}
Ok(())
}
+ #[allow(clippy::comparison_chain)]
fn decode_intra_mb_pred_quant(&mut self, bd: &mut dyn BlockDecoder, bdsp: &dyn BlockDSP, mb_pos: usize, binfo: &BlockInfo, sstate: &SliceState, apply_acpred: bool) -> DecoderResult<()> {
for i in 0..6 {
bd.decode_block_intra(&binfo, &sstate, binfo.get_q(), i, (binfo.cbp & (1 << (5 - i))) != 0, &mut self.blk[i])?;
bi.mv_f[blk_no]
}
}
- #[allow(clippy::cyclomatic_complexity)]
+ #[allow(clippy::cognitive_complexity)]
fn reconstruct_obmc(&mut self, buf: &mut NAVideoBuffer<u8>, slice_start: usize, start: usize, end: usize, slice_end: bool) -> usize {
let mut mb_x = start % self.mb_w;
let mut mb_y = start / self.mb_w;
}
mb_pos
}
- #[allow(clippy::cyclomatic_complexity)]
+ #[allow(clippy::cognitive_complexity)]
pub fn parse_frame(&mut self, bd: &mut dyn BlockDecoder, bdsp: &dyn BlockDSP) -> DecoderResult<NABufferType> {
let pinfo = bd.decode_pichdr()?;
let mut mvi = MVInfo::new();
if capacity < self.num_mb {
self.obmc_blk.reserve(self.num_mb - capacity);
}
- self.obmc_blk.truncate(0);
+ self.obmc_blk.clear();
}
if self.has_b {
- self.mv_data.truncate(0);
+ self.mv_data.clear();
}
let save_b_data = pinfo.mode.is_ref() && self.may_have_b_frames;
if save_b_data {
- self.mv_data.truncate(0);
+ self.mv_data.clear();
}
let is_b = pinfo.mode == Type::B;
let mut mb_pos = 0;
let apply_acpred = /*(pinfo.mode == Type::I) && */pinfo.plusinfo.is_some() && pinfo.plusinfo.unwrap().aic;
if apply_acpred {
- self.pred_coeffs.truncate(0);
+ self.pred_coeffs.clear();
if !self.pred_quant {
self.pred_coeffs.resize(self.mb_w * self.mb_h, ZERO_PRED_COEFFS);
} else {
recon_b_frame(b_buf, bck_buf.clone(), fwd_buf.clone(), self.mb_w, self.mb_h, self.b_data.as_slice(), bdsp);
}
- self.b_data.truncate(0);
+ self.b_data.clear();
Ok(bufinfo)
}
}