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331 lines
11 KiB
C
331 lines
11 KiB
C
/*
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* H.26L/H.264/AVC/JVT/14496-10/... motion vector predicion
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* Copyright (c) 2003 Michael Niedermayer <michaelni@gmx.at>
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*
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* This file is part of Libav.
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*
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* Libav is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* Libav is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with Libav; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*/
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/**
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* @file
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* H.264 / AVC / MPEG4 part10 motion vector predicion.
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* @author Michael Niedermayer <michaelni@gmx.at>
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*/
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#ifndef AVCODEC_H264_MVPRED_H
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#define AVCODEC_H264_MVPRED_H
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#include "internal.h"
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#include "avcodec.h"
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#include "h264.h"
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//#undef NDEBUG
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#include <assert.h>
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static av_always_inline int fetch_diagonal_mv(H264Context *h, const int16_t **C, int i, int list, int part_width){
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const int topright_ref= h->ref_cache[list][ i - 8 + part_width ];
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MpegEncContext *s = &h->s;
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/* there is no consistent mapping of mvs to neighboring locations that will
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* make mbaff happy, so we can't move all this logic to fill_caches */
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if(FRAME_MBAFF){
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#define SET_DIAG_MV(MV_OP, REF_OP, XY, Y4)\
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const int xy = XY, y4 = Y4;\
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const int mb_type = mb_types[xy+(y4>>2)*s->mb_stride];\
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if(!USES_LIST(mb_type,list))\
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return LIST_NOT_USED;\
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mv = s->current_picture_ptr->motion_val[list][h->mb2b_xy[xy]+3 + y4*h->b_stride];\
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h->mv_cache[list][scan8[0]-2][0] = mv[0];\
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h->mv_cache[list][scan8[0]-2][1] = mv[1] MV_OP;\
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return s->current_picture_ptr->ref_index[list][4*xy+1 + (y4&~1)] REF_OP;
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if(topright_ref == PART_NOT_AVAILABLE
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&& i >= scan8[0]+8 && (i&7)==4
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&& h->ref_cache[list][scan8[0]-1] != PART_NOT_AVAILABLE){
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const uint32_t *mb_types = s->current_picture_ptr->mb_type;
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const int16_t *mv;
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AV_ZERO32(h->mv_cache[list][scan8[0]-2]);
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*C = h->mv_cache[list][scan8[0]-2];
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if(!MB_FIELD
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&& IS_INTERLACED(h->left_type[0])){
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SET_DIAG_MV(*2, >>1, h->left_mb_xy[0]+s->mb_stride, (s->mb_y&1)*2+(i>>5));
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}
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if(MB_FIELD
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&& !IS_INTERLACED(h->left_type[0])){
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// left shift will turn LIST_NOT_USED into PART_NOT_AVAILABLE, but that's OK.
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SET_DIAG_MV(/2, <<1, h->left_mb_xy[i>=36], ((i>>2))&3);
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}
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}
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#undef SET_DIAG_MV
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}
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if(topright_ref != PART_NOT_AVAILABLE){
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*C= h->mv_cache[list][ i - 8 + part_width ];
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return topright_ref;
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}else{
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tprintf(s->avctx, "topright MV not available\n");
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*C= h->mv_cache[list][ i - 8 - 1 ];
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return h->ref_cache[list][ i - 8 - 1 ];
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}
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}
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/**
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* gets the predicted MV.
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* @param n the block index
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* @param part_width the width of the partition (4, 8,16) -> (1, 2, 4)
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* @param mx the x component of the predicted motion vector
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* @param my the y component of the predicted motion vector
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*/
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static av_always_inline void pred_motion(H264Context * const h, int n, int part_width, int list, int ref, int * const mx, int * const my){
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const int index8= scan8[n];
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const int top_ref= h->ref_cache[list][ index8 - 8 ];
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const int left_ref= h->ref_cache[list][ index8 - 1 ];
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const int16_t * const A= h->mv_cache[list][ index8 - 1 ];
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const int16_t * const B= h->mv_cache[list][ index8 - 8 ];
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const int16_t * C;
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int diagonal_ref, match_count;
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assert(part_width==1 || part_width==2 || part_width==4);
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/* mv_cache
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B . . A T T T T
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U . . L . . , .
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U . . L . . . .
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U . . L . . , .
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. . . L . . . .
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*/
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diagonal_ref= fetch_diagonal_mv(h, &C, index8, list, part_width);
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match_count= (diagonal_ref==ref) + (top_ref==ref) + (left_ref==ref);
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tprintf(h->s.avctx, "pred_motion match_count=%d\n", match_count);
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if(match_count > 1){ //most common
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*mx= mid_pred(A[0], B[0], C[0]);
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*my= mid_pred(A[1], B[1], C[1]);
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}else if(match_count==1){
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if(left_ref==ref){
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*mx= A[0];
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*my= A[1];
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}else if(top_ref==ref){
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*mx= B[0];
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*my= B[1];
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}else{
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*mx= C[0];
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*my= C[1];
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}
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}else{
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if(top_ref == PART_NOT_AVAILABLE && diagonal_ref == PART_NOT_AVAILABLE && left_ref != PART_NOT_AVAILABLE){
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*mx= A[0];
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*my= A[1];
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}else{
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*mx= mid_pred(A[0], B[0], C[0]);
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*my= mid_pred(A[1], B[1], C[1]);
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}
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}
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tprintf(h->s.avctx, "pred_motion (%2d %2d %2d) (%2d %2d %2d) (%2d %2d %2d) -> (%2d %2d %2d) at %2d %2d %d list %d\n", top_ref, B[0], B[1], diagonal_ref, C[0], C[1], left_ref, A[0], A[1], ref, *mx, *my, h->s.mb_x, h->s.mb_y, n, list);
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}
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/**
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* gets the directionally predicted 16x8 MV.
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* @param n the block index
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* @param mx the x component of the predicted motion vector
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* @param my the y component of the predicted motion vector
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*/
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static av_always_inline void pred_16x8_motion(H264Context * const h, int n, int list, int ref, int * const mx, int * const my){
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if(n==0){
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const int top_ref= h->ref_cache[list][ scan8[0] - 8 ];
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const int16_t * const B= h->mv_cache[list][ scan8[0] - 8 ];
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tprintf(h->s.avctx, "pred_16x8: (%2d %2d %2d) at %2d %2d %d list %d\n", top_ref, B[0], B[1], h->s.mb_x, h->s.mb_y, n, list);
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if(top_ref == ref){
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*mx= B[0];
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*my= B[1];
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return;
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}
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}else{
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const int left_ref= h->ref_cache[list][ scan8[8] - 1 ];
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const int16_t * const A= h->mv_cache[list][ scan8[8] - 1 ];
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tprintf(h->s.avctx, "pred_16x8: (%2d %2d %2d) at %2d %2d %d list %d\n", left_ref, A[0], A[1], h->s.mb_x, h->s.mb_y, n, list);
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if(left_ref == ref){
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*mx= A[0];
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*my= A[1];
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return;
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}
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}
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//RARE
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pred_motion(h, n, 4, list, ref, mx, my);
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}
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/**
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* gets the directionally predicted 8x16 MV.
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* @param n the block index
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* @param mx the x component of the predicted motion vector
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* @param my the y component of the predicted motion vector
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*/
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static av_always_inline void pred_8x16_motion(H264Context * const h, int n, int list, int ref, int * const mx, int * const my){
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if(n==0){
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const int left_ref= h->ref_cache[list][ scan8[0] - 1 ];
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const int16_t * const A= h->mv_cache[list][ scan8[0] - 1 ];
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tprintf(h->s.avctx, "pred_8x16: (%2d %2d %2d) at %2d %2d %d list %d\n", left_ref, A[0], A[1], h->s.mb_x, h->s.mb_y, n, list);
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if(left_ref == ref){
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*mx= A[0];
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*my= A[1];
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return;
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}
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}else{
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const int16_t * C;
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int diagonal_ref;
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diagonal_ref= fetch_diagonal_mv(h, &C, scan8[4], list, 2);
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tprintf(h->s.avctx, "pred_8x16: (%2d %2d %2d) at %2d %2d %d list %d\n", diagonal_ref, C[0], C[1], h->s.mb_x, h->s.mb_y, n, list);
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if(diagonal_ref == ref){
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*mx= C[0];
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*my= C[1];
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return;
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}
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}
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//RARE
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pred_motion(h, n, 2, list, ref, mx, my);
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}
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#define FIX_MV_MBAFF(type, refn, mvn, idx)\
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if(FRAME_MBAFF){\
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if(MB_FIELD){\
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if(!IS_INTERLACED(type)){\
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refn <<= 1;\
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AV_COPY32(mvbuf[idx], mvn);\
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mvbuf[idx][1] /= 2;\
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mvn = mvbuf[idx];\
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}\
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}else{\
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if(IS_INTERLACED(type)){\
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refn >>= 1;\
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AV_COPY32(mvbuf[idx], mvn);\
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mvbuf[idx][1] <<= 1;\
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mvn = mvbuf[idx];\
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}\
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}\
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}
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static av_always_inline void pred_pskip_motion(H264Context * const h){
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DECLARE_ALIGNED(4, static const int16_t, zeromv)[2] = {0};
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DECLARE_ALIGNED(4, int16_t, mvbuf)[3][2];
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MpegEncContext * const s = &h->s;
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int8_t *ref = s->current_picture.ref_index[0];
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int16_t (*mv)[2] = s->current_picture.motion_val[0];
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int top_ref, left_ref, diagonal_ref, match_count, mx, my;
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const int16_t *A, *B, *C;
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int b_stride = h->b_stride;
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fill_rectangle(&h->ref_cache[0][scan8[0]], 4, 4, 8, 0, 1);
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/* To avoid doing an entire fill_decode_caches, we inline the relevant parts here.
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* FIXME: this is a partial duplicate of the logic in fill_decode_caches, but it's
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* faster this way. Is there a way to avoid this duplication?
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*/
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if(USES_LIST(h->left_type[LTOP], 0)){
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left_ref = ref[4*h->left_mb_xy[LTOP] + 1 + (h->left_block[0]&~1)];
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A = mv[h->mb2b_xy[h->left_mb_xy[LTOP]] + 3 + b_stride*h->left_block[0]];
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FIX_MV_MBAFF(h->left_type[LTOP], left_ref, A, 0);
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if(!(left_ref | AV_RN32A(A))){
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goto zeromv;
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}
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}else if(h->left_type[LTOP]){
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left_ref = LIST_NOT_USED;
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A = zeromv;
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}else{
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goto zeromv;
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}
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if(USES_LIST(h->top_type, 0)){
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top_ref = ref[4*h->top_mb_xy + 2];
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B = mv[h->mb2b_xy[h->top_mb_xy] + 3*b_stride];
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FIX_MV_MBAFF(h->top_type, top_ref, B, 1);
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if(!(top_ref | AV_RN32A(B))){
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goto zeromv;
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}
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}else if(h->top_type){
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top_ref = LIST_NOT_USED;
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B = zeromv;
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}else{
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goto zeromv;
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}
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tprintf(h->s.avctx, "pred_pskip: (%d) (%d) at %2d %2d\n", top_ref, left_ref, h->s.mb_x, h->s.mb_y);
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if(USES_LIST(h->topright_type, 0)){
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diagonal_ref = ref[4*h->topright_mb_xy + 2];
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C = mv[h->mb2b_xy[h->topright_mb_xy] + 3*b_stride];
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FIX_MV_MBAFF(h->topright_type, diagonal_ref, C, 2);
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}else if(h->topright_type){
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diagonal_ref = LIST_NOT_USED;
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C = zeromv;
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}else{
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if(USES_LIST(h->topleft_type, 0)){
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diagonal_ref = ref[4*h->topleft_mb_xy + 1 + (h->topleft_partition & 2)];
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C = mv[h->mb2b_xy[h->topleft_mb_xy] + 3 + b_stride + (h->topleft_partition & 2*b_stride)];
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FIX_MV_MBAFF(h->topleft_type, diagonal_ref, C, 2);
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}else if(h->topleft_type){
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diagonal_ref = LIST_NOT_USED;
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C = zeromv;
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}else{
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diagonal_ref = PART_NOT_AVAILABLE;
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C = zeromv;
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}
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}
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match_count= !diagonal_ref + !top_ref + !left_ref;
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tprintf(h->s.avctx, "pred_pskip_motion match_count=%d\n", match_count);
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if(match_count > 1){
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mx = mid_pred(A[0], B[0], C[0]);
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my = mid_pred(A[1], B[1], C[1]);
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}else if(match_count==1){
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if(!left_ref){
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mx = A[0];
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my = A[1];
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}else if(!top_ref){
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mx = B[0];
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my = B[1];
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}else{
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mx = C[0];
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my = C[1];
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}
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}else{
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mx = mid_pred(A[0], B[0], C[0]);
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my = mid_pred(A[1], B[1], C[1]);
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}
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fill_rectangle( h->mv_cache[0][scan8[0]], 4, 4, 8, pack16to32(mx,my), 4);
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return;
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zeromv:
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fill_rectangle( h->mv_cache[0][scan8[0]], 4, 4, 8, 0, 4);
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return;
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}
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#endif /* AVCODEC_H264_MVPRED_H */
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