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|
use nihav_core::codecs::*;
use nihav_core::io::byteio::*;
use nihav_core::io::bitwriter::*;
const GRAY_FORMAT: NAPixelFormaton = NAPixelFormaton {
model: ColorModel::YUV(YUVSubmodel::YUVJ),
components: 1,
comp_info: [Some(NAPixelChromaton{h_ss: 0, v_ss: 0, packed: false, depth: 8, shift: 0, comp_offs: 0, next_elem: 1}), None, None, None, None],
elem_size: 1,
be: true,
alpha: false,
palette: false,
};
#[derive(Clone,Copy,Default,PartialEq)]
enum CompressionLevel {
None,
Fast,
#[default]
Best
}
impl std::string::ToString for CompressionLevel {
fn to_string(&self) -> String {
match *self {
CompressionLevel::None => "none".to_string(),
CompressionLevel::Fast => "fast".to_string(),
CompressionLevel::Best => "best".to_string(),
}
}
}
const NO_CODE: u16 = 0;
struct LZWDictionary {
cur_size: usize,
bit_len: u8,
clear_code: u16,
end_code: u16,
orig_len: u8,
trie: Vec<[u16; 257]>,
}
impl LZWDictionary {
fn new() -> Self {
Self {
trie: Vec::with_capacity(4096),
cur_size: 0,
bit_len: 0,
clear_code: 0,
end_code: 0,
orig_len: 0,
}
}
fn init(&mut self, bits: u8) {
self.cur_size = (1 << bits) + 2;
self.bit_len = bits + 1;
self.clear_code = 1 << bits;
self.end_code = self.clear_code + 1;
self.orig_len = self.bit_len;
self.trie.clear();
for _ in 0..self.cur_size {
self.trie.push([NO_CODE; 257]);
}
for (idx, nodes) in self.trie.iter_mut().enumerate() {
nodes[256] = idx as u16;
}
}
fn find(&self, src: &[u8]) -> (u16, usize, usize) {
let mut idx = usize::from(src[0]);
let mut last_len = 0;
for (pos, &next) in src.iter().enumerate().skip(1) {
let next = usize::from(next);
if self.trie[idx][next] != NO_CODE {
idx = usize::from(self.trie[idx][next]);
} else {
return (self.trie[idx][256], pos, idx);
}
last_len = pos;
}
(self.trie[idx][256], last_len + 1, idx)
}
fn add(&mut self, lastidx: usize, next: u8) {
if self.cur_size >= (1 << 12) {
return;
}
let next = usize::from(next);
if self.trie[lastidx][next] == NO_CODE {
let newnode = self.trie.len();
self.trie.push([NO_CODE; 257]);
self.trie[newnode][256] = self.cur_size as u16;
self.trie[lastidx][next] = newnode as u16;
}
if (self.cur_size & (self.cur_size - 1)) == 0 && self.bit_len < 12 {
self.bit_len += 1;
}
self.cur_size += 1;
}
fn reset(&mut self) {
self.bit_len = self.orig_len;
self.cur_size = usize::from(self.end_code) + 1;
self.trie.truncate(self.cur_size);
for nodes in self.trie.iter_mut() {
for el in nodes[..256].iter_mut() {
*el = NO_CODE;
}
}
}
}
struct LZWEncoder {
dict: LZWDictionary,
level: CompressionLevel,
tmp: Vec<u8>,
}
impl LZWEncoder {
fn new() -> Self {
Self {
dict: LZWDictionary::new(),
level: CompressionLevel::default(),
tmp: Vec::new(),
}
}
fn compress(&mut self, writer: &mut ByteWriter, src: &[u8]) -> EncoderResult<()> {
let clr_bits: u8 = if self.level != CompressionLevel::None {
let maxclr = u16::from(src.iter().fold(0u8, |acc, &a| acc.max(a))) + 1;
let mut bits = 2;
while (1 << bits) < maxclr {
bits += 1;
}
bits
} else { 8 };
self.dict.init(clr_bits);
self.tmp.clear();
let mut tbuf = Vec::new();
std::mem::swap(&mut tbuf, &mut self.tmp);
let mut bw = BitWriter::new(tbuf, BitWriterMode::LE);
bw.write(u32::from(self.dict.clear_code), self.dict.bit_len);
match self.level {
CompressionLevel::None => {
let sym_limit = 1 << (clr_bits + 1);
for &b in src.iter() {
if self.dict.cur_size >= sym_limit {
bw.write(u32::from(self.dict.clear_code), self.dict.bit_len);
self.dict.reset();
}
bw.write(u32::from(b), self.dict.bit_len);
self.dict.add(usize::from(b), 0);
}
},
CompressionLevel::Fast => {
let mut pos = 0;
while pos < src.len() {
let (idx, len, trieidx) = self.dict.find(&src[pos..]);
bw.write(u32::from(idx), self.dict.bit_len);
pos += len;
if pos < src.len() {
self.dict.add(trieidx, src[pos]);
}
if self.dict.cur_size == 4096 {
bw.write(u32::from(self.dict.clear_code), self.dict.bit_len);
self.dict.reset();
}
}
},
CompressionLevel::Best => {
let mut pos = 0;
let mut hist = [0; 16];
let mut avg = 0;
let mut avg1 = 0;
let mut hpos = 0;
while pos < src.len() {
let (idx, len, trieidx) = self.dict.find(&src[pos..]);
bw.write(u32::from(idx), self.dict.bit_len);
pos += len;
if pos >= src.len() {
break;
}
self.dict.add(trieidx, src[pos]);
avg1 -= hist[(hpos + 1) & 0xF];
avg1 += len;
if self.dict.cur_size == 4096 && (avg1 < avg - avg / 8) {
bw.write(u32::from(self.dict.clear_code), self.dict.bit_len);
self.dict.reset();
}
avg = avg1;
hpos = (hpos + 1) & 0xF;
hist[hpos] = len;
}
},
};
bw.write(u32::from(self.dict.end_code), self.dict.bit_len);
tbuf = bw.end();
std::mem::swap(&mut tbuf, &mut self.tmp);
writer.write_byte(clr_bits)?;
for chunk in self.tmp.chunks(255) {
writer.write_byte(chunk.len() as u8)?;
writer.write_buf(chunk)?;
}
writer.write_byte(0x00)?; // data end marker
Ok(())
}
}
struct GIFEncoder {
stream: Option<NAStreamRef>,
cur_frm: Vec<u8>,
prev_frm: Vec<u8>,
tmp_buf: Vec<u8>,
pal: [u8; 768],
pkt: Option<NAPacket>,
first: bool,
width: usize,
height: usize,
grayscale: bool,
lzw: LZWEncoder,
p_trans: bool,
tr_idx: Option<u8>,
}
impl GIFEncoder {
fn new() -> Self {
Self {
stream: None,
pkt: None,
cur_frm: Vec::new(),
prev_frm: Vec::new(),
pal: [0; 768],
tmp_buf: Vec::new(),
first: true,
width: 0,
height: 0,
grayscale: false,
lzw: LZWEncoder::new(),
p_trans: false,
tr_idx: None,
}
}
fn write_dummy_frame(&mut self, bw: &mut ByteWriter) -> EncoderResult<()> {
let mut pix = [self.cur_frm[0]];
if let (true, Some(tr_idx)) = (self.p_trans, self.tr_idx) {
if tr_idx < pix[0] {
pix[0] = tr_idx;
}
}
// 1x1 image descriptor
bw.write_buf(&[0x2C, 0x00, 0x00, 0x00, 0x00, 0x01, 0x00, 0x01, 0x00, 0x00])?;
self.lzw.compress(bw, &pix)?;
Ok(())
}
}
impl NAEncoder for GIFEncoder {
fn negotiate_format(&self, encinfo: &EncodeParameters) -> EncoderResult<EncodeParameters> {
match encinfo.format {
NACodecTypeInfo::None => {
Ok(EncodeParameters {
format: NACodecTypeInfo::Video(NAVideoInfo::new(0, 0, true, YUV420_FORMAT)),
..Default::default()
})
},
NACodecTypeInfo::Audio(_) => Err(EncoderError::FormatError),
NACodecTypeInfo::Video(vinfo) => {
let format = if vinfo.format == GRAY_FORMAT { GRAY_FORMAT } else { PAL8_FORMAT };
let outinfo = NAVideoInfo::new(vinfo.width, vinfo.height, false, format);
let mut ofmt = *encinfo;
ofmt.format = NACodecTypeInfo::Video(outinfo);
Ok(ofmt)
}
}
}
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),
NACodecTypeInfo::Audio(_) => Err(EncoderError::FormatError),
NACodecTypeInfo::Video(vinfo) => {
if vinfo.width > 65535 || vinfo.height > 65535 {
return Err(EncoderError::FormatError);
}
if vinfo.format != PAL8_FORMAT && vinfo.format != GRAY_FORMAT {
return Err(EncoderError::FormatError);
}
self.width = vinfo.width;
self.height = vinfo.height;
self.grayscale = vinfo.format == GRAY_FORMAT;
let edata = self.tr_idx.map(|val| vec![val]);
let out_info = NAVideoInfo::new(vinfo.width, vinfo.height, false, PAL8_FORMAT);
let info = NACodecInfo::new("gif", NACodecTypeInfo::Video(out_info), edata);
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();
self.stream = Some(stream.clone());
self.cur_frm = vec![0; vinfo.width * vinfo.height];
self.prev_frm = vec![0; vinfo.width * vinfo.height];
self.tmp_buf.clear();
self.tmp_buf.reserve(vinfo.width * vinfo.height);
self.first = true;
Ok(stream)
},
}
}
fn encode(&mut self, frm: &NAFrame) -> EncoderResult<()> {
let mut dbuf = Vec::with_capacity(4);
let mut gw = GrowableMemoryWriter::new_write(&mut dbuf);
let mut bw = ByteWriter::new(&mut gw);
self.tmp_buf.clear();
match frm.get_buffer() {
NABufferType::Video(ref buf) => {
let src = buf.get_data();
let stride = buf.get_stride(0);
let src = &src[buf.get_offset(0)..];
for (dline, sline) in self.cur_frm.chunks_exact_mut(self.width)
.zip(src.chunks_exact(stride)) {
dline.copy_from_slice(&sline[..self.width]);
}
let cur_pal = &src[buf.get_offset(1)..][..768];
if self.first {
if !self.grayscale {
self.pal.copy_from_slice(cur_pal);
} else {
for (i, pal) in self.pal.chunks_exact_mut(3).enumerate() {
pal[0] = i as u8;
pal[1] = i as u8;
pal[2] = i as u8;
}
}
}
let mut pal_changed = false;
if !self.first && !self.grayscale {
let mut used = [false; 256];
for &b in self.cur_frm.iter() {
used[usize::from(b)] = true;
}
for (&used, (pal1, pal2)) in used.iter()
.zip(self.pal.chunks_exact(3).zip(cur_pal.chunks_exact(3))) {
if used && (pal1 != pal2) {
pal_changed = true;
break;
}
}
}
if self.first {
bw.write_byte(0x2C)?; // image descriptor
bw.write_u16le(0)?; // left
bw.write_u16le(0)?; // top
bw.write_u16le(self.width as u16)?;
bw.write_u16le(self.height as u16)?;
bw.write_byte(0)?; // flags
self.lzw.compress(&mut bw, &self.cur_frm)?;
} else {
let mut top = 0;
for (y, (line1, line2)) in self.cur_frm.chunks_exact(self.width)
.zip(self.prev_frm.chunks_exact(self.width)).enumerate() {
if line1 == line2 {
top = y;
} else {
break;
}
}
if top != self.height - 1 {
let mut bot = self.height;
for (y, (line1, line2)) in self.cur_frm.chunks_exact(self.width)
.zip(self.prev_frm.chunks_exact(self.width)).enumerate().rev() {
if line1 == line2 {
bot = y + 1;
} else {
break;
}
}
let mut left = self.width - 1;
let mut right = 0;
for (line1, line2) in self.cur_frm.chunks_exact(self.width)
.zip(self.prev_frm.chunks_exact(self.width))
.skip(top).take(bot - top) {
if left > 0 {
let mut cur_l = 0;
for (x, (&p1, &p2)) in line1.iter().zip(line2.iter()).enumerate() {
if p1 == p2 {
cur_l = x + 1;
} else {
break;
}
}
left = left.min(cur_l);
}
if right < self.width {
let mut cur_r = self.width;
for (x, (&p1, &p2)) in line1.iter().zip(line2.iter())
.enumerate().rev() {
if p1 == p2 {
cur_r = x + 1;
} else {
break;
}
}
right = right.max(cur_r);
}
}
self.tmp_buf.clear();
let use_transparency = self.p_trans && self.tr_idx.is_some();
let full_frame = right == 0 && top == 0 && left == self.width && bot == self.height;
let pic = match (use_transparency, full_frame) {
(true, _) => {
let tr_idx = self.tr_idx.unwrap_or(0);
for (cline, pline) in self.cur_frm.chunks_exact(self.width)
.zip(self.prev_frm.chunks_exact(self.width))
.skip(top).take(bot - top) {
for (&cpix, &ppix) in cline[left..right].iter()
.zip(pline[left..right].iter()) {
self.tmp_buf.push(if cpix == ppix { tr_idx } else { cpix });
}
}
&self.tmp_buf
},
(false, true) => {
&self.cur_frm
},
(false, false) => {
for line in self.cur_frm.chunks_exact(self.width)
.skip(top).take(bot - top) {
self.tmp_buf.extend_from_slice(&line[left..right]);
}
&self.tmp_buf
},
};
bw.write_byte(0x2C)?; // image descriptor
bw.write_u16le(left as u16)?;
bw.write_u16le(top as u16)?;
bw.write_u16le((right - left) as u16)?;
bw.write_u16le((bot - top) as u16)?;
if !pal_changed {
bw.write_byte(0)?; // flags
} else {
let maxclr = pic.iter().fold(0u8, |acc, &a| acc.max(a));
let clr_bits = if maxclr > 128 {
8
} else {
let mut bits = 1;
while (1 << bits) < maxclr {
bits += 1;
}
bits
};
bw.write_byte(0x80 | (clr_bits - 1))?;
bw.write_buf(&cur_pal[..(3 << clr_bits)])?;
}
self.lzw.compress(&mut bw, pic)?;
} else {
self.write_dummy_frame(&mut bw)?;
}
}
},
NABufferType::None if !self.first => {
self.write_dummy_frame(&mut bw)?;
},
_ => return Err(EncoderError::InvalidParameters),
};
self.pkt = Some(NAPacket::new(self.stream.clone().unwrap(), frm.ts, self.first, dbuf));
self.first = false;
if !self.grayscale {
if let NABufferType::Video(ref buf) = frm.get_buffer() {
let paloff = buf.get_offset(1);
let data = buf.get_data();
let mut pal = [0; 1024];
let srcpal = &data[paloff..][..768];
for (dclr, sclr) in pal.chunks_exact_mut(4).zip(srcpal.chunks_exact(3)) {
dclr[..3].copy_from_slice(sclr);
}
if let Some(ref mut pkt) = &mut self.pkt {
pkt.side_data.push(NASideData::Palette(true, Arc::new(pal)));
}
}
} else {
let mut pal = [0; 1024];
for (i, quad) in pal.chunks_exact_mut(4).enumerate() {
quad[0] = i as u8;
quad[1] = i as u8;
quad[2] = i as u8;
}
if let Some(ref mut pkt) = &mut self.pkt {
pkt.side_data.push(NASideData::Palette(true, Arc::new(pal)));
}
}
std::mem::swap(&mut self.cur_frm, &mut self.prev_frm);
Ok(())
}
fn get_packet(&mut self) -> EncoderResult<Option<NAPacket>> {
let mut npkt = None;
std::mem::swap(&mut self.pkt, &mut npkt);
Ok(npkt)
}
fn flush(&mut self) -> EncoderResult<()> {
Ok(())
}
}
const ENCODER_OPTS: &[NAOptionDefinition] = &[
NAOptionDefinition {
name: "compr", description: "Compression level",
opt_type: NAOptionDefinitionType::String(Some(&["none", "fast", "best"])) },
NAOptionDefinition {
name: "inter_transparent", description: "Code changed regions with transparency",
opt_type: NAOptionDefinitionType::Bool },
NAOptionDefinition {
name: "transparent_idx", description: "Palette index to use for transparency (on inter frames too if requested)",
opt_type: NAOptionDefinitionType::Int(Some(-1), Some(255)) },
];
impl NAOptionHandler for GIFEncoder {
fn get_supported_options(&self) -> &[NAOptionDefinition] { ENCODER_OPTS }
fn set_options(&mut self, options: &[NAOption]) {
for option in options.iter() {
for opt_def in ENCODER_OPTS.iter() {
if opt_def.check(option).is_ok() {
match option.name {
"compr" => {
if let NAValue::String(ref strval) = option.value {
match strval.as_str() {
"none" => self.lzw.level = CompressionLevel::None,
"fast" => self.lzw.level = CompressionLevel::Fast,
"best" => self.lzw.level = CompressionLevel::Best,
_ => {},
};
}
},
"inter_transparent" => {
if let NAValue::Bool(bval) = option.value {
self.p_trans = bval;
}
},
"transparent_idx" => {
if let NAValue::Int(ival) = option.value {
self.tr_idx = if ival >= 0 { Some(ival as u8) } else { None };
}
},
_ => {},
};
}
}
}
}
fn query_option_value(&self, name: &str) -> Option<NAValue> {
match name {
"compr" => Some(NAValue::String(self.lzw.level.to_string())),
"inter_transparent" => Some(NAValue::Bool(self.p_trans)),
"transparent_idx" => Some(NAValue::Int(self.tr_idx.map_or(-1i64, i64::from))),
_ => None,
}
}
}
pub fn get_encoder() -> Box<dyn NAEncoder + Send> {
Box::new(GIFEncoder::new())
}
#[cfg(test)]
mod test {
use nihav_core::codecs::*;
use nihav_core::demuxers::*;
use nihav_core::muxers::*;
use crate::*;
use nihav_codec_support::test::enc_video::*;
// sample: https://samples.mplayerhq.hu/V-codecs/Uncompressed/8bpp.avi
fn test_gif_encoder_single(out_name: &'static str, enc_options: &[NAOption], hash: &[u32; 4]) {
let mut dmx_reg = RegisteredDemuxers::new();
generic_register_all_demuxers(&mut dmx_reg);
let mut dec_reg = RegisteredDecoders::new();
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);
let dec_config = DecoderTestParams {
demuxer: "avi",
in_name: "assets/Misc/8bpp.avi",
stream_type: StreamType::Video,
limit: Some(0),
dmx_reg, dec_reg,
};
let enc_config = EncoderTestParams {
muxer: "gif",
enc_name: "gif",
out_name,
mux_reg, enc_reg,
};
let dst_vinfo = NAVideoInfo {
width: 0,
height: 0,
format: PAL8_FORMAT,
flipped: false,
bits: 8,
};
let enc_params = EncodeParameters {
format: NACodecTypeInfo::Video(dst_vinfo),
quality: 0,
bitrate: 0,
tb_num: 0,
tb_den: 0,
flags: 0,
};
//test_encoding_to_file(&dec_config, &enc_config, enc_params, enc_options);
test_encoding_md5(&dec_config, &enc_config, enc_params, enc_options, hash);
}
// sample: https://samples.mplayerhq.hu/image-samples/GIF/3D.gif
fn test_gif_anim(out_name: &'static str, enc_options: &[NAOption], hash: &[u32; 4]) {
let mut dmx_reg = RegisteredDemuxers::new();
generic_register_all_demuxers(&mut dmx_reg);
let mut dec_reg = RegisteredDecoders::new();
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);
let dec_config = DecoderTestParams {
demuxer: "gif",
in_name: "assets/Misc/3D.gif",
stream_type: StreamType::Video,
limit: None,
dmx_reg, dec_reg,
};
let enc_config = EncoderTestParams {
muxer: "gif",
enc_name: "gif",
out_name,
mux_reg, enc_reg,
};
let dst_vinfo = NAVideoInfo {
width: 0,
height: 0,
format: PAL8_FORMAT,
flipped: false,
bits: 8,
};
let enc_params = EncodeParameters {
format: NACodecTypeInfo::Video(dst_vinfo),
quality: 0,
bitrate: 0,
tb_num: 0,
tb_den: 0,
flags: 0,
};
//test_encoding_to_file(&dec_config, &enc_config, enc_params, enc_options);
test_encoding_md5(&dec_config, &enc_config, enc_params, enc_options, hash);
}
#[test]
fn test_gif_single_none() {
let enc_options = &[
NAOption { name: "compr", value: NAValue::String("none".to_string()) },
];
test_gif_encoder_single("none.gif", enc_options, &[0x32900cff, 0xef979bb0, 0x2d0355e8, 0x424bddee]);
}
#[test]
fn test_gif_single_fast() {
let enc_options = &[
NAOption { name: "compr", value: NAValue::String("fast".to_string()) },
];
test_gif_encoder_single("fast.gif", enc_options, &[0x9644f682, 0x497593cd, 0xdabb483d, 0x8fce63f4]);
}
#[test]
fn test_gif_single_best() {
let enc_options = &[
NAOption { name: "compr", value: NAValue::String("best".to_string()) },
];
test_gif_encoder_single("best.gif", enc_options, &[0x9644f682, 0x497593cd, 0xdabb483d, 0x8fce63f4]);
}
#[test]
fn test_gif_anim_opaque() {
let enc_options = &[
NAOption { name: "compr", value: NAValue::String("fast".to_string()) },
];
test_gif_anim("anim-opaque.gif", enc_options, &[0x58489e31, 0x1721d75e, 0xaebf93f2, 0x3fea9c6e]);
}
#[test]
fn test_gif_anim_transparent() {
let enc_options = &[
NAOption { name: "compr", value: NAValue::String("fast".to_string()) },
NAOption { name: "inter_transparent", value: NAValue::Bool(true) },
NAOption { name: "transparent_idx", value: NAValue::Int(0x7F) },
];
test_gif_anim("anim-transp.gif", enc_options, &[0x62df6232, 0x0c334457, 0x73738404, 0xa8829dcc]);
}
}
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