
// user defined types
//typedef unsigned int uint;
typedef unsigned char uint8;
typedef unsigned short uint16;
typedef unsigned int uint32;
typedef unsigned long long uint64;
typedef char int8;
typedef short int16;
typedef int int32;
typedef long long int64;
typedef signed int sint;
typedef signed char sint8;
typedef signed short sint16;
typedef signed int sint32;
#ifdef WIN
typedef __int64 sint64;
#else
typedef signed long long sint64;
#endif
#define BITS_IN_BUF (8)
// block data
typedef struct {
uint8 run;
short level;
}
RunLevel;
/*
#define BUF_SIZE (16*1024*1024)
#define MIN_READ (4*1024*1024)
#define MIN_WRITE (8*1024*1024)
#define MAX_READ (10*1024*1024)
*/
// keep gcc happy
#define WRITE \
orbuf = orbuf; \
mloka1 = mloka1; \
mloka2 = mloka2; \
eof = eof;
// meaningless
#define MIN_WRITE 0
#define MAX_READ 0
#define MOV_READ
// this is where we switch threads
#define LOCK(x) if (! lock(x)) {rqt_run=false;return;}
#define COPY(x) \
tc_memcpy (wbuf, cbuf, x); \
cbuf += x; \
wbuf += x;
#define SEEKR(x) cbuf += x;
#define SEEKW(x) wbuf += x;
/**
@author Jean-Michel PETIT <[email protected]>
*/
class k9requant : public TQThread {
private:
int inbitcnt, outbitcnt;
uint32 inbitbuf, outbitbuf;
uint64 inbytecnt, outbytecnt;
float fact_x;
int mloka1, mloka2, eof;
int64 orim2vsize;
int64 bytediff;
double stress_factor; // from 0.0 to 1.0
int i_factor;
int p_factor;
int b_factor;
double i_min_stress;
double p_min_stress;
double b_min_stress;
short quant_table_id_data[4096];
short *quant_table_id ;
#ifdef USE_FD
FILE *ifd, *ofd;
#endif
#ifdef STAT
uint64 ori_i, ori_p, ori_b;
uint64 new_i, new_p, new_b;
uint64 cnt_i, cnt_p, cnt_b;
uint64 cnt_p_i, cnt_p_ni;
uint64 cnt_b_i, cnt_b_ni;
#endif
#ifdef DEMO
int gopCount;
#endif
#ifdef LOG_RATE_CONTROL
FILE* LOG_FILE;
#endif
#ifdef CHANGE_BRIGHTNESS
int delta_bright;
int dc_reset;
int old_dc_pred, new_dc_pred;
#endif
// mpeg2 state
// seq header
uint horizontal_size_value;
uint vertical_size_value;
// pic header
uint picture_coding_type;
// pic code ext
uint f_code[2][2];
uint intra_dc_precision;
uint picture_structure;
uint frame_pred_frame_dct;
uint concealment_motion_vectors;
uint q_scale_type;
uint intra_vlc_format;
uint alternate_scan;
// error
int validPicHeader;
int validSeqHeader;
int validExtHeader;
int sliceError;
// slice or mb
uint quantizer_scale;
uint new_quantizer_scale;
uint last_coded_scale;
int h_offset, v_offset;
int mb_skip, mb_add;
int mb_out;
int mb_sav_run, mb_sav_lev, mb_sav_c;
short *curTable;
RunLevel block[6][65]; // terminated by level = 0, so we need 64+1
private:
void putbits(uint val, int n);
void Refill_bits(void);
void Flush_Bits(uint n);
uint Show_Bits(uint n);
uint Get_Bits(uint n);
uint Copy_Bits(uint n);
void flush_read_buffer();
void flush_write_buffer();
int scale_quant(double quant );
int increment_quant(int quant);
int intmax( register int x, register int y );
int intmin( register int x, register int y );
void putmbtype(int mb_type);
int getNewQuant(int curQuant, int intra);
int isNotEmpty(RunLevel *blk);
// return != 0 if error
int putAC(int run, int signed_level, int vlcformat);
// return != 0 if error
int putACfirst(int run, int val);
void putnonintrablk(RunLevel *blk);
void putcbp(int cbp);
int get_macroblock_modes ();
int get_quantizer_scale ();
void get_motion_delta (const int f_code);
void get_dmv ();
int get_coded_block_pattern ();
int get_luma_dc_dct_diff ();
int get_chroma_dc_dct_diff ();
void get_intra_block_B14 ();
void get_intra_block_B15 ();
int get_non_intra_block_rq (RunLevel *blk);
int get_non_intra_block_sav (RunLevel *blk, int cc);
#ifdef P_FRAME_NON_INTRA_DROP
int get_non_intra_block_drop (RunLevel *blk, int cc);
#endif
#ifdef CHANGE_BRIGHTNESS
void putDC(const sVLCtable *tab, int val);
#endif
void slice_intra_DCT (const int cc);
void slice_non_intra_DCT (int cur_block);
void motion_fr_frame ( uint f_code[2] );
void motion_fr_field ( uint f_code[2] );
void motion_fr_dmv ( uint f_code[2] );
void motion_fr_conceal ( );
void motion_fi_field ( uint f_code[2] );
void motion_fi_16x8 ( uint f_code[2] );
void motion_fi_dmv ( uint f_code[2] );
void motion_fi_conceal ();
void putmbdata(int macroblock_modes);
void put_quantiser(int quantiser);
void putaddrinc(int addrinc);
int slice_init (int code);
void mpeg2_slice ( const int code );
void initRequant();
bool lock(int64 x);
protected:
void run ();
public:
uint8 *cbuf, *rbuf, *wbuf, *orbuf, *owbuf;
// global data for inter thread com
float rqt_fact;
uint32_t rqt_rcnt;
uint32_t rqt_wcnt;
uint64_t rqt_inbytes;
uint64_t rqt_outbytes;
uint64_t rqt_visize;
uchar *rqt_rptr;
uchar *rqt_wptr;
TQWaitCondition condr;
TQWaitCondition condw;
TQMutex mutr;
TQMutex mutw;
bool rqt_stop;
bool rqt_run;
public:
k9requant();
void initvar();
};
#endif
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