libbpg/x265/source/encoder/sao.h

/*****************************************************************************
 * Copyright (C) 2013 x265 project
 *
 * Authors: Steve Borho <steve@borho.org>
 *          Min Chen <chenm003@163.com>
 *          Praveen Kumar Tiwari <praveen@multicorewareinc.com>
 *
 * This program is free software; you can redistribute it and/or modify
 * it under the terms of the GNU General Public License as published by
 * the Free Software Foundation; either version 2 of the License, or
 * (at your option) any later version.
 *
 * This program is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
 * GNU General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software
 * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02111, USA.
 *
 * This program is also available under a commercial proprietary license.
 * For more information, contact us at license @ x265.com.
 *****************************************************************************/

#ifndef X265_SAO_H
#define X265_SAO_H

#include "common.h"
#include "frame.h"
#include "entropy.h"

namespace X265_NS {
// private namespace

enum SAOTypeLen
{
    SAO_EO_LEN = 4,
    SAO_BO_LEN = 4,
    SAO_NUM_BO_CLASSES = 32
};

enum SAOType
{
    SAO_EO_0 = 0,
    SAO_EO_1,
    SAO_EO_2,
    SAO_EO_3,
    SAO_BO,
    MAX_NUM_SAO_TYPE
};

class SAO
{
public:

    enum { SAO_MAX_DEPTH = 4 };
    enum { SAO_BO_BITS  = 5 };
    enum { MAX_NUM_SAO_CLASS = 33 };
    enum { SAO_BIT_INC = 0 }; /* in HM12.0, it wrote as X265_MAX(X265_DEPTH - 10, 0) */
    enum { OFFSET_THRESH = 1 << X265_MIN(X265_DEPTH - 5, 5) };
    enum { NUM_EDGETYPE = 5 };
    enum { NUM_PLANE = 3 };
    enum { NUM_MERGE_MODE = 3 };

    static const uint32_t s_eoTable[NUM_EDGETYPE];

    typedef int32_t (PerClass[MAX_NUM_SAO_TYPE][MAX_NUM_SAO_CLASS]);
    typedef int32_t (PerPlane[NUM_PLANE][MAX_NUM_SAO_TYPE][MAX_NUM_SAO_CLASS]);

protected:

    /* allocated per part */
    PerClass*   m_count;
    PerClass*   m_offset;
    PerClass*   m_offsetOrg;

    /* allocated per CTU */
    PerPlane*   m_countPreDblk;
    PerPlane*   m_offsetOrgPreDblk;

    double      m_depthSaoRate[2][4];
    int8_t      m_offsetBo[SAO_NUM_BO_CLASSES];
    int8_t      m_offsetEo[NUM_EDGETYPE];

    int         m_numCuInWidth;
    int         m_numCuInHeight;
    int         m_numPlanes;
    int         m_hChromaShift;
    int         m_vChromaShift;

    pixel*      m_clipTable;
    pixel*      m_clipTableBase;

    pixel*      m_tmpU1[3];
    pixel*      m_tmpU2[3];
    pixel*      m_tmpL1;
    pixel*      m_tmpL2;

public:

    struct SAOContexts
    {
        Entropy cur;
        Entropy next;
        Entropy temp;
    };

    Frame*      m_frame;
    Entropy     m_entropyCoder;
    SAOContexts m_rdContexts;

    x265_param* m_param;
    int         m_refDepth;
    int         m_numNoSao[2];

    double      m_lumaLambda;
    double      m_chromaLambda;
    /* TODO: No doubles for distortion */

    SAO();

    bool create(x265_param* param);
    void destroy();

    void allocSaoParam(SAOParam* saoParam) const;

    void startSlice(Frame* pic, Entropy& initState, int qp);
    void resetStats();
    void resetSaoUnit(SaoCtuParam* saoUnit);

    // CTU-based SAO process without slice granularity
    void processSaoCu(int addr, int typeIdx, int plane);
    void processSaoUnitRow(SaoCtuParam* ctuParam, int idxY, int plane);

    void copySaoUnit(SaoCtuParam* saoUnitDst, const SaoCtuParam* saoUnitSrc);

    void calcSaoStatsCu(int addr, int plane);
    void calcSaoStatsCu_BeforeDblk(Frame* pic, int idxX, int idxY);

    void saoComponentParamDist(SAOParam* saoParam, int addr, int addrUp, int addrLeft, SaoCtuParam mergeSaoParam[2], double* mergeDist);
    void sao2ChromaParamDist(SAOParam* saoParam, int addr, int addrUp, int addrLeft, SaoCtuParam mergeSaoParam[][2], double* mergeDist);

    inline int estIterOffset(int typeIdx, int classIdx, double lambda, int offset, int32_t count, int32_t offsetOrg,
                             int32_t* currentDistortionTableBo, double* currentRdCostTableBo);
    inline int64_t estSaoTypeDist(int plane, int typeIdx, double lambda, int32_t* currentDistortionTableBo, double* currentRdCostTableBo);

    void rdoSaoUnitRowEnd(const SAOParam* saoParam, int numctus);
    void rdoSaoUnitRow(SAOParam* saoParam, int idxY);
};

}

#endif // ifndef X265_SAO_H
libbpg-0.9.6 2015-10-27 10:46:00 +00:00			`/*****************************************************************************`
			`* Copyright (C) 2013 x265 project`
			`*`
			`* Authors: Steve Borho <steve@borho.org>`
			`* Min Chen <chenm003@163.com>`
			`* Praveen Kumar Tiwari <praveen@multicorewareinc.com>`
			`*`
			`* This program is free software; you can redistribute it and/or modify`
			`* it under the terms of the GNU General Public License as published by`
			`* the Free Software Foundation; either version 2 of the License, or`
			`* (at your option) any later version.`
			`*`
			`* This program is distributed in the hope that it will be useful,`
			`* but WITHOUT ANY WARRANTY; without even the implied warranty of`
			`* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the`
			`* GNU General Public License for more details.`
			`*`
			`* You should have received a copy of the GNU General Public License`
			`* along with this program; if not, write to the Free Software`
			`* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02111, USA.`
			`*`
			`* This program is also available under a commercial proprietary license.`
			`* For more information, contact us at license @ x265.com.`
			`*****************************************************************************/`

			`#ifndef X265_SAO_H`
			`#define X265_SAO_H`

			`#include "common.h"`
			`#include "frame.h"`
			`#include "entropy.h"`

			`namespace X265_NS {`
			`// private namespace`

			`enum SAOTypeLen`
			`{`
			`SAO_EO_LEN = 4,`
			`SAO_BO_LEN = 4,`
			`SAO_NUM_BO_CLASSES = 32`
			`};`

			`enum SAOType`
			`{`
			`SAO_EO_0 = 0,`
			`SAO_EO_1,`
			`SAO_EO_2,`
			`SAO_EO_3,`
			`SAO_BO,`
			`MAX_NUM_SAO_TYPE`
			`};`

			`class SAO`
			`{`
			`public:`

			`enum { SAO_MAX_DEPTH = 4 };`
			`enum { SAO_BO_BITS = 5 };`
			`enum { MAX_NUM_SAO_CLASS = 33 };`
			`enum { SAO_BIT_INC = 0 }; /* in HM12.0, it wrote as X265_MAX(X265_DEPTH - 10, 0) */`
			`enum { OFFSET_THRESH = 1 << X265_MIN(X265_DEPTH - 5, 5) };`
			`enum { NUM_EDGETYPE = 5 };`
			`enum { NUM_PLANE = 3 };`
			`enum { NUM_MERGE_MODE = 3 };`

			`static const uint32_t s_eoTable[NUM_EDGETYPE];`

			`typedef int32_t (PerClass[MAX_NUM_SAO_TYPE][MAX_NUM_SAO_CLASS]);`
			`typedef int32_t (PerPlane[NUM_PLANE][MAX_NUM_SAO_TYPE][MAX_NUM_SAO_CLASS]);`

			`protected:`

			`/* allocated per part */`
			`PerClass* m_count;`
			`PerClass* m_offset;`
			`PerClass* m_offsetOrg;`

			`/* allocated per CTU */`
			`PerPlane* m_countPreDblk;`
			`PerPlane* m_offsetOrgPreDblk;`

			`double m_depthSaoRate[2][4];`
			`int8_t m_offsetBo[SAO_NUM_BO_CLASSES];`
			`int8_t m_offsetEo[NUM_EDGETYPE];`

			`int m_numCuInWidth;`
			`int m_numCuInHeight;`
			`int m_numPlanes;`
			`int m_hChromaShift;`
			`int m_vChromaShift;`

			`pixel* m_clipTable;`
			`pixel* m_clipTableBase;`

			`pixel* m_tmpU1[3];`
			`pixel* m_tmpU2[3];`
			`pixel* m_tmpL1;`
			`pixel* m_tmpL2;`

			`public:`

			`struct SAOContexts`
			`{`
			`Entropy cur;`
			`Entropy next;`
			`Entropy temp;`
			`};`

			`Frame* m_frame;`
			`Entropy m_entropyCoder;`
			`SAOContexts m_rdContexts;`

			`x265_param* m_param;`
			`int m_refDepth;`
			`int m_numNoSao[2];`

			`double m_lumaLambda;`
			`double m_chromaLambda;`
			`/* TODO: No doubles for distortion */`

			`SAO();`

			`bool create(x265_param* param);`
			`void destroy();`

			`void allocSaoParam(SAOParam* saoParam) const;`

			`void startSlice(Frame* pic, Entropy& initState, int qp);`
			`void resetStats();`
			`void resetSaoUnit(SaoCtuParam* saoUnit);`

			`// CTU-based SAO process without slice granularity`
			`void processSaoCu(int addr, int typeIdx, int plane);`
			`void processSaoUnitRow(SaoCtuParam* ctuParam, int idxY, int plane);`

			`void copySaoUnit(SaoCtuParam* saoUnitDst, const SaoCtuParam* saoUnitSrc);`

			`void calcSaoStatsCu(int addr, int plane);`
			`void calcSaoStatsCu_BeforeDblk(Frame* pic, int idxX, int idxY);`

			`void saoComponentParamDist(SAOParam* saoParam, int addr, int addrUp, int addrLeft, SaoCtuParam mergeSaoParam[2], double* mergeDist);`
			`void sao2ChromaParamDist(SAOParam* saoParam, int addr, int addrUp, int addrLeft, SaoCtuParam mergeSaoParam[][2], double* mergeDist);`

			`inline int estIterOffset(int typeIdx, int classIdx, double lambda, int offset, int32_t count, int32_t offsetOrg,`
			`int32_t* currentDistortionTableBo, double* currentRdCostTableBo);`
			`inline int64_t estSaoTypeDist(int plane, int typeIdx, double lambda, int32_t* currentDistortionTableBo, double* currentRdCostTableBo);`

			`void rdoSaoUnitRowEnd(const SAOParam* saoParam, int numctus);`
			`void rdoSaoUnitRow(SAOParam* saoParam, int idxY);`
			`};`

			`}`

			`#endif // ifndef X265_SAO_H`