Ok(())
}
+#[allow(clippy::cognitive_complexity)]
pub fn decode_mb_pred_cavlc(br: &mut BitReader, slice_hdr: &SliceHeader, mb_type: MBType, sstate: &mut SliceState, mb_info: &mut CurrentMBInfo) -> DecoderResult<()> {
mb_info.mb_type = mb_type;
let num_l0 = slice_hdr.num_ref_idx_l0_active;
} else { new_mode };
}
mb_info.ipred[x + y * 4] = pred_mode.into();
- sstate.get_cur_blk4(x + y * 4).ipred = (pred_mode as u8).into();
+ sstate.get_cur_blk4(x + y * 4).ipred = pred_mode.into();
}
mb_info.chroma_ipred = br.read_ue_lim(3)? as u8;
},
mb_info.ipred[blk4 + 1] = pred_mode.into();
mb_info.ipred[blk4 + 4] = pred_mode.into();
mb_info.ipred[blk4 + 5] = pred_mode.into();
- sstate.get_cur_blk4(blk4).ipred = (pred_mode as u8).into();
- sstate.get_cur_blk4(blk4 + 1).ipred = (pred_mode as u8).into();
- sstate.get_cur_blk4(blk4 + 4).ipred = (pred_mode as u8).into();
- sstate.get_cur_blk4(blk4 + 5).ipred = (pred_mode as u8).into();
+ sstate.get_cur_blk4(blk4).ipred = pred_mode.into();
+ sstate.get_cur_blk4(blk4 + 1).ipred = pred_mode.into();
+ sstate.get_cur_blk4(blk4 + 4).ipred = pred_mode.into();
+ sstate.get_cur_blk4(blk4 + 5).ipred = pred_mode.into();
}
mb_info.chroma_ipred = br.read_ue_lim(3)? as u8;
},