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|
/* ------------------------------------------------------------------
* Copyright (C) 1998-2009 PacketVideo
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either
* express or implied.
* See the License for the specific language governing permissions
* and limitations under the License.
* -------------------------------------------------------------------
*/
#include "avcenc_api.h"
#include "avcenc_lib.h"
/* ======================================================================== */
/* Function : PVAVCGetNALType() */
/* Date : 11/4/2003 */
/* Purpose : Sniff NAL type from the bitstream */
/* In/out : */
/* Return : AVCENC_SUCCESS if succeed, AVCENC_FAIL if fail. */
/* Modified : */
/* ======================================================================== */
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncGetNALType(unsigned char *bitstream, int size,
int *nal_type, int *nal_ref_idc)
{
int forbidden_zero_bit;
if (size > 0)
{
forbidden_zero_bit = bitstream[0] >> 7;
if (forbidden_zero_bit != 0)
return AVCENC_FAIL;
*nal_ref_idc = (bitstream[0] & 0x60) >> 5;
*nal_type = bitstream[0] & 0x1F;
return AVCENC_SUCCESS;
}
return AVCENC_FAIL;
}
/* ======================================================================== */
/* Function : PVAVCEncInitialize() */
/* Date : 3/18/2004 */
/* Purpose : Initialize the encoder library, allocate memory and verify */
/* the profile/level support/settings. */
/* In/out : Encoding parameters. */
/* Return : AVCENC_SUCCESS for success. */
/* Modified : */
/* ======================================================================== */
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncInitialize(AVCHandle *avcHandle, AVCEncParams *encParam,
void* extSPS, void* extPPS)
{
AVCEnc_Status status;
AVCEncObject *encvid;
AVCCommonObj *video;
uint32 *userData = (uint32*) avcHandle->userData;
int framesize;
if (avcHandle->AVCObject != NULL)
{
return AVCENC_ALREADY_INITIALIZED; /* It's already initialized, need to cleanup first */
}
/* not initialized */
/* allocate videoObject */
avcHandle->AVCObject = (void*)avcHandle->CBAVC_Malloc(userData, sizeof(AVCEncObject), DEFAULT_ATTR);
if (avcHandle->AVCObject == NULL)
{
return AVCENC_MEMORY_FAIL;
}
encvid = (AVCEncObject*) avcHandle->AVCObject;
encvid->enc_state = AVCEnc_Initializing;
encvid->avcHandle = avcHandle;
encvid->common = (AVCCommonObj*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCCommonObj), DEFAULT_ATTR);
if (encvid->common == NULL)
{
return AVCENC_MEMORY_FAIL;
}
video = encvid->common;
/* allocate bitstream structure */
encvid->bitstream = (AVCEncBitstream*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCEncBitstream), DEFAULT_ATTR);
if (encvid->bitstream == NULL)
{
return AVCENC_MEMORY_FAIL;
}
encvid->bitstream->encvid = encvid; /* to point back for reallocation */
/* allocate sequence parameter set structure */
video->currSeqParams = (AVCSeqParamSet*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCSeqParamSet), DEFAULT_ATTR);
if (video->currSeqParams == NULL)
{
return AVCENC_MEMORY_FAIL;
}
/* allocate picture parameter set structure */
video->currPicParams = (AVCPicParamSet*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCPicParamSet), DEFAULT_ATTR);
if (video->currPicParams == NULL)
{
return AVCENC_MEMORY_FAIL;
}
/* allocate slice header structure */
video->sliceHdr = (AVCSliceHeader*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCSliceHeader), DEFAULT_ATTR);
if (video->sliceHdr == NULL)
{
return AVCENC_MEMORY_FAIL;
}
/* allocate encoded picture buffer structure*/
video->decPicBuf = (AVCDecPicBuffer*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCDecPicBuffer), DEFAULT_ATTR);
if (video->decPicBuf == NULL)
{
return AVCENC_MEMORY_FAIL;
}
/* allocate rate control structure */
encvid->rateCtrl = (AVCRateControl*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCRateControl), DEFAULT_ATTR);
if (encvid->rateCtrl == NULL)
{
return AVCENC_MEMORY_FAIL;
}
/* reset frame list, not really needed */
video->currPic = NULL;
video->currFS = NULL;
encvid->currInput = NULL;
video->prevRefPic = NULL;
/* now read encParams, and allocate dimension-dependent variables */
/* such as mblock */
status = SetEncodeParam(avcHandle, encParam, extSPS, extPPS); /* initialized variables to be used in SPS*/
if (status != AVCENC_SUCCESS)
{
return status;
}
if (encParam->use_overrun_buffer == AVC_ON)
{
/* allocate overrun buffer */
encvid->oBSize = encvid->rateCtrl->cpbSize;
if (encvid->oBSize > DEFAULT_OVERRUN_BUFFER_SIZE)
{
encvid->oBSize = DEFAULT_OVERRUN_BUFFER_SIZE;
}
encvid->overrunBuffer = (uint8*) avcHandle->CBAVC_Malloc(userData, encvid->oBSize, DEFAULT_ATTR);
if (encvid->overrunBuffer == NULL)
{
return AVCENC_MEMORY_FAIL;
}
}
else
{
encvid->oBSize = 0;
encvid->overrunBuffer = NULL;
}
/* allocate frame size dependent structures */
framesize = video->FrameHeightInMbs * video->PicWidthInMbs;
video->mblock = (AVCMacroblock*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCMacroblock) * framesize, DEFAULT_ATTR);
if (video->mblock == NULL)
{
return AVCENC_MEMORY_FAIL;
}
video->MbToSliceGroupMap = (int*) avcHandle->CBAVC_Malloc(userData, sizeof(uint) * video->PicSizeInMapUnits * 2, DEFAULT_ATTR);
if (video->MbToSliceGroupMap == NULL)
{
return AVCENC_MEMORY_FAIL;
}
encvid->mot16x16 = (AVCMV*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCMV) * framesize, DEFAULT_ATTR);
if (encvid->mot16x16 == NULL)
{
return AVCENC_MEMORY_FAIL;
}
encvid->intraSearch = (uint8*) avcHandle->CBAVC_Malloc(userData, sizeof(uint8) * framesize, DEFAULT_ATTR);
if (encvid->intraSearch == NULL)
{
return AVCENC_MEMORY_FAIL;
}
encvid->min_cost = (int*) avcHandle->CBAVC_Malloc(userData, sizeof(int) * framesize, DEFAULT_ATTR);
if (encvid->min_cost == NULL)
{
return AVCENC_MEMORY_FAIL;
}
/* initialize motion search related memory */
if (AVCENC_SUCCESS != InitMotionSearchModule(avcHandle))
{
return AVCENC_MEMORY_FAIL;
}
if (AVCENC_SUCCESS != InitRateControlModule(avcHandle))
{
return AVCENC_MEMORY_FAIL;
}
/* intialize function pointers */
encvid->functionPointer = (AVCEncFuncPtr*) avcHandle->CBAVC_Malloc(userData, sizeof(AVCEncFuncPtr), DEFAULT_ATTR);
if (encvid->functionPointer == NULL)
{
return AVCENC_MEMORY_FAIL;
}
encvid->functionPointer->SAD_Macroblock = &AVCSAD_Macroblock_C;
encvid->functionPointer->SAD_MB_HalfPel[0] = NULL;
encvid->functionPointer->SAD_MB_HalfPel[1] = &AVCSAD_MB_HalfPel_Cxh;
encvid->functionPointer->SAD_MB_HalfPel[2] = &AVCSAD_MB_HalfPel_Cyh;
encvid->functionPointer->SAD_MB_HalfPel[3] = &AVCSAD_MB_HalfPel_Cxhyh;
/* initialize timing control */
encvid->modTimeRef = 0; /* ALWAYS ASSUME THAT TIMESTAMP START FROM 0 !!!*/
video->prevFrameNum = 0;
encvid->prevCodedFrameNum = 0;
encvid->dispOrdPOCRef = 0;
if (encvid->outOfBandParamSet == TRUE)
{
encvid->enc_state = AVCEnc_Encoding_SPS;
}
else
{
encvid->enc_state = AVCEnc_Analyzing_Frame;
}
return AVCENC_SUCCESS;
}
/* ======================================================================== */
/* Function : PVAVCEncGetMaxOutputSize() */
/* Date : 11/29/2008 */
/* Purpose : Return max output buffer size that apps should allocate for */
/* output buffer. */
/* In/out : */
/* Return : AVCENC_SUCCESS for success. */
/* Modified : size */
/* ======================================================================== */
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncGetMaxOutputBufferSize(AVCHandle *avcHandle, int* size)
{
AVCEncObject *encvid = (AVCEncObject*)avcHandle->AVCObject;
if (encvid == NULL)
{
return AVCENC_UNINITIALIZED;
}
*size = encvid->rateCtrl->cpbSize;
return AVCENC_SUCCESS;
}
/* ======================================================================== */
/* Function : PVAVCEncSetInput() */
/* Date : 4/18/2004 */
/* Purpose : To feed an unencoded original frame to the encoder library. */
/* In/out : */
/* Return : AVCENC_SUCCESS for success. */
/* Modified : */
/* ======================================================================== */
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncSetInput(AVCHandle *avcHandle, AVCFrameIO *input)
{
AVCEncObject *encvid = (AVCEncObject*)avcHandle->AVCObject;
AVCCommonObj *video = encvid->common;
AVCRateControl *rateCtrl = encvid->rateCtrl;
AVCEnc_Status status;
uint frameNum;
if (encvid == NULL)
{
return AVCENC_UNINITIALIZED;
}
if (encvid->enc_state == AVCEnc_WaitingForBuffer)
{
goto RECALL_INITFRAME;
}
else if (encvid->enc_state != AVCEnc_Analyzing_Frame)
{
return AVCENC_FAIL;
}
if (input->pitch > 0xFFFF)
{
return AVCENC_NOT_SUPPORTED; // we use 2-bytes for pitch
}
/***********************************/
/* Let's rate control decide whether to encode this frame or not */
/* Also set video->nal_unit_type, sliceHdr->slice_type, video->slice_type */
if (AVCENC_SUCCESS != RCDetermineFrameNum(encvid, rateCtrl, input->coding_timestamp, &frameNum))
{
return AVCENC_SKIPPED_PICTURE; /* not time to encode, thus skipping */
}
/* we may not need this line */
//nextFrmModTime = (uint32)((((frameNum+1)*1000)/rateCtrl->frame_rate) + modTimeRef); /* rec. time */
//encvid->nextModTime = nextFrmModTime - (encvid->frameInterval>>1) - 1; /* between current and next frame */
encvid->currInput = input;
encvid->currInput->coding_order = frameNum;
RECALL_INITFRAME:
/* initialize and analyze the frame */
status = InitFrame(encvid);
if (status == AVCENC_SUCCESS)
{
encvid->enc_state = AVCEnc_Encoding_Frame;
}
else if (status == AVCENC_NEW_IDR)
{
if (encvid->outOfBandParamSet == TRUE)
{
encvid->enc_state = AVCEnc_Encoding_Frame;
}
else // assuming that in-band paramset keeps sending new SPS and PPS.
{
encvid->enc_state = AVCEnc_Encoding_SPS;
//video->currSeqParams->seq_parameter_set_id++;
//if(video->currSeqParams->seq_parameter_set_id > 31) // range check
{
video->currSeqParams->seq_parameter_set_id = 0; // reset
}
}
video->sliceHdr->idr_pic_id++;
if (video->sliceHdr->idr_pic_id > 65535) // range check
{
video->sliceHdr->idr_pic_id = 0; // reset
}
}
/* the following logics need to be revisited */
else if (status == AVCENC_PICTURE_READY) // no buffers returned back to the encoder
{
encvid->enc_state = AVCEnc_WaitingForBuffer; // Input accepted but can't continue
// need to free up some memory before proceeding with Encode
}
return status; // return status, including the AVCENC_FAIL case and all 3 above.
}
/* ======================================================================== */
/* Function : PVAVCEncodeNAL() */
/* Date : 4/29/2004 */
/* Purpose : To encode one NAL/slice. */
/* In/out : */
/* Return : AVCENC_SUCCESS for success. */
/* Modified : */
/* ======================================================================== */
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncodeNAL(AVCHandle *avcHandle, unsigned char *buffer, unsigned int *buf_nal_size, int *nal_type)
{
AVCEncObject *encvid = (AVCEncObject*)avcHandle->AVCObject;
AVCCommonObj *video = encvid->common;
AVCEncBitstream *bitstream = encvid->bitstream;
AVCEnc_Status status;
if (encvid == NULL)
{
return AVCENC_UNINITIALIZED;
}
switch (encvid->enc_state)
{
case AVCEnc_Initializing:
return AVCENC_UNINITIALIZED;
case AVCEnc_Encoding_SPS:
/* initialized the structure */
BitstreamEncInit(bitstream, buffer, *buf_nal_size, NULL, 0);
BitstreamWriteBits(bitstream, 8, (1 << 5) | AVC_NALTYPE_SPS);
/* encode SPS */
status = EncodeSPS(encvid, bitstream);
if (status != AVCENC_SUCCESS)
{
return status;
}
/* closing the NAL with trailing bits */
status = BitstreamTrailingBits(bitstream, buf_nal_size);
if (status == AVCENC_SUCCESS)
{
encvid->enc_state = AVCEnc_Encoding_PPS;
video->currPicParams->seq_parameter_set_id = video->currSeqParams->seq_parameter_set_id;
video->currPicParams->pic_parameter_set_id++;
*nal_type = AVC_NALTYPE_SPS;
*buf_nal_size = bitstream->write_pos;
}
break;
case AVCEnc_Encoding_PPS:
/* initialized the structure */
BitstreamEncInit(bitstream, buffer, *buf_nal_size, NULL, 0);
BitstreamWriteBits(bitstream, 8, (1 << 5) | AVC_NALTYPE_PPS);
/* encode PPS */
status = EncodePPS(encvid, bitstream);
if (status != AVCENC_SUCCESS)
{
return status;
}
/* closing the NAL with trailing bits */
status = BitstreamTrailingBits(bitstream, buf_nal_size);
if (status == AVCENC_SUCCESS)
{
if (encvid->outOfBandParamSet == TRUE) // already extract PPS, SPS
{
encvid->enc_state = AVCEnc_Analyzing_Frame;
}
else // SetInput has been called before SPS and PPS.
{
encvid->enc_state = AVCEnc_Encoding_Frame;
}
*nal_type = AVC_NALTYPE_PPS;
*buf_nal_size = bitstream->write_pos;
}
break;
case AVCEnc_Encoding_Frame:
/* initialized the structure */
BitstreamEncInit(bitstream, buffer, *buf_nal_size, encvid->overrunBuffer, encvid->oBSize);
BitstreamWriteBits(bitstream, 8, (video->nal_ref_idc << 5) | (video->nal_unit_type));
/* Re-order the reference list according to the ref_pic_list_reordering() */
/* We don't have to reorder the list for the encoder here. This can only be done
after we encode this slice. We can run thru a second-pass to see if new ordering
would save more bits. Too much delay !! */
/* status = ReOrderList(video);*/
status = InitSlice(encvid);
if (status != AVCENC_SUCCESS)
{
return status;
}
/* when we have everything, we encode the slice header */
status = EncodeSliceHeader(encvid, bitstream);
if (status != AVCENC_SUCCESS)
{
return status;
}
status = AVCEncodeSlice(encvid);
video->slice_id++;
/* closing the NAL with trailing bits */
BitstreamTrailingBits(bitstream, buf_nal_size);
*buf_nal_size = bitstream->write_pos;
encvid->rateCtrl->numFrameBits += ((*buf_nal_size) << 3);
*nal_type = video->nal_unit_type;
if (status == AVCENC_PICTURE_READY)
{
status = RCUpdateFrame(encvid);
if (status == AVCENC_SKIPPED_PICTURE) /* skip current frame */
{
DPBReleaseCurrentFrame(avcHandle, video);
encvid->enc_state = AVCEnc_Analyzing_Frame;
return status;
}
/* perform loop-filtering on the entire frame */
DeblockPicture(video);
/* update the original frame array */
encvid->prevCodedFrameNum = encvid->currInput->coding_order;
/* store the encoded picture in the DPB buffer */
StorePictureInDPB(avcHandle, video);
if (video->currPic->isReference)
{
video->PrevRefFrameNum = video->sliceHdr->frame_num;
}
/* update POC related variables */
PostPOC(video);
encvid->enc_state = AVCEnc_Analyzing_Frame;
status = AVCENC_PICTURE_READY;
}
break;
default:
status = AVCENC_WRONG_STATE;
}
return status;
}
/* ======================================================================== */
/* Function : PVAVCEncGetOverrunBuffer() */
/* Purpose : To retrieve the overrun buffer. Check whether overrun buffer */
/* is used or not before returning */
/* In/out : */
/* Return : Pointer to the internal overrun buffer. */
/* Modified : */
/* ======================================================================== */
OSCL_EXPORT_REF uint8* PVAVCEncGetOverrunBuffer(AVCHandle* avcHandle)
{
AVCEncObject *encvid = (AVCEncObject*)avcHandle->AVCObject;
AVCEncBitstream *bitstream = encvid->bitstream;
if (bitstream->overrunBuffer == bitstream->bitstreamBuffer) /* OB is used */
{
return encvid->overrunBuffer;
}
else
{
return NULL;
}
}
/* ======================================================================== */
/* Function : PVAVCEncGetRecon() */
/* Date : 4/29/2004 */
/* Purpose : To retrieve the most recently encoded frame. */
/* assume that user will make a copy if they want to hold on */
/* to it. Otherwise, it is not guaranteed to be reserved. */
/* Most applications prefer to see original frame rather than */
/* reconstructed frame. So, we are staying aware from complex */
/* buffering mechanism. If needed, can be added later. */
/* In/out : */
/* Return : AVCENC_SUCCESS for success. */
/* Modified : */
/* ======================================================================== */
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncGetRecon(AVCHandle *avcHandle, AVCFrameIO *recon)
{
AVCEncObject *encvid = (AVCEncObject*)avcHandle->AVCObject;
AVCCommonObj *video = encvid->common;
AVCFrameStore *currFS = video->currFS;
if (encvid == NULL)
{
return AVCENC_UNINITIALIZED;
}
recon->YCbCr[0] = currFS->frame.Sl;
recon->YCbCr[1] = currFS->frame.Scb;
recon->YCbCr[2] = currFS->frame.Scr;
recon->height = currFS->frame.height;
recon->pitch = currFS->frame.pitch;
recon->disp_order = currFS->PicOrderCnt;
recon->coding_order = currFS->FrameNum;
recon->id = (intptr_t) currFS->base_dpb; /* use the pointer as the id */
currFS->IsOutputted |= 1;
return AVCENC_SUCCESS;
}
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncReleaseRecon(AVCHandle *avcHandle, AVCFrameIO *recon)
{
OSCL_UNUSED_ARG(avcHandle);
OSCL_UNUSED_ARG(recon);
return AVCENC_SUCCESS; //for now
}
/* ======================================================================== */
/* Function : PVAVCCleanUpEncoder() */
/* Date : 4/18/2004 */
/* Purpose : To clean up memories allocated by PVAVCEncInitialize() */
/* In/out : */
/* Return : AVCENC_SUCCESS for success. */
/* Modified : */
/* ======================================================================== */
OSCL_EXPORT_REF void PVAVCCleanUpEncoder(AVCHandle *avcHandle)
{
AVCEncObject *encvid = (AVCEncObject*) avcHandle->AVCObject;
AVCCommonObj *video;
uint32 *userData = (uint32*) avcHandle->userData;
if (encvid != NULL)
{
CleanMotionSearchModule(avcHandle);
CleanupRateControlModule(avcHandle);
if (encvid->functionPointer != NULL)
{
avcHandle->CBAVC_Free(userData, encvid->functionPointer);
}
if (encvid->min_cost)
{
avcHandle->CBAVC_Free(userData, encvid->min_cost);
}
if (encvid->intraSearch)
{
avcHandle->CBAVC_Free(userData, encvid->intraSearch);
}
if (encvid->mot16x16)
{
avcHandle->CBAVC_Free(userData, encvid->mot16x16);
}
if (encvid->rateCtrl)
{
avcHandle->CBAVC_Free(userData, encvid->rateCtrl);
}
if (encvid->overrunBuffer)
{
avcHandle->CBAVC_Free(userData, encvid->overrunBuffer);
}
video = encvid->common;
if (video != NULL)
{
if (video->MbToSliceGroupMap)
{
avcHandle->CBAVC_Free(userData, video->MbToSliceGroupMap);
}
if (video->mblock != NULL)
{
avcHandle->CBAVC_Free(userData, video->mblock);
}
if (video->decPicBuf != NULL)
{
CleanUpDPB(avcHandle, video);
avcHandle->CBAVC_Free(userData, video->decPicBuf);
}
if (video->sliceHdr != NULL)
{
avcHandle->CBAVC_Free(userData, video->sliceHdr);
}
if (video->currPicParams != NULL)
{
if (video->currPicParams->slice_group_id)
{
avcHandle->CBAVC_Free(userData, video->currPicParams->slice_group_id);
}
avcHandle->CBAVC_Free(userData, video->currPicParams);
}
if (video->currSeqParams != NULL)
{
avcHandle->CBAVC_Free(userData, video->currSeqParams);
}
if (encvid->bitstream != NULL)
{
avcHandle->CBAVC_Free(userData, encvid->bitstream);
}
if (video != NULL)
{
avcHandle->CBAVC_Free(userData, video);
}
}
avcHandle->CBAVC_Free(userData, encvid);
avcHandle->AVCObject = NULL;
}
return ;
}
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncUpdateBitRate(AVCHandle *avcHandle, uint32 bitrate)
{
OSCL_UNUSED_ARG(avcHandle);
OSCL_UNUSED_ARG(bitrate);
return AVCENC_FAIL;
}
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncUpdateFrameRate(AVCHandle *avcHandle, uint32 num, uint32 denom)
{
OSCL_UNUSED_ARG(avcHandle);
OSCL_UNUSED_ARG(num);
OSCL_UNUSED_ARG(denom);
return AVCENC_FAIL;
}
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncUpdateIDRInterval(AVCHandle *avcHandle, int IDRInterval)
{
OSCL_UNUSED_ARG(avcHandle);
OSCL_UNUSED_ARG(IDRInterval);
return AVCENC_FAIL;
}
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncIDRRequest(AVCHandle *avcHandle)
{
OSCL_UNUSED_ARG(avcHandle);
return AVCENC_FAIL;
}
OSCL_EXPORT_REF AVCEnc_Status PVAVCEncUpdateIMBRefresh(AVCHandle *avcHandle, int numMB)
{
OSCL_UNUSED_ARG(avcHandle);
OSCL_UNUSED_ARG(numMB);
return AVCENC_FAIL;
}
void PVAVCEncGetFrameStats(AVCHandle *avcHandle, AVCEncFrameStats *avcStats)
{
AVCEncObject *encvid = (AVCEncObject*) avcHandle->AVCObject;
AVCRateControl *rateCtrl = encvid->rateCtrl;
avcStats->avgFrameQP = GetAvgFrameQP(rateCtrl);
avcStats->numIntraMBs = encvid->numIntraMB;
return ;
}
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