[nihav.git] / nihav-indeo / src / codecs / indeo3enc / mod.rs

use nihav_core::codecs::*;
use nihav_core::io::byteio::*;

mod cell;
use cell::*;
mod mv;
use mv::*;
mod ratectl;
use ratectl::*;
mod tree;
pub use tree::{Indeo3Cell, Plane};
use tree::Indeo3PrimaryTree;

const OS_HEADER_SIZE: usize = 16;
const BITSTREAM_HEADER_SIZE: usize = 48;
const HDR_FIELD_2: u32 = 0;
const FRMH_TAG: u32 = ((b'F' as u32) << 24) | ((b'R' as u32) << 16)
                     | ((b'M' as u32) << 8) | (b'H' as u32);
const PLANE_OFFSETS: usize = 32;

const CB_SELECTORS: [u8; 16] = [
    0x02, 0x14, 0x26, 0x38, 0x4A, 0x5C, 0x6E, 0x7F,
    0x82, 0x94, 0xA6, 0xB8, 0xCA, 0xDC, 0xEE, 0xFF
];

const PLANE_ORDER: [usize; 3] = [1, 2, 0];

pub struct Indeo3Writer<'a> {
    dst:    &'a mut Vec<u8>,
    bitbuf: u8,
    bits:   u8,
    bitpos: Option<usize>,
}

impl<'a> Indeo3Writer<'a> {
    fn new(dst: &'a mut Vec<u8>) -> Self {
        Self {
            dst,
            bitbuf: 0,
            bits:   0,
            bitpos: None,
        }
    }
    pub fn put_byte(&mut self, b: u8) {
        self.dst.push(b);
    }
    pub fn put_2bits(&mut self, val: u8) {
        if self.bits == 0 {
            self.bitpos = Some(self.dst.len());
            self.dst.push(0);
        }
        self.bitbuf |= val << (6 - self.bits);
        self.bits += 2;
        if self.bits == 8 {
            let bpos = self.bitpos.unwrap_or(0);
            self.dst[bpos] = self.bitbuf;
            self.bitbuf = 0;
            self.bits   = 0;
            self.bitpos = None;
        }
    }
}

impl<'a> Drop for Indeo3Writer<'a> {
    fn drop(&mut self) {
        if self.bits != 0 {
            let bpos = self.bitpos.unwrap_or(0);
            self.dst[bpos] = self.bitbuf;
        }
    }
}

#[derive(Default)]
struct Indeo3Frame {
    plane:  [Plane; 3],
}

impl Indeo3Frame {
    fn new() -> Self { Self::default() }
    fn alloc(&mut self, width: usize, height: usize) {
        self.plane[0].alloc(width,     height,     40);
        self.plane[1].alloc(width / 4, height / 4, 10);
        self.plane[2].alloc(width / 4, height / 4, 10);
    }
    fn fill(&mut self, vbuf: &NAVideoBufferRef<u8>) {
        let data = vbuf.get_data();
        for (plane_no, plane) in self.plane.iter_mut().enumerate() {
            plane.fill(&data[vbuf.get_offset(plane_no)..], vbuf.get_stride(plane_no));
        }
    }
    fn clear_mvs(&mut self) {
        for plane in self.plane.iter_mut() {
            plane.clear_mvs();
        }
    }
}

struct Indeo3Encoder {
    stream:     Option<NAStreamRef>,
    pkt:        Option<NAPacket>,
    cframe:     Indeo3Frame,
    pframe:     Indeo3Frame,
    cenc:       CellEncoder,
    mv_est:     MotionEstimator,
    rc:         RateControl,
    frameno:    u32,
    buf_sel:    bool,
    width:      usize,
    height:     usize,

    debug_tree: bool,
    debug_frm:  bool,
    try_again:  bool,
}

impl Indeo3Encoder {
    fn new() -> Self {
        Self {
            stream:     None,
            pkt:        None,
            cframe:     Indeo3Frame::new(),
            pframe:     Indeo3Frame::new(),
            cenc:       CellEncoder::new(),
            mv_est:     MotionEstimator::new(),
            rc:         RateControl::new(),
            frameno:    0,
            buf_sel:    false,
            width:      0,
            height:     0,

            debug_tree: false,
            debug_frm:  false,
            try_again:  false,
        }
    }
    fn encode_planes(&mut self, dbuf: &mut Vec<u8>, trees: &[Box<Indeo3PrimaryTree>], is_intra: bool) -> EncoderResult<()> {
        for (&planeno, tree) in PLANE_ORDER.iter().zip(trees.iter()) {
            let offset = dbuf.len();
            let ref_plane = &self.pframe.plane[planeno];

            let mut mc_count = [0; 4];
            let mvs = &self.cframe.plane[planeno].mvs;
            write_u32le(&mut mc_count, mvs.len() as u32)?;
            dbuf.extend_from_slice(&mc_count);
            for &(mv, _) in mvs.iter() {
                dbuf.push(mv.y as u8);
                dbuf.push(mv.x as u8);
            }

            let mut iw = Indeo3Writer::new(dbuf);
            self.cframe.plane[planeno].encode_tree(&mut iw, &tree, &mut self.cenc, is_intra, ref_plane);
            drop(iw);
            while (dbuf.len() & 3) != 0 {
                dbuf.push(0);
            }

            let plane_off = PLANE_OFFSETS + 4 * if planeno > 0 { planeno ^ 3 } else { 0 };
            write_u32le(&mut dbuf[plane_off..], (offset - OS_HEADER_SIZE) as u32)?;
        }

        let mut checksum = 0;
        for plane in self.cframe.plane.iter() {
            checksum ^= plane.checksum();
        }
        write_u16le(&mut dbuf[26..], checksum * 2)?;

        let size = (dbuf.len() - OS_HEADER_SIZE) as u32;
        write_u32le(&mut dbuf[8..], self.frameno ^ HDR_FIELD_2 ^ FRMH_TAG ^ size)?;
        write_u32le(&mut dbuf[12..], size)?;
        write_u32le(&mut dbuf[20..], size * 8)?;

        if is_intra {
            dbuf.extend_from_slice(b"\x0d\x0aVer 3.99.00.00\x0d\x0a\x00");
            while (dbuf.len() & 3) != 0 {
                dbuf.push(0);
            }
        }

        Ok(())
    }
}

impl NAEncoder for Indeo3Encoder {
    fn negotiate_format(&self, encinfo: &EncodeParameters) -> EncoderResult<EncodeParameters> {
        match encinfo.format {
            NACodecTypeInfo::None => {
                Ok(EncodeParameters {
                        format: NACodecTypeInfo::Video(NAVideoInfo::new(0, 0, true, YUV410_FORMAT)),
                        ..Default::default()
                    })
            },
            NACodecTypeInfo::Audio(_) => Err(EncoderError::FormatError),
            NACodecTypeInfo::Video(vinfo) => {
                let pix_fmt = YUV410_FORMAT;
                let outinfo = NAVideoInfo::new((vinfo.width + 15) & !15, (vinfo.height + 15) & !15, false, pix_fmt);
                let mut ofmt = *encinfo;
                ofmt.format = NACodecTypeInfo::Video(outinfo);
                Ok(ofmt)
            }
        }
    }
    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.format != YUV410_FORMAT {
                    return Err(EncoderError::FormatError);
                }
                if ((vinfo.width | vinfo.height) & 15) != 0 {
                    return Err(EncoderError::FormatError);
                }
                if (vinfo.width > 640) || (vinfo.height > 480) {
                    return Err(EncoderError::FormatError);
                }

                self.width  = vinfo.width;
                self.height = vinfo.height;

                let out_info = NAVideoInfo::new(vinfo.width, vinfo.height, false, vinfo.format);
                let info = NACodecInfo::new("indeo3", 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();

                self.stream = Some(stream.clone());

                self.cframe.alloc(vinfo.width, vinfo.height);
                self.pframe.alloc(vinfo.width, vinfo.height);

                self.rc.set_bitrate(encinfo.bitrate, encinfo.tb_num, encinfo.tb_den);
                self.rc.set_quality(encinfo.quality);

                Ok(stream)
            },
        }
    }
    fn encode(&mut self, frm: &NAFrame) -> EncoderResult<()> {
        let buf = frm.get_buffer();
        if self.debug_tree || self.debug_frm {
            println!("frame {}:", self.frameno);
        }

        let mut skip_frame = frm.get_frame_type() == FrameType::Skip;
        if let NABufferType::None = buf {
            skip_frame = true;
        }
        if skip_frame {
            let mut dbuf = Vec::with_capacity(16);
            let mut gw   = GrowableMemoryWriter::new_write(&mut dbuf);
            let mut bw   = ByteWriter::new(&mut gw);

            // OS header
            bw.write_u32le(self.frameno)?;
            bw.write_u32le(HDR_FIELD_2)?;
            bw.write_u32le(0)?; // check
            bw.write_u32le(0)?; // size

            // bitstream header
            bw.write_u16le(32)?; // version
            bw.write_u16le(0)?;
            bw.write_u32le(0)?; // data size in bits
            bw.write_byte(0)?; // cb offset
            bw.write_byte(14)?; // reserved
            bw.write_u16le(0)?; // checksum
            bw.write_u16le(self.height as u16)?;
            bw.write_u16le(self.width as u16)?;

            let size = (dbuf.len() - OS_HEADER_SIZE) as u32;
            write_u32le(&mut dbuf[8..], self.frameno ^ HDR_FIELD_2 ^ FRMH_TAG ^ size)?;
            write_u32le(&mut dbuf[12..], size)?;
            write_u32le(&mut dbuf[20..], size * 8)?;

            let fsize = dbuf.len() as u32;
            self.rc.advance(fsize);

            self.pkt = Some(NAPacket::new(self.stream.clone().unwrap(), frm.ts, false, dbuf));
            return Ok(());
        }

        if let Some(ref vbuf) = buf.get_vbuf() {
            let mut dbuf = Vec::with_capacity(16);
            let mut gw   = GrowableMemoryWriter::new_write(&mut dbuf);
            let mut bw   = ByteWriter::new(&mut gw);

            let (width, height) = vbuf.get_dimensions(0);
            if width != self.width || height != self.height {
                self.width  = width;
                self.height = height;
                self.cframe.alloc(width, height);
                self.pframe.alloc(width, height);
                self.rc.reset();
            }

            let (is_intra, quant) = self.rc.get_quant(self.frameno);
            self.cenc.quant = quant;

            if is_intra {
                self.buf_sel = false;
            } else {
                self.buf_sel = !self.buf_sel;
            }

            self.cframe.fill(vbuf);
            self.cframe.clear_mvs();

            // OS header
            bw.write_u32le(self.frameno)?;
            bw.write_u32le(HDR_FIELD_2)?;
            bw.write_u32le(0)?; // check
            bw.write_u32le(0)?; // size

            // bitstream header
            bw.write_u16le(32)?; // version
            let mut flags = 0;
            if is_intra {
                flags |= 0x5;
            } else {
                flags |= 1;
                if self.buf_sel {
                    flags |= 1 << 9;
                }
            }
            bw.write_u16le(flags)?;
            bw.write_u32le(0)?; // data size in bits
            bw.write_byte(0)?; // cb offset
            bw.write_byte(14)?; // reserved
            bw.write_u16le(0)?; // checksum
            bw.write_u16le(height as u16)?;
            bw.write_u16le(width as u16)?;
            for _ in 0..3 {
                bw.write_u32le(0)?; // plane data offset
            }
            bw.write_u32le(0)?; // reserved
            bw.write_buf(&CB_SELECTORS)?;

            let mut trees = Vec::with_capacity(PLANE_ORDER.len());

            // 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);
                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);
            }

            self.encode_planes(&mut dbuf, &trees, is_intra)?;

            let cur_quant = self.cenc.quant.unwrap_or(42);
            if !is_intra && cur_quant < 8 {
                let expected_size = self.rc.get_expected_size();
                if expected_size > 0 {
                    let cur_size = dbuf.len() as u32;
                    // try re-encoding frame if possible
                    if cur_size > expected_size * 3 / 2 {
                        self.cframe.fill(vbuf);
                        let new_quant = if cur_quant < 7 {
                                cur_quant + 1
                            } else {
                                cur_quant - 1
                            };
                        self.cenc.quant = Some(new_quant);
                        dbuf.truncate(OS_HEADER_SIZE + BITSTREAM_HEADER_SIZE);
                        self.encode_planes(&mut dbuf, &trees, is_intra)?;
                    }
                }
            }

            if self.debug_frm {
                for plane in self.cframe.plane.iter() {
                    for (y, line) in plane.data.chunks(plane.width).enumerate() {
                        print!(" {:3}:", y);
                        for &el in line.iter() { print!(" {:02X}", el); }
                        println!();
                    }
                    println!();
                }
            }

            std::mem::swap(&mut self.cframe, &mut self.pframe);
            self.frameno += 1;

            let fsize = dbuf.len() as u32;
            self.rc.advance(fsize);

            self.pkt = Some(NAPacket::new(self.stream.clone().unwrap(), frm.ts, is_intra, dbuf));
            Ok(())
        } else {
            Err(EncoderError::InvalidParameters)
        }
    }
    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 DEBUG_TREE_OPTION: &str = "debug_tree";
const DEBUG_FRAME_OPTION: &str = "debug_frame";
const MV_RANGE_OPTION: &str = "mv_range";
const MV_FLAT_OPTION: &str = "mv_flat_threshold";
const MV_THRESHOLD_OPTION: &str = "mv_threshold";
const CELL_I_THRESHOLD_OPTION: &str = "cell_i_threshold";
const CELL_P_THRESHOLD_OPTION: &str = "cell_p_threshold";
const DO_RLE_OPTION: &str = "rle";
const TRY_AGAIN_OPTION: &str = "try_recompress";

const ENCODER_OPTS: &[NAOptionDefinition] = &[
    NAOptionDefinition {
        name: KEYFRAME_OPTION, description: KEYFRAME_OPTION_DESC,
        opt_type: NAOptionDefinitionType::Int(Some(0), Some(128)) },
    NAOptionDefinition {
        name: DEBUG_TREE_OPTION, description: "Print frame trees",
        opt_type: NAOptionDefinitionType::Bool },
    NAOptionDefinition {
        name: DEBUG_FRAME_OPTION, description: "Print encoder-reconstructed frames",
        opt_type: NAOptionDefinitionType::Bool },
    NAOptionDefinition {
        name: MV_RANGE_OPTION, description: "Motion search range",
        opt_type: NAOptionDefinitionType::Int(Some(0), Some(120)) },
    NAOptionDefinition {
        name: MV_FLAT_OPTION, description: "Threshold for coding cell as skipped one",
        opt_type: NAOptionDefinitionType::Int(Some(0), Some(1000)) },
    NAOptionDefinition {
        name: MV_THRESHOLD_OPTION, description: "Threshold for coding cell as inter",
        opt_type: NAOptionDefinitionType::Int(Some(0), Some(1000)) },
    NAOptionDefinition {
        name: CELL_I_THRESHOLD_OPTION, description: "Threshold for coding intra block as flat",
        opt_type: NAOptionDefinitionType::Int(Some(0), Some(128)) },
    NAOptionDefinition {
        name: CELL_P_THRESHOLD_OPTION, description: "Threshold for coding inter cell in coarser mode",
        opt_type: NAOptionDefinitionType::Int(Some(0), Some(128)) },
    NAOptionDefinition {
        name: DO_RLE_OPTION, description: "Perform zero run length compation",
        opt_type: NAOptionDefinitionType::Bool },
    NAOptionDefinition {
        name: TRY_AGAIN_OPTION, description: "Try compressing the frame again for the better bitrate fit",
        opt_type: NAOptionDefinitionType::Bool },
];

impl NAOptionHandler for Indeo3Encoder {
    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 {
                        KEYFRAME_OPTION => {
                            if let NAValue::Int(val) = option.value {
                                self.rc.set_key_int(val as u32);
                            }
                        },
                        DEBUG_TREE_OPTION => {
                            if let NAValue::Bool(val) = option.value {
                                self.debug_tree = val;
                            }
                        },
                        DEBUG_FRAME_OPTION => {
                            if let NAValue::Bool(val) = option.value {
                                self.debug_frm = val;
                            }
                        },
                        MV_RANGE_OPTION => {
                            if let NAValue::Int(val) = option.value {
                                self.mv_est.mv_range = val as i8;
                            }
                        },
                        MV_FLAT_OPTION => {
                            if let NAValue::Int(val) = option.value {
                                self.mv_est.flat_thr = val as u16;
                            }
                        },
                        MV_THRESHOLD_OPTION => {
                            if let NAValue::Int(val) = option.value {
                                self.mv_est.mv_thr = val as u16;
                            }
                        },
                        CELL_I_THRESHOLD_OPTION => {
                            if let NAValue::Int(val) = option.value {
                                self.cenc.flat_thr_i = val as u32;
                            }
                        },
                        CELL_P_THRESHOLD_OPTION => {
                            if let NAValue::Int(val) = option.value {
                                self.cenc.flat_thr_p = val as u32;
                            }
                        },
                        DO_RLE_OPTION => {
                            if let NAValue::Bool(val) = option.value {
                                self.cenc.do_rle = val;
                            }
                        },
                        TRY_AGAIN_OPTION => {
                            if let NAValue::Bool(val) = option.value {
                                self.try_again = val;
                            }
                        },
                        _ => {},
                    };
                }
            }
        }
    }
    fn query_option_value(&self, name: &str) -> Option<NAValue> {
        match name {
            KEYFRAME_OPTION => Some(NAValue::Int(i64::from(self.rc.get_key_int()))),
            DEBUG_TREE_OPTION => Some(NAValue::Bool(self.debug_tree)),
            DEBUG_FRAME_OPTION => Some(NAValue::Bool(self.debug_frm)),
            MV_RANGE_OPTION => Some(NAValue::Int(i64::from(self.mv_est.mv_range))),
            MV_FLAT_OPTION => Some(NAValue::Int(i64::from(self.mv_est.flat_thr))),
            MV_THRESHOLD_OPTION => Some(NAValue::Int(i64::from(self.mv_est.mv_thr))),
            CELL_I_THRESHOLD_OPTION => Some(NAValue::Int(i64::from(self.cenc.flat_thr_i))),
            CELL_P_THRESHOLD_OPTION => Some(NAValue::Int(i64::from(self.cenc.flat_thr_p))),
            DO_RLE_OPTION => Some(NAValue::Bool(self.cenc.do_rle)),
            TRY_AGAIN_OPTION => Some(NAValue::Bool(self.try_again)),
            _ => None,
        }
    }
}

pub fn get_encoder() -> Box<dyn NAEncoder + Send> {
    Box::new(Indeo3Encoder::new())
}

#[cfg(test)]
mod test {
    use crate::*;
    use nihav_core::codecs::*;
    use nihav_core::demuxers::*;
    use nihav_core::muxers::*;
    use nihav_commonfmt::*;
    use nihav_codec_support::test::enc_video::*;

    #[allow(unused_variables)]
    fn encode_test(name: &'static str, enc_options: &[NAOption], limit: Option<u64>, hash: &[u32; 4]) {
        let mut dmx_reg = RegisteredDemuxers::new();
        generic_register_all_demuxers(&mut dmx_reg);
        let mut dec_reg = RegisteredDecoders::new();
        indeo_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();
        indeo_register_all_encoders(&mut enc_reg);

        let dec_config = DecoderTestParams {
                demuxer:        "avi",
                in_name:        "assets/Indeo/laser05.avi",
                stream_type:    StreamType::Video,
                limit,
                dmx_reg, dec_reg,
            };
        let enc_config = EncoderTestParams {
                muxer:          "avi",
                enc_name:       "indeo3",
                out_name:       name,
                mux_reg, enc_reg,
            };
        let dst_vinfo = NAVideoInfo {
                width:   0,
                height:  0,
                format:  YUV410_FORMAT,
                flipped: false,
                bits:    9,
            };
        let enc_params = EncodeParameters {
                format:  NACodecTypeInfo::Video(dst_vinfo),
                quality: 0,
                bitrate: 25000 * 8,
                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_indeo3_encoder1() {
        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]);
    }
    /*#[test]
    fn test_indeo3_roundtrip() {
        const YPATTERN: [u8; 16] = [32, 72, 40, 106, 80, 20, 33, 58, 77, 140, 121, 100, 83, 57, 30, 11];
        const CPATTERN: [u8; 4] = [0x80; 4];

        let dst_vinfo = NAVideoInfo {
                width:   16,
                height:  16,
                format:  YUV410_FORMAT,
                flipped: false,
                bits:    9,
            };
        let enc_params = EncodeParameters {
                format:  NACodecTypeInfo::Video(dst_vinfo),
                quality: 0,
                bitrate: 0,
                tb_num:  0,
                tb_den:  0,
                flags:   0,
            };

        let mut ienc = super::get_encoder();
        ienc.init(0, enc_params).unwrap();
        let mut buffer = alloc_video_buffer(dst_vinfo, 2).unwrap();
        if let NABufferType::Video(ref mut buf) = buffer {
            let vbuf = NASimpleVideoFrame::from_video_buf(buf).unwrap();
            for i in 0..16 {
                vbuf.data[vbuf.offset[0] + i * vbuf.stride[0]..][..16].copy_from_slice(&YPATTERN);
            }
            for plane in 1..3 {
                for i in 0..4 {
                    vbuf.data[vbuf.offset[plane] + i * vbuf.stride[plane]..][..4].copy_from_slice(&CPATTERN);
                }
            }
        }
        let info = NACodecInfo::new("indeo3", NACodecTypeInfo::Video(dst_vinfo), None).into_ref();
        let frm = NAFrame::new(NATimeInfo::new(Some(0), None, None, 1, 12), FrameType::I, true, info.clone(), buffer);
        //ienc.set_options(&[NAOption{ name: super::DEBUG_FRAME_OPTION, value: NAValue::Bool(true) }]);
        ienc.encode(&frm).unwrap();
        let pkt = ienc.get_packet().unwrap().unwrap();
        println!(" pkt size {}", pkt.get_buffer().len());

        let mut dec_reg = RegisteredDecoders::new();
        indeo_register_all_decoders(&mut dec_reg);
        let decfunc = dec_reg.find_decoder("indeo3").unwrap();
        let mut dec = (decfunc)();
        let mut dsupp = Box::new(NADecoderSupport::new());
        dec.init(&mut dsupp, info).unwrap();
        dec.set_options(&[NAOption{ name: "checksum", value: NAValue::Bool(true) }]);
        let dst = dec.decode(&mut dsupp, &pkt).unwrap();
        if let NABufferType::Video(ref vbuf) = dst.get_buffer() {
            for plane in 0..3 {
                let size = if plane == 0 { 16 } else { 4 };
                let start = vbuf.get_offset(plane);
                for line in vbuf.get_data()[start..].chunks(vbuf.get_stride(plane)).take(size) {
                    print!("   ");
                    for &el in line[..size].iter() {
                        print!(" {:02X}", el >> 1);
                    }
                    println!();
                }
                if plane == 0 {
                    print!("ref");
                    for &el in YPATTERN.iter() { print!(" {:02X}", el >> 1); } println!();
                }
                println!();
            }
        }
        panic!("end");
    }*/
}
Commit	Line	Data
77c25c7b KS	1	use nihav_core::codecs::*;
	2	use nihav_core::io::byteio::*;
	3
	4	mod cell;
	5	use cell::*;
	6	mod mv;
	7	use mv::*;
	8	mod ratectl;
	9	use ratectl::*;
	10	mod tree;
	11	pub use tree::{Indeo3Cell, Plane};
	12	use tree::Indeo3PrimaryTree;
	13
	14	const OS_HEADER_SIZE: usize = 16;
	15	const BITSTREAM_HEADER_SIZE: usize = 48;
	16	const HDR_FIELD_2: u32 = 0;
	17	const FRMH_TAG: u32 = ((b'F' as u32) << 24) \| ((b'R' as u32) << 16)
	18	\| ((b'M' as u32) << 8) \| (b'H' as u32);
	19	const PLANE_OFFSETS: usize = 32;
	20
	21	const CB_SELECTORS: [u8; 16] = [
	22	0x02, 0x14, 0x26, 0x38, 0x4A, 0x5C, 0x6E, 0x7F,
	23	0x82, 0x94, 0xA6, 0xB8, 0xCA, 0xDC, 0xEE, 0xFF
	24	];
	25
	26	const PLANE_ORDER: [usize; 3] = [1, 2, 0];
	27
	28	pub struct Indeo3Writer<'a> {
	29	dst: &'a mut Vec<u8>,
	30	bitbuf: u8,
	31	bits: u8,
	32	bitpos: Option<usize>,
	33	}
	34
	35	impl<'a> Indeo3Writer<'a> {
	36	fn new(dst: &'a mut Vec<u8>) -> Self {
	37	Self {
	38	dst,
	39	bitbuf: 0,
	40	bits: 0,
	41	bitpos: None,
	42	}
	43	}
	44	pub fn put_byte(&mut self, b: u8) {
	45	self.dst.push(b);
	46	}
	47	pub fn put_2bits(&mut self, val: u8) {
	48	if self.bits == 0 {
	49	self.bitpos = Some(self.dst.len());
	50	self.dst.push(0);
	51	}
	52	self.bitbuf \|= val << (6 - self.bits);
	53	self.bits += 2;
	54	if self.bits == 8 {
	55	let bpos = self.bitpos.unwrap_or(0);
	56	self.dst[bpos] = self.bitbuf;
	57	self.bitbuf = 0;
	58	self.bits = 0;
	59	self.bitpos = None;
	60	}
	61	}
	62	}
	63
	64	impl<'a> Drop for Indeo3Writer<'a> {
65	fn drop(&mut self) {
66	if self.bits != 0 {
67	let bpos = self.bitpos.unwrap_or(0);
68	self.dst[bpos] = self.bitbuf;
69	}
70	}
71	}
72
73	#[derive(Default)]
74	struct Indeo3Frame {
75	plane: [Plane; 3],
76	}
77
78	impl Indeo3Frame {
79	fn new() -> Self { Self::default() }
80	fn alloc(&mut self, width: usize, height: usize) {
81	self.plane[0].alloc(width, height, 40);
82	self.plane[1].alloc(width / 4, height / 4, 10);
83	self.plane[2].alloc(width / 4, height / 4, 10);
84	}
85	fn fill(&mut self, vbuf: &NAVideoBufferRef<u8>) {
86	let data = vbuf.get_data();
87	for (plane_no, plane) in self.plane.iter_mut().enumerate() {
88	plane.fill(&data[vbuf.get_offset(plane_no)..], vbuf.get_stride(plane_no));
89	}
90	}
91	fn clear_mvs(&mut self) {
92	for plane in self.plane.iter_mut() {
93	plane.clear_mvs();
94	}
95	}
96	}
97
98	struct Indeo3Encoder {
99	stream: Option<NAStreamRef>,
100	pkt: Option<NAPacket>,
101	cframe: Indeo3Frame,
102	pframe: Indeo3Frame,
103	cenc: CellEncoder,
104	mv_est: MotionEstimator,
105	rc: RateControl,
106	frameno: u32,
107	buf_sel: bool,
108	width: usize,
109	height: usize,
110
111	debug_tree: bool,
112	debug_frm: bool,
113	try_again: bool,
114	}
115
116	impl Indeo3Encoder {
117	fn new() -> Self {
118	Self {
119	stream: None,
120	pkt: None,
121	cframe: Indeo3Frame::new(),
122	pframe: Indeo3Frame::new(),
123	cenc: CellEncoder::new(),
124	mv_est: MotionEstimator::new(),
125	rc: RateControl::new(),
126	frameno: 0,
127	buf_sel: false,
128	width: 0,
129	height: 0,
130
131	debug_tree: false,
132	debug_frm: false,
133	try_again: false,
134	}
135	}
136	fn encode_planes(&mut self, dbuf: &mut Vec<u8>, trees: &[Box<Indeo3PrimaryTree>], is_intra: bool) -> EncoderResult<()> {
137	for (&planeno, tree) in PLANE_ORDER.iter().zip(trees.iter()) {
138	let offset = dbuf.len();
139	let ref_plane = &self.pframe.plane[planeno];
140
141	let mut mc_count = [0; 4];
142	let mvs = &self.cframe.plane[planeno].mvs;
143	write_u32le(&mut mc_count, mvs.len() as u32)?;
144	dbuf.extend_from_slice(&mc_count);
145	for &(mv, _) in mvs.iter() {
146	dbuf.push(mv.y as u8);
147	dbuf.push(mv.x as u8);
148	}
149
150	let mut iw = Indeo3Writer::new(dbuf);
151	self.cframe.plane[planeno].encode_tree(&mut iw, &tree, &mut self.cenc, is_intra, ref_plane);
152	drop(iw);
153	while (dbuf.len() & 3) != 0 {
154	dbuf.push(0);
155	}
156
157	let plane_off = PLANE_OFFSETS + 4 * if planeno > 0 { planeno ^ 3 } else { 0 };
158	write_u32le(&mut dbuf[plane_off..], (offset - OS_HEADER_SIZE) as u32)?;
159	}
160
161	let mut checksum = 0;
162	for plane in self.cframe.plane.iter() {
163	checksum ^= plane.checksum();
164	}
7b430a1e	165	write_u16le(&mut dbuf[26..], checksum * 2)?;
77c25c7b KS	166
	167	let size = (dbuf.len() - OS_HEADER_SIZE) as u32;
	168	write_u32le(&mut dbuf[8..], self.frameno ^ HDR_FIELD_2 ^ FRMH_TAG ^ size)?;
	169	write_u32le(&mut dbuf[12..], size)?;
	170	write_u32le(&mut dbuf[20..], size * 8)?;
	171
	172	if is_intra {
	173	dbuf.extend_from_slice(b"\x0d\x0aVer 3.99.00.00\x0d\x0a\x00");
	174	while (dbuf.len() & 3) != 0 {
	175	dbuf.push(0);
	176	}
	177	}
	178
	179	Ok(())
	180	}
	181	}
	182
	183	impl NAEncoder for Indeo3Encoder {
	184	fn negotiate_format(&self, encinfo: &EncodeParameters) -> EncoderResult<EncodeParameters> {
	185	match encinfo.format {
	186	NACodecTypeInfo::None => {
	187	Ok(EncodeParameters {
	188	format: NACodecTypeInfo::Video(NAVideoInfo::new(0, 0, true, YUV410_FORMAT)),
	189	..Default::default()
	190	})
	191	},
	192	NACodecTypeInfo::Audio(_) => Err(EncoderError::FormatError),
	193	NACodecTypeInfo::Video(vinfo) => {
	194	let pix_fmt = YUV410_FORMAT;
	195	let outinfo = NAVideoInfo::new((vinfo.width + 15) & !15, (vinfo.height + 15) & !15, false, pix_fmt);
	196	let mut ofmt = *encinfo;
	197	ofmt.format = NACodecTypeInfo::Video(outinfo);
	198	Ok(ofmt)
	199	}
	200	}
	201	}
	202	fn init(&mut self, stream_id: u32, encinfo: EncodeParameters) -> EncoderResult<NAStreamRef> {
	203	match encinfo.format {
	204	NACodecTypeInfo::None => Err(EncoderError::FormatError),
	205	NACodecTypeInfo::Audio(_) => Err(EncoderError::FormatError),
	206	NACodecTypeInfo::Video(vinfo) => {
	207	if vinfo.format != YUV410_FORMAT {
	208	return Err(EncoderError::FormatError);
	209	}
	210	if ((vinfo.width \| vinfo.height) & 15) != 0 {
	211	return Err(EncoderError::FormatError);
	212	}
	213	if (vinfo.width > 640) \|\| (vinfo.height > 480) {
	214	return Err(EncoderError::FormatError);
	215	}
	216
	217	self.width = vinfo.width;
	218	self.height = vinfo.height;
	219
	220	let out_info = NAVideoInfo::new(vinfo.width, vinfo.height, false, vinfo.format);
	221	let info = NACodecInfo::new("indeo3", NACodecTypeInfo::Video(out_info), None);
	222	let mut stream = NAStream::new(StreamType::Video, stream_id, info, encinfo.tb_num, encinfo.tb_den, 0);
	223	stream.set_num(stream_id as usize);
	224	let stream = stream.into_ref();
	225
	226	self.stream = Some(stream.clone());
	227
	228	self.cframe.alloc(vinfo.width, vinfo.height);
	229	self.pframe.alloc(vinfo.width, vinfo.height);
230
231	self.rc.set_bitrate(encinfo.bitrate, encinfo.tb_num, encinfo.tb_den);
232	self.rc.set_quality(encinfo.quality);
233
234	Ok(stream)
235	},
236	}
237	}
238	fn encode(&mut self, frm: &NAFrame) -> EncoderResult<()> {
239	let buf = frm.get_buffer();
240	if self.debug_tree \|\| self.debug_frm {
241	println!("frame {}:", self.frameno);
242	}
243
244	let mut skip_frame = frm.get_frame_type() == FrameType::Skip;
245	if let NABufferType::None = buf {
246	skip_frame = true;
247	}
248	if skip_frame {
249	let mut dbuf = Vec::with_capacity(16);
250	let mut gw = GrowableMemoryWriter::new_write(&mut dbuf);
251	let mut bw = ByteWriter::new(&mut gw);
252
253	// OS header
254	bw.write_u32le(self.frameno)?;
255	bw.write_u32le(HDR_FIELD_2)?;
256	bw.write_u32le(0)?; // check
257	bw.write_u32le(0)?; // size
258
259	// bitstream header
260	bw.write_u16le(32)?; // version
261	bw.write_u16le(0)?;
262	bw.write_u32le(0)?; // data size in bits
263	bw.write_byte(0)?; // cb offset
264	bw.write_byte(14)?; // reserved
265	bw.write_u16le(0)?; // checksum
266	bw.write_u16le(self.height as u16)?;
267	bw.write_u16le(self.width as u16)?;
268
269	let size = (dbuf.len() - OS_HEADER_SIZE) as u32;
270	write_u32le(&mut dbuf[8..], self.frameno ^ HDR_FIELD_2 ^ FRMH_TAG ^ size)?;
271	write_u32le(&mut dbuf[12..], size)?;
272	write_u32le(&mut dbuf[20..], size * 8)?;
273
274	let fsize = dbuf.len() as u32;
275	self.rc.advance(fsize);
276
277	self.pkt = Some(NAPacket::new(self.stream.clone().unwrap(), frm.ts, false, dbuf));
278	return Ok(());
279	}
280
281	if let Some(ref vbuf) = buf.get_vbuf() {
282	let mut dbuf = Vec::with_capacity(16);
283	let mut gw = GrowableMemoryWriter::new_write(&mut dbuf);
284	let mut bw = ByteWriter::new(&mut gw);
285
286	let (width, height) = vbuf.get_dimensions(0);
287	if width != self.width \|\| height != self.height {
288	self.width = width;
289	self.height = height;
290	self.cframe.alloc(width, height);
291	self.pframe.alloc(width, height);
292	self.rc.reset();
293	}
294
295	let (is_intra, quant) = self.rc.get_quant(self.frameno);
296	self.cenc.quant = quant;
297
298	if is_intra {
299	self.buf_sel = false;
300	} else {
301	self.buf_sel = !self.buf_sel;
302	}
303
304	self.cframe.fill(vbuf);
305	self.cframe.clear_mvs();
306
307	// OS header
308	bw.write_u32le(self.frameno)?;
309	bw.write_u32le(HDR_FIELD_2)?;
310	bw.write_u32le(0)?; // check
311	bw.write_u32le(0)?; // size
312
313	// bitstream header
314	bw.write_u16le(32)?; // version
315	let mut flags = 0;
316	if is_intra {
317	flags \|= 0x5;
318	} else {
319	flags \|= 1;
320	if self.buf_sel {
321	flags \|= 1 << 9;
322	}
323	}
324	bw.write_u16le(flags)?;
325	bw.write_u32le(0)?; // data size in bits
326	bw.write_byte(0)?; // cb offset
327	bw.write_byte(14)?; // reserved
328	bw.write_u16le(0)?; // checksum
329	bw.write_u16le(height as u16)?;
330	bw.write_u16le(width as u16)?;
331	for _ in 0..3 {
332	bw.write_u32le(0)?; // plane data offset
333	}
334	bw.write_u32le(0)?; // reserved
335	bw.write_buf(&CB_SELECTORS)?;
336
337	let mut trees = Vec::with_capacity(PLANE_ORDER.len());
338
339	// prepare plane data structure
340	for &planeno in PLANE_ORDER.iter() {
341	let ref_plane = &self.pframe.plane[planeno];
342	let tree = self.cframe.plane[planeno].find_cells(is_intra, ref_plane, &self.mv_est);
343	if self.debug_tree {
344	println!(" tree for plane {}:", planeno);
345	tree.print();
346	}
347	trees.push(tree);
348	let mvs = &mut self.cframe.plane[planeno].mvs;
349	compact_mvs(mvs);
350	}
351
352	self.encode_planes(&mut dbuf, &trees, is_intra)?;
353
354	let cur_quant = self.cenc.quant.unwrap_or(42);
355	if !is_intra && cur_quant < 8 {
356	let expected_size = self.rc.get_expected_size();
357	if expected_size > 0 {
358	let cur_size = dbuf.len() as u32;
359	// try re-encoding frame if possible
360	if cur_size > expected_size * 3 / 2 {
361	self.cframe.fill(vbuf);
362	let new_quant = if cur_quant < 7 {
363	cur_quant + 1
364	} else {
365	cur_quant - 1
366	};
367	self.cenc.quant = Some(new_quant);
368	dbuf.truncate(OS_HEADER_SIZE + BITSTREAM_HEADER_SIZE);
369	self.encode_planes(&mut dbuf, &trees, is_intra)?;
370	}
371	}
372	}
373
374	if self.debug_frm {
375	for plane in self.cframe.plane.iter() {
376	for (y, line) in plane.data.chunks(plane.width).enumerate() {
377	print!(" {:3}:", y);
378	for &el in line.iter() { print!(" {:02X}", el); }
379	println!();
380	}
381	println!();
382	}
383	}
384
385	std::mem::swap(&mut self.cframe, &mut self.pframe);
386	self.frameno += 1;
387
388	let fsize = dbuf.len() as u32;
389	self.rc.advance(fsize);
390
391	self.pkt = Some(NAPacket::new(self.stream.clone().unwrap(), frm.ts, is_intra, dbuf));
392	Ok(())
393	} else {
394	Err(EncoderError::InvalidParameters)
395	}
396	}
397	fn get_packet(&mut self) -> EncoderResult<Option<NAPacket>> {
398	let mut npkt = None;
399	std::mem::swap(&mut self.pkt, &mut npkt);
400	Ok(npkt)
401	}
402	fn flush(&mut self) -> EncoderResult<()> {
403	Ok(())
404	}
405	}
406
407	const DEBUG_TREE_OPTION: &str = "debug_tree";
408	const DEBUG_FRAME_OPTION: &str = "debug_frame";
409	const MV_RANGE_OPTION: &str = "mv_range";
410	const MV_FLAT_OPTION: &str = "mv_flat_threshold";
411	const MV_THRESHOLD_OPTION: &str = "mv_threshold";
412	const CELL_I_THRESHOLD_OPTION: &str = "cell_i_threshold";
413	const CELL_P_THRESHOLD_OPTION: &str = "cell_p_threshold";
414	const DO_RLE_OPTION: &str = "rle";
415	const TRY_AGAIN_OPTION: &str = "try_recompress";
416
417	const ENCODER_OPTS: &[NAOptionDefinition] = &[
418	NAOptionDefinition {
419	name: KEYFRAME_OPTION, description: KEYFRAME_OPTION_DESC,
420	opt_type: NAOptionDefinitionType::Int(Some(0), Some(128)) },
421	NAOptionDefinition {
422	name: DEBUG_TREE_OPTION, description: "Print frame trees",
423	opt_type: NAOptionDefinitionType::Bool },
424	NAOptionDefinition {
425	name: DEBUG_FRAME_OPTION, description: "Print encoder-reconstructed frames",
426	opt_type: NAOptionDefinitionType::Bool },
427	NAOptionDefinition {
428	name: MV_RANGE_OPTION, description: "Motion search range",
429	opt_type: NAOptionDefinitionType::Int(Some(0), Some(120)) },
430	NAOptionDefinition {
431	name: MV_FLAT_OPTION, description: "Threshold for coding cell as skipped one",
432	opt_type: NAOptionDefinitionType::Int(Some(0), Some(1000)) },
433	NAOptionDefinition {
434	name: MV_THRESHOLD_OPTION, description: "Threshold for coding cell as inter",
435	opt_type: NAOptionDefinitionType::Int(Some(0), Some(1000)) },
436	NAOptionDefinition {
437	name: CELL_I_THRESHOLD_OPTION, description: "Threshold for coding intra block as flat",
438	opt_type: NAOptionDefinitionType::Int(Some(0), Some(128)) },
439	NAOptionDefinition {
440	name: CELL_P_THRESHOLD_OPTION, description: "Threshold for coding inter cell in coarser mode",
441	opt_type: NAOptionDefinitionType::Int(Some(0), Some(128)) },
442	NAOptionDefinition {
443	name: DO_RLE_OPTION, description: "Perform zero run length compation",
444	opt_type: NAOptionDefinitionType::Bool },
445	NAOptionDefinition {
446	name: TRY_AGAIN_OPTION, description: "Try compressing the frame again for the better bitrate fit",
447	opt_type: NAOptionDefinitionType::Bool },
448	];
449
450	impl NAOptionHandler for Indeo3Encoder {
451	fn get_supported_options(&self) -> &[NAOptionDefinition] { ENCODER_OPTS }
452	fn set_options(&mut self, options: &[NAOption]) {
453	for option in options.iter() {
454	for opt_def in ENCODER_OPTS.iter() {
455	if opt_def.check(option).is_ok() {
456	match option.name {
457	KEYFRAME_OPTION => {
458	if let NAValue::Int(val) = option.value {
459	self.rc.set_key_int(val as u32);
460	}
461	},
462	DEBUG_TREE_OPTION => {
463	if let NAValue::Bool(val) = option.value {
464	self.debug_tree = val;
465	}
466	},
467	DEBUG_FRAME_OPTION => {
468	if let NAValue::Bool(val) = option.value {
469	self.debug_frm = val;
470	}
471	},
472	MV_RANGE_OPTION => {
473	if let NAValue::Int(val) = option.value {
474	self.mv_est.mv_range = val as i8;
475	}
476	},
477	MV_FLAT_OPTION => {
478	if let NAValue::Int(val) = option.value {
479	self.mv_est.flat_thr = val as u16;
480	}
481	},
482	MV_THRESHOLD_OPTION => {
483	if let NAValue::Int(val) = option.value {
484	self.mv_est.mv_thr = val as u16;
485	}
486	},
487	CELL_I_THRESHOLD_OPTION => {
488	if let NAValue::Int(val) = option.value {
489	self.cenc.flat_thr_i = val as u32;
490	}
491	},
492	CELL_P_THRESHOLD_OPTION => {
493	if let NAValue::Int(val) = option.value {
494	self.cenc.flat_thr_p = val as u32;
495	}
496	},
497	DO_RLE_OPTION => {
498	if let NAValue::Bool(val) = option.value {
499	self.cenc.do_rle = val;
500	}
501	},
502	TRY_AGAIN_OPTION => {
503	if let NAValue::Bool(val) = option.value {
504	self.try_again = val;
505	}
506	},
507	_ => {},
508	};
509	}
510	}
511	}
512	}
513	fn query_option_value(&self, name: &str) -> Option<NAValue> {
514	match name {
515	KEYFRAME_OPTION => Some(NAValue::Int(i64::from(self.rc.get_key_int()))),
516	DEBUG_TREE_OPTION => Some(NAValue::Bool(self.debug_tree)),
517	DEBUG_FRAME_OPTION => Some(NAValue::Bool(self.debug_frm)),
518	MV_RANGE_OPTION => Some(NAValue::Int(i64::from(self.mv_est.mv_range))),
519	MV_FLAT_OPTION => Some(NAValue::Int(i64::from(self.mv_est.flat_thr))),
520	MV_THRESHOLD_OPTION => Some(NAValue::Int(i64::from(self.mv_est.mv_thr))),
521	CELL_I_THRESHOLD_OPTION => Some(NAValue::Int(i64::from(self.cenc.flat_thr_i))),
522	CELL_P_THRESHOLD_OPTION => Some(NAValue::Int(i64::from(self.cenc.flat_thr_p))),
523	DO_RLE_OPTION => Some(NAValue::Bool(self.cenc.do_rle)),
524	TRY_AGAIN_OPTION => Some(NAValue::Bool(self.try_again)),
525	_ => None,
526	}
527	}
528	}
529
530	pub fn get_encoder() -> Box<dyn NAEncoder + Send> {
531	Box::new(Indeo3Encoder::new())
532	}
533
534	#[cfg(test)]
535	mod test {
536	use crate::*;
537	use nihav_core::codecs::*;
538	use nihav_core::demuxers::*;
539	use nihav_core::muxers::*;
540	use nihav_commonfmt::*;
541	use nihav_codec_support::test::enc_video::*;
542
543	#[allow(unused_variables)]
544	fn encode_test(name: &'static str, enc_options: &[NAOption], limit: Option<u64>, hash: &[u32; 4]) {
545	let mut dmx_reg = RegisteredDemuxers::new();
546	generic_register_all_demuxers(&mut dmx_reg);
547	let mut dec_reg = RegisteredDecoders::new();
548	indeo_register_all_decoders(&mut dec_reg);
549	let mut mux_reg = RegisteredMuxers::new();
550	generic_register_all_muxers(&mut mux_reg);
551	let mut enc_reg = RegisteredEncoders::new();
552	indeo_register_all_encoders(&mut enc_reg);
553
554	let dec_config = DecoderTestParams {
555	demuxer: "avi",
556	in_name: "assets/Indeo/laser05.avi",
557	stream_type: StreamType::Video,
558	limit,
559	dmx_reg, dec_reg,
560	};
561	let enc_config = EncoderTestParams {
562	muxer: "avi",
563	enc_name: "indeo3",
564	out_name: name,
565	mux_reg, enc_reg,
566	};
567	let dst_vinfo = NAVideoInfo {
568	width: 0,
569	height: 0,
570	format: YUV410_FORMAT,
571	flipped: false,
572	bits: 9,
573	};
574	let enc_params = EncodeParameters {
575	format: NACodecTypeInfo::Video(dst_vinfo),
576	quality: 0,
577	bitrate: 25000 * 8,
578	tb_num: 0,
579	tb_den: 0,
580	flags: 0,
581	};
582	//test_encoding_to_file(&dec_config, &enc_config, enc_params, enc_options);
583	test_encoding_md5(&dec_config, &enc_config, enc_params, enc_options, hash);
584	}
585	#[test]
586	fn test_indeo3_encoder1() {
587	let enc_options = &[
588	NAOption { name: super::TRY_AGAIN_OPTION, value: NAValue::Bool(true) },
589	];
7b430a1e	590	encode_test("indeo3.avi", enc_options, Some(4), &[0xd62f9996, 0x7fb4ba1b, 0x1f552801, 0xfd4e4726]);
77c25c7b KS	591	}
	592	/*#[test]
	593	fn test_indeo3_roundtrip() {
	594	const YPATTERN: [u8; 16] = [32, 72, 40, 106, 80, 20, 33, 58, 77, 140, 121, 100, 83, 57, 30, 11];
	595	const CPATTERN: [u8; 4] = [0x80; 4];
	596
	597	let dst_vinfo = NAVideoInfo {
	598	width: 16,
	599	height: 16,
	600	format: YUV410_FORMAT,
	601	flipped: false,
	602	bits: 9,
	603	};
	604	let enc_params = EncodeParameters {
	605	format: NACodecTypeInfo::Video(dst_vinfo),
	606	quality: 0,
	607	bitrate: 0,
	608	tb_num: 0,
	609	tb_den: 0,
	610	flags: 0,
	611	};
	612
	613	let mut ienc = super::get_encoder();
	614	ienc.init(0, enc_params).unwrap();
	615	let mut buffer = alloc_video_buffer(dst_vinfo, 2).unwrap();
	616	if let NABufferType::Video(ref mut buf) = buffer {
	617	let vbuf = NASimpleVideoFrame::from_video_buf(buf).unwrap();
	618	for i in 0..16 {
	619	vbuf.data[vbuf.offset[0] + i * vbuf.stride[0]..][..16].copy_from_slice(&YPATTERN);
	620	}
	621	for plane in 1..3 {
	622	for i in 0..4 {
	623	vbuf.data[vbuf.offset[plane] + i * vbuf.stride[plane]..][..4].copy_from_slice(&CPATTERN);
	624	}
	625	}
	626	}
	627	let info = NACodecInfo::new("indeo3", NACodecTypeInfo::Video(dst_vinfo), None).into_ref();
	628	let frm = NAFrame::new(NATimeInfo::new(Some(0), None, None, 1, 12), FrameType::I, true, info.clone(), buffer);
7b430a1e	629	//ienc.set_options(&[NAOption{ name: super::DEBUG_FRAME_OPTION, value: NAValue::Bool(true) }]);
77c25c7b KS	630	ienc.encode(&frm).unwrap();
	631	let pkt = ienc.get_packet().unwrap().unwrap();
	632	println!(" pkt size {}", pkt.get_buffer().len());
	633
	634	let mut dec_reg = RegisteredDecoders::new();
	635	indeo_register_all_decoders(&mut dec_reg);
	636	let decfunc = dec_reg.find_decoder("indeo3").unwrap();
	637	let mut dec = (decfunc)();
	638	let mut dsupp = Box::new(NADecoderSupport::new());
	639	dec.init(&mut dsupp, info).unwrap();
7b430a1e	640	dec.set_options(&[NAOption{ name: "checksum", value: NAValue::Bool(true) }]);
77c25c7b KS	641	let dst = dec.decode(&mut dsupp, &pkt).unwrap();
	642	if let NABufferType::Video(ref vbuf) = dst.get_buffer() {
	643	for plane in 0..3 {
	644	let size = if plane == 0 { 16 } else { 4 };
	645	let start = vbuf.get_offset(plane);
	646	for line in vbuf.get_data()[start..].chunks(vbuf.get_stride(plane)).take(size) {
	647	print!(" ");
	648	for &el in line[..size].iter() {
	649	print!(" {:02X}", el >> 1);
	650	}
	651	println!();
	652	}
	653	if plane == 0 {
	654	print!("ref");
	655	for &el in YPATTERN.iter() { print!(" {:02X}", el >> 1); } println!();
	656	}
	657	println!();
	658	}
	659	}
	660	panic!("end");
	661	}*/
	662	}