📄 mb_access.c
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/*!
*************************************************************************************
* \file mb_access.c
*
* \brief
* Functions for macroblock neighborhoods
*
* \author
* Main contributors (see contributors.h for copyright, address and affiliation details)
* - Karsten S黨ring <suehring@hhi.de>
*************************************************************************************
*/
#include <assert.h>
#include "global.h"
#include "mb_access.h"
/*!
************************************************************************
* \brief
* returns 1 if the macroblock at the given address is available
************************************************************************
*/
int mb_is_available(int mbAddr, int currMbAddr)
{
if ((mbAddr < 0) || (mbAddr > ((int)img->PicSizeInMbs - 1)))
return 0;
// the following line checks both: slice number and if the mb has been decoded
if (!img->DeblockCall)
{
if (img->mb_data[mbAddr].slice_nr != img->mb_data[currMbAddr].slice_nr)
return 0;
}
return 1;
}
/*!
************************************************************************
* \brief
* Checks the availability of neighboring macroblocks of
* the current macroblock for prediction and context determination;
************************************************************************
*/
void CheckAvailabilityOfNeighbors(void)
{
const int mb_nr = img->current_mb_nr;
Macroblock *currMB = &img->mb_data[mb_nr];
// mark all neighbors as unavailable
currMB->mb_available_up = NULL;
currMB->mb_available_left = NULL;
if (img->MbaffFrameFlag)
{
currMB->mbAddrA = 2 * (mb_nr/2 - 1);
currMB->mbAddrB = 2 * (mb_nr/2 - img->PicWidthInMbs);
currMB->mbAddrC = 2 * (mb_nr/2 - img->PicWidthInMbs + 1);
currMB->mbAddrD = 2 * (mb_nr/2 - img->PicWidthInMbs - 1);
currMB->mbAvailA = mb_is_available(currMB->mbAddrA, mb_nr) && (((mb_nr/2) % img->PicWidthInMbs)!=0);
currMB->mbAvailB = mb_is_available(currMB->mbAddrB, mb_nr);
currMB->mbAvailC = mb_is_available(currMB->mbAddrC, mb_nr) && (((mb_nr/2 +1) % img->PicWidthInMbs)!=0);
currMB->mbAvailD = mb_is_available(currMB->mbAddrD, mb_nr) && (((mb_nr/2) % img->PicWidthInMbs)!=0);
}
else
{
currMB->mbAddrA = mb_nr - 1;
currMB->mbAddrB = mb_nr - img->PicWidthInMbs;
currMB->mbAddrC = mb_nr - img->PicWidthInMbs + 1;
currMB->mbAddrD = mb_nr - img->PicWidthInMbs - 1;
currMB->mbAvailA = mb_is_available(currMB->mbAddrA, mb_nr) && ((mb_nr % img->PicWidthInMbs)!=0);
currMB->mbAvailB = mb_is_available(currMB->mbAddrB, mb_nr);
currMB->mbAvailC = mb_is_available(currMB->mbAddrC, mb_nr) && (((mb_nr+1) % img->PicWidthInMbs)!=0);
currMB->mbAvailD = mb_is_available(currMB->mbAddrD, mb_nr) && ((mb_nr % img->PicWidthInMbs)!=0);
}
if (currMB->mbAvailA) currMB->mb_available_left = &(img->mb_data[currMB->mbAddrA]);
if (currMB->mbAvailB) currMB->mb_available_up = &(img->mb_data[currMB->mbAddrB]);
}
/*!
************************************************************************
* \brief
* returns the x and y macroblock coordinates for a given MbAddress
************************************************************************
*/
void get_mb_block_pos (int mb_addr, int *x, int*y)
{
if (img->MbaffFrameFlag)
{
*x = ( (mb_addr/2) % img->PicWidthInMbs);
*y = (((mb_addr/2) / img->PicWidthInMbs) * 2 + (mb_addr%2));
}
else
{
//*x = (mb_addr % img->PicWidthInMbs);
//*y = (mb_addr / img->PicWidthInMbs);
*x = xPicPos[mb_addr];
*y = yPicPos[mb_addr];
}
}
/*!
************************************************************************
* \brief
* returns the x and y sample coordinates for a given MbAddress
************************************************************************
*/
void get_mb_pos (int mb_addr, int *x, int*y)
{
get_mb_block_pos(mb_addr, x, y);
(*x) *= MB_BLOCK_SIZE;
(*y) *= MB_BLOCK_SIZE;
}
/*!
************************************************************************
* \brief
* get neighbouring positions for non-aff coding
* \param curr_mb_nr
* current macroblock number (decoding order)
* \param xN
* input x position
* \param yN
* input y position
* \param luma
* 1 if luma coding, 0 for chroma
* \param pix
* returns position informations
************************************************************************
*/
void getNonAffNeighbour(unsigned int curr_mb_nr, int xN, int yN, int luma, PixelPos *pix)
{
Macroblock *currMb = &img->mb_data[curr_mb_nr];
int maxW, maxH;
if (luma)
{
maxW = 16;
maxH = 16;
}
else
{
assert(img->yuv_format != 0);
maxW = img->mb_cr_size_x;
maxH = img->mb_cr_size_y;
}
if ((xN<0)&&(yN<0))
{
pix->mb_addr = currMb->mbAddrD;
pix->available = currMb->mbAvailD;
}
else if ((xN<0)&&((yN>=0)&&(yN<maxH)))
{
pix->mb_addr = currMb->mbAddrA;
pix->available = currMb->mbAvailA;
}
else if (((xN>=0)&&(xN<maxW))&&(yN<0))
{
pix->mb_addr = currMb->mbAddrB;
pix->available = currMb->mbAvailB;
}
else if (((xN>=0)&&(xN<maxW))&&((yN>=0)&&(yN<maxH)))
{
pix->mb_addr = curr_mb_nr;
pix->available = 1;
}
else if ((xN>=maxW)&&(yN<0))
{
pix->mb_addr = currMb->mbAddrC;
pix->available = currMb->mbAvailC;
}
else
{
pix->available = 0;
}
if (pix->available || img->DeblockCall)
{
//pix->x = (xN + maxW) % maxW;
//pix->y = (yN + maxH) % maxH;
pix->x = (xN + maxW) & (maxW - 1);
pix->y = (yN + maxH) & (maxH - 1);
get_mb_pos(pix->mb_addr, &(pix->pos_x), &(pix->pos_y));
if (luma)
{
pix->pos_x += pix->x;
pix->pos_y += pix->y;
}
else
{
//pix->pos_x = pix->pos_x/(16/img->mb_cr_size_x) + pix->x;
//pix->pos_y = pix->pos_y/(16/img->mb_cr_size_y) + pix->y;
pix->pos_x = ((img->mb_cr_size_x * pix->pos_x) >> 4) + pix->x;
pix->pos_y = ((img->mb_cr_size_y * pix->pos_y) >> 4) + pix->y;
}
}
}
/*!
************************************************************************
* \brief
* get neighbouring positions for aff coding
* \param curr_mb_nr
* current macroblock number (decoding order)
* \param xN
* input x position
* \param yN
* input y position
* \param luma
* 1 if luma coding, 0 for chroma
* \param pix
* returns position informations
************************************************************************
*/
void getAffNeighbour(unsigned int curr_mb_nr, int xN, int yN, int luma, PixelPos *pix)
{
Macroblock *currMb = &img->mb_data[curr_mb_nr];
int maxW, maxH;
int yM = -1;
if (luma)
{
maxW = 16;
maxH = 16;
}
else
{
assert(img->yuv_format != 0);
maxW = img->mb_cr_size_x;
maxH = img->mb_cr_size_y;
}
// initialize to "not available"
pix->available = 0;
if(yN > (maxH - 1))
{
return;
}
if(xN > (maxW - 1) && yN >= 0 && yN < maxH)
{
return;
}
if (xN < 0)
{
if (yN < 0)
{
if(!currMb->mb_field)
{
// frame
if (curr_mb_nr%2 == 0)
{
// top
pix->mb_addr = currMb->mbAddrD + 1;
pix->available = currMb->mbAvailD;
yM = yN;
}
else
{
// bottom
pix->mb_addr = currMb->mbAddrA;
pix->available = currMb->mbAvailA;
if (currMb->mbAvailA)
{
if(!img->mb_data[currMb->mbAddrA].mb_field)
{
yM = yN;
}
else
{
(pix->mb_addr)++;
yM = (yN + maxH) >> 1;
}
}
}
}
else
{
// field
if(curr_mb_nr % 2 == 0)
{
// top
pix->mb_addr = currMb->mbAddrD;
pix->available = currMb->mbAvailD;
if (currMb->mbAvailD)
{
if(!img->mb_data[currMb->mbAddrD].mb_field)
{
(pix->mb_addr)++;
yM = 2 * yN;
}
else
{
yM = yN;
}
}
}
else
{
// bottom
pix->mb_addr = currMb->mbAddrD+1;
pix->available = currMb->mbAvailD;
yM = yN;
}
}
}
else
{ // xN < 0 && yN >= 0
if (yN >= 0 && yN <maxH)
{
if (!currMb->mb_field)
{
// frame
if(curr_mb_nr % 2 == 0)
{
// top
pix->mb_addr = currMb->mbAddrA;
pix->available = currMb->mbAvailA;
if (currMb->mbAvailA)
{
if(!img->mb_data[currMb->mbAddrA].mb_field)
{
yM = yN;
}
else
{
if (yN %2 == 0)
{
yM = yN>> 1;
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