}
}
fn reset(&mut self) {
- self.masks.truncate(0);
+ self.masks.clear();
self.mask = 0;
self.pos = 0;
}
MedianCut,
}
-impl QuantMode {
+impl std::string::ToString for QuantMode {
fn to_string(&self) -> String {
match *self {
QuantMode::ELBG => "elbg".to_string(),
qmode: QuantMode,
quality: u8,
nstrips: usize,
+ force_v1: bool,
+ cur_strip: usize,
v1_entries: Vec<YUVCode>,
v4_entries: Vec<YUVCode>,
- v1_cb: [YUVCode; 256],
- v4_cb: [YUVCode; 256],
- v1_cur_cb: [YUVCode; 256],
- v4_cur_cb: [YUVCode; 256],
+ v1_cb: Vec<[YUVCode; 256]>,
+ v4_cb: Vec<[YUVCode; 256]>,
+ v1_cur_cb: Vec<[YUVCode; 256]>,
+ v4_cur_cb: Vec<[YUVCode; 256]>,
+ v1_len: usize,
+ v4_len: usize,
v1_idx: Vec<u8>,
v4_idx: Vec<u8>,
grayscale: bool,
pkt: None,
lastfrm: None,
frmcount: 0,
- qmode: QuantMode::ELBG,
+ qmode: QuantMode::MedianCut,
key_int: 25,
quality: 0,
nstrips: 2,
+ force_v1: false,
+ cur_strip: 0,
v1_entries: Vec::new(),
v4_entries: Vec::new(),
- v1_cb: [YUVCode::default(); 256],
- v4_cb: [YUVCode::default(); 256],
- v1_cur_cb: [YUVCode::default(); 256],
- v4_cur_cb: [YUVCode::default(); 256],
+ v1_cb: Vec::with_capacity(2),
+ v4_cb: Vec::with_capacity(2),
+ v1_cur_cb: Vec::with_capacity(2),
+ v4_cur_cb: Vec::with_capacity(2),
+ v1_len: 0,
+ v4_len: 0,
grayscale: false,
rng: RNG::new(),
v1_idx: Vec::new(),
let mut voff = in_frm.get_offset(2) + start / 2 * vstride;
let (width, _) = in_frm.get_dimensions(0);
let data = in_frm.get_data();
- self.v1_entries.truncate(0);
- self.v4_entries.truncate(0);
+ self.v1_entries.clear();
+ self.v4_entries.clear();
for _ in (start..end).step_by(4) {
for x in (0..width).step_by(4) {
let mut yblk = [0; 16];
voff += vstride * 2;
}
}
- fn find_nearest(codebook: &[YUVCode; 256], code: YUVCode) -> (u8, u32) {
+ fn find_nearest(codebook: &[YUVCode], code: YUVCode) -> (u8, u32) {
let mut min_dist = std::u32::MAX;
let mut idx = 0;
for (i, cw) in codebook.iter().enumerate() {
}
(idx as u8, min_dist)
}
- fn can_update_cb(new_cb: &[YUVCode; 256], old_cb: &[YUVCode; 256], cb_size: usize) -> bool {
+ fn can_update_cb(new_cb: &[YUVCode], old_cb: &[YUVCode], cb_size: usize) -> bool {
let mut skip_count = 0;
for (new, old) in new_cb.iter().zip(old_cb.iter()) {
if new == old {
skip_count += 1;
}
}
- let full_size = cb_size * 256;
- let upd_size = cb_size * (256 - skip_count) + 64;
+ let full_size = cb_size * new_cb.len();
+ let upd_size = cb_size * (new_cb.len() - skip_count) + (new_cb.len() + 31) / 32 * 4;
upd_size < full_size
}
- fn write_cb(bw: &mut ByteWriter, mut id: u8, new_cb: &[YUVCode; 256], old_cb: &[YUVCode; 256], grayscale: bool, update: bool) -> EncoderResult<()> {
+ fn write_cb(bw: &mut ByteWriter, mut id: u8, new_cb: &[YUVCode], old_cb: &[YUVCode], grayscale: bool, update: bool, num_elem: usize) -> EncoderResult<()> {
if grayscale {
id |= 4;
}
bw.write_u24be(0)?;
let chunk_pos = bw.tell();
if !update {
- for entry in new_cb.iter() {
+ for entry in new_cb.iter().take(num_elem) {
bw.write_buf(&entry.y)?;
if !grayscale {
bw.write_byte(entry.u ^ 0x80)?;
}
}
} else {
- let mut end = 256;
- for (i, (ncw, ocw)) in new_cb.iter().rev().zip(old_cb.iter().rev()).enumerate() {
+ let mut end = num_elem;
+ for (i, (ncw, ocw)) in new_cb.iter().zip(old_cb.iter()).enumerate().take(num_elem).rev() {
if ncw == ocw {
end = i;
} else {
for _ in (start..end).step_by(4) {
for x in (0..width).step_by(4) {
if cur_bit == 0 {
- if !intra || self.v1_idx.len() > 0 {
+ if !intra || !self.v1_idx.is_empty() {
cur_mask = *miter.next().unwrap();
} else {
cur_mask = 0xFFFFFFFF;
}
if (cur_mask & cur_bit) == 0 {
let idx = *v1_iter.next().unwrap() as usize;
- let cb = &self.v1_cur_cb[idx];
+ let cb = &self.v1_cur_cb[self.cur_strip][idx];
let mut coff = yoff + x;
data[coff] = cb.y[0]; data[coff + 1] = cb.y[0];
}
} else {
let idx0 = *v4_iter.next().unwrap() as usize;
- let cb0 = &self.v4_cur_cb[idx0];
+ let cb0 = &self.v4_cur_cb[self.cur_strip][idx0];
let idx1 = *v4_iter.next().unwrap() as usize;
- let cb1 = &self.v4_cur_cb[idx1];
+ let cb1 = &self.v4_cur_cb[self.cur_strip][idx1];
let idx2 = *v4_iter.next().unwrap() as usize;
- let cb2 = &self.v4_cur_cb[idx2];
+ let cb2 = &self.v4_cur_cb[self.cur_strip][idx2];
let idx3 = *v4_iter.next().unwrap() as usize;
- let cb3 = &self.v4_cur_cb[idx3];
+ let cb3 = &self.v4_cur_cb[self.cur_strip][idx3];
let mut coff = yoff + x;
data[coff] = cb0.y[0]; data[coff + 1] = cb0.y[1];
}
}
fn calc_skip_dist(&mut self, in_frm: &NAVideoBuffer<u8>, start: usize, end: usize) {
- self.skip_dist.truncate(0);
+ self.skip_dist.clear();
if let Some(ref ref_frm) = self.lastfrm {
let rystride = ref_frm.get_stride(0);
let mut ryoff = ref_frm.get_offset(0) + start * rystride;
fn quant_vectors(&mut self) {
match self.qmode {
QuantMode::ELBG => {
- let mut elbg_v1: ELBG<YUVCode, YUVCodeSum> = ELBG::new(&self.v1_cb);
- let mut elbg_v4: ELBG<YUVCode, YUVCodeSum> = ELBG::new(&self.v4_cb);
- elbg_v1.quantise(&self.v1_entries, &mut self.v1_cur_cb);
- elbg_v4.quantise(&self.v4_entries, &mut self.v4_cur_cb);
+ let mut elbg_v1: ELBG<YUVCode, YUVCodeSum> = ELBG::new(&self.v1_cb[self.cur_strip]);
+ let mut elbg_v4: ELBG<YUVCode, YUVCodeSum> = ELBG::new(&self.v4_cb[self.cur_strip]);
+
+ for entry in self.v1_cb[self.cur_strip].iter_mut().skip(self.v1_len) {
+ self.rng.fill_entry(entry);
+ }
+ for entry in self.v4_cb[self.cur_strip].iter_mut().skip(self.v4_len) {
+ self.rng.fill_entry(entry);
+ }
+
+ self.v1_len = elbg_v1.quantise(&self.v1_entries, &mut self.v1_cur_cb[self.cur_strip]);
+ self.v4_len = if !self.force_v1 { elbg_v4.quantise(&self.v4_entries, &mut self.v4_cur_cb[self.cur_strip]) } else { 0 };
},
QuantMode::Hybrid => {
- quantise_median_cut::<YUVCode, YUVCodeSum>(&self.v1_entries, &mut self.v1_cur_cb);
- quantise_median_cut::<YUVCode, YUVCodeSum>(&self.v4_entries, &mut self.v4_cur_cb);
- let mut elbg_v1: ELBG<YUVCode, YUVCodeSum> = ELBG::new(&self.v1_cur_cb);
- let mut elbg_v4: ELBG<YUVCode, YUVCodeSum> = ELBG::new(&self.v4_cur_cb);
- elbg_v1.quantise(&self.v1_entries, &mut self.v1_cur_cb);
- elbg_v4.quantise(&self.v4_entries, &mut self.v4_cur_cb);
+ let v1_len = quantise_median_cut::<YUVCode, YUVCodeSum>(&self.v1_entries, &mut self.v1_cur_cb[self.cur_strip]);
+ let v4_len = if !self.force_v1 {
+ quantise_median_cut::<YUVCode, YUVCodeSum>(&self.v4_entries, &mut self.v4_cur_cb[self.cur_strip])
+ } else {
+ 0
+ };
+ self.v1_len = if v1_len < 256 {
+ v1_len
+ } else {
+ let mut elbg_v1: ELBG<YUVCode, YUVCodeSum> = ELBG::new(&self.v1_cur_cb[self.cur_strip]);
+ elbg_v1.quantise(&self.v1_entries, &mut self.v1_cur_cb[self.cur_strip])
+ };
+ self.v4_len = if v4_len < 256 {
+ v4_len
+ } else {
+ let mut elbg_v4: ELBG<YUVCode, YUVCodeSum> = ELBG::new(&self.v4_cur_cb[self.cur_strip]);
+ elbg_v4.quantise(&self.v4_entries, &mut self.v4_cur_cb[self.cur_strip])
+ };
},
QuantMode::MedianCut => {
- quantise_median_cut::<YUVCode, YUVCodeSum>(&self.v1_entries, &mut self.v1_cur_cb);
- quantise_median_cut::<YUVCode, YUVCodeSum>(&self.v4_entries, &mut self.v4_cur_cb);
+ self.v1_len = quantise_median_cut::<YUVCode, YUVCodeSum>(&self.v1_entries, &mut self.v1_cur_cb[self.cur_strip]);
+ if !self.force_v1 {
+ self.v4_len = quantise_median_cut::<YUVCode, YUVCodeSum>(&self.v4_entries, &mut self.v4_cur_cb[self.cur_strip]);
+ } else {
+ self.v4_len = 0;
+ }
},
};
+
+ for e in self.v1_cur_cb[self.cur_strip].iter_mut().skip(self.v1_len) { *e = YUVCode::default(); }
+ for e in self.v4_cur_cb[self.cur_strip].iter_mut().skip(self.v4_len) { *e = YUVCode::default(); }
}
fn encode_intra(&mut self, bw: &mut ByteWriter, in_frm: &NAVideoBuffer<u8>) -> EncoderResult<bool> {
let (width, height) = in_frm.get_dimensions(0);
bw.write_u16be(height as u16)?;
bw.write_u16be(self.nstrips as u16)?;
- for entry in self.v1_cb.iter_mut() {
+ self.cur_strip = 0;
+ for entry in self.v1_cb[self.cur_strip].iter_mut() {
self.rng.fill_entry(entry);
}
- for entry in self.v4_cb.iter_mut() {
+ for entry in self.v4_cb[self.cur_strip].iter_mut() {
self.rng.fill_entry(entry);
}
while start_line < height {
self.read_strip(in_frm, start_line, end_line);
+ if self.cur_strip > 0 {
+ self.v1_cb[self.cur_strip] = self.v1_cb[self.cur_strip - 1];
+ self.v4_cb[self.cur_strip] = self.v4_cb[self.cur_strip - 1];
+ }
self.quant_vectors();
if self.grayscale {
- for cw in self.v1_cur_cb.iter_mut() {
+ for cw in self.v1_cur_cb[self.cur_strip].iter_mut() {
cw.u = 128;
cw.v = 128;
}
- for cw in self.v4_cur_cb.iter_mut() {
+ for cw in self.v4_cur_cb[self.cur_strip].iter_mut() {
cw.u = 128;
cw.v = 128;
}
}
- self.v1_idx.truncate(0);
- self.v4_idx.truncate(0);
+ self.v1_idx.clear();
+ self.v4_idx.clear();
self.masks.reset();
for (v1_entry, v4_entries) in self.v1_entries.iter().zip(self.v4_entries.chunks(4)) {
- let (v1_idx, v1_dist) = Self::find_nearest(&self.v1_cur_cb, *v1_entry);
- if v1_dist == 0 {
+ let (v1_idx, v1_dist) = Self::find_nearest(&self.v1_cur_cb[self.cur_strip][..self.v1_len], *v1_entry);
+ if v1_dist == 0 || self.force_v1 {
self.masks.put_v1();
self.v1_idx.push(v1_idx);
continue;
}
- let (v40_idx, v40_dist) = Self::find_nearest(&self.v4_cur_cb, v4_entries[0]);
- let (v41_idx, v41_dist) = Self::find_nearest(&self.v4_cur_cb, v4_entries[1]);
- let (v42_idx, v42_dist) = Self::find_nearest(&self.v4_cur_cb, v4_entries[2]);
- let (v43_idx, v43_dist) = Self::find_nearest(&self.v4_cur_cb, v4_entries[3]);
+ let (v40_idx, v40_dist) = Self::find_nearest(&self.v4_cur_cb[self.cur_strip][..self.v4_len], v4_entries[0]);
+ let (v41_idx, v41_dist) = Self::find_nearest(&self.v4_cur_cb[self.cur_strip][..self.v4_len], v4_entries[1]);
+ let (v42_idx, v42_dist) = Self::find_nearest(&self.v4_cur_cb[self.cur_strip][..self.v4_len], v4_entries[2]);
+ let (v43_idx, v43_dist) = Self::find_nearest(&self.v4_cur_cb[self.cur_strip][..self.v4_len], v4_entries[3]);
if v40_dist + v41_dist + v42_dist + v43_dist > v1_dist {
self.masks.put_v4();
self.v4_idx.push(v40_idx);
let mut is_intra_strip = start_line == 0;
let (upd_v1, upd_v4) = if !is_intra_strip {
let cb_size = if self.grayscale { 4 } else { 6 };
- (Self::can_update_cb(&self.v1_cur_cb, &self.v1_cb, cb_size),
- Self::can_update_cb(&self.v4_cur_cb, &self.v4_cb, cb_size))
+ (Self::can_update_cb(&self.v1_cur_cb[self.cur_strip][..self.v1_len], &self.v1_cb[self.cur_strip][..self.v1_len], cb_size),
+ Self::can_update_cb(&self.v4_cur_cb[self.cur_strip][..self.v4_len], &self.v4_cb[self.cur_strip][..self.v4_len], cb_size))
} else {
(false, false)
};
bw.write_u16be((end_line - start_line) as u16)?;
bw.write_u16be(width as u16)?;
- Self::write_cb(bw, 0x20, &self.v4_cur_cb, &self.v4_cb, self.grayscale, upd_v4)?;
- Self::write_cb(bw, 0x22, &self.v1_cur_cb, &self.v1_cb, self.grayscale, upd_v1)?;
+ Self::write_cb(bw, 0x20, &self.v4_cur_cb[self.cur_strip], &self.v4_cb[self.cur_strip], self.grayscale, upd_v4, self.v4_len)?;
+ Self::write_cb(bw, 0x22, &self.v1_cur_cb[self.cur_strip], &self.v1_cb[self.cur_strip], self.grayscale, upd_v1, self.v1_len)?;
self.render_stripe(true, start_line, end_line);
- if self.v1_idx.len() == 0 {
+ if self.v4_idx.is_empty() {
bw.write_byte(0x32)?;
- bw.write_u24be((self.v4_idx.len() + 4) as u32)?;
- bw.write_buf(self.v4_idx.as_slice())?;
+ bw.write_u24be((self.v1_idx.len() + 4) as u32)?;
+ bw.write_buf(self.v1_idx.as_slice())?;
} else {
bw.write_byte(0x30)?;
bw.write_u24be(0)?;
patch_size(bw, strip_data_pos)?;
- self.v1_cb.copy_from_slice(&self.v1_cur_cb);
- self.v4_cb.copy_from_slice(&self.v4_cur_cb);
+ self.v1_cb[self.cur_strip].copy_from_slice(&self.v1_cur_cb[self.cur_strip]);
+ self.v4_cb[self.cur_strip].copy_from_slice(&self.v4_cur_cb[self.cur_strip]);
start_line = end_line;
end_line = (end_line + strip_h).min(height);
+
+ self.cur_strip += 1;
}
patch_size(bw, frame_data_pos)?;
Ok(true)
bw.write_u16be(height as u16)?;
bw.write_u16be(self.nstrips as u16)?;
+ self.cur_strip = 0;
while start_line < height {
self.read_strip(in_frm, start_line, end_line);
self.calc_skip_dist(in_frm, start_line, end_line);
self.quant_vectors();
if self.grayscale {
- for cw in self.v1_cur_cb.iter_mut() {
+ for cw in self.v1_cur_cb[self.cur_strip].iter_mut() {
cw.u = 128;
cw.v = 128;
}
- for cw in self.v4_cur_cb.iter_mut() {
+ for cw in self.v4_cur_cb[self.cur_strip].iter_mut() {
cw.u = 128;
cw.v = 128;
}
}
- self.v1_idx.truncate(0);
- self.v4_idx.truncate(0);
+ self.v1_idx.clear();
+ self.v4_idx.clear();
self.masks.reset();
let mut skip_iter = self.skip_dist.iter();
self.masks.put_inter(true);
continue;
}
- let (v1_idx, v1_dist) = Self::find_nearest(&self.v1_cur_cb, *v1_entry);
+ let (v1_idx, v1_dist) = Self::find_nearest(&self.v1_cur_cb[self.cur_strip][..self.v1_len], *v1_entry);
if skip_dist < v1_dist {
self.masks.put_inter(true);
continue;
} else {
self.masks.put_inter(false);
}
- if v1_dist == 0 {
+ if v1_dist == 0 || self.force_v1 {
self.masks.put_v1();
self.v1_idx.push(v1_idx);
continue;
}
- let (v40_idx, v40_dist) = Self::find_nearest(&self.v4_cur_cb, v4_entries[0]);
- let (v41_idx, v41_dist) = Self::find_nearest(&self.v4_cur_cb, v4_entries[1]);
- let (v42_idx, v42_dist) = Self::find_nearest(&self.v4_cur_cb, v4_entries[2]);
- let (v43_idx, v43_dist) = Self::find_nearest(&self.v4_cur_cb, v4_entries[3]);
+ let (v40_idx, v40_dist) = Self::find_nearest(&self.v4_cur_cb[self.cur_strip][..self.v4_len], v4_entries[0]);
+ let (v41_idx, v41_dist) = Self::find_nearest(&self.v4_cur_cb[self.cur_strip][..self.v4_len], v4_entries[1]);
+ let (v42_idx, v42_dist) = Self::find_nearest(&self.v4_cur_cb[self.cur_strip][..self.v4_len], v4_entries[2]);
+ let (v43_idx, v43_dist) = Self::find_nearest(&self.v4_cur_cb[self.cur_strip][..self.v4_len], v4_entries[3]);
if v40_dist + v41_dist + v42_dist + v43_dist > v1_dist {
self.masks.put_v4();
self.v4_idx.push(v40_idx);
let (upd_v1, upd_v4) = {
let cb_size = if self.grayscale { 4 } else { 6 };
- (Self::can_update_cb(&self.v1_cur_cb, &self.v1_cb, cb_size),
- Self::can_update_cb(&self.v4_cur_cb, &self.v4_cb, cb_size))
+ (Self::can_update_cb(&self.v1_cur_cb[self.cur_strip][..self.v1_len], &self.v1_cb[self.cur_strip][..self.v1_len], cb_size),
+ Self::can_update_cb(&self.v4_cur_cb[self.cur_strip][..self.v4_len], &self.v4_cb[self.cur_strip][..self.v4_len], cb_size))
};
bw.write_byte(0x11)?;
bw.write_u24be(0)?; // strip size
bw.write_u16be((end_line - start_line) as u16)?;
bw.write_u16be(width as u16)?;
- Self::write_cb(bw, 0x20, &self.v4_cur_cb, &self.v4_cb, self.grayscale, upd_v4)?;
- Self::write_cb(bw, 0x22, &self.v1_cur_cb, &self.v1_cb, self.grayscale, upd_v1)?;
+ Self::write_cb(bw, 0x20, &self.v4_cur_cb[self.cur_strip], &self.v4_cb[self.cur_strip], self.grayscale, upd_v4, self.v4_len)?;
+ Self::write_cb(bw, 0x22, &self.v1_cur_cb[self.cur_strip], &self.v1_cb[self.cur_strip], self.grayscale, upd_v1, self.v1_len)?;
self.render_stripe(false, start_line, end_line);
let mut skip = true;
for mask in self.masks.masks.iter() {
bw.write_u32be(*mask)?;
- if *mask == 0 { continue; }
+ if *mask == 0 && skip { continue; }
let mut bit = 1 << 31;
while bit > 0 {
if skip {
patch_size(bw, strip_data_pos)?;
- self.v1_cb.copy_from_slice(&self.v1_cur_cb);
- self.v4_cb.copy_from_slice(&self.v4_cur_cb);
+ self.v1_cb[self.cur_strip].copy_from_slice(&self.v1_cur_cb[self.cur_strip]);
+ self.v4_cb[self.cur_strip].copy_from_slice(&self.v4_cur_cb[self.cur_strip]);
start_line = end_line;
end_line = (end_line + strip_h).min(height);
+
+ self.cur_strip += 1;
}
patch_size(bw, frame_data_pos)?;
Ok(true)
fn negotiate_format(&self, encinfo: &EncodeParameters) -> EncoderResult<EncodeParameters> {
match encinfo.format {
NACodecTypeInfo::None => {
- let mut ofmt = EncodeParameters::default();
- ofmt.format = NACodecTypeInfo::Video(NAVideoInfo::new(0, 0, true, YUV420_FORMAT));
- Ok(ofmt)
+ Ok(EncodeParameters {
+ format: NACodecTypeInfo::Video(NAVideoInfo::new(0, 0, true, YUV420_FORMAT)),
+ ..Default::default()
+ })
},
- NACodecTypeInfo::Audio(_) => return Err(EncoderError::FormatError),
+ NACodecTypeInfo::Audio(_) => Err(EncoderError::FormatError),
NACodecTypeInfo::Video(vinfo) => {
let pix_fmt = if vinfo.format == GRAY_FORMAT { GRAY_FORMAT } else { YUV420_FORMAT };
- let outinfo = NAVideoInfo::new((vinfo.width + 3) & !3, (vinfo.height + 3) & !3, true, pix_fmt);
+ let outinfo = NAVideoInfo::new((vinfo.width + 3) & !3, (vinfo.height + 3) & !3, false, pix_fmt);
let mut ofmt = *encinfo;
ofmt.format = NACodecTypeInfo::Video(outinfo);
Ok(ofmt)
}
let out_info = NAVideoInfo::new(vinfo.width, vinfo.height, false, vinfo.format);
- let info = NACodecInfo::new("cinepak", NACodecTypeInfo::Video(out_info.clone()), None);
- let mut stream = NAStream::new(StreamType::Video, stream_id, info, encinfo.tb_num, encinfo.tb_den);
+ let info = NACodecInfo::new("cinepak", NACodecTypeInfo::Video(out_info), None);
+ let mut stream = NAStream::new(StreamType::Video, stream_id, info, encinfo.tb_num, encinfo.tb_den, 0);
stream.set_num(stream_id as usize);
let stream = stream.into_ref();
let buf = alloc_video_buffer(out_info, 2)?;
self.lastfrm = Some(buf.get_vbuf().unwrap());
-
+
Ok(stream)
},
}
fn encode(&mut self, frm: &NAFrame) -> EncoderResult<()> {
let buf = frm.get_buffer();
if let Some(ref vbuf) = buf.get_vbuf() {
+ let cur_strips = self.v1_cb.len();
+ if cur_strips != self.nstrips {
+ self.frmcount = 0;
+ }
+ if cur_strips < self.nstrips {
+ for _ in cur_strips..self.nstrips {
+ self.v1_cb.push([YUVCode::default(); 256]);
+ self.v4_cb.push([YUVCode::default(); 256]);
+ self.v1_cur_cb.push([YUVCode::default(); 256]);
+ self.v4_cur_cb.push([YUVCode::default(); 256]);
+ }
+ }
+
let mut dbuf = Vec::with_capacity(4);
let mut gw = GrowableMemoryWriter::new_write(&mut dbuf);
let mut bw = ByteWriter::new(&mut gw);
const ENCODER_OPTS: &[NAOptionDefinition] = &[
NAOptionDefinition {
- name: "key_int", description: "Keyframe interval (0 - automatic)",
+ name: KEYFRAME_OPTION, description: KEYFRAME_OPTION_DESC,
opt_type: NAOptionDefinitionType::Int(Some(0), Some(128)) },
NAOptionDefinition {
name: "nstrips", description: "Number of strips per frame (0 - automatic)",
NAOptionDefinition {
name: "quant_mode", description: "Quantisation mode",
opt_type: NAOptionDefinitionType::String(Some(&["elbg", "hybrid", "mediancut"])) },
+ NAOptionDefinition {
+ name: "force_v1", description: "Force coarse (V1-only) mode",
+ opt_type: NAOptionDefinitionType::Bool },
];
impl NAOptionHandler for CinepakEncoder {
fn get_supported_options(&self) -> &[NAOptionDefinition] { ENCODER_OPTS }
fn set_options(&mut self, options: &[NAOption]) {
for option in options.iter() {
-println!("option {}", option.name);
for opt_def in ENCODER_OPTS.iter() {
if opt_def.check(option).is_ok() {
match option.name {
- "key_int" => {
+ KEYFRAME_OPTION => {
if let NAValue::Int(intval) = option.value {
self.key_int = intval as u8;
}
}
},
"quant_mode" => {
- if let NAValue::String(ref str) = option.value {
- match str.as_str() {
+ if let NAValue::String(ref strval) = option.value {
+ match strval.as_str() {
"elbg" => self.qmode = QuantMode::ELBG,
"hybrid" => self.qmode = QuantMode::Hybrid,
"mediancut" => self.qmode = QuantMode::MedianCut,
};
}
},
+ "force_v1" => {
+ if let NAValue::Bool(val) = option.value {
+ self.force_v1 = val;
+ }
+ },
_ => {},
};
}
}
fn query_option_value(&self, name: &str) -> Option<NAValue> {
match name {
- "key_int" => Some(NAValue::Int(i64::from(self.key_int))),
+ KEYFRAME_OPTION => Some(NAValue::Int(i64::from(self.key_int))),
"nstrips" => Some(NAValue::Int(self.nstrips as i64)),
"quant_mode" => Some(NAValue::String(self.qmode.to_string())),
+ "force_v1" => Some(NAValue::Bool(self.force_v1)),
_ => None,
}
}
let mut dmx_reg = RegisteredDemuxers::new();
generic_register_all_demuxers(&mut dmx_reg);
let mut dec_reg = RegisteredDecoders::new();
- generic_register_all_codecs(&mut dec_reg);
+ generic_register_all_decoders(&mut dec_reg);
let mut mux_reg = RegisteredMuxers::new();
generic_register_all_muxers(&mut mux_reg);
let mut enc_reg = RegisteredEncoders::new();
generic_register_all_encoders(&mut enc_reg);
+ // sample: https://samples.mplayerhq.hu/V-codecs/UCOD/TalkingHead_352x288.avi
let dec_config = DecoderTestParams {
demuxer: "avi",
in_name: "assets/Misc/TalkingHead_352x288.avi",
height: 0,
format: YUV420_FORMAT,
flipped: true,
+ bits: 12,
};
let enc_params = EncodeParameters {
format: NACodecTypeInfo::Video(dst_vinfo),
tb_den: 0,
flags: 0,
};
- test_encoding_to_file(&dec_config, &enc_config, enc_params);
+ //test_encoding_to_file(&dec_config, &enc_config, enc_params, &[]);
+ test_encoding_md5(&dec_config, &enc_config, enc_params, &[],
+ &[0x1d4690c8, 0x3b15b4b3, 0xc2df3c7b, 0x1a25b159]);
}
}