shithub: openh264

ref: 0d16fd61b28fa19a460dc4c85148551c875c04b8
dir: /codec/encoder/core/inc/rc.h/

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/*!
 * \copy
 *     Copyright (c)  2004-2013, Cisco Systems
 *     All rights reserved.
 *
 *     Redistribution and use in source and binary forms, with or without
 *     modification, are permitted provided that the following conditions
 *     are met:
 *
 *        * Redistributions of source code must retain the above copyright
 *          notice, this list of conditions and the following disclaimer.
 *
 *        * Redistributions in binary form must reproduce the above copyright
 *          notice, this list of conditions and the following disclaimer in
 *          the documentation and/or other materials provided with the
 *          distribution.
 *
 *     THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 *     "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 *     LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
 *     FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
 *     COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
 *     INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
 *     BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
 *     LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
 *     CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
 *     LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
 *     ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 *     POSSIBILITY OF SUCH DAMAGE.
 *
 *
 *  ratectl.c
 *
 *  Abstract
 *      Include file for ratectl.c
 *
 *  History
 *      9/8/2004 Created
 *    12/26/2011 Modified
 *
 *
 *************************************************************************/
#ifndef RC_H
#define RC_H


#include "codec_app_def.h"
#include "svc_enc_macroblock.h"
#include "slice.h"

namespace WelsEnc {
//trace
#define GOM_TRACE_FLAG 0
#define GOM_H_SCC               8

enum {
  BITS_NORMAL,
  BITS_LIMITED,
  BITS_EXCEEDED
};

enum {
//virtual gop size
  VGOP_SIZE             = 8,

//qp information
  GOM_MIN_QP_MODE       = 12,
  GOM_MAX_QP_MODE       = 36,
  MAX_LOW_BR_QP			= 42,
  MIN_IDR_QP            = 26,
  MAX_IDR_QP            = 32,
  MIN_SCREEN_QP         = 26,
  MAX_SCREEN_QP         = 35,
  DELTA_QP              = 2,
  DELTA_QP_BGD_THD      = 3,

//frame skip constants
  SKIP_QP_90P           = 24,
  SKIP_QP_180P          = 24,
  SKIP_QP_360P          = 31,
  SKIP_QP_720P          = 31,
  LAST_FRAME_QP_RANGE_UPPER_MODE0  = 3,
  LAST_FRAME_QP_RANGE_LOWER_MODE0  = 2,
  LAST_FRAME_QP_RANGE_UPPER_MODE1  = 5,
  LAST_FRAME_QP_RANGE_LOWER_MODE1  = 3,

  MB_WIDTH_THRESHOLD_90P   = 15,
  MB_WIDTH_THRESHOLD_180P  = 30,
  MB_WIDTH_THRESHOLD_360P  = 60,

//Mode 0 parameter
  GOM_ROW_MODE0_90P     = 2,
  GOM_ROW_MODE0_180P    = 2,
  GOM_ROW_MODE0_360P    = 4,
  GOM_ROW_MODE0_720P    = 4,
  QP_RANGE_MODE0        = 3,

//Mode 1 parameter
  GOM_ROW_MODE1_90P     = 1,
  GOM_ROW_MODE1_180P    = 1,
  GOM_ROW_MODE1_360P    = 2,
  GOM_ROW_MODE1_720P    = 2,
  QP_RANGE_UPPER_MODE1  = 9,
  QP_RANGE_LOWER_MODE1  = 4,
  QP_RANGE_INTRA_MODE1  = 3
};

//bits allocation
#define MAX_BITS_VARY_PERCENTAGE 100 //bits vary range in percentage
#define INT_MULTIPLY 100 // use to multiply in Double to Int Conversion, should be same as AQ_QSTEP_INT_MULTIPLY in WelsVP
#define WEIGHT_MULTIPLY 2000
#define REMAIN_BITS_TH (10) // *INT_MULTIPLY
#define VGOP_BITS_PERCENTAGE_DIFF 5
#define IDR_BITRATE_RATIO  4
#define FRAME_iTargetBits_VARY_RANGE 50 // *INT_MULTIPLY
//R-Q Model
#define LINEAR_MODEL_DECAY_FACTOR 80 // *INT_MULTIPLY
#define FRAME_CMPLX_RATIO_RANGE 10 // *INT_MULTIPLY
#define SMOOTH_FACTOR_MIN_VALUE 2 // *INT_MULTIPLY
//#define VGOP_BITS_MIN_RATIO 0.8
//skip and padding
#define SKIP_RATIO  50 // *INT_MULTIPLY
#define PADDING_BUFFER_RATIO 50 // *INT_MULTIPLY
#define PADDING_THRESHOLD    5 //*INT_MULTIPLY

typedef struct TagRCSlicing {
int32_t   iComplexityIndexSlice;
int32_t   iCalculatedQpSlice;
int32_t   iStartMbSlice;
int32_t   iEndMbSlice;
int32_t   iTotalQpSlice;
int32_t   iTotalMbSlice;
int32_t   iTargetBitsSlice;
int32_t   iBsPosSlice;
int32_t   iFrameBitsSlice;
int32_t   iGomBitsSlice;
int32_t   iGomTargetBits;
//int32_t   gom_coded_mb;
} SRCSlicing;

typedef struct TagRCTemporal {
int32_t   iMinBitsTl;
int32_t   iMaxBitsTl;
int32_t   iTlayerWeight;
int32_t   iGopBitsDq;
//P frame level R-Q Model
int64_t   iLinearCmplx; // *INT_MULTIPLY
int32_t   iPFrameNum;
int32_t   iFrameCmplxMean;

} SRCTemporal;

typedef struct TagWelsRc {
int32_t   iRcVaryPercentage;
int32_t    iRcVaryRatio;

int32_t   iInitialQp; //initial qp
int32_t   iBitRate;
int32_t   iPreviousBitrate;
int32_t   iPreviousGopSize;
double    fFrameRate;
int64_t   iBitsPerFrame; // *INT_MULTIPLY
double    dPreviousFps;

// bits allocation and status
int32_t   iRemainingBits;
int32_t   iTargetBits;
int32_t   iCurrentBitsLevel;//0:normal; 1:limited; 2:exceeded.

int32_t   iIdrNum;
int32_t   iIntraComplexity;
int32_t   iIntraMbCount;

int8_t    iTlOfFrames[VGOP_SIZE];
int32_t   iRemainingWeights;
int32_t   iFrameDqBits;

double*    pGomComplexity;
int32_t*   pGomForegroundBlockNum;
int32_t*   pCurrentFrameGomSad;
int32_t*   pGomCost;

int32_t   iAverageFrameQp;
int32_t   iMinFrameQp;
int32_t   iMaxFrameQp;
int32_t   iNumberMbFrame;
int32_t   iNumberMbGom;
int32_t	iSliceNum;
int32_t   iGomSize;

int32_t   iSkipFrameNum;
int32_t   iFrameCodedInVGop;
int32_t   iSkipFrameInVGop;
int32_t   iGopNumberInVGop;
int32_t   iGopIndexInVGop;
 
int32_t   iSkipQpValue;
int32_t   iQpRangeUpperInFrame;
int32_t   iQpRangeLowerInFrame;
int32_t   iMinQp;
int32_t   iMaxQp;
//int32_t   delta_adaptive_qp;
int32_t   iSkipBufferRatio;
 
int32_t   iQStep; // *INT_MULTIPLY
int32_t   iFrameDeltaQpUpper;
int32_t   iFrameDeltaQpLower;
int32_t   iLastCalculatedQScale;
 
//for skip frame and padding
int32_t   iBufferSizeSkip;
int32_t   iBufferFullnessSkip;
int32_t   iBufferSizePadding;
int32_t   iBufferFullnessPadding;
int32_t   iPaddingSize;
int32_t   iPaddingBitrateStat;
bool      bSkipFlag;

SRCSlicing*	pSlicingOverRc;
SRCTemporal* pTemporalOverRc;

//for scc
int64_t     iAvgCost2Bits;
int64_t     iCost2BitsIntra;
int32_t    iBaseQp;
long long  uiLastTimeStamp;

//for statistics and online adjustments
int32_t   iActualBitRate; // TODO: to complete later
float     fLatestFrameRate; // TODO: to complete later
} SWelsSvcRc;

typedef  void (*PWelsRCPictureInitFunc) (void* pCtx);
typedef  void (*PWelsRCPictureDelayJudgeFunc) (void* pCtx, EVideoFrameType eFrameType, long long uiTimeStamp);
typedef  void (*PWelsRCPictureInfoUpdateFunc) (void* pCtx, int32_t iLayerSize);
typedef  void (*PWelsRCMBInfoUpdateFunc) (void* pCtx, SMB* pCurMb, int32_t iCostLuma, SSlice* pSlice);
typedef  void (*PWelsRCMBInitFunc) (void* pCtx, SMB* pCurMb, SSlice* pSlice);

typedef  struct  WelsRcFunc_s {
PWelsRCPictureInitFunc			pfWelsRcPictureInit;
PWelsRCPictureDelayJudgeFunc      pfWelsRcPicDelayJudge;
PWelsRCPictureInfoUpdateFunc	pfWelsRcPictureInfoUpdate;
PWelsRCMBInitFunc				pfWelsRcMbInit;
PWelsRCMBInfoUpdateFunc			pfWelsRcMbInfoUpdate;
} SWelsRcFunc;

void RcTraceFrameBits (void* pEncCtx, long long uiTimeStamp);
void WelsRcInitModule (void* pCtx, RC_MODES iRcMode);
void WelsRcFreeMemory (void* pCtx);

}
#endif //RC_H