}
let mut iw = Indeo3Writer::new(dbuf);
- self.cframe.plane[planeno].encode_tree(&mut iw, &tree, &mut self.cenc, is_intra, ref_plane);
+ self.cframe.plane[planeno].encode_tree(&mut iw, &tree, &mut self.cenc, ref_plane);
drop(iw);
while (dbuf.len() & 3) != 0 {
dbuf.push(0);
}
}
}
+ fn get_capabilities(&self) -> u64 { ENC_CAPS_SKIPFRAME }
fn init(&mut self, stream_id: u32, encinfo: EncodeParameters) -> EncoderResult<NAStreamRef> {
match encinfo.format {
NACodecTypeInfo::None => Err(EncoderError::FormatError),
let fsize = dbuf.len() as u32;
self.rc.advance(fsize);
+ self.frameno += 1;
self.pkt = Some(NAPacket::new(self.stream.clone().unwrap(), frm.ts, false, dbuf));
return Ok(());
// prepare plane data structure
for &planeno in PLANE_ORDER.iter() {
let ref_plane = &self.pframe.plane[planeno];
- let tree = self.cframe.plane[planeno].find_cells(is_intra, ref_plane, &self.mv_est);
+ let mut tree = self.cframe.plane[planeno].find_cells(is_intra, ref_plane, &self.mv_est);
if self.debug_tree {
println!(" tree for plane {}:", planeno);
tree.print();
}
- trees.push(tree);
let mvs = &mut self.cframe.plane[planeno].mvs;
- compact_mvs(mvs);
+ if mvs.len() > 256 {
+ compact_mvs(mvs);
+ self.cframe.plane[planeno].prune_extra_mvs(&mut tree);
+ }
+ trees.push(tree);
}
self.encode_planes(&mut dbuf, &trees, is_intra)?;
let cur_quant = self.cenc.quant.unwrap_or(42);
- if !is_intra && cur_quant < 8 {
+ if self.try_again && !is_intra && cur_quant < 8 {
let expected_size = self.rc.get_expected_size();
if expected_size > 0 {
let cur_size = dbuf.len() as u32;
let enc_options = &[
NAOption { name: super::TRY_AGAIN_OPTION, value: NAValue::Bool(true) },
];
- encode_test("indeo3.avi", enc_options, Some(4), &[0xd62f9996, 0x7fb4ba1b, 0x1f552801, 0xfd4e4726]);
+ encode_test("indeo3.avi", enc_options, Some(4), &[0x17d742bc, 0x6f4c1200, 0x79422bac, 0xc46b5dd0]);
}
/*#[test]
fn test_indeo3_roundtrip() {