[nihav.git] / nihav-qt / src / codecs / rle.rs

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

const RGB555_FORMAT: NAPixelFormaton = NAPixelFormaton {
        model: ColorModel::RGB(RGBSubmodel::RGB), components: 3,
        comp_info: [
            Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 5, shift: 10, comp_offs: 0, next_elem: 2 }),
            Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 5, shift:  5, comp_offs: 0, next_elem: 2 }),
            Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 5, shift:  0, comp_offs: 0, next_elem: 2 }),
            None, None],
        elem_size: 2, be: false, alpha: false, palette: false };

pub const ARGB_FORMAT: NAPixelFormaton = NAPixelFormaton {
        model: ColorModel::RGB(RGBSubmodel::RGB), components: 4,
        comp_info: [
            Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: 1, next_elem: 4 }),
            Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: 2, next_elem: 4 }),
            Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: 3, next_elem: 4 }),
            Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: 0, next_elem: 4 }),
            None ],
        elem_size: 4, be: false, alpha: true, palette: false };

#[derive(Default)]
struct RleDecoder {
    info:       NACodecInfoRef,
    hams:       HAMShuffler<u8>,
    hams16:     HAMShuffler<u16>,
    width:      usize,
    height:     usize,
    depth:      u8,
}

#[allow(clippy::needless_range_loop)]
fn unpack_mono(src: u16, dst: &mut [u8; 16]) {
    for i in 0..16 {
        dst[i] = ((src >> (15 - i)) & 1) as u8;
    }
}

#[allow(clippy::needless_range_loop)]
fn unpack_pixels(src: u32, dst: &mut [u8; 16], depth: u8) {
    let depth = depth as usize;
    let mask = (1 << depth) - 1;
    for i in 0..32 / depth {
        dst[i] = ((src >> (32 - depth - i * depth)) & mask) as u8;
    }
}

impl RleDecoder {
    fn new() -> Self {
        Self::default()
    }
    fn decode_mono(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u8>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
        let mut has_skips = false;
        let mut pix_buf = [0u8; 16];
        let npixels = 16;

        let stride = frm.stride[0];
        let mut doff = frm.offset[0] + start_line * stride;
        let mut y = start_line;
        while y < end_line {
            let mut x = 0;
            while x < self.width {
                let skip_code               = br.read_byte()?;
                let rle_code                = br.read_byte()? as i8;
                if x == 0 {
                    validate!((skip_code & 0x80) != 0);
                }
                if rle_code == 0 {
                    return Ok(false);
                }
                if x != 0 && (skip_code & 0x80) != 0 {
                    x = 0;
                    y += 1;
                    validate!(y < end_line);
                    doff += stride;
                    has_skips = true;
                }
                let skip = (skip_code & 0x1F) as usize;
                if skip > 0 {
                    has_skips = true;
                }
                validate!(x + skip * npixels <= self.width);
                x += skip * npixels;
                if rle_code < 0 {
                    let len = (-i16::from(rle_code)) as usize;
                    validate!(x + len * npixels <= self.width);
                    let val                 = br.read_u16be()?;
                    unpack_mono(val, &mut pix_buf);
                    for _ in 0..len {
                        for el in pix_buf.iter() {
                            frm.data[doff + x] = *el;
                            x += 1;
                        }
                    }
                } else {
                    let len = rle_code as usize;
                    validate!(x + len * npixels <= self.width);
                    for _ in 0..len {
                        let val             = br.read_u16be()?;
                        unpack_mono(val, &mut pix_buf);
                        for el in pix_buf.iter() {
                            frm.data[doff + x] = *el;
                            x += 1;
                        }
                    }
                }
            }
            doff += stride;
            y += 1;
        }

        Ok(has_skips)
    }
    fn decode_pal(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u8>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
        let mut has_skips = false;
        let mut pix_buf = [0u8; 16];
        let npixels = match self.depth {
                2 => 16,
                4 => 8,
                8 => 4,
                _ => return Err(DecoderError::InvalidData),
            };

        let stride = frm.stride[0];
        let mut doff = frm.offset[0] + start_line * stride;
        for _ in start_line..end_line {
            let mut x = 0;
            let mut skip_mode = true;
            while x < self.width {
                if skip_mode {
                    let skip_code           = br.read_byte()?;
                    if skip_code == 0 {
                        return Ok(true);
                    } else {
                        let skip = (skip_code - 1) as usize;
                        validate!(x + skip * npixels <= self.width);
                        x += skip * npixels;
                        has_skips = true;
                    }
                    skip_mode = false;
                } else {
                    let rle_code            = br.read_byte()? as i8;
                    if rle_code == 0 {
                        skip_mode = true;
                    } else if rle_code == -1 {
                        if x < self.width {
                            has_skips = true;
                        }
                        break;
                    } else if rle_code < 0 {
                        let len = (-i16::from(rle_code)) as usize;
                        validate!(x + len * npixels <= self.width);
                        let val             = br.read_u32be()?;
                        unpack_pixels(val, &mut pix_buf, self.depth);
                        for _ in 0..len {
                            for el in pix_buf.iter().take(npixels) {
                                frm.data[doff + x] = *el;
                                x += 1;
                            }
                        }
                    } else {
                        let len = rle_code as usize;
                        validate!(x + len * npixels <= self.width);
                        for _ in 0..len {
                            let val         = br.read_u32be()?;
                            unpack_pixels(val, &mut pix_buf, self.depth);
                            for el in pix_buf.iter().take(npixels) {
                                frm.data[doff + x] = *el;
                                x += 1;
                            }
                        }
                    }
                }
            }
            if x == self.width {
                let eol                 = br.read_byte()? as i8;
                validate!(eol == -1);
            }
            doff += stride;
        }

        Ok(has_skips)
    }
    fn decode_16bit(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u16>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
        let mut has_skips = false;

        let stride = frm.stride[0];
        let mut doff = frm.offset[0] + start_line * stride;
        for _ in start_line..end_line {
            let mut x = 0;
            let mut skip_mode = true;
            while x < self.width {
                if skip_mode {
                    let skip_code           = br.read_byte()?;
                    if skip_code == 0 {
                        return Ok(true);
                    } else {
                        let skip = (skip_code - 1) as usize;
                        validate!(x + skip <= self.width);
                        x += skip;
                        has_skips = true;
                    }
                    skip_mode = false;
                } else {
                    let rle_code            = br.read_byte()? as i8;
                    if rle_code == 0 {
                        skip_mode = true;
                    } else if rle_code == -1 {
                        if x < self.width {
                            has_skips = true;
                        }
                        break;
                    } else if rle_code < 0 {
                        let len = (-i16::from(rle_code)) as usize;
                        validate!(x + len <= self.width);
                        let pix             = br.read_u16be()?;
                        for _ in 0..len {
                            frm.data[doff + x] = pix;
                            x += 1;
                        }
                    } else {
                        let len = rle_code as usize;
                        validate!(x + len <= self.width);
                        for _ in 0..len {
                            frm.data[doff + x] = br.read_u16be()?;
                            x += 1;
                        }
                    }
                }
            }
            if x == self.width {
                let eol                 = br.read_byte()? as i8;
                validate!(eol == -1);
            }
            doff += stride;
        }

        Ok(has_skips)
    }
    fn decode_24bit(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u8>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
        let mut has_skips = false;
        let mut rgb = [0u8; 3];

        let stride = frm.stride[0];
        let mut doff = frm.offset[0] + start_line * stride;
        for _ in start_line..end_line {
            let mut x = 0;
            let mut skip_mode = true;
            while x < self.width {
                if skip_mode {
                    let skip_code           = br.read_byte()?;
                    if skip_code == 0 {
                        return Ok(true);
                    } else {
                        let skip = (skip_code - 1) as usize;
                        validate!(x + skip <= self.width);
                        x += skip;
                        has_skips = true;
                    }
                    skip_mode = false;
                } else {
                    let rle_code            = br.read_byte()? as i8;
                    if rle_code == 0 {
                        skip_mode = true;
                    } else if rle_code == -1 {
                        if x < self.width {
                            has_skips = true;
                        }
                        break;
                    } else if rle_code < 0 {
                        let len = (-i16::from(rle_code)) as usize;
                        validate!(x + len <= self.width);
                                              br.read_buf(&mut rgb)?;
                        for _ in 0..len {
                            frm.data[doff + x * 3]     = rgb[0];
                            frm.data[doff + x * 3 + 1] = rgb[1];
                            frm.data[doff + x * 3 + 2] = rgb[2];
                            x += 1;
                        }
                    } else {
                        let len = rle_code as usize;
                        validate!(x + len  <= self.width);
                                              br.read_buf(&mut frm.data[doff + x * 3..][..len * 3])?;
                        x += len;
                    }
                }
            }
            if x == self.width {
                let eol                 = br.read_byte()? as i8;
                validate!(eol == -1);
            }
            doff += stride;
        }

        Ok(has_skips)
    }
    fn decode_32bit(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u8>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
        let mut has_skips = false;
        let mut rgb = [0u8; 4];

        let stride = frm.stride[0];
        let mut doff = frm.offset[0] + start_line * stride;
        for _ in start_line..end_line {
            let mut x = 0;
            let mut skip_mode = true;
            while x < self.width {
                if skip_mode {
                    let skip_code           = br.read_byte()?;
                    if skip_code == 0 {
                        return Ok(true);
                    } else {
                        let skip = (skip_code - 1) as usize;
                        validate!(x + skip <= self.width);
                        x += skip;
                        has_skips = true;
                    }
                    skip_mode = false;
                } else {
                    let rle_code            = br.read_byte()? as i8;
                    if rle_code == 0 {
                        skip_mode = true;
                    } else if rle_code == -1 {
                        if x < self.width {
                            has_skips = true;
                        }
                        break;
                    } else if rle_code < 0 {
                        let len = (-i16::from(rle_code)) as usize;
                        validate!(x + len <= self.width);
                                              br.read_buf(&mut rgb)?;
                        for _ in 0..len {
                            frm.data[doff + x * 4]     = rgb[0];
                            frm.data[doff + x * 4 + 1] = rgb[1];
                            frm.data[doff + x * 4 + 2] = rgb[2];
                            frm.data[doff + x * 4 + 3] = rgb[3];
                            x += 1;
                        }
                    } else {
                        let len = rle_code as usize;
                        validate!(x + len  <= self.width);
                                              br.read_buf(&mut frm.data[doff + x * 4..][..len * 4])?;
                        x += len;
                    }
                }
            }
            if x == self.width {
                let eol                 = br.read_byte()? as i8;
                validate!(eol == -1);
            }
            doff += stride;
        }

        Ok(has_skips)
    }
}

impl NADecoder for RleDecoder {
    fn init(&mut self, _supp: &mut NADecoderSupport, info: NACodecInfoRef) -> DecoderResult<()> {
        if let NACodecTypeInfo::Video(vinfo) = info.get_properties() {
            self.width  = vinfo.get_width();
            self.height = vinfo.get_height();
            self.depth = vinfo.bits;
            let fmt = match self.depth {
                    1 | 2 | 4 | 8 => PAL8_FORMAT,
                    15 | 16 => RGB555_FORMAT,
                    24 => RGB24_FORMAT,
                    32 => ARGB_FORMAT,
                    _ => return Err(DecoderError::InvalidData),
                };
            let myinfo = NACodecTypeInfo::Video(NAVideoInfo::new(self.width, self.height, false, fmt));
            self.info = NACodecInfo::new_ref(info.get_name(), myinfo, info.get_extradata()).into_ref();

            Ok(())
        } else {
            Err(DecoderError::InvalidData)
        }
    }
    fn decode(&mut self, _supp: &mut NADecoderSupport, pkt: &NAPacket) -> DecoderResult<NAFrameRef> {
        let src = pkt.get_buffer();
        validate!(src.len() >= 2);
        let mut mr = MemoryReader::new_read(src.as_slice());
        let mut br = ByteReader::new(&mut mr);

        let id                          = br.read_byte()?;
        validate!(id == 0x40 || id == 0x00);
        let length                      = br.read_u24be()? as usize;
        validate!(length == src.len());

        let flags                       = br.read_u16be()?;
        let (start_line, end_line) = if (flags & 0x8) != 0 {
                let start               = br.read_u16be()? as usize;
                                          br.read_skip(2)?;
                let h                   = br.read_u16be()? as usize;
                                          br.read_skip(2)?;
                validate!(start + h <= self.height);
                (start, start + h)
            } else {
                (0, self.height)
            };

        let mut has_skips;
        let buftype;
        if self.depth <= 8 {
            let bufret = self.hams.clone_ref();
            let mut buf;
            if let Some(bbuf) = bufret {
                buf = bbuf;
            } else {
                let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 0)?;
                buf = bufinfo.get_vbuf().unwrap();
                self.hams.add_frame(buf);
                buf = self.hams.get_output_frame().unwrap();
            }
            let mut frm = NASimpleVideoFrame::from_video_buf(&mut buf).unwrap();
            if self.depth != 1 {
                has_skips = self.decode_pal(&mut br, &mut frm, start_line, end_line)?;
            } else {
                has_skips = self.decode_mono(&mut br, &mut frm, start_line, end_line)?;
            }

            let paloff = frm.offset[1];
            let dpal = &mut frm.data[paloff..];
            for sd in pkt.side_data.iter() {
                match *sd {
                    NASideData::Palette(_, ref pal) => {
                        for (dst, src) in dpal.chunks_mut(3).zip(pal.chunks(4)) {
                            dst[0] = src[0];
                            dst[1] = src[1];
                            dst[2] = src[2];
                        }
                        break;
                    },
                    _ => {},
                };
            }
            buftype = NABufferType::Video(buf);
        } else if self.depth == 16 {
            let bufret = self.hams16.clone_ref();
            let mut buf;
            if let Some(bbuf) = bufret {
                buf = bbuf;
            } else {
                let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 0)?;
                buf = bufinfo.get_vbuf16().unwrap();
                self.hams16.add_frame(buf);
                buf = self.hams16.get_output_frame().unwrap();
            }
            let mut frm = NASimpleVideoFrame::from_video_buf(&mut buf).unwrap();
            has_skips = self.decode_16bit(&mut br, &mut frm, start_line, end_line)?;
            buftype = NABufferType::Video16(buf);
        } else if self.depth == 24 {
            let bufret = self.hams.clone_ref();
            let mut buf;
            if let Some(bbuf) = bufret {
                buf = bbuf;
            } else {
                let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 0)?;
                buf = bufinfo.get_vbuf().unwrap();
                self.hams.add_frame(buf);
                buf = self.hams.get_output_frame().unwrap();
            }
            let mut frm = NASimpleVideoFrame::from_video_buf(&mut buf).unwrap();
            has_skips = self.decode_24bit(&mut br, &mut frm, start_line, end_line)?;
            buftype = NABufferType::Video(buf);
        } else if self.depth == 32 {
            let bufret = self.hams.clone_ref();
            let mut buf;
            if let Some(bbuf) = bufret {
                buf = bbuf;
            } else {
                let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 0)?;
                buf = bufinfo.get_vbuf().unwrap();
                self.hams.add_frame(buf);
                buf = self.hams.get_output_frame().unwrap();
            }
            let mut frm = NASimpleVideoFrame::from_video_buf(&mut buf).unwrap();
            has_skips = self.decode_32bit(&mut br, &mut frm, start_line, end_line)?;
            buftype = NABufferType::Video(buf);
        } else {
            return Err(DecoderError::InvalidData);
        }
        if (start_line != 0) || (end_line != self.height) {
            has_skips = true;
        }

        let mut frm = NAFrame::new_from_pkt(pkt, self.info.clone(), buftype);
        frm.set_keyframe(!has_skips);
        frm.set_frame_type(if !has_skips { FrameType::I } else { FrameType::P });
        Ok(frm.into_ref())
    }
    fn flush(&mut self) {
        self.hams.clear();
        self.hams16.clear();
    }
}

impl NAOptionHandler for RleDecoder {
    fn get_supported_options(&self) -> &[NAOptionDefinition] { &[] }
    fn set_options(&mut self, _options: &[NAOption]) { }
    fn query_option_value(&self, _name: &str) -> Option<NAValue> { None }
}

pub fn get_decoder() -> Box<dyn NADecoder + Send> {
    Box::new(RleDecoder::new())
}

#[cfg(test)]
mod test {
    use nihav_core::codecs::RegisteredDecoders;
    use nihav_core::demuxers::RegisteredDemuxers;
    use nihav_codec_support::test::dec_video::*;
    use crate::qt_register_all_codecs;
    use nihav_commonfmt::generic_register_all_demuxers;
    #[test]
    fn test_qt_rle_1bit() {
        let mut dmx_reg = RegisteredDemuxers::new();
        generic_register_all_demuxers(&mut dmx_reg);
        let mut dec_reg = RegisteredDecoders::new();
        qt_register_all_codecs(&mut dec_reg);

//test_file_decoding("mov", "assets/QT/Animation-Monochrome.mov", Some(6), true, false, Some("qtrle-mono"), &dmx_reg, &dec_reg);
        test_decoding("mov", "qt-rle", "assets/QT/Animation-Monochrome.mov", Some(6), &dmx_reg, &dec_reg,
                      ExpectedTestResult::MD5Frames(vec![
                            [0xc5b6fd2b, 0x87aae95c, 0xc32d0aaa, 0x4ed21592],
                            [0xe13aa599, 0x2ec6421e, 0xfcfdcc81, 0x8c2ee2ef],
                            [0xd835547b, 0xe2ffd6c9, 0xe24135c1, 0x7d2bb64f],
                            [0x6176e812, 0xb637444c, 0x71b1cbe5, 0xfc98905f],
                            [0x53a6b414, 0xbbf266c0, 0x859c3d10, 0x179a2252],
                            [0x56bc8cdd, 0x6438ba4d, 0x056e79c1, 0xb851e767],
                            [0xc25b9fec, 0xfc93233a, 0x30301b6d, 0xb290f5d7]]));
    }
    #[test]
    fn test_qt_rle_4bit() {
        let mut dmx_reg = RegisteredDemuxers::new();
        generic_register_all_demuxers(&mut dmx_reg);
        let mut dec_reg = RegisteredDecoders::new();
        qt_register_all_codecs(&mut dec_reg);

        test_decoding("mov", "qt-rle", "assets/QT/Animation-16Greys.mov", Some(6), &dmx_reg, &dec_reg,
                      ExpectedTestResult::MD5Frames(vec![
                            [0x280c82aa, 0xa8bd11a6, 0x5b5babda, 0xeff58dd9],
                            [0x5c732231, 0x81d20be3, 0x41249639, 0xab2a9841],
                            [0xb689268d, 0x26de8510, 0x506e0a06, 0xb0dcfc40],
                            [0x09dced38, 0xbd0f5482, 0x3803efc9, 0x84bcaac4],
                            [0x5c49f8cc, 0xc1e2bd17, 0x1c22b849, 0x8f09afd5],
                            [0xe9f7b847, 0x13a4e429, 0x1b8af943, 0x82766ed2],
                            [0x2833c41a, 0x53781343, 0xce083e07, 0xdc3b24e9]]));
    }
    #[test]
    fn test_qt_rle_8bit() {
        let mut dmx_reg = RegisteredDemuxers::new();
        generic_register_all_demuxers(&mut dmx_reg);
        let mut dec_reg = RegisteredDecoders::new();
        qt_register_all_codecs(&mut dec_reg);

        test_decoding("mov", "qt-rle", "assets/QT/Animation-256Greys.mov", Some(6), &dmx_reg, &dec_reg,
                      ExpectedTestResult::MD5Frames(vec![
                            [0x3c439212, 0x419944a5, 0xb274d9f5, 0xf3c53b12],
                            [0xd2a51886, 0xfbd37c2e, 0x899806c6, 0x465a66e0],
                            [0xbd59029e, 0x9de8766c, 0xd681bf0c, 0xa7fe4dfe],
                            [0x6150d380, 0xe8d67e0b, 0x0beb8455, 0xfcfd899d],
                            [0xba0f6b50, 0xba253267, 0xb727c5d7, 0x10dbf0c7],
                            [0x4f93f1aa, 0x2f10aa86, 0xfa97b35f, 0x687065df],
                            [0x730270e2, 0x3a3e02f1, 0xb906f478, 0xdb42af87]]));
    }
    #[test]
    fn test_qt_rle_16bit() {
        let mut dmx_reg = RegisteredDemuxers::new();
        generic_register_all_demuxers(&mut dmx_reg);
        let mut dec_reg = RegisteredDecoders::new();
        qt_register_all_codecs(&mut dec_reg);

        test_decoding("mov", "qt-rle", "assets/QT/Animation-Highcolour.mov", Some(6), &dmx_reg, &dec_reg,
                      ExpectedTestResult::MD5Frames(vec![
                            [0x8fa5361b, 0xd36d6def, 0x33b250e9, 0xab98a41c],
                            [0xdd253ce0, 0xbc5fd3a1, 0x51fe2394, 0x950f18e4],
                            [0xbf34ca8d, 0x1faa24ee, 0x8d70af09, 0x742a4056],
                            [0x9feca59b, 0xdca7dc1d, 0xb6fe14f1, 0xd88c8b67],
                            [0x2e1544b8, 0x89a7e788, 0x0efcde09, 0xec4e7995],
                            [0x1e28b2a8, 0xd53495ca, 0x405a9b6e, 0x59338cad],
                            [0xe90156a4, 0xb64bca4a, 0x5cdf6681, 0xc32945fb]]));
    }
    #[test]
    fn test_qt_rle_24bit() {
        let mut dmx_reg = RegisteredDemuxers::new();
        generic_register_all_demuxers(&mut dmx_reg);
        let mut dec_reg = RegisteredDecoders::new();
        qt_register_all_codecs(&mut dec_reg);

        test_decoding("mov", "qt-rle", "assets/QT/Animation-Highcolour.mov", Some(6), &dmx_reg, &dec_reg,
                      ExpectedTestResult::MD5Frames(vec![
                            [0x8fa5361b, 0xd36d6def, 0x33b250e9, 0xab98a41c],
                            [0xdd253ce0, 0xbc5fd3a1, 0x51fe2394, 0x950f18e4],
                            [0xbf34ca8d, 0x1faa24ee, 0x8d70af09, 0x742a4056],
                            [0x9feca59b, 0xdca7dc1d, 0xb6fe14f1, 0xd88c8b67],
                            [0x2e1544b8, 0x89a7e788, 0x0efcde09, 0xec4e7995],
                            [0x1e28b2a8, 0xd53495ca, 0x405a9b6e, 0x59338cad],
                            [0xe90156a4, 0xb64bca4a, 0x5cdf6681, 0xc32945fb]]));
    }
    #[test]
    fn test_qt_rle_32bit() {
        let mut dmx_reg = RegisteredDemuxers::new();
        generic_register_all_demuxers(&mut dmx_reg);
        let mut dec_reg = RegisteredDecoders::new();
        qt_register_all_codecs(&mut dec_reg);

        test_decoding("mov", "qt-rle", "assets/QT/Jag-finder-renaming.mov", Some(10), &dmx_reg, &dec_reg,
                      ExpectedTestResult::MD5Frames(vec![
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
                            [0xe67d4be5, 0xe41ce60e, 0x4e6912c3, 0xc96dc521]]));
    }
}
Commit	Line	Data
4c1582cf KS	1	use nihav_core::codecs::*;
	2	use nihav_core::io::byteio::*;
	3	use nihav_codec_support::codecs::HAMShuffler;
	4
	5	const RGB555_FORMAT: NAPixelFormaton = NAPixelFormaton {
	6	model: ColorModel::RGB(RGBSubmodel::RGB), components: 3,
	7	comp_info: [
	8	Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 5, shift: 10, comp_offs: 0, next_elem: 2 }),
	9	Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 5, shift: 5, comp_offs: 0, next_elem: 2 }),
	10	Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 5, shift: 0, comp_offs: 0, next_elem: 2 }),
	11	None, None],
	12	elem_size: 2, be: false, alpha: false, palette: false };
	13
	14	pub const ARGB_FORMAT: NAPixelFormaton = NAPixelFormaton {
	15	model: ColorModel::RGB(RGBSubmodel::RGB), components: 4,
	16	comp_info: [
	17	Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: 1, next_elem: 4 }),
	18	Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: 2, next_elem: 4 }),
	19	Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: 3, next_elem: 4 }),
	20	Some(NAPixelChromaton{ h_ss: 0, v_ss: 0, packed: true, depth: 8, shift: 0, comp_offs: 0, next_elem: 4 }),
	21	None ],
	22	elem_size: 4, be: false, alpha: true, palette: false };
	23
	24	#[derive(Default)]
	25	struct RleDecoder {
	26	info: NACodecInfoRef,
	27	hams: HAMShuffler<u8>,
	28	hams16: HAMShuffler<u16>,
	29	width: usize,
	30	height: usize,
	31	depth: u8,
	32	}
	33
	34	#[allow(clippy::needless_range_loop)]
	35	fn unpack_mono(src: u16, dst: &mut [u8; 16]) {
	36	for i in 0..16 {
	37	dst[i] = ((src >> (15 - i)) & 1) as u8;
	38	}
	39	}
	40
	41	#[allow(clippy::needless_range_loop)]
	42	fn unpack_pixels(src: u32, dst: &mut [u8; 16], depth: u8) {
	43	let depth = depth as usize;
	44	let mask = (1 << depth) - 1;
	45	for i in 0..32 / depth {
	46	dst[i] = ((src >> (32 - depth - i * depth)) & mask) as u8;
	47	}
	48	}
	49
	50	impl RleDecoder {
	51	fn new() -> Self {
	52	Self::default()
	53	}
	54	fn decode_mono(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u8>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
	55	let mut has_skips = false;
	56	let mut pix_buf = [0u8; 16];
	57	let npixels = 16;
	58
	59	let stride = frm.stride[0];
	60	let mut doff = frm.offset[0] + start_line * stride;
	61	let mut y = start_line;
	62	while y < end_line {
	63	let mut x = 0;
	64	while x < self.width {
65	let skip_code = br.read_byte()?;
66	let rle_code = br.read_byte()? as i8;
67	if x == 0 {
68	validate!((skip_code & 0x80) != 0);
69	}
70	if rle_code == 0 {
71	return Ok(false);
72	}
73	if x != 0 && (skip_code & 0x80) != 0 {
74	x = 0;
75	y += 1;
76	validate!(y < end_line);
77	doff += stride;
78	has_skips = true;
79	}
80	let skip = (skip_code & 0x1F) as usize;
81	if skip > 0 {
82	has_skips = true;
83	}
84	validate!(x + skip * npixels <= self.width);
85	x += skip * npixels;
86	if rle_code < 0 {
87	let len = (-i16::from(rle_code)) as usize;
88	validate!(x + len * npixels <= self.width);
89	let val = br.read_u16be()?;
90	unpack_mono(val, &mut pix_buf);
91	for _ in 0..len {
92	for el in pix_buf.iter() {
93	frm.data[doff + x] = *el;
94	x += 1;
95	}
96	}
97	} else {
98	let len = rle_code as usize;
99	validate!(x + len * npixels <= self.width);
100	for _ in 0..len {
101	let val = br.read_u16be()?;
102	unpack_mono(val, &mut pix_buf);
103	for el in pix_buf.iter() {
104	frm.data[doff + x] = *el;
105	x += 1;
106	}
107	}
108	}
109	}
110	doff += stride;
111	y += 1;
112	}
113
114	Ok(has_skips)
115	}
116	fn decode_pal(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u8>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
117	let mut has_skips = false;
118	let mut pix_buf = [0u8; 16];
119	let npixels = match self.depth {
120	2 => 16,
121	4 => 8,
122	8 => 4,
123	_ => return Err(DecoderError::InvalidData),
124	};
125
126	let stride = frm.stride[0];
127	let mut doff = frm.offset[0] + start_line * stride;
128	for _ in start_line..end_line {
129	let mut x = 0;
130	let mut skip_mode = true;
131	while x < self.width {
132	if skip_mode {
133	let skip_code = br.read_byte()?;
134	if skip_code == 0 {
135	return Ok(true);
136	} else {
137	let skip = (skip_code - 1) as usize;
138	validate!(x + skip * npixels <= self.width);
139	x += skip * npixels;
140	has_skips = true;
141	}
142	skip_mode = false;
143	} else {
144	let rle_code = br.read_byte()? as i8;
145	if rle_code == 0 {
146	skip_mode = true;
147	} else if rle_code == -1 {
148	if x < self.width {
149	has_skips = true;
150	}
151	break;
152	} else if rle_code < 0 {
153	let len = (-i16::from(rle_code)) as usize;
154	validate!(x + len * npixels <= self.width);
155	let val = br.read_u32be()?;
156	unpack_pixels(val, &mut pix_buf, self.depth);
157	for _ in 0..len {
158	for el in pix_buf.iter().take(npixels) {
159	frm.data[doff + x] = *el;
160	x += 1;
161	}
162	}
163	} else {
164	let len = rle_code as usize;
165	validate!(x + len * npixels <= self.width);
166	for _ in 0..len {
167	let val = br.read_u32be()?;
168	unpack_pixels(val, &mut pix_buf, self.depth);
169	for el in pix_buf.iter().take(npixels) {
170	frm.data[doff + x] = *el;
171	x += 1;
172	}
173	}
174	}
175	}
176	}
177	if x == self.width {
178	let eol = br.read_byte()? as i8;
179	validate!(eol == -1);
180	}
181	doff += stride;
182	}
183
184	Ok(has_skips)
185	}
186	fn decode_16bit(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u16>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
187	let mut has_skips = false;
188
189	let stride = frm.stride[0];
190	let mut doff = frm.offset[0] + start_line * stride;
191	for _ in start_line..end_line {
192	let mut x = 0;
193	let mut skip_mode = true;
194	while x < self.width {
195	if skip_mode {
196	let skip_code = br.read_byte()?;
197	if skip_code == 0 {
198	return Ok(true);
199	} else {
200	let skip = (skip_code - 1) as usize;
201	validate!(x + skip <= self.width);
202	x += skip;
203	has_skips = true;
204	}
205	skip_mode = false;
206	} else {
207	let rle_code = br.read_byte()? as i8;
208	if rle_code == 0 {
209	skip_mode = true;
210	} else if rle_code == -1 {
211	if x < self.width {
212	has_skips = true;
213	}
214	break;
215	} else if rle_code < 0 {
216	let len = (-i16::from(rle_code)) as usize;
217	validate!(x + len <= self.width);
218	let pix = br.read_u16be()?;
219	for _ in 0..len {
220	frm.data[doff + x] = pix;
221	x += 1;
222	}
223	} else {
224	let len = rle_code as usize;
225	validate!(x + len <= self.width);
226	for _ in 0..len {
227	frm.data[doff + x] = br.read_u16be()?;
228	x += 1;
229	}
230	}
231	}
232	}
233	if x == self.width {
234	let eol = br.read_byte()? as i8;
235	validate!(eol == -1);
236	}
237	doff += stride;
238	}
239
240	Ok(has_skips)
241	}
242	fn decode_24bit(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u8>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
243	let mut has_skips = false;
244	let mut rgb = [0u8; 3];
245
246	let stride = frm.stride[0];
247	let mut doff = frm.offset[0] + start_line * stride;
248	for _ in start_line..end_line {
249	let mut x = 0;
250	let mut skip_mode = true;
251	while x < self.width {
252	if skip_mode {
253	let skip_code = br.read_byte()?;
254	if skip_code == 0 {
255	return Ok(true);
256	} else {
257	let skip = (skip_code - 1) as usize;
258	validate!(x + skip <= self.width);
259	x += skip;
260	has_skips = true;
261	}
262	skip_mode = false;
263	} else {
264	let rle_code = br.read_byte()? as i8;
265	if rle_code == 0 {
266	skip_mode = true;
267	} else if rle_code == -1 {
268	if x < self.width {
269	has_skips = true;
270	}
271	break;
272	} else if rle_code < 0 {
273	let len = (-i16::from(rle_code)) as usize;
274	validate!(x + len <= self.width);
275	br.read_buf(&mut rgb)?;
276	for _ in 0..len {
277	frm.data[doff + x * 3] = rgb[0];
278	frm.data[doff + x * 3 + 1] = rgb[1];
279	frm.data[doff + x * 3 + 2] = rgb[2];
280	x += 1;
281	}
282	} else {
283	let len = rle_code as usize;
284	validate!(x + len <= self.width);
285	br.read_buf(&mut frm.data[doff + x * 3..][..len * 3])?;
286	x += len;
287	}
288	}
289	}
290	if x == self.width {
291	let eol = br.read_byte()? as i8;
292	validate!(eol == -1);
293	}
294	doff += stride;
295	}
296
297	Ok(has_skips)
298	}
299	fn decode_32bit(&self, br: &mut ByteReader, frm: &mut NASimpleVideoFrame<u8>, start_line: usize, end_line: usize) -> DecoderResult<bool> {
300	let mut has_skips = false;
301	let mut rgb = [0u8; 4];
302
303	let stride = frm.stride[0];
304	let mut doff = frm.offset[0] + start_line * stride;
305	for _ in start_line..end_line {
306	let mut x = 0;
307	let mut skip_mode = true;
308	while x < self.width {
309	if skip_mode {
310	let skip_code = br.read_byte()?;
311	if skip_code == 0 {
312	return Ok(true);
313	} else {
314	let skip = (skip_code - 1) as usize;
315	validate!(x + skip <= self.width);
316	x += skip;
317	has_skips = true;
318	}
319	skip_mode = false;
320	} else {
321	let rle_code = br.read_byte()? as i8;
322	if rle_code == 0 {
323	skip_mode = true;
324	} else if rle_code == -1 {
325	if x < self.width {
326	has_skips = true;
327	}
328	break;
329	} else if rle_code < 0 {
330	let len = (-i16::from(rle_code)) as usize;
331	validate!(x + len <= self.width);
332	br.read_buf(&mut rgb)?;
333	for _ in 0..len {
334	frm.data[doff + x * 4] = rgb[0];
335	frm.data[doff + x * 4 + 1] = rgb[1];
336	frm.data[doff + x * 4 + 2] = rgb[2];
337	frm.data[doff + x * 4 + 3] = rgb[3];
338	x += 1;
339	}
340	} else {
341	let len = rle_code as usize;
342	validate!(x + len <= self.width);
343	br.read_buf(&mut frm.data[doff + x * 4..][..len * 4])?;
344	x += len;
345	}
346	}
347	}
348	if x == self.width {
349	let eol = br.read_byte()? as i8;
350	validate!(eol == -1);
351	}
352	doff += stride;
353	}
354
355	Ok(has_skips)
356	}
357	}
358
359	impl NADecoder for RleDecoder {
360	fn init(&mut self, _supp: &mut NADecoderSupport, info: NACodecInfoRef) -> DecoderResult<()> {
361	if let NACodecTypeInfo::Video(vinfo) = info.get_properties() {
362	self.width = vinfo.get_width();
363	self.height = vinfo.get_height();
364	self.depth = vinfo.bits;
365	let fmt = match self.depth {
366	1 \| 2 \| 4 \| 8 => PAL8_FORMAT,
367	15 \| 16 => RGB555_FORMAT,
368	24 => RGB24_FORMAT,
369	32 => ARGB_FORMAT,
370	_ => return Err(DecoderError::InvalidData),
371	};
372	let myinfo = NACodecTypeInfo::Video(NAVideoInfo::new(self.width, self.height, false, fmt));
373	self.info = NACodecInfo::new_ref(info.get_name(), myinfo, info.get_extradata()).into_ref();
374
375	Ok(())
376	} else {
377	Err(DecoderError::InvalidData)
378	}
379	}
380	fn decode(&mut self, _supp: &mut NADecoderSupport, pkt: &NAPacket) -> DecoderResult<NAFrameRef> {
381	let src = pkt.get_buffer();
382	validate!(src.len() >= 2);
383	let mut mr = MemoryReader::new_read(src.as_slice());
384	let mut br = ByteReader::new(&mut mr);
385
386	let id = br.read_byte()?;
387	validate!(id == 0x40 \|\| id == 0x00);
388	let length = br.read_u24be()? as usize;
389	validate!(length == src.len());
390
391	let flags = br.read_u16be()?;
392	let (start_line, end_line) = if (flags & 0x8) != 0 {
393	let start = br.read_u16be()? as usize;
394	br.read_skip(2)?;
395	let h = br.read_u16be()? as usize;
396	br.read_skip(2)?;
397	validate!(start + h <= self.height);
398	(start, start + h)
399	} else {
400	(0, self.height)
401	};
402
403	let mut has_skips;
404	let buftype;
405	if self.depth <= 8 {
406	let bufret = self.hams.clone_ref();
407	let mut buf;
408	if let Some(bbuf) = bufret {
409	buf = bbuf;
410	} else {
411	let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 0)?;
412	buf = bufinfo.get_vbuf().unwrap();
413	self.hams.add_frame(buf);
414	buf = self.hams.get_output_frame().unwrap();
415	}
416	let mut frm = NASimpleVideoFrame::from_video_buf(&mut buf).unwrap();
417	if self.depth != 1 {
418	has_skips = self.decode_pal(&mut br, &mut frm, start_line, end_line)?;
419	} else {
420	has_skips = self.decode_mono(&mut br, &mut frm, start_line, end_line)?;
421	}
422
423	let paloff = frm.offset[1];
424	let dpal = &mut frm.data[paloff..];
425	for sd in pkt.side_data.iter() {
426	match *sd {
427	NASideData::Palette(_, ref pal) => {
428	for (dst, src) in dpal.chunks_mut(3).zip(pal.chunks(4)) {
429	dst[0] = src[0];
430	dst[1] = src[1];
431	dst[2] = src[2];
432	}
433	break;
434	},
435	_ => {},
436	};
437	}
438	buftype = NABufferType::Video(buf);
439	} else if self.depth == 16 {
440	let bufret = self.hams16.clone_ref();
441	let mut buf;
442	if let Some(bbuf) = bufret {
443	buf = bbuf;
444	} else {
445	let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 0)?;
446	buf = bufinfo.get_vbuf16().unwrap();
447	self.hams16.add_frame(buf);
448	buf = self.hams16.get_output_frame().unwrap();
449	}
450	let mut frm = NASimpleVideoFrame::from_video_buf(&mut buf).unwrap();
451	has_skips = self.decode_16bit(&mut br, &mut frm, start_line, end_line)?;
452	buftype = NABufferType::Video16(buf);
453	} else if self.depth == 24 {
454	let bufret = self.hams.clone_ref();
455	let mut buf;
456	if let Some(bbuf) = bufret {
457	buf = bbuf;
458	} else {
459	let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 0)?;
460	buf = bufinfo.get_vbuf().unwrap();
461	self.hams.add_frame(buf);
462	buf = self.hams.get_output_frame().unwrap();
463	}
464	let mut frm = NASimpleVideoFrame::from_video_buf(&mut buf).unwrap();
465	has_skips = self.decode_24bit(&mut br, &mut frm, start_line, end_line)?;
466	buftype = NABufferType::Video(buf);
467	} else if self.depth == 32 {
468	let bufret = self.hams.clone_ref();
469	let mut buf;
470	if let Some(bbuf) = bufret {
471	buf = bbuf;
472	} else {
473	let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 0)?;
474	buf = bufinfo.get_vbuf().unwrap();
475	self.hams.add_frame(buf);
476	buf = self.hams.get_output_frame().unwrap();
477	}
478	let mut frm = NASimpleVideoFrame::from_video_buf(&mut buf).unwrap();
479	has_skips = self.decode_32bit(&mut br, &mut frm, start_line, end_line)?;
480	buftype = NABufferType::Video(buf);
481	} else {
482	return Err(DecoderError::InvalidData);
483	}
484	if (start_line != 0) \|\| (end_line != self.height) {
485	has_skips = true;
486	}
487
488	let mut frm = NAFrame::new_from_pkt(pkt, self.info.clone(), buftype);
489	frm.set_keyframe(!has_skips);
490	frm.set_frame_type(if !has_skips { FrameType::I } else { FrameType::P });
491	Ok(frm.into_ref())
492	}
493	fn flush(&mut self) {
494	self.hams.clear();
495	self.hams16.clear();
496	}
497	}
498
499	impl NAOptionHandler for RleDecoder {
500	fn get_supported_options(&self) -> &[NAOptionDefinition] { &[] }
501	fn set_options(&mut self, _options: &[NAOption]) { }
502	fn query_option_value(&self, _name: &str) -> Option<NAValue> { None }
503	}
504
505	pub fn get_decoder() -> Box<dyn NADecoder + Send> {
506	Box::new(RleDecoder::new())
507	}
508
509	#[cfg(test)]
510	mod test {
511	use nihav_core::codecs::RegisteredDecoders;
512	use nihav_core::demuxers::RegisteredDemuxers;
513	use nihav_codec_support::test::dec_video::*;
514	use crate::qt_register_all_codecs;
515	use nihav_commonfmt::generic_register_all_demuxers;
516	#[test]
517	fn test_qt_rle_1bit() {
518	let mut dmx_reg = RegisteredDemuxers::new();
519	generic_register_all_demuxers(&mut dmx_reg);
520	let mut dec_reg = RegisteredDecoders::new();
521	qt_register_all_codecs(&mut dec_reg);
522
523	//test_file_decoding("mov", "assets/QT/Animation-Monochrome.mov", Some(6), true, false, Some("qtrle-mono"), &dmx_reg, &dec_reg);
524	test_decoding("mov", "qt-rle", "assets/QT/Animation-Monochrome.mov", Some(6), &dmx_reg, &dec_reg,
525	ExpectedTestResult::MD5Frames(vec![
526	[0xc5b6fd2b, 0x87aae95c, 0xc32d0aaa, 0x4ed21592],
527	[0xe13aa599, 0x2ec6421e, 0xfcfdcc81, 0x8c2ee2ef],
528	[0xd835547b, 0xe2ffd6c9, 0xe24135c1, 0x7d2bb64f],
529	[0x6176e812, 0xb637444c, 0x71b1cbe5, 0xfc98905f],
530	[0x53a6b414, 0xbbf266c0, 0x859c3d10, 0x179a2252],
531	[0x56bc8cdd, 0x6438ba4d, 0x056e79c1, 0xb851e767],
532	[0xc25b9fec, 0xfc93233a, 0x30301b6d, 0xb290f5d7]]));
533	}
534	#[test]
535	fn test_qt_rle_4bit() {
536	let mut dmx_reg = RegisteredDemuxers::new();
537	generic_register_all_demuxers(&mut dmx_reg);
538	let mut dec_reg = RegisteredDecoders::new();
539	qt_register_all_codecs(&mut dec_reg);
540
541	test_decoding("mov", "qt-rle", "assets/QT/Animation-16Greys.mov", Some(6), &dmx_reg, &dec_reg,
542	ExpectedTestResult::MD5Frames(vec![
543	[0x280c82aa, 0xa8bd11a6, 0x5b5babda, 0xeff58dd9],
544	[0x5c732231, 0x81d20be3, 0x41249639, 0xab2a9841],
545	[0xb689268d, 0x26de8510, 0x506e0a06, 0xb0dcfc40],
546	[0x09dced38, 0xbd0f5482, 0x3803efc9, 0x84bcaac4],
547	[0x5c49f8cc, 0xc1e2bd17, 0x1c22b849, 0x8f09afd5],
548	[0xe9f7b847, 0x13a4e429, 0x1b8af943, 0x82766ed2],
549	[0x2833c41a, 0x53781343, 0xce083e07, 0xdc3b24e9]]));
550	}
551	#[test]
552	fn test_qt_rle_8bit() {
553	let mut dmx_reg = RegisteredDemuxers::new();
554	generic_register_all_demuxers(&mut dmx_reg);
555	let mut dec_reg = RegisteredDecoders::new();
556	qt_register_all_codecs(&mut dec_reg);
557
558	test_decoding("mov", "qt-rle", "assets/QT/Animation-256Greys.mov", Some(6), &dmx_reg, &dec_reg,
559	ExpectedTestResult::MD5Frames(vec![
560	[0x3c439212, 0x419944a5, 0xb274d9f5, 0xf3c53b12],
561	[0xd2a51886, 0xfbd37c2e, 0x899806c6, 0x465a66e0],
562	[0xbd59029e, 0x9de8766c, 0xd681bf0c, 0xa7fe4dfe],
563	[0x6150d380, 0xe8d67e0b, 0x0beb8455, 0xfcfd899d],
564	[0xba0f6b50, 0xba253267, 0xb727c5d7, 0x10dbf0c7],
565	[0x4f93f1aa, 0x2f10aa86, 0xfa97b35f, 0x687065df],
566	[0x730270e2, 0x3a3e02f1, 0xb906f478, 0xdb42af87]]));
567	}
568	#[test]
569	fn test_qt_rle_16bit() {
570	let mut dmx_reg = RegisteredDemuxers::new();
571	generic_register_all_demuxers(&mut dmx_reg);
572	let mut dec_reg = RegisteredDecoders::new();
573	qt_register_all_codecs(&mut dec_reg);
574
575	test_decoding("mov", "qt-rle", "assets/QT/Animation-Highcolour.mov", Some(6), &dmx_reg, &dec_reg,
576	ExpectedTestResult::MD5Frames(vec![
577	[0x8fa5361b, 0xd36d6def, 0x33b250e9, 0xab98a41c],
578	[0xdd253ce0, 0xbc5fd3a1, 0x51fe2394, 0x950f18e4],
579	[0xbf34ca8d, 0x1faa24ee, 0x8d70af09, 0x742a4056],
580	[0x9feca59b, 0xdca7dc1d, 0xb6fe14f1, 0xd88c8b67],
581	[0x2e1544b8, 0x89a7e788, 0x0efcde09, 0xec4e7995],
582	[0x1e28b2a8, 0xd53495ca, 0x405a9b6e, 0x59338cad],
583	[0xe90156a4, 0xb64bca4a, 0x5cdf6681, 0xc32945fb]]));
584	}
585	#[test]
586	fn test_qt_rle_24bit() {
587	let mut dmx_reg = RegisteredDemuxers::new();
588	generic_register_all_demuxers(&mut dmx_reg);
589	let mut dec_reg = RegisteredDecoders::new();
590	qt_register_all_codecs(&mut dec_reg);
591
592	test_decoding("mov", "qt-rle", "assets/QT/Animation-Highcolour.mov", Some(6), &dmx_reg, &dec_reg,
593	ExpectedTestResult::MD5Frames(vec![
594	[0x8fa5361b, 0xd36d6def, 0x33b250e9, 0xab98a41c],
595	[0xdd253ce0, 0xbc5fd3a1, 0x51fe2394, 0x950f18e4],
596	[0xbf34ca8d, 0x1faa24ee, 0x8d70af09, 0x742a4056],
597	[0x9feca59b, 0xdca7dc1d, 0xb6fe14f1, 0xd88c8b67],
598	[0x2e1544b8, 0x89a7e788, 0x0efcde09, 0xec4e7995],
599	[0x1e28b2a8, 0xd53495ca, 0x405a9b6e, 0x59338cad],
600	[0xe90156a4, 0xb64bca4a, 0x5cdf6681, 0xc32945fb]]));
601	}
602	#[test]
603	fn test_qt_rle_32bit() {
604	let mut dmx_reg = RegisteredDemuxers::new();
605	generic_register_all_demuxers(&mut dmx_reg);
606	let mut dec_reg = RegisteredDecoders::new();
607	qt_register_all_codecs(&mut dec_reg);
608
609	test_decoding("mov", "qt-rle", "assets/QT/Jag-finder-renaming.mov", Some(10), &dmx_reg, &dec_reg,
610	ExpectedTestResult::MD5Frames(vec![
611	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
612	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
613	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
614	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
615	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
616	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
617	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
618	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
619	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
620	[0xe82390cf, 0xfaceab34, 0xcc857b2f, 0xed47f125],
f5066527	621	[0xe67d4be5, 0xe41ce60e, 0x4e6912c3, 0xc96dc521]]));
4c1582cf KS	622	}
4c1582cf KS	623	}