[nihav.git] / src / codecs / h263 / intel263.rs

use io::bitreader::*;
use io::codebook::*;
use formats;
use super::super::*;
use super::*;
use super::decoder::*;
use super::data::*;
use super::code::H263BlockDSP;

#[allow(dead_code)]
struct Tables {
    intra_mcbpc_cb: Codebook<u8>,
    inter_mcbpc_cb: Codebook<u8>,
    cbpy_cb:        Codebook<u8>,
    rl_cb:          Codebook<H263RLSym>,
    aic_rl_cb:      Codebook<H263RLSym>,
    mv_cb:          Codebook<u8>,
}

struct Intel263Decoder {
    info:    Rc<NACodecInfo>,
    dec:     H263BaseDecoder,
    tables:  Tables,
    bdsp:    H263BlockDSP,
}

struct Intel263BR<'a> {
    br:     BitReader<'a>,
    tables: &'a Tables,
    gob_no: usize,
    mb_w:   usize,
    is_pb:  bool,
}

fn check_marker<'a>(br: &mut BitReader<'a>) -> DecoderResult<()> {
    let mark = br.read(1)?;
    validate!(mark == 1);
    Ok(())
}

impl<'a> Intel263BR<'a> {
    fn new(src: &'a [u8], tables: &'a Tables) -> Self {
        Intel263BR {
            br:     BitReader::new(src, src.len(), BitReaderMode::BE),
            tables: tables,
            gob_no: 0,
            mb_w:   0,
            is_pb:  false,
        }
    }

    fn decode_block(&mut self, quant: u8, intra: bool, coded: bool, blk: &mut [i16; 64]) -> DecoderResult<()> {
        let mut br = &mut self.br;
        let mut idx = 0;
        if intra {
            let mut dc = br.read(8)?;
            if dc == 255 { dc = 128; }
            blk[0] = (dc as i16) << 3;
            idx = 1;
        }
        if !coded { return Ok(()); }

        let rl_cb = &self.tables.rl_cb; // could be aic too
        let q_add = if quant == 0 { 0i16 } else { ((quant - 1) | 1) as i16 };
        let q = (quant * 2) as i16;
        while idx < 64 {
            let code = br.read_cb(rl_cb)?;
            let run;
            let mut level;
            let last;
            if !code.is_escape() {
                run   = code.get_run();
                level = code.get_level();
                last  = code.is_last();
                if br.read_bool()? { level = -level; }
                level = (level * q) + q_add;
            } else {
                last  = br.read_bool()?;
                run   = br.read(6)? as u8;
                level = br.read_s(8)? as i16;
                if level == -128 {
                    let low = br.read(5)? as i16;
                    let top = br.read_s(6)? as i16;
                    level = (top << 5) | low;
                }
                level = (level * q) + q_add;
                if level < -2048 { level = -2048; }
                if level >  2047 { level =  2047; }
            }
            idx += run;
            validate!(idx < 64);
            let oidx = H263_ZIGZAG[idx as usize];
            blk[oidx] = level;
            idx += 1;
            if last { break; }
        }
        Ok(())
    }
}

fn decode_mv_component(br: &mut BitReader, mv_cb: &Codebook<u8>) -> DecoderResult<i16> {
    let code = br.read_cb(mv_cb)? as i16;
    if code == 0 { return Ok(0) }
    if !br.read_bool()? {
        Ok(code)
    } else {
        Ok(-code)
    }
}

fn decode_mv(br: &mut BitReader, mv_cb: &Codebook<u8>) -> DecoderResult<MV> {
    let xval = decode_mv_component(br, mv_cb)?;
    let yval = decode_mv_component(br, mv_cb)?;
    Ok(MV::new(xval, yval))
}

fn decode_b_info(br: &mut BitReader, is_pb: bool, is_intra: bool) -> DecoderResult<BBlockInfo> {
    if is_pb { // as improved pb
        let pb_mv_add = if is_intra { 1 } else { 0 };
        if br.read_bool()?{
            if br.read_bool()? {
                let pb_mv_count = 1 - (br.read(1)? as usize);
                let cbpb = br.read(6)? as u8;
                Ok(BBlockInfo::new(true, cbpb, pb_mv_count + pb_mv_add, pb_mv_count == 1))
            } else {
                Ok(BBlockInfo::new(true, 0, 1 + pb_mv_add, true))
            }
        } else {
            Ok(BBlockInfo::new(true, 0, pb_mv_add, false))
        }
    } else {
        Ok(BBlockInfo::new(false, 0, 0, false))
    }
}

impl<'a> BlockDecoder for Intel263BR<'a> {

#[allow(unused_variables)]
    fn decode_pichdr(&mut self) -> DecoderResult<PicInfo> {
        let mut br = &mut self.br;
        let syncw = br.read(22)?;
        validate!(syncw == 0x000020);
        let tr = (br.read(8)? << 8) as u16;
        check_marker(br)?;
        let id = br.read(1)?;
        validate!(id == 0);
        br.read(1)?; // split screen indicator
        br.read(1)?; // document camera indicator
        br.read(1)?; // freeze picture release
        let mut sfmt = br.read(3)?;
        validate!((sfmt != 0b000) && (sfmt != 0b110));
        let is_intra = !br.read_bool()?;
        let umv = br.read_bool()?;
        br.read(1)?; // syntax arithmetic coding
        let apm = br.read_bool()?;
        self.is_pb = br.read_bool()?;
        let deblock;
        if sfmt == 0b111 {
            sfmt = br.read(3)?;
            validate!((sfmt != 0b000) && (sfmt != 0b111));
            br.read(2)?; // unknown flags
            deblock = br.read_bool()?;
            br.read(1)?; // unknown flag
            let pbplus = br.read_bool()?;
            br.read(5)?; // unknown flags
            let marker = br.read(5)?;
            validate!(marker == 1);
        } else {
            deblock = false;
        }
        let w; let h;
        if sfmt == 0b110 {
            let par = br.read(4)?;
            w = ((br.read(9)? + 1) * 4) as usize;
            check_marker(br)?;
            h = ((br.read(9)? + 1) * 4) as usize;
            if par == 0b1111 {
                let pixw = br.read(8)?;
                let pixh = br.read(8)?;
                validate!((pixw != 0) && (pixh != 0));
            }
        } else {
            let (w_, h_) = H263_SIZES[sfmt as usize];
            w = w_;
            h = h_;
        }
        let quant = br.read(5)?;
        let cpm = br.read_bool()?;
        validate!(!cpm);

        let pbinfo;
        if self.is_pb {
            let trb = br.read(3)?;
            let dbquant = br.read(2)?;
            pbinfo = Some(PBInfo::new(trb as u8, dbquant as u8));
        } else {
            pbinfo = None;
        }
        while br.read_bool()? { // skip PEI
            br.read(8)?;
        }
//println!("frame {}x{} intra: {} q {} pb {} apm {} umv {} @{}", w, h, is_intra, quant, self.is_pb, apm, umv, br.tell());
        self.gob_no = 0;
        self.mb_w = (w + 15) >> 4;

        let ftype = if is_intra { Type::I } else { Type::P };
        let plusinfo = if deblock { Some(PlusInfo::new(false, deblock, false, false)) } else { None };
        let mvmode = if umv { MVMode::UMV } else { MVMode::Old };
        let picinfo = PicInfo::new(w, h, ftype, mvmode, umv, apm, quant as u8, tr, pbinfo, plusinfo);
        Ok(picinfo)
    }

    #[allow(unused_variables)]
    fn decode_slice_header(&mut self, info: &PicInfo) -> DecoderResult<SliceInfo> {
        let mut br = &mut self.br;
        let gbsc = br.read(17)?;
        validate!(gbsc == 1);
        let gn = br.read(5)?;
        let gfid = br.read(2)?;
        let gquant = br.read(5)?;
//println!("GOB gn {:X} id {} q {}", gn, gfid, gquant);
        let ret = SliceInfo::new_gob(0, self.gob_no, gquant as u8);
        self.gob_no += 1;
        Ok(ret)
    }

    #[allow(unused_variables)]
    fn decode_block_header(&mut self, info: &PicInfo, slice: &SliceInfo, sstate: &SliceState) -> DecoderResult<BlockInfo> {
        let mut br = &mut self.br;
        let mut q = slice.get_quant();
        match info.get_mode() {
            Type::I => {
                    let mut cbpc = br.read_cb(&self.tables.intra_mcbpc_cb)?;
                    while cbpc == 8 { cbpc = br.read_cb(&self.tables.intra_mcbpc_cb)?; }
                    let cbpy = br.read_cb(&self.tables.cbpy_cb)?;
                    let cbp = (cbpy << 2) | (cbpc & 3);
                    let dquant = (cbpc & 4) != 0;
                    if dquant {
                        let idx = br.read(2)? as usize;
                        q = ((q as i16) + (H263_DQUANT_TAB[idx] as i16)) as u8;
                    }
                    Ok(BlockInfo::new(Type::I, cbp, q))
                },
            Type::P => {
                    if br.read_bool()? { return Ok(BlockInfo::new(Type::Skip, 0, info.get_quant())); }
                    let mut cbpc = br.read_cb(&self.tables.inter_mcbpc_cb)?;
                    while cbpc == 20 { cbpc = br.read_cb(&self.tables.inter_mcbpc_cb)?; }
                    let is_intra = (cbpc & 0x04) != 0;
                    let dquant   = (cbpc & 0x08) != 0;
                    let is_4x4   = (cbpc & 0x10) != 0;
                    if is_intra {
                        let mut mvec: Vec<MV> = Vec::new();
                        let bbinfo = decode_b_info(br, self.is_pb, true)?;
                        let cbpy = br.read_cb(&self.tables.cbpy_cb)?;
                        let cbp = (cbpy << 2) | (cbpc & 3);
                        if dquant {
                            let idx = br.read(2)? as usize;
                            q = ((q as i16) + (H263_DQUANT_TAB[idx] as i16)) as u8;
                        }
                        let mut binfo = BlockInfo::new(Type::I, cbp, q);
                        binfo.set_bpart(bbinfo);
                        if self.is_pb {
                            for _ in 0..bbinfo.get_num_mv() {
                                mvec.push(decode_mv(br, &self.tables.mv_cb)?);
                            }
                            binfo.set_b_mv(mvec.as_slice());
                        }
                        return Ok(binfo);
                    }

                    let bbinfo = decode_b_info(br, self.is_pb, false)?;
                    let mut cbpy = br.read_cb(&self.tables.cbpy_cb)?;
//                    if /* !aiv && */(cbpc & 3) != 3 {
                        cbpy ^= 0xF;
//                    }
                    let cbp = (cbpy << 2) | (cbpc & 3);
                    if dquant {
                        let idx = br.read(2)? as usize;
                        q = ((q as i16) + (H263_DQUANT_TAB[idx] as i16)) as u8;
                    }
                    let mut binfo = BlockInfo::new(Type::P, cbp, q);
                    binfo.set_bpart(bbinfo);
                    if !is_4x4 {
                        let mvec: [MV; 1] = [decode_mv(br, &self.tables.mv_cb)?];
                        binfo.set_mv(&mvec);
                    } else {
                        let mvec: [MV; 4] = [
                                decode_mv(br, &self.tables.mv_cb)?,
                                decode_mv(br, &self.tables.mv_cb)?,
                                decode_mv(br, &self.tables.mv_cb)?,
                                decode_mv(br, &self.tables.mv_cb)?
                            ];
                        binfo.set_mv(&mvec);
                    }
                    if self.is_pb {
                        let mut mvec: Vec<MV> = Vec::with_capacity(bbinfo.get_num_mv());
                        for _ in 0..bbinfo.get_num_mv() {
                            let mv = decode_mv(br, &self.tables.mv_cb)?;
                            mvec.push(mv);
                        }
                        binfo.set_b_mv(mvec.as_slice());
                    }
                    Ok(binfo)
                },
            _ => { Err(DecoderError::InvalidData) },
        }
    }

    #[allow(unused_variables)]
    fn decode_block_intra(&mut self, info: &BlockInfo, sstate: &SliceState, quant: u8, no: usize, coded: bool, blk: &mut [i16; 64]) -> DecoderResult<()> {
        self.decode_block(quant, true, coded, blk)
    }

    #[allow(unused_variables)]
    fn decode_block_inter(&mut self, info: &BlockInfo, sstate: &SliceState, quant: u8, no: usize, coded: bool, blk: &mut [i16; 64]) -> DecoderResult<()> {
        self.decode_block(quant, false, coded, blk)
    }

    fn is_slice_end(&mut self) -> bool { self.br.peek(16) == 0 }
}

impl Intel263Decoder {
    fn new() -> Self {
        let mut coderead = H263ShortCodeReader::new(H263_INTRA_MCBPC);
        let intra_mcbpc_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
        let mut coderead = H263ShortCodeReader::new(H263_INTER_MCBPC);
        let inter_mcbpc_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
        let mut coderead = H263ShortCodeReader::new(H263_CBPY);
        let cbpy_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
        let mut coderead = H263RLCodeReader::new(H263_RL_CODES);
        let rl_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
        let mut coderead = H263RLCodeReader::new(H263_RL_CODES_AIC);
        let aic_rl_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
        let mut coderead = H263ShortCodeReader::new(H263_MV);
        let mv_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
        let tables = Tables {
            intra_mcbpc_cb: intra_mcbpc_cb,
            inter_mcbpc_cb: inter_mcbpc_cb,
            cbpy_cb:        cbpy_cb,
            rl_cb:          rl_cb,
            aic_rl_cb:      aic_rl_cb,
            mv_cb:          mv_cb,
        };

        Intel263Decoder{
            info:           Rc::new(DUMMY_CODEC_INFO),
            dec:            H263BaseDecoder::new(true),
            tables:         tables,
            bdsp:           H263BlockDSP::new(),
        }
    }
}

impl NADecoder for Intel263Decoder {
    fn init(&mut self, info: Rc<NACodecInfo>) -> DecoderResult<()> {
        if let NACodecTypeInfo::Video(vinfo) = info.get_properties() {
            let w = vinfo.get_width();
            let h = vinfo.get_height();
            let fmt = formats::YUV420_FORMAT;
            let myinfo = NACodecTypeInfo::Video(NAVideoInfo::new(w, h, false, fmt));
            self.info = Rc::new(NACodecInfo::new_ref(info.get_name(), myinfo, info.get_extradata()));
            Ok(())
        } else {
            Err(DecoderError::InvalidData)
        }
    }
    fn decode(&mut self, pkt: &NAPacket) -> DecoderResult<NAFrameRef> {
        let src = pkt.get_buffer();

        if src.len() == 8 {
            let bret = self.dec.get_bframe(&self.bdsp);
            let buftype;
            let is_skip;
            if let Ok(btype) = bret {
                buftype = btype;
                is_skip = false;
            } else {
                buftype = NABufferType::None;
                is_skip = true;
            }
            let mut frm = NAFrame::new_from_pkt(pkt, self.info.clone(), buftype);
            frm.set_keyframe(false);
            frm.set_frame_type(if is_skip { FrameType::Skip } else { FrameType::B });
            return Ok(Rc::new(RefCell::new(frm)));
        }
        let mut ibr = Intel263BR::new(&src, &self.tables);

        let bufinfo = self.dec.parse_frame(&mut ibr, &self.bdsp)?;

        let mut frm = NAFrame::new_from_pkt(pkt, self.info.clone(), bufinfo);
        frm.set_keyframe(self.dec.is_intra());
        frm.set_frame_type(if self.dec.is_intra() { FrameType::I } else { FrameType::P });
        Ok(Rc::new(RefCell::new(frm)))
    }
}


pub fn get_decoder() -> Box<NADecoder> {
    Box::new(Intel263Decoder::new())
}

#[cfg(test)]
mod test {
    use test::dec_video::test_file_decoding;
    #[test]
    fn test_intel263() {
         test_file_decoding("avi", "assets/neal73_saber.avi", Some(16), true, false, None/*Some("i263")*/);
    }
}
Commit	Line	Data
cf64af13 KS	1	use io::bitreader::*;
	2	use io::codebook::*;
	3	use formats;
88c58b1b	4	use super::super::*;
cf64af13	5	use super::*;
88c58b1b KS	6	use super::decoder::*;
88c58b1b KS	7	use super::data::*;
2a2aa421	8	use super::code::H263BlockDSP;
cf64af13 KS	9
	10	#[allow(dead_code)]
	11	struct Tables {
	12	intra_mcbpc_cb: Codebook<u8>,
	13	inter_mcbpc_cb: Codebook<u8>,
	14	cbpy_cb: Codebook<u8>,
	15	rl_cb: Codebook<H263RLSym>,
	16	aic_rl_cb: Codebook<H263RLSym>,
	17	mv_cb: Codebook<u8>,
	18	}
	19
	20	struct Intel263Decoder {
	21	info: Rc<NACodecInfo>,
88c58b1b	22	dec: H263BaseDecoder,
cf64af13	23	tables: Tables,
2a2aa421	24	bdsp: H263BlockDSP,
cf64af13 KS	25	}
	26
	27	struct Intel263BR<'a> {
	28	br: BitReader<'a>,
	29	tables: &'a Tables,
	30	gob_no: usize,
	31	mb_w: usize,
	32	is_pb: bool,
	33	}
	34
	35	fn check_marker<'a>(br: &mut BitReader<'a>) -> DecoderResult<()> {
	36	let mark = br.read(1)?;
	37	validate!(mark == 1);
	38	Ok(())
	39	}
	40
	41	impl<'a> Intel263BR<'a> {
	42	fn new(src: &'a [u8], tables: &'a Tables) -> Self {
	43	Intel263BR {
	44	br: BitReader::new(src, src.len(), BitReaderMode::BE),
	45	tables: tables,
	46	gob_no: 0,
	47	mb_w: 0,
	48	is_pb: false,
	49	}
	50	}
	51
	52	fn decode_block(&mut self, quant: u8, intra: bool, coded: bool, blk: &mut [i16; 64]) -> DecoderResult<()> {
	53	let mut br = &mut self.br;
	54	let mut idx = 0;
	55	if intra {
	56	let mut dc = br.read(8)?;
	57	if dc == 255 { dc = 128; }
	58	blk[0] = (dc as i16) << 3;
	59	idx = 1;
	60	}
	61	if !coded { return Ok(()); }
	62
	63	let rl_cb = &self.tables.rl_cb; // could be aic too
	64	let q_add = if quant == 0 { 0i16 } else { ((quant - 1) \| 1) as i16 };
	65	let q = (quant * 2) as i16;
	66	while idx < 64 {
	67	let code = br.read_cb(rl_cb)?;
	68	let run;
	69	let mut level;
	70	let last;
	71	if !code.is_escape() {
	72	run = code.get_run();
	73	level = code.get_level();
	74	last = code.is_last();
	75	if br.read_bool()? { level = -level; }
	76	level = (level * q) + q_add;
	77	} else {
	78	last = br.read_bool()?;
	79	run = br.read(6)? as u8;
	80	level = br.read_s(8)? as i16;
	81	if level == -128 {
	82	let low = br.read(5)? as i16;
	83	let top = br.read_s(6)? as i16;
	84	level = (top << 5) \| low;
	85	}
	86	level = (level * q) + q_add;
	87	if level < -2048 { level = -2048; }
	88	if level > 2047 { level = 2047; }
89	}
90	idx += run;
91	validate!(idx < 64);
92	let oidx = H263_ZIGZAG[idx as usize];
93	blk[oidx] = level;
94	idx += 1;
95	if last { break; }
96	}
97	Ok(())
98	}
99	}
100
101	fn decode_mv_component(br: &mut BitReader, mv_cb: &Codebook<u8>) -> DecoderResult<i16> {
102	let code = br.read_cb(mv_cb)? as i16;
103	if code == 0 { return Ok(0) }
104	if !br.read_bool()? {
105	Ok(code)
106	} else {
107	Ok(-code)
108	}
109	}
110
111	fn decode_mv(br: &mut BitReader, mv_cb: &Codebook<u8>) -> DecoderResult<MV> {
112	let xval = decode_mv_component(br, mv_cb)?;
113	let yval = decode_mv_component(br, mv_cb)?;
114	Ok(MV::new(xval, yval))
115	}
116
21c16d5f KS	117	fn decode_b_info(br: &mut BitReader, is_pb: bool, is_intra: bool) -> DecoderResult<BBlockInfo> {
	118	if is_pb { // as improved pb
	119	let pb_mv_add = if is_intra { 1 } else { 0 };
	120	if br.read_bool()?{
	121	if br.read_bool()? {
	122	let pb_mv_count = 1 - (br.read(1)? as usize);
	123	let cbpb = br.read(6)? as u8;
	124	Ok(BBlockInfo::new(true, cbpb, pb_mv_count + pb_mv_add, pb_mv_count == 1))
	125	} else {
	126	Ok(BBlockInfo::new(true, 0, 1 + pb_mv_add, true))
	127	}
	128	} else {
	129	Ok(BBlockInfo::new(true, 0, pb_mv_add, false))
	130	}
	131	} else {
	132	Ok(BBlockInfo::new(false, 0, 0, false))
	133	}
	134	}
	135
cf64af13 KS	136	impl<'a> BlockDecoder for Intel263BR<'a> {
	137
	138	#[allow(unused_variables)]
	139	fn decode_pichdr(&mut self) -> DecoderResult<PicInfo> {
	140	let mut br = &mut self.br;
	141	let syncw = br.read(22)?;
	142	validate!(syncw == 0x000020);
32007ad9	143	let tr = (br.read(8)? << 8) as u16;
cf64af13 KS	144	check_marker(br)?;
	145	let id = br.read(1)?;
	146	validate!(id == 0);
	147	br.read(1)?; // split screen indicator
	148	br.read(1)?; // document camera indicator
	149	br.read(1)?; // freeze picture release
	150	let mut sfmt = br.read(3)?;
	151	validate!((sfmt != 0b000) && (sfmt != 0b110));
	152	let is_intra = !br.read_bool()?;
	153	let umv = br.read_bool()?;
	154	br.read(1)?; // syntax arithmetic coding
	155	let apm = br.read_bool()?;
	156	self.is_pb = br.read_bool()?;
f2f1afb2	157	let deblock;
cf64af13 KS	158	if sfmt == 0b111 {
	159	sfmt = br.read(3)?;
	160	validate!((sfmt != 0b000) && (sfmt != 0b111));
	161	br.read(2)?; // unknown flags
f2f1afb2	162	deblock = br.read_bool()?;
cf64af13 KS	163	br.read(1)?; // unknown flag
	164	let pbplus = br.read_bool()?;
	165	br.read(5)?; // unknown flags
	166	let marker = br.read(5)?;
	167	validate!(marker == 1);
f2f1afb2 KS	168	} else {
f2f1afb2 KS	169	deblock = false;
cf64af13 KS	170	}
	171	let w; let h;
	172	if sfmt == 0b110 {
	173	let par = br.read(4)?;
	174	w = ((br.read(9)? + 1) * 4) as usize;
	175	check_marker(br)?;
	176	h = ((br.read(9)? + 1) * 4) as usize;
	177	if par == 0b1111 {
	178	let pixw = br.read(8)?;
	179	let pixh = br.read(8)?;
	180	validate!((pixw != 0) && (pixh != 0));
	181	}
	182	} else {
	183	let (w_, h_) = H263_SIZES[sfmt as usize];
	184	w = w_;
	185	h = h_;
	186	}
	187	let quant = br.read(5)?;
	188	let cpm = br.read_bool()?;
	189	validate!(!cpm);
21c16d5f KS	190
21c16d5f KS	191	let pbinfo;
cf64af13 KS	192	if self.is_pb {
	193	let trb = br.read(3)?;
	194	let dbquant = br.read(2)?;
21c16d5f KS	195	pbinfo = Some(PBInfo::new(trb as u8, dbquant as u8));
	196	} else {
	197	pbinfo = None;
cf64af13 KS	198	}
	199	while br.read_bool()? { // skip PEI
	200	br.read(8)?;
	201	}
21c16d5f	202	//println!("frame {}x{} intra: {} q {} pb {} apm {} umv {} @{}", w, h, is_intra, quant, self.is_pb, apm, umv, br.tell());
cf64af13 KS	203	self.gob_no = 0;
	204	self.mb_w = (w + 15) >> 4;
	205
	206	let ftype = if is_intra { Type::I } else { Type::P };
2a2aa421	207	let plusinfo = if deblock { Some(PlusInfo::new(false, deblock, false, false)) } else { None };
32007ad9 KS	208	let mvmode = if umv { MVMode::UMV } else { MVMode::Old };
32007ad9 KS	209	let picinfo = PicInfo::new(w, h, ftype, mvmode, umv, apm, quant as u8, tr, pbinfo, plusinfo);
cf64af13 KS	210	Ok(picinfo)
	211	}
	212
	213	#[allow(unused_variables)]
2a2aa421	214	fn decode_slice_header(&mut self, info: &PicInfo) -> DecoderResult<SliceInfo> {
cf64af13 KS	215	let mut br = &mut self.br;
cf64af13 KS	216	let gbsc = br.read(17)?;
cf64af13 KS	217	validate!(gbsc == 1);
	218	let gn = br.read(5)?;
	219	let gfid = br.read(2)?;
	220	let gquant = br.read(5)?;
21c16d5f	221	//println!("GOB gn {:X} id {} q {}", gn, gfid, gquant);
2a2aa421	222	let ret = SliceInfo::new_gob(0, self.gob_no, gquant as u8);
cf64af13 KS	223	self.gob_no += 1;
	224	Ok(ret)
	225	}
	226
2a2aa421 KS	227	#[allow(unused_variables)]
2a2aa421 KS	228	fn decode_block_header(&mut self, info: &PicInfo, slice: &SliceInfo, sstate: &SliceState) -> DecoderResult<BlockInfo> {
cf64af13 KS	229	let mut br = &mut self.br;
	230	let mut q = slice.get_quant();
	231	match info.get_mode() {
	232	Type::I => {
	233	let mut cbpc = br.read_cb(&self.tables.intra_mcbpc_cb)?;
	234	while cbpc == 8 { cbpc = br.read_cb(&self.tables.intra_mcbpc_cb)?; }
	235	let cbpy = br.read_cb(&self.tables.cbpy_cb)?;
	236	let cbp = (cbpy << 2) \| (cbpc & 3);
	237	let dquant = (cbpc & 4) != 0;
	238	if dquant {
	239	let idx = br.read(2)? as usize;
	240	q = ((q as i16) + (H263_DQUANT_TAB[idx] as i16)) as u8;
	241	}
cf64af13 KS	242	Ok(BlockInfo::new(Type::I, cbp, q))
	243	},
	244	Type::P => {
cf64af13 KS	245	if br.read_bool()? { return Ok(BlockInfo::new(Type::Skip, 0, info.get_quant())); }
	246	let mut cbpc = br.read_cb(&self.tables.inter_mcbpc_cb)?;
	247	while cbpc == 20 { cbpc = br.read_cb(&self.tables.inter_mcbpc_cb)?; }
	248	let is_intra = (cbpc & 0x04) != 0;
	249	let dquant = (cbpc & 0x08) != 0;
	250	let is_4x4 = (cbpc & 0x10) != 0;
	251	if is_intra {
	252	let mut mvec: Vec<MV> = Vec::new();
21c16d5f	253	let bbinfo = decode_b_info(br, self.is_pb, true)?;
cf64af13 KS	254	let cbpy = br.read_cb(&self.tables.cbpy_cb)?;
	255	let cbp = (cbpy << 2) \| (cbpc & 3);
	256	if dquant {
	257	let idx = br.read(2)? as usize;
	258	q = ((q as i16) + (H263_DQUANT_TAB[idx] as i16)) as u8;
	259	}
	260	let mut binfo = BlockInfo::new(Type::I, cbp, q);
21c16d5f	261	binfo.set_bpart(bbinfo);
cf64af13	262	if self.is_pb {
21c16d5f	263	for _ in 0..bbinfo.get_num_mv() {
cf64af13 KS	264	mvec.push(decode_mv(br, &self.tables.mv_cb)?);
cf64af13 KS	265	}
21c16d5f	266	binfo.set_b_mv(mvec.as_slice());
cf64af13	267	}
cf64af13 KS	268	return Ok(binfo);
	269	}
	270
21c16d5f	271	let bbinfo = decode_b_info(br, self.is_pb, false)?;
cf64af13 KS	272	let mut cbpy = br.read_cb(&self.tables.cbpy_cb)?;
	273	// if /* !aiv && */(cbpc & 3) != 3 {
	274	cbpy ^= 0xF;
	275	// }
	276	let cbp = (cbpy << 2) \| (cbpc & 3);
	277	if dquant {
	278	let idx = br.read(2)? as usize;
	279	q = ((q as i16) + (H263_DQUANT_TAB[idx] as i16)) as u8;
	280	}
	281	let mut binfo = BlockInfo::new(Type::P, cbp, q);
21c16d5f	282	binfo.set_bpart(bbinfo);
cf64af13 KS	283	if !is_4x4 {
cf64af13 KS	284	let mvec: [MV; 1] = [decode_mv(br, &self.tables.mv_cb)?];
cf64af13 KS	285	binfo.set_mv(&mvec);
	286	} else {
	287	let mvec: [MV; 4] = [
	288	decode_mv(br, &self.tables.mv_cb)?,
	289	decode_mv(br, &self.tables.mv_cb)?,
	290	decode_mv(br, &self.tables.mv_cb)?,
	291	decode_mv(br, &self.tables.mv_cb)?
	292	];
	293	binfo.set_mv(&mvec);
	294	}
	295	if self.is_pb {
21c16d5f KS	296	let mut mvec: Vec<MV> = Vec::with_capacity(bbinfo.get_num_mv());
21c16d5f KS	297	for _ in 0..bbinfo.get_num_mv() {
cf64af13 KS	298	let mv = decode_mv(br, &self.tables.mv_cb)?;
	299	mvec.push(mv);
	300	}
21c16d5f	301	binfo.set_b_mv(mvec.as_slice());
cf64af13	302	}
cf64af13 KS	303	Ok(binfo)
	304	},
	305	_ => { Err(DecoderError::InvalidData) },
	306	}
	307	}
	308
	309	#[allow(unused_variables)]
2a2aa421	310	fn decode_block_intra(&mut self, info: &BlockInfo, sstate: &SliceState, quant: u8, no: usize, coded: bool, blk: &mut [i16; 64]) -> DecoderResult<()> {
21c16d5f	311	self.decode_block(quant, true, coded, blk)
cf64af13 KS	312	}
	313
	314	#[allow(unused_variables)]
2a2aa421	315	fn decode_block_inter(&mut self, info: &BlockInfo, sstate: &SliceState, quant: u8, no: usize, coded: bool, blk: &mut [i16; 64]) -> DecoderResult<()> {
21c16d5f	316	self.decode_block(quant, false, coded, blk)
cf64af13 KS	317	}
cf64af13 KS	318
cf64af13 KS	319	fn is_slice_end(&mut self) -> bool { self.br.peek(16) == 0 }
	320	}
	321
	322	impl Intel263Decoder {
	323	fn new() -> Self {
	324	let mut coderead = H263ShortCodeReader::new(H263_INTRA_MCBPC);
	325	let intra_mcbpc_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
	326	let mut coderead = H263ShortCodeReader::new(H263_INTER_MCBPC);
	327	let inter_mcbpc_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
	328	let mut coderead = H263ShortCodeReader::new(H263_CBPY);
	329	let cbpy_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
	330	let mut coderead = H263RLCodeReader::new(H263_RL_CODES);
	331	let rl_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
	332	let mut coderead = H263RLCodeReader::new(H263_RL_CODES_AIC);
	333	let aic_rl_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
	334	let mut coderead = H263ShortCodeReader::new(H263_MV);
	335	let mv_cb = Codebook::new(&mut coderead, CodebookMode::MSB).unwrap();
	336	let tables = Tables {
	337	intra_mcbpc_cb: intra_mcbpc_cb,
	338	inter_mcbpc_cb: inter_mcbpc_cb,
	339	cbpy_cb: cbpy_cb,
	340	rl_cb: rl_cb,
	341	aic_rl_cb: aic_rl_cb,
	342	mv_cb: mv_cb,
	343	};
	344
	345	Intel263Decoder{
	346	info: Rc::new(DUMMY_CODEC_INFO),
42a59352	347	dec: H263BaseDecoder::new(true),
cf64af13	348	tables: tables,
2a2aa421	349	bdsp: H263BlockDSP::new(),
cf64af13 KS	350	}
	351	}
	352	}
	353
	354	impl NADecoder for Intel263Decoder {
	355	fn init(&mut self, info: Rc<NACodecInfo>) -> DecoderResult<()> {
	356	if let NACodecTypeInfo::Video(vinfo) = info.get_properties() {
	357	let w = vinfo.get_width();
	358	let h = vinfo.get_height();
	359	let fmt = formats::YUV420_FORMAT;
	360	let myinfo = NACodecTypeInfo::Video(NAVideoInfo::new(w, h, false, fmt));
	361	self.info = Rc::new(NACodecInfo::new_ref(info.get_name(), myinfo, info.get_extradata()));
	362	Ok(())
	363	} else {
	364	Err(DecoderError::InvalidData)
	365	}
	366	}
	367	fn decode(&mut self, pkt: &NAPacket) -> DecoderResult<NAFrameRef> {
	368	let src = pkt.get_buffer();
	369
	370	if src.len() == 8 {
2a2aa421	371	let bret = self.dec.get_bframe(&self.bdsp);
cf64af13 KS	372	let buftype;
	373	let is_skip;
	374	if let Ok(btype) = bret {
	375	buftype = btype;
	376	is_skip = false;
	377	} else {
	378	buftype = NABufferType::None;
	379	is_skip = true;
	380	}
	381	let mut frm = NAFrame::new_from_pkt(pkt, self.info.clone(), buftype);
	382	frm.set_keyframe(false);
21c16d5f	383	frm.set_frame_type(if is_skip { FrameType::Skip } else { FrameType::B });
cf64af13 KS	384	return Ok(Rc::new(RefCell::new(frm)));
cf64af13 KS	385	}
cf64af13 KS	386	let mut ibr = Intel263BR::new(&src, &self.tables);
cf64af13 KS	387
2a2aa421	388	let bufinfo = self.dec.parse_frame(&mut ibr, &self.bdsp)?;
cf64af13 KS	389
	390	let mut frm = NAFrame::new_from_pkt(pkt, self.info.clone(), bufinfo);
	391	frm.set_keyframe(self.dec.is_intra());
	392	frm.set_frame_type(if self.dec.is_intra() { FrameType::I } else { FrameType::P });
	393	Ok(Rc::new(RefCell::new(frm)))
	394	}
	395	}
	396
	397
	398	pub fn get_decoder() -> Box<NADecoder> {
	399	Box::new(Intel263Decoder::new())
	400	}
	401
	402	#[cfg(test)]
	403	mod test {
379fd781	404	use test::dec_video::test_file_decoding;
cf64af13 KS	405	#[test]
cf64af13 KS	406	fn test_intel263() {
c1864d11	407	test_file_decoding("avi", "assets/neal73_saber.avi", Some(16), true, false, None/Some("i263")/);
cf64af13 KS	408	}
cf64af13 KS	409	}