T m = tex2D<T>(cur, xo + 2, yo + 1);
T n = tex2D<T>(cur, xo + 3, yo + 1);
- T spatial_pred = {
- spatial_predictor(a.x, b.x, c.x, d.x, e.x, f.x, g.x, h.x, i.x, j.x, k.x, l.x, m.x, n.x),
- spatial_predictor(a.y, b.y, c.y, d.y, e.y, f.y, g.y, h.y, i.y, j.y, k.y, l.y, m.y, n.y) };
+ T spatial_pred;
+ spatial_pred.x =
+ spatial_predictor(a.x, b.x, c.x, d.x, e.x, f.x, g.x, h.x, i.x, j.x, k.x, l.x, m.x, n.x);
+ spatial_pred.y =
+ spatial_predictor(a.y, b.y, c.y, d.y, e.y, f.y, g.y, h.y, i.y, j.y, k.y, l.y, m.y, n.y);
// Calculate temporal prediction
int is_second_field = !(parity ^ tff);
T K = tex2D<T>(next2, xo, yo - 1);
T L = tex2D<T>(next2, xo, yo + 1);
- spatial_pred = {
+ spatial_pred.x =
temporal_predictor(A.x, B.x, C.x, D.x, E.x, F.x, G.x, H.x, I.x, J.x, K.x, L.x,
- spatial_pred.x, skip_spatial_check),
+ spatial_pred.x, skip_spatial_check);
+ spatial_pred.y =
temporal_predictor(A.y, B.y, C.y, D.y, E.y, F.y, G.y, H.y, I.y, J.y, K.y, L.y,
- spatial_pred.y, skip_spatial_check) };
+ spatial_pred.y, skip_spatial_check);
dst[yo*dst_pitch+xo] = spatial_pred;
}