📄 mb_access.c
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}
else
{
(pix->mb_addr)++;
yM = yN>> 1;
}
}
}
}
else
{
// bottom
pix->mb_addr = currMb->mbAddrA;
pix->available = currMb->mbAvailA;
if (currMb->mbAvailA)
{
if(!img->mb_data[currMb->mbAddrA].mb_field)
{
(pix->mb_addr)++;
yM = yN;
}
else
{
if (yN %2 == 0)
{
yM = (yN + maxH) >> 1;
}
else
{
(pix->mb_addr)++;
yM = (yN + maxH) >> 1;
}
}
}
}
}
else
{
// field
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)
{
if (yN < (maxH / 2))
{
yM = yN << 1;
}
else
{
(pix->mb_addr)++;
yM = (yN << 1 ) - maxH;
}
}
else
{
yM = yN;
}
}
}
else
{
// bottom
pix->mb_addr = currMb->mbAddrA;
pix->available = currMb->mbAvailA;
if (currMb->mbAvailA)
{
if(!img->mb_data[currMb->mbAddrA].mb_field)
{
if (yN < (maxH / 2))
{
yM = (yN << 1) + 1;
}
else
{
(pix->mb_addr)++;
yM = (yN << 1 ) + 1 - maxH;
}
}
else
{
(pix->mb_addr)++;
yM = yN;
}
}
}
}
}
}
}
else
{ // xN >= 0
if (xN >= 0 && xN < maxW)
{
if (yN<0)
{
if (!currMb->mb_field)
{
//frame
if (curr_mb_nr % 2 == 0)
{
//top
pix->mb_addr = currMb->mbAddrB;
// for the deblocker if the current MB is a frame and the one above is a field
// then the neighbor is the top MB of the pair
if (currMb->mbAvailB)
{
if (!(img->DeblockCall == 1 && (img->mb_data[currMb->mbAddrB]).mb_field))
pix->mb_addr += 1;
}
pix->available = currMb->mbAvailB;
yM = yN;
}
else
{
// bottom
pix->mb_addr = curr_mb_nr - 1;
pix->available = 1;
yM = yN;
}
}
else
{
// field
if (curr_mb_nr % 2 == 0)
{
// top
pix->mb_addr = currMb->mbAddrB;
pix->available = currMb->mbAvailB;
if (currMb->mbAvailB)
{
if(!img->mb_data[currMb->mbAddrB].mb_field)
{
(pix->mb_addr)++;
yM = 2* yN;
}
else
{
yM = yN;
}
}
}
else
{
// bottom
pix->mb_addr = currMb->mbAddrB + 1;
pix->available = currMb->mbAvailB;
yM = yN;
}
}
}
else
{
// yN >=0
// for the deblocker if this is the extra edge then do this special stuff
if (yN == 0 && img->DeblockCall == 2)
{
pix->mb_addr = currMb->mbAddrB + 1;
pix->available = 1;
yM = yN - 1;
}
else if ((yN >= 0) && (yN <maxH))
{
pix->mb_addr = curr_mb_nr;
pix->available = 1;
yM = yN;
}
}
}
else
{ // xN >= maxW
if(yN < 0)
{
if (!currMb->mb_field)
{
// frame
if (curr_mb_nr % 2 == 0)
{
// top
pix->mb_addr = currMb->mbAddrC + 1;
pix->available = currMb->mbAvailC;
yM = yN;
}
else
{
// bottom
pix->available = 0;
}
}
else
{
// field
if (curr_mb_nr % 2 == 0)
{
// top
pix->mb_addr = currMb->mbAddrC;
pix->available = currMb->mbAvailC;
if (currMb->mbAvailC)
{
if(!img->mb_data[currMb->mbAddrC].mb_field)
{
(pix->mb_addr)++;
yM = 2* yN;
}
else
{
yM = yN;
}
}
}
else
{
// bottom
pix->mb_addr = currMb->mbAddrC + 1;
pix->available = currMb->mbAvailC;
yM = yN;
}
}
}
}
}
if (pix->available || img->DeblockCall)
{
pix->x = (xN + maxW) % maxW;
pix->y = (yM + maxH) % maxH;
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. MB AFF is automatically used from img structure
* \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 getNeighbour(int curr_mb_nr, int xN, int yN, int luma, PixelPos *pix)
{
if (curr_mb_nr<0)
error ("getNeighbour: invalid macroblock number", 100);
if (img->MbaffFrameFlag)
getAffNeighbour(curr_mb_nr, xN, yN, luma, pix);
else
getNonAffNeighbour(curr_mb_nr, xN, yN, luma, pix);
}
/*!
************************************************************************
* \brief
* get neighbouring get neighbouring 4x4 luma block
* \param curr_mb_nr
* current macroblock number (decoding order)
* \param block_x
* input x block position
* \param block_y
* input y block position
* \param rel_x
* relative x position of neighbor
* \param rel_y
* relative y position of neighbor
* \param pix
* returns position informations
************************************************************************
*/
void getLuma4x4Neighbour (int curr_mb_nr, int block_x, int block_y, int rel_x, int rel_y, PixelPos *pix)
{
int x = 4* block_x + rel_x;
int y = 4* block_y + rel_y;
getNeighbour(curr_mb_nr, x, y, 1, pix);
if (pix->available)
{
pix->x >>= 2;
pix->y >>= 2;
pix->pos_x >>= 2;
pix->pos_y >>= 2;
}
}
/*!
************************************************************************
* \brief
* get neighbouring 4x4 chroma block
* \param curr_mb_nr
* current macroblock number (decoding order)
* \param block_x
* input x block position
* \param block_y
* input y block position
* \param rel_x
* relative x position of neighbor
* \param rel_y
* relative y position of neighbor
* \param pix
* returns position informations
************************************************************************
*/
void getChroma4x4Neighbour (int curr_mb_nr, int block_x, int block_y, int rel_x, int rel_y, PixelPos *pix)
{
int x = 4* block_x + rel_x;
int y = 4* block_y + rel_y;
getNeighbour(curr_mb_nr, x, y, 0, pix);
if (pix->available)
{
pix->x >>= 2;
pix->y >>= 2;
pix->pos_x >>= 2;
pix->pos_y >>= 2;
}
}
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