shithub: openh264

ref: e87cf9e2775e4212ff25cea4676e1205b6eb07e7
dir: /codec/decoder/core/src/fmo.cpp/

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/*!
 * \copy
 *     Copyright (c)  2009-2013, 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.
 *
 *
 * \file	fmo.c
 *
 * \brief	Flexible Macroblock Ordering implementation
 *
 * \date	2/4/2009 Created
 *
 *************************************************************************************
 */
#include <string.h>

#include "fmo.h"
#include "macros.h"
#include "utils.h"
#include "mem_align.h"

namespace WelsDec {

/*!
 * \brief	Generate MB allocated map for interleaved slice group (TYPE 0)
 *
 * \param	pFmo	fmo context
 * \param	pPps	pps context
 *
 * \return	0 - successful; none 0 - failed
 */
static inline int32_t FmoGenerateMbAllocMapType0 (PFmo pFmo, PPps pPps) {
  uint32_t uiNumSliceGroups = 0;
  int32_t iMbNum = 0;
  int32_t i = 0;

  WELS_VERIFY_RETURN_IF (1, (NULL == pFmo || NULL == pPps))
  uiNumSliceGroups = pPps->uiNumSliceGroups;
  iMbNum = pFmo->iCountMbNum;
  WELS_VERIFY_RETURN_IF (1, (NULL == pFmo->pMbAllocMap || iMbNum <= 0 || uiNumSliceGroups >= MAX_SLICEGROUP_IDS))

  do {
    uint8_t uiGroup = 0;
    do {
      const int32_t kiRunIdx = pPps->uiRunLength[uiGroup];
      int32_t j = 0;
      do {
        pFmo->pMbAllocMap[i + j] = uiGroup;
        ++ j;
      } while (j < kiRunIdx && i + j < iMbNum);
      i += kiRunIdx;
      ++ uiGroup;
    } while (uiGroup < uiNumSliceGroups && i < iMbNum);
  } while (i < iMbNum);

  return 0; // well here
}

/*!
 * \brief	Generate MB allocated map for dispersed slice group (TYPE 1)
 *
 * \param	pFmo	fmo context
 * \param	pPps	pps context
 * \param	iMbWidth	MB width
 *
 * \return	0 - successful; none 0 - failed
 */
static inline int32_t FmoGenerateMbAllocMapType1 (PFmo pFmo, PPps pPps, const int32_t kiMbWidth) {
  uint32_t uiNumSliceGroups = 0;
  int32_t iMbNum = 0;
  int16_t i = 0;
  WELS_VERIFY_RETURN_IF (1, (NULL == pFmo || NULL == pPps))
  uiNumSliceGroups = pPps->uiNumSliceGroups;
  iMbNum			 = pFmo->iCountMbNum;
  WELS_VERIFY_RETURN_IF (1, (NULL == pFmo->pMbAllocMap || iMbNum <= 0 || kiMbWidth == 0
                             || uiNumSliceGroups >= MAX_SLICEGROUP_IDS))

  do {
    pFmo->pMbAllocMap[i] = (uint8_t) (((i % kiMbWidth) + (((i / kiMbWidth) * uiNumSliceGroups) >> 1)) % uiNumSliceGroups);
    ++ i;
  } while (i < iMbNum);

  return 0; // well here
}

/*!
 * \brief	Generate MB allocated map for various type of slice group cases (TYPE 0, .., 6)
 *
 * \param	pFmo		fmo context
 * \param	pPps		pps context
 * \param	kiMbWidth	MB width
 * \param	kiMbHeight	MB height
 *
 * \return	0 - successful; none 0 - failed
 */
static inline int32_t FmoGenerateSliceGroup (PFmo pFmo, const PPps kpPps, const int32_t kiMbWidth,
    const int32_t kiMbHeight) {
  int32_t iNumMb	= 0;
  int32_t iErr		= 0;
  bool_t	bResolutionChanged = false;

  // the cases we would not like
  WELS_VERIFY_RETURN_IF (1, (NULL == pFmo || NULL == kpPps))

  iNumMb	= pFmo->iCountMbNum;

  iNumMb = kiMbWidth * kiMbHeight;

  if (0 == iNumMb)
    return 1;


  WelsFree (pFmo->pMbAllocMap, "_fmo->pMbAllocMap");
  pFmo->pMbAllocMap	= (uint8_t*)WelsMalloc (iNumMb * sizeof (uint8_t), "_fmo->pMbAllocMap");
  WELS_VERIFY_RETURN_IF (1, (NULL == pFmo->pMbAllocMap))	// out of memory

  pFmo->iCountMbNum	= iNumMb;

  if (kpPps->uiNumSliceGroups < 2 && iNumMb > 0) { // only one slice group, exactly it is single slice based
    memset (pFmo->pMbAllocMap, 0,  iNumMb * sizeof (int8_t));	// for safe

    pFmo->iSliceGroupCount		= 1;

    return 0;
  }

  if (bResolutionChanged || ((int32_t)kpPps->uiSliceGroupMapType != pFmo->iSliceGroupType)
      || ((int32_t)kpPps->uiNumSliceGroups != pFmo->iSliceGroupCount)) {
    switch (kpPps->uiSliceGroupMapType) {
    case 0:
      iErr	= FmoGenerateMbAllocMapType0 (pFmo, kpPps);
      break;
    case 1:
      iErr = FmoGenerateMbAllocMapType1 (pFmo, kpPps, kiMbWidth);
      break;
    case 2:
    case 3:
    case 4:
    case 5:
    case 6:
      // Reserve for others slice group type
      iErr	= 1;
      break;
    default:
      return 1;
    }
  }

  if (0 == iErr) {	// well now
    pFmo->iSliceGroupCount	= kpPps->uiNumSliceGroups;
    pFmo->iSliceGroupType	= kpPps->uiSliceGroupMapType;
  }

  return iErr;
}

/*!
 * \brief	Initialize Wels Flexible Macroblock Ordering (FMO)
 *
 * \param	pFmo		Wels fmo to be initialized
 * \param	pPps	pps argument
 * \param	kiMbWidth	mb width
 * \param	kiMbHeight	mb height
 *
 * \return	0 - successful; none 0 - failed;
 */
int32_t	InitFmo (PFmo pFmo, PPps pPps, const int32_t kiMbWidth, const int32_t kiMbHeight) {
  return FmoGenerateSliceGroup (pFmo, pPps, kiMbWidth, kiMbHeight);
}


/*!
 * \brief	Uninitialize Wels Flexible Macroblock Ordering (FMO) list
 *
 * \param	pFmo		Wels base fmo ptr to be uninitialized
 * \param	kiCnt		count number of PPS per list
 * \param	kiAvail		count available number of PPS in list
 *
 * \return	NONE
 */
void_t UninitFmoList (PFmo pFmo, const int32_t kiCnt, const int32_t kiAvail) {
  PFmo pIter = pFmo;
  int32_t i = 0;
  int32_t iFreeNodes = 0;

  if (NULL == pIter || kiAvail <= 0 || kiCnt < kiAvail)
    return;

  while (i < kiCnt) {
    if (pIter != NULL && pIter->bActiveFlag) {
      if (NULL != pIter->pMbAllocMap) {
        WelsFree (pIter->pMbAllocMap, "pIter->pMbAllocMap");

        pIter->pMbAllocMap	= NULL;
      }
      pIter->iSliceGroupCount	= 0;
      pIter->iSliceGroupType	= -1;
      pIter->iCountMbNum		= 0;
      pIter->bActiveFlag		= false;
      ++ iFreeNodes;
      if (iFreeNodes >= kiAvail)
        break;
    }
    ++ pIter;
    ++ i;
  }
}

/*!
 * \brief	detect parameter sets are changed or not
 *
 * \param	pFmo				fmo context
 * \param	kiCountNumMb		(iMbWidth * iMbHeight) in Sps
 * \param	iSliceGroupType	slice group type if fmo is exactly enabled
 * \param	iSliceGroupCount	slice group count if fmo is exactly enabled
 *
 * \return	true - changed or not initialized yet; false - not change at all
 */
bool_t FmoParamSetsChanged (PFmo pFmo, const int32_t kiCountNumMb, const int32_t kiSliceGroupType,
                            const int32_t kiSliceGroupCount) {
  WELS_VERIFY_RETURN_IF (false, (NULL == pFmo))

  return ((!pFmo->bActiveFlag)
          || (kiCountNumMb != pFmo->iCountMbNum)
          || (kiSliceGroupType != pFmo->iSliceGroupType)
          || (kiSliceGroupCount != pFmo->iSliceGroupCount));
}

/*!
 * \brief	update/insert FMO parameter unit
 *
 * \param	_fmo	FMO context
 * \param	_sps	PSps
 * \param	_pps	PPps
 * \param	pActiveFmoNum	int32_t* [in/out]
 *
 * \return	true - update/insert successfully; false - failed;
 */
bool_t FmoParamUpdate (PFmo pFmo, PSps pSps, PPps pPps, int32_t* pActiveFmoNum) {
  const uint32_t kuiMbWidth = pSps->iMbWidth;
  const uint32_t kuiMbHeight = pSps->iMbHeight;

  if (FmoParamSetsChanged (pFmo,
                           kuiMbWidth * kuiMbHeight,
                           pPps->uiSliceGroupMapType,
                           pPps->uiNumSliceGroups)) {

    if (InitFmo (pFmo, pPps, kuiMbWidth, kuiMbHeight)) {
      return false;
    } else {
      if (!pFmo->bActiveFlag && *pActiveFmoNum < MAX_PPS_COUNT) {
        ++ (*pActiveFmoNum);
        pFmo->bActiveFlag	= true;
      }
    }
  }

  return true;
}

/*!
 * \brief	Convert kMbXy to slice group idc correspondingly
 *
 * \param	pFmo		Wels fmo context
 * \param	kMbXy		kMbXy to be converted
 *
 * \return	slice group idc - successful; -1 - failed;
 */
int32_t FmoMbToSliceGroup (PFmo pFmo, const MB_XY_T kiMbXy) {
  const int32_t kiMbNum	= pFmo->iCountMbNum;
  const uint8_t* kpMbMap	= pFmo->pMbAllocMap;

  if (kiMbXy < 0 || kiMbXy >= kiMbNum || kpMbMap == NULL)
    return -1;

  return kpMbMap[ kiMbXy ];
}

/*!
 * \brief	Get successive mb to be processed with given current kMbXy
 *
 * \param	pFmo			Wels fmo context
 * \param	kMbXy			current kMbXy
 *
 * \return	iNextMb - successful; -1 - failed;
 */
MB_XY_T FmoNextMb (PFmo pFmo, const MB_XY_T kiMbXy) {
  const int32_t kiTotalMb			= pFmo->iCountMbNum;
  const uint8_t* kpMbMap			= pFmo->pMbAllocMap;
  MB_XY_T iNextMb					= kiMbXy;
  const uint8_t kuiSliceGroupIdc	= (uint8_t)FmoMbToSliceGroup (pFmo, kiMbXy);

  if (kuiSliceGroupIdc == (uint8_t) (-1))
    return -1;

  do {
    ++ iNextMb;
    if (iNextMb >= kiTotalMb) {
      iNextMb	= -1;
      break;
    }
    if (kpMbMap[iNextMb] == kuiSliceGroupIdc) {
      break;
    }
  } while (1);

  // -1: No further MB in this slice (could be end of picture)
  return iNextMb;
}

} // namespace WelsDec