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H.264: faster fill_filter_caches

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Reduce aliasing problems and unroll mv/ref loop.
This commit is contained in:
Jason Garrett-Glaser 2011-06-27 17:41:28 -07:00
parent 4320a309ce
commit cb5469462d
1 changed files with 110 additions and 118 deletions
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228
libavcodec/h264.c
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@ -3054,6 +3054,82 @@ int ff_h264_get_slice_type(const H264Context *h)
}
}
static av_always_inline void fill_filter_caches_inter(H264Context *h, MpegEncContext * const s, int mb_type, int top_xy,
int left_xy[2], int top_type, int left_type[2], int mb_xy, int list)
{
int b_stride = h->b_stride;
int16_t (*mv_dst)[2] = &h->mv_cache[list][scan8[0]];
int8_t *ref_cache = &h->ref_cache[list][scan8[0]];
if(IS_INTER(mb_type) || IS_DIRECT(mb_type)){
if(USES_LIST(top_type, list)){
const int b_xy= h->mb2b_xy[top_xy] + 3*b_stride;
const int b8_xy= 4*top_xy + 2;
int (*ref2frm)[64] = h->ref2frm[ h->slice_table[top_xy]&(MAX_SLICES-1) ][0] + (MB_MBAFF ? 20 : 2);
AV_COPY128(mv_dst - 1*8, s->current_picture.motion_val[list][b_xy + 0]);
ref_cache[0 - 1*8]=
ref_cache[1 - 1*8]= ref2frm[list][s->current_picture.ref_index[list][b8_xy + 0]];
ref_cache[2 - 1*8]=
ref_cache[3 - 1*8]= ref2frm[list][s->current_picture.ref_index[list][b8_xy + 1]];
}else{
AV_ZERO128(mv_dst - 1*8);
AV_WN32A(&ref_cache[0 - 1*8], ((LIST_NOT_USED)&0xFF)*0x01010101u);
}
if(!IS_INTERLACED(mb_type^left_type[0])){
if(USES_LIST(left_type[0], list)){
const int b_xy= h->mb2b_xy[left_xy[0]] + 3;
const int b8_xy= 4*left_xy[0] + 1;
int (*ref2frm)[64] = h->ref2frm[ h->slice_table[left_xy[0]]&(MAX_SLICES-1) ][0] + (MB_MBAFF ? 20 : 2);
AV_COPY32(mv_dst - 1 + 0, s->current_picture.motion_val[list][b_xy + b_stride*0]);
AV_COPY32(mv_dst - 1 + 8, s->current_picture.motion_val[list][b_xy + b_stride*1]);
AV_COPY32(mv_dst - 1 +16, s->current_picture.motion_val[list][b_xy + b_stride*2]);
AV_COPY32(mv_dst - 1 +24, s->current_picture.motion_val[list][b_xy + b_stride*3]);
ref_cache[-1 + 0]=
ref_cache[-1 + 8]= ref2frm[list][s->current_picture.ref_index[list][b8_xy + 2*0]];
ref_cache[-1 + 16]=
ref_cache[-1 + 24]= ref2frm[list][s->current_picture.ref_index[list][b8_xy + 2*1]];
}else{
AV_ZERO32(mv_dst - 1 + 0);
AV_ZERO32(mv_dst - 1 + 8);
AV_ZERO32(mv_dst - 1 +16);
AV_ZERO32(mv_dst - 1 +24);
ref_cache[-1 + 0]=
ref_cache[-1 + 8]=
ref_cache[-1 + 16]=
ref_cache[-1 + 24]= LIST_NOT_USED;
}
}
}
if(!USES_LIST(mb_type, list)){
fill_rectangle(mv_dst, 4, 4, 8, pack16to32(0,0), 4);
AV_WN32A(&ref_cache[0*8], ((LIST_NOT_USED)&0xFF)*0x01010101u);
AV_WN32A(&ref_cache[1*8], ((LIST_NOT_USED)&0xFF)*0x01010101u);
AV_WN32A(&ref_cache[2*8], ((LIST_NOT_USED)&0xFF)*0x01010101u);
AV_WN32A(&ref_cache[3*8], ((LIST_NOT_USED)&0xFF)*0x01010101u);
return;
}
{
int8_t *ref = &s->current_picture.ref_index[list][4*mb_xy];
int (*ref2frm)[64] = h->ref2frm[ h->slice_num&(MAX_SLICES-1) ][0] + (MB_MBAFF ? 20 : 2);
uint32_t ref01 = (pack16to32(ref2frm[list][ref[0]],ref2frm[list][ref[1]])&0x00FF00FF)*0x0101;
uint32_t ref23 = (pack16to32(ref2frm[list][ref[2]],ref2frm[list][ref[3]])&0x00FF00FF)*0x0101;
AV_WN32A(&ref_cache[0*8], ref01);
AV_WN32A(&ref_cache[1*8], ref01);
AV_WN32A(&ref_cache[2*8], ref23);
AV_WN32A(&ref_cache[3*8], ref23);
}
{
int16_t (*mv_src)[2] = &s->current_picture.motion_val[list][4*s->mb_x + 4*s->mb_y*b_stride];
AV_COPY128(mv_dst + 8*0, mv_src + 0*b_stride);
AV_COPY128(mv_dst + 8*1, mv_src + 1*b_stride);
AV_COPY128(mv_dst + 8*2, mv_src + 2*b_stride);
AV_COPY128(mv_dst + 8*3, mv_src + 3*b_stride);
}
}
/**
*
* @return non zero if the loop filter can be skiped
@ -3063,11 +3139,11 @@ static int fill_filter_caches(H264Context *h, int mb_type){
const int mb_xy= h->mb_xy;
int top_xy, left_xy[2];
int top_type, left_type[2];
uint8_t *nnz;
uint8_t *nnz_cache;
top_xy = mb_xy - (s->mb_stride << MB_FIELD);
//FIXME deblocking could skip the intra and nnz parts.
/* Wow, what a mess, why didn't they simplify the interlacing & intra
* stuff, I can't imagine that these complex rules are worth it. */
@ -3125,144 +3201,60 @@ static int fill_filter_caches(H264Context *h, int mb_type){
if(IS_INTRA(mb_type))
return 0;
AV_COPY32(&h->non_zero_count_cache[4+8* 1], &h->non_zero_count[mb_xy][ 0]);
AV_COPY32(&h->non_zero_count_cache[4+8* 2], &h->non_zero_count[mb_xy][ 4]);
AV_COPY32(&h->non_zero_count_cache[4+8* 3], &h->non_zero_count[mb_xy][ 8]);
AV_COPY32(&h->non_zero_count_cache[4+8* 4], &h->non_zero_count[mb_xy][12]);
fill_filter_caches_inter(h, s, mb_type, top_xy, left_xy, top_type, left_type, mb_xy, 0);
if(h->list_count == 2)
fill_filter_caches_inter(h, s, mb_type, top_xy, left_xy, top_type, left_type, mb_xy, 1);
nnz = h->non_zero_count[mb_xy];
nnz_cache = h->non_zero_count_cache;
AV_COPY32(&nnz_cache[4+8*1], &nnz[ 0]);
AV_COPY32(&nnz_cache[4+8*2], &nnz[ 4]);
AV_COPY32(&nnz_cache[4+8*3], &nnz[ 8]);
AV_COPY32(&nnz_cache[4+8*4], &nnz[12]);
h->cbp= h->cbp_table[mb_xy];
{
int list;
for(list=0; list<h->list_count; list++){
int8_t *ref;
int y, b_stride;
int16_t (*mv_dst)[2];
int16_t (*mv_src)[2];
if(!USES_LIST(mb_type, list)){
fill_rectangle( h->mv_cache[list][scan8[0]], 4, 4, 8, pack16to32(0,0), 4);
AV_WN32A(&h->ref_cache[list][scan8[ 0]], ((LIST_NOT_USED)&0xFF)*0x01010101u);
AV_WN32A(&h->ref_cache[list][scan8[ 2]], ((LIST_NOT_USED)&0xFF)*0x01010101u);
AV_WN32A(&h->ref_cache[list][scan8[ 8]], ((LIST_NOT_USED)&0xFF)*0x01010101u);
AV_WN32A(&h->ref_cache[list][scan8[10]], ((LIST_NOT_USED)&0xFF)*0x01010101u);
continue;
}
ref = &s->current_picture.ref_index[list][4*mb_xy];
{
int (*ref2frm)[64] = h->ref2frm[ h->slice_num&(MAX_SLICES-1) ][0] + (MB_MBAFF ? 20 : 2);
AV_WN32A(&h->ref_cache[list][scan8[ 0]], (pack16to32(ref2frm[list][ref[0]],ref2frm[list][ref[1]])&0x00FF00FF)*0x0101);
AV_WN32A(&h->ref_cache[list][scan8[ 2]], (pack16to32(ref2frm[list][ref[0]],ref2frm[list][ref[1]])&0x00FF00FF)*0x0101);
ref += 2;
AV_WN32A(&h->ref_cache[list][scan8[ 8]], (pack16to32(ref2frm[list][ref[0]],ref2frm[list][ref[1]])&0x00FF00FF)*0x0101);
AV_WN32A(&h->ref_cache[list][scan8[10]], (pack16to32(ref2frm[list][ref[0]],ref2frm[list][ref[1]])&0x00FF00FF)*0x0101);
}
b_stride = h->b_stride;
mv_dst = &h->mv_cache[list][scan8[0]];
mv_src = &s->current_picture.motion_val[list][4*s->mb_x + 4*s->mb_y*b_stride];
for(y=0; y<4; y++){
AV_COPY128(mv_dst + 8*y, mv_src + y*b_stride);
}
}
}
/*
0 . T T. T T T T
1 L . .L . . . .
2 L . .L . . . .
3 . T TL . . . .
4 L . .L . . . .
5 L . .. . . . .
*/
//FIXME constraint_intra_pred & partitioning & nnz (let us hope this is just a typo in the spec)
if(top_type){
AV_COPY32(&h->non_zero_count_cache[4+8*0], &h->non_zero_count[top_xy][3*4]);
nnz = h->non_zero_count[top_xy];
AV_COPY32(&nnz_cache[4+8*0], &nnz[3*4]);
}
if(left_type[0]){
h->non_zero_count_cache[3+8*1]= h->non_zero_count[left_xy[0]][3+0*4];
h->non_zero_count_cache[3+8*2]= h->non_zero_count[left_xy[0]][3+1*4];
h->non_zero_count_cache[3+8*3]= h->non_zero_count[left_xy[0]][3+2*4];
h->non_zero_count_cache[3+8*4]= h->non_zero_count[left_xy[0]][3+3*4];
nnz = h->non_zero_count[left_xy[0]];
nnz_cache[3+8*1]= nnz[3+0*4];
nnz_cache[3+8*2]= nnz[3+1*4];
nnz_cache[3+8*3]= nnz[3+2*4];
nnz_cache[3+8*4]= nnz[3+3*4];
}
// CAVLC 8x8dct requires NNZ values for residual decoding that differ from what the loop filter needs
if(!CABAC && h->pps.transform_8x8_mode){
if(IS_8x8DCT(top_type)){
h->non_zero_count_cache[4+8*0]=
h->non_zero_count_cache[5+8*0]= (h->cbp_table[top_xy] & 0x4000) >> 12;
h->non_zero_count_cache[6+8*0]=
h->non_zero_count_cache[7+8*0]= (h->cbp_table[top_xy] & 0x8000) >> 12;
nnz_cache[4+8*0]=
nnz_cache[5+8*0]= (h->cbp_table[top_xy] & 0x4000) >> 12;
nnz_cache[6+8*0]=
nnz_cache[7+8*0]= (h->cbp_table[top_xy] & 0x8000) >> 12;
}
if(IS_8x8DCT(left_type[0])){
h->non_zero_count_cache[3+8*1]=
h->non_zero_count_cache[3+8*2]= (h->cbp_table[left_xy[0]]&0x2000) >> 12; //FIXME check MBAFF
nnz_cache[3+8*1]=
nnz_cache[3+8*2]= (h->cbp_table[left_xy[0]]&0x2000) >> 12; //FIXME check MBAFF
}
if(IS_8x8DCT(left_type[1])){
h->non_zero_count_cache[3+8*3]=
h->non_zero_count_cache[3+8*4]= (h->cbp_table[left_xy[1]]&0x8000) >> 12; //FIXME check MBAFF
nnz_cache[3+8*3]=
nnz_cache[3+8*4]= (h->cbp_table[left_xy[1]]&0x8000) >> 12; //FIXME check MBAFF
}
if(IS_8x8DCT(mb_type)){
h->non_zero_count_cache[scan8[0 ]]= h->non_zero_count_cache[scan8[1 ]]=
h->non_zero_count_cache[scan8[2 ]]= h->non_zero_count_cache[scan8[3 ]]= (h->cbp & 0x1000) >> 12;
nnz_cache[scan8[0 ]]= nnz_cache[scan8[1 ]]=
nnz_cache[scan8[2 ]]= nnz_cache[scan8[3 ]]= (h->cbp & 0x1000) >> 12;
h->non_zero_count_cache[scan8[0+ 4]]= h->non_zero_count_cache[scan8[1+ 4]]=
h->non_zero_count_cache[scan8[2+ 4]]= h->non_zero_count_cache[scan8[3+ 4]]= (h->cbp & 0x2000) >> 12;
nnz_cache[scan8[0+ 4]]= nnz_cache[scan8[1+ 4]]=
nnz_cache[scan8[2+ 4]]= nnz_cache[scan8[3+ 4]]= (h->cbp & 0x2000) >> 12;
h->non_zero_count_cache[scan8[0+ 8]]= h->non_zero_count_cache[scan8[1+ 8]]=
h->non_zero_count_cache[scan8[2+ 8]]= h->non_zero_count_cache[scan8[3+ 8]]= (h->cbp & 0x4000) >> 12;
nnz_cache[scan8[0+ 8]]= nnz_cache[scan8[1+ 8]]=
nnz_cache[scan8[2+ 8]]= nnz_cache[scan8[3+ 8]]= (h->cbp & 0x4000) >> 12;
h->non_zero_count_cache[scan8[0+12]]= h->non_zero_count_cache[scan8[1+12]]=
h->non_zero_count_cache[scan8[2+12]]= h->non_zero_count_cache[scan8[3+12]]= (h->cbp & 0x8000) >> 12;
}
}
if(IS_INTER(mb_type) || IS_DIRECT(mb_type)){
int list;
for(list=0; list<h->list_count; list++){
if(USES_LIST(top_type, list)){
const int b_xy= h->mb2b_xy[top_xy] + 3*h->b_stride;
const int b8_xy= 4*top_xy + 2;
int (*ref2frm)[64] = h->ref2frm[ h->slice_table[top_xy]&(MAX_SLICES-1) ][0] + (MB_MBAFF ? 20 : 2);
AV_COPY128(h->mv_cache[list][scan8[0] + 0 - 1*8], s->current_picture.motion_val[list][b_xy + 0]);
h->ref_cache[list][scan8[0] + 0 - 1*8]=
h->ref_cache[list][scan8[0] + 1 - 1*8]= ref2frm[list][s->current_picture.ref_index[list][b8_xy + 0]];
h->ref_cache[list][scan8[0] + 2 - 1*8]=
h->ref_cache[list][scan8[0] + 3 - 1*8]= ref2frm[list][s->current_picture.ref_index[list][b8_xy + 1]];
}else{
AV_ZERO128(h->mv_cache[list][scan8[0] + 0 - 1*8]);
AV_WN32A(&h->ref_cache[list][scan8[0] + 0 - 1*8], ((LIST_NOT_USED)&0xFF)*0x01010101u);
}
if(!IS_INTERLACED(mb_type^left_type[0])){
if(USES_LIST(left_type[0], list)){
const int b_xy= h->mb2b_xy[left_xy[0]] + 3;
const int b8_xy= 4*left_xy[0] + 1;
int (*ref2frm)[64] = h->ref2frm[ h->slice_table[left_xy[0]]&(MAX_SLICES-1) ][0] + (MB_MBAFF ? 20 : 2);
AV_COPY32(h->mv_cache[list][scan8[0] - 1 + 0 ], s->current_picture.motion_val[list][b_xy + h->b_stride*0]);
AV_COPY32(h->mv_cache[list][scan8[0] - 1 + 8 ], s->current_picture.motion_val[list][b_xy + h->b_stride*1]);
AV_COPY32(h->mv_cache[list][scan8[0] - 1 +16 ], s->current_picture.motion_val[list][b_xy + h->b_stride*2]);
AV_COPY32(h->mv_cache[list][scan8[0] - 1 +24 ], s->current_picture.motion_val[list][b_xy + h->b_stride*3]);
h->ref_cache[list][scan8[0] - 1 + 0 ]=
h->ref_cache[list][scan8[0] - 1 + 8 ]= ref2frm[list][s->current_picture.ref_index[list][b8_xy + 2*0]];
h->ref_cache[list][scan8[0] - 1 +16 ]=
h->ref_cache[list][scan8[0] - 1 +24 ]= ref2frm[list][s->current_picture.ref_index[list][b8_xy + 2*1]];
}else{
AV_ZERO32(h->mv_cache [list][scan8[0] - 1 + 0 ]);
AV_ZERO32(h->mv_cache [list][scan8[0] - 1 + 8 ]);
AV_ZERO32(h->mv_cache [list][scan8[0] - 1 +16 ]);
AV_ZERO32(h->mv_cache [list][scan8[0] - 1 +24 ]);
h->ref_cache[list][scan8[0] - 1 + 0 ]=
h->ref_cache[list][scan8[0] - 1 + 8 ]=
h->ref_cache[list][scan8[0] - 1 + 16 ]=
h->ref_cache[list][scan8[0] - 1 + 24 ]= LIST_NOT_USED;
}
}
nnz_cache[scan8[0+12]]= nnz_cache[scan8[1+12]]=
nnz_cache[scan8[2+12]]= nnz_cache[scan8[3+12]]= (h->cbp & 0x8000) >> 12;
}
}