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|
use nihav_core::codecs::*;
use nihav_core::io::byteio::*;
use super::truemotion1data::*;
struct MaskState<'a> {
is_intra: bool,
pos: usize,
row_pos: usize,
row_size: usize,
mask: u8,
src: &'a [u8],
}
impl<'a> MaskState<'a> {
fn new(is_intra: bool, src: &'a [u8], row_size: usize) -> Self {
Self { is_intra, src, pos: 0, row_pos: 0, row_size, mask: 0x01 }
}
fn get_next(&mut self) -> bool {
if self.is_intra {
true
} else {
let res = (self.src[self.pos] & self.mask) == 0;
self.mask <<= 1;
if self.mask == 0 {
self.pos += 1;
self.mask = 0x01;
}
res
}
}
fn reset_row(&mut self) {
self.pos = self.row_pos;
self.mask = 0x01;
}
fn next_row(&mut self) {
self.row_pos += self.row_size;
self.reset_row();
}
}
struct IndexState<'a> {
src: &'a [u8],
pos: usize,
vec_idx: usize,
vec_subidx: usize,
}
impl<'a> IndexState<'a> {
fn new(src: &'a [u8]) -> Self {
Self { src, pos: 0, vec_idx: 0, vec_subidx: 0 }
}
fn get_next(&mut self) -> DecoderResult<()> {
validate!(self.pos < self.src.len());
self.vec_idx = self.src[self.pos] as usize;
self.vec_subidx = 0;
self.pos += 1;
Ok(())
}
fn get_pred(&self, dtab: &[[u32; 4]; 256]) -> u32 { dtab[self.vec_idx][self.vec_subidx] }
fn get_diff16(&mut self, dtab: &[[u32; 4]; 256]) -> DecoderResult<u32> {
let pred1 = self.get_pred(dtab);
let mut pred = pred1 >> 1;
if (pred1 & 1) != 0 {
self.get_next()?;
if self.vec_idx == 0 {
self.get_next()?;
let pred2 = self.get_pred(dtab);
pred = pred.wrapping_add((pred2 >> 1).wrapping_mul(5));
if (pred2 & 1) != 0 {
self.get_next()?;
} else {
self.vec_subidx += 1;
}
}
} else {
self.vec_subidx += 1;
}
Ok(pred)
}
fn get_diff16_noesc(&mut self, dtab: &[[u32; 4]; 256]) -> DecoderResult<u32> {
let pred1 = self.get_pred(dtab);
let pred = pred1 >> 1;
if (pred1 & 1) != 0 {
self.get_next()?;
} else {
self.vec_subidx += 1;
}
Ok(pred)
}
fn get_diff24(&mut self, dtab: &[[u32; 4]; 256], esctab: &[[u32; 4]; 256]) -> DecoderResult<u32> {
let pred1 = self.get_pred(dtab);
let mut pred = pred1 >> 1;
if (pred1 & 1) != 0 {
self.get_next()?;
if self.vec_idx == 0 {
self.get_next()?;
let pred2 = self.get_pred(esctab);
pred = pred.wrapping_add(pred2 >> 1);
if (pred2 & 1) != 0 {
self.get_next()?;
} else {
self.vec_subidx += 1;
}
}
} else {
self.vec_subidx += 1;
}
Ok(pred)
}
}
struct DeltaTables {
ydt: [[u32; 4]; 256],
cdt: [[u32; 4]; 256],
fat_ydt: [[u32; 4]; 256],
fat_cdt: [[u32; 4]; 256],
adt: [[u32; 4]; 256],
}
impl Default for DeltaTables {
fn default() -> Self {
Self {
ydt: [[0; 4]; 256],
cdt: [[0; 4]; 256],
fat_ydt: [[0; 4]; 256],
fat_cdt: [[0; 4]; 256],
adt: [[0; 4]; 256],
}
}
}
#[derive(Default)]
struct FrameBuf {
last16: Option<NAVideoBufferRef<u16>>,
last24: Option<NAVideoBufferRef<u8>>,
}
impl FrameBuf {
fn set16(&mut self, buf: NAVideoBufferRef<u16>) { self.last16 = Some(buf); }
fn set24(&mut self, buf: NAVideoBufferRef<u8>) { self.last24 = Some(buf); }
fn get16(&mut self) -> Option<NAVideoBufferRef<u16>> {
if let Some(ref mut frm) = self.last16 {
let newfrm = frm.copy_buffer();
*frm = newfrm.clone().into_ref();
Some(newfrm.into_ref())
} else {
None
}
}
fn get24(&mut self) -> Option<NAVideoBufferRef<u8>> {
if let Some(ref mut frm) = self.last24 {
let newfrm = frm.copy_buffer();
*frm = newfrm.clone().into_ref();
Some(newfrm.into_ref())
} else {
None
}
}
fn reset(&mut self) {
self.last16 = None;
self.last24 = None;
}
}
#[derive(Default)]
struct TM1Decoder {
info: NACodecInfoRef,
last_delta_set: usize,
last_table_idx: usize,
delta_tables: DeltaTables,
blk_w: usize,
blk_h: usize,
vert_pred: Vec<u32>,
lastframe: FrameBuf,
}
impl TM1Decoder {
fn new() -> Self { Self::default() }
fn set_delta_tables(&mut self, delta_set: usize, table_idx: usize, is_24bit: bool) {
if (self.last_delta_set == delta_set) && (self.last_table_idx == table_idx) { return; }
let ydt = &DUCK_Y_DELTAS[delta_set];
let yfdt = DUCK_Y_FAT_DELTAS[delta_set];
let cdt = &DUCK_C_DELTAS[delta_set];
let cfdt = DUCK_C_FAT_DELTAS[delta_set];
let vec = DUCK_VECTABLES[table_idx - 1];
let mut vec_iter = vec.iter();
for i in 0..256 {
let len = (*vec_iter.next().unwrap() as usize) >> 1;
for j in 0..len {
let pair = vec_iter.next().unwrap();
let lo = (pair >> 4) as usize;
let hi = (pair & 0xF) as usize;
if !is_24bit {
let d_lo = ydt[lo] + (ydt[lo] << 5) + (ydt[lo] << 10);
let d_hi = ydt[hi] + (ydt[hi] << 5) + (ydt[hi] << 10);
self.delta_tables.ydt[i][j] = ((d_lo + (d_hi << 16)) << 1) as u32;
let d_c = cdt[hi] + (cdt[lo] << 10);
self.delta_tables.cdt[i][j] = ((d_c + (d_c << 16)) << 1) as u32;
let d_a = lo + hi * 5;
self.delta_tables.adt[i][j] = ((d_a << 16) << 1) as u32;
} else {
self.delta_tables.ydt[i][j] = ((ydt [lo] + (ydt [hi] << 8) + (ydt [hi] << 16)) << 1) as u32;
self.delta_tables.fat_ydt[i][j] = ((yfdt[lo] + (yfdt[hi] << 8) + (yfdt[hi] << 16)) << 1) as u32;
self.delta_tables.cdt[i][j] = ((cdt [hi] + (cdt [lo] << 16)) << 1) as u32;
self.delta_tables.fat_cdt[i][j] = ((cfdt[hi] + (cfdt[lo] << 16)) << 1) as u32;
}
}
self.delta_tables.ydt[i][len - 1] |= 1;
self.delta_tables.cdt[i][len - 1] |= 1;
self.delta_tables.adt[i][len - 1] |= 1;
self.delta_tables.fat_ydt[i][len - 1] |= 1;
self.delta_tables.fat_cdt[i][len - 1] |= 1;
}
self.last_delta_set = delta_set;
self.last_table_idx = table_idx;
}
fn decode_16bit(&mut self, dst: &mut [u16], stride: usize, width: usize, height: usize, mask: &mut MaskState<'_>, index: &mut IndexState<'_>) -> DecoderResult<()> {
let mut off = 0;
index.get_next()?;
for y in 0..height {
let mut hor_pred: u32 = 0;
for x in (0..width).step_by(4) {
if mask.get_next() {
match y & 3 {
0 => {
let dc0 = index.get_diff16(&self.delta_tables.cdt)?;
let dy0 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dc0);
hor_pred = hor_pred.wrapping_add(dy0);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 0]);
self.vert_pred[(x >> 1) + 0] = cur;
dst[off + x + 0] = cur as u16;
dst[off + x + 1] = (cur >> 16) as u16;
if self.blk_w == 2 {
let dc1 = index.get_diff16(&self.delta_tables.cdt)?;
hor_pred = hor_pred.wrapping_add(dc1);
}
let dy1 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 1]);
self.vert_pred[(x >> 1) + 1] = cur;
dst[off + x + 2] = cur as u16;
dst[off + x + 3] = (cur >> 16) as u16;
},
1 | 3 => {
let dy0 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy0);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 0]);
self.vert_pred[(x >> 1) + 0] = cur;
dst[off + x + 0] = cur as u16;
dst[off + x + 1] = (cur >> 16) as u16;
let dy1 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 1]);
self.vert_pred[(x >> 1) + 1] = cur;
dst[off + x + 2] = cur as u16;
dst[off + x + 3] = (cur >> 16) as u16;
},
2 => {
if self.blk_h == 2 {
let dc0 = index.get_diff16(&self.delta_tables.cdt)?;
let dy0 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dc0);
hor_pred = hor_pred.wrapping_add(dy0);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 0]);
self.vert_pred[(x >> 1) + 0] = cur;
dst[off + x + 0] = cur as u16;
dst[off + x + 1] = (cur >> 16) as u16;
if self.blk_w == 2 {
let dc1 = index.get_diff16(&self.delta_tables.cdt)?;
hor_pred = hor_pred.wrapping_add(dc1);
}
let dy1 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 1]);
self.vert_pred[(x >> 1) + 1] = cur;
dst[off + x + 2] = cur as u16;
dst[off + x + 3] = (cur >> 16) as u16;
} else {
let dy0 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy0);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 0]);
self.vert_pred[(x >> 1) + 0] = cur;
dst[off + x + 0] = cur as u16;
dst[off + x + 1] = (cur >> 16) as u16;
let dy1 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 1]);
self.vert_pred[(x >> 1) + 1] = cur;
dst[off + x + 2] = cur as u16;
dst[off + x + 3] = (cur >> 16) as u16;
}
},
_ => unreachable!(),
};
} else {
let cur = u32::from(dst[off + x + 0]) | (u32::from(dst[off + x + 1]) << 16);
self.vert_pred[(x >> 1) + 0] = cur;
let cur = u32::from(dst[off + x + 2]) | (u32::from(dst[off + x + 3]) << 16);
hor_pred = cur.wrapping_sub(self.vert_pred[(x >> 1) + 1]);
self.vert_pred[(x >> 1) + 1] = cur;
}
}
if (y & 3) != 3 {
mask.reset_row();
} else {
mask.next_row();
}
off += stride;
}
Ok(())
}
fn decode_sprite(&mut self, dst: &mut [u16], stride: usize, width: usize, height: usize, mask: &mut MaskState<'_>, index: &mut IndexState<'_>) -> DecoderResult<()> {
let mut off = 0;
let _ = index.get_next();
for y in 0..height {
let mut hor_pred: u32 = 0;
for x in (0..width).step_by(4) {
let is_tm = !mask.get_next();
let is_sprite = !mask.get_next();
if is_tm {
if (y & 3) == 0 {
let dc0 = index.get_diff16(&self.delta_tables.cdt)?;
hor_pred = hor_pred.wrapping_add(dc0);
}
let dy0 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy0);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 0]);
self.vert_pred[(x >> 1) + 0] = cur;
dst[off + x + 0] = cur as u16;
dst[off + x + 1] = (cur >> 16) as u16;
let dy1 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 1]);
self.vert_pred[(x >> 1) + 1] = cur;
dst[off + x + 2] = cur as u16;
dst[off + x + 3] = (cur >> 16) as u16;
} else if is_sprite {
if (y & 3) == 0 {
let dc0 = index.get_diff16(&self.delta_tables.cdt)?;
hor_pred = hor_pred.wrapping_add(dc0);
}
let dy0 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy0);
let _da0 = index.get_diff16_noesc(&self.delta_tables.adt)?;
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 0]);
self.vert_pred[(x >> 1) + 0] = cur;
dst[off + x + 0] = cur as u16;
dst[off + x + 1] = (cur >> 16) as u16;
let dy1 = index.get_diff16(&self.delta_tables.ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let _da1 = index.get_diff16_noesc(&self.delta_tables.adt)?;
let cur = hor_pred.wrapping_add(self.vert_pred[(x >> 1) + 1]);
self.vert_pred[(x >> 1) + 1] = cur;
dst[off + x + 2] = cur as u16;
dst[off + x + 3] = (cur >> 16) as u16;
} else {
hor_pred = 0;
dst[off + x + 0] = 0;
dst[off + x + 1] = 0;
dst[off + x + 2] = 0;
dst[off + x + 3] = 0;
self.vert_pred[(x >> 1) + 0] = 0;
self.vert_pred[(x >> 1) + 1] = 0;
}
}
if (y & 3) != 3 {
mask.reset_row();
} else {
mask.next_row();
}
off += stride;
}
Ok(())
}
fn decode_24bit(&mut self, dst: &mut [u8], stride: usize, width: usize, height: usize, mask: &mut MaskState<'_>, index: &mut IndexState<'_>) -> DecoderResult<()> {
let mut off = 0;
index.get_next()?;
for y in 0..height {
let mut hor_pred: u32 = 0;
for x in (0..width).step_by(2) {
if mask.get_next() {
match y & 3 {
0 => {
let dc0 = index.get_diff24(&self.delta_tables.cdt, &self.delta_tables.fat_cdt)?;
let dy0 = index.get_diff24(&self.delta_tables.ydt, &self.delta_tables.fat_ydt)?;
hor_pred = hor_pred.wrapping_add(dc0);
hor_pred = hor_pred.wrapping_add(dy0);
let cur = hor_pred.wrapping_add(self.vert_pred[x + 0]);
self.vert_pred[x + 0] = cur;
dst[off + x*4 + 0] = cur as u8;
dst[off + x*4 + 1] = (cur >> 8) as u8;
dst[off + x*4 + 2] = (cur >> 16) as u8;
dst[off + x*4 + 3] = 0;
if self.blk_w == 2 {
let dc1 = index.get_diff24(&self.delta_tables.cdt, &self.delta_tables.fat_cdt)?;
hor_pred = hor_pred.wrapping_add(dc1);
}
let dy1 = index.get_diff24(&self.delta_tables.ydt, &self.delta_tables.fat_ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let cur = hor_pred.wrapping_add(self.vert_pred[x + 1]);
self.vert_pred[x + 1] = cur;
dst[off + x*4 + 4] = cur as u8;
dst[off + x*4 + 5] = (cur >> 8) as u8;
dst[off + x*4 + 6] = (cur >> 16) as u8;
dst[off + x*4 + 7] = 0;
},
1 | 3 => {
let dy0 = index.get_diff24(&self.delta_tables.ydt, &self.delta_tables.fat_ydt)?;
hor_pred = hor_pred.wrapping_add(dy0);
let cur = hor_pred.wrapping_add(self.vert_pred[x + 0]);
self.vert_pred[x + 0] = cur;
dst[off + x*4 + 0] = cur as u8;
dst[off + x*4 + 1] = (cur >> 8) as u8;
dst[off + x*4 + 2] = (cur >> 16) as u8;
dst[off + x*4 + 3] = 0;
let dy1 = index.get_diff24(&self.delta_tables.ydt, &self.delta_tables.fat_ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let cur = hor_pred.wrapping_add(self.vert_pred[x + 1]);
self.vert_pred[x + 1] = cur;
dst[off + x*4 + 4] = cur as u8;
dst[off + x*4 + 5] = (cur >> 8) as u8;
dst[off + x*4 + 6] = (cur >> 16) as u8;
dst[off + x*4 + 7] = 0;
},
2 => {
if self.blk_h == 2 {
let dc0 = index.get_diff24(&self.delta_tables.cdt, &self.delta_tables.fat_cdt)?;
let dy0 = index.get_diff24(&self.delta_tables.ydt, &self.delta_tables.fat_ydt)?;
hor_pred = hor_pred.wrapping_add(dc0);
hor_pred = hor_pred.wrapping_add(dy0);
let cur = hor_pred.wrapping_add(self.vert_pred[x + 0]);
self.vert_pred[x + 0] = cur;
dst[off + x*4 + 0] = cur as u8;
dst[off + x*4 + 1] = (cur >> 8) as u8;
dst[off + x*4 + 2] = (cur >> 16) as u8;
dst[off + x*4 + 3] = 0;
if self.blk_w == 2 {
let dc1 = index.get_diff24(&self.delta_tables.cdt, &self.delta_tables.fat_cdt)?;
hor_pred = hor_pred.wrapping_add(dc1);
}
let dy1 = index.get_diff24(&self.delta_tables.ydt, &self.delta_tables.fat_ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let cur = hor_pred.wrapping_add(self.vert_pred[x + 1]);
self.vert_pred[x + 1] = cur;
dst[off + x*4 + 4] = cur as u8;
dst[off + x*4 + 5] = (cur >> 8) as u8;
dst[off + x*4 + 6] = (cur >> 16) as u8;
dst[off + x*4 + 7] = 0;
} else {
let dy0 = index.get_diff24(&self.delta_tables.ydt, &self.delta_tables.fat_ydt)?;
hor_pred = hor_pred.wrapping_add(dy0);
let cur = hor_pred.wrapping_add(self.vert_pred[x + 0]);
self.vert_pred[x + 0] = cur;
dst[off + x*4 + 0] = cur as u8;
dst[off + x*4 + 1] = (cur >> 8) as u8;
dst[off + x*4 + 2] = (cur >> 16) as u8;
dst[off + x*4 + 3] = 0;
let dy1 = index.get_diff24(&self.delta_tables.ydt, &self.delta_tables.fat_ydt)?;
hor_pred = hor_pred.wrapping_add(dy1);
let cur = hor_pred.wrapping_add(self.vert_pred[x + 1]);
self.vert_pred[x + 1] = cur;
dst[off + x*4 + 4] = cur as u8;
dst[off + x*4 + 5] = (cur >> 8) as u8;
dst[off + x*4 + 6] = (cur >> 16) as u8;
dst[off + x*4 + 7] = 0;
}
},
_ => unreachable!(),
};
} else {
let cur = u32::from(dst[off + x*4 + 0])
| (u32::from(dst[off + x*4 + 1]) << 8)
| (u32::from(dst[off + x*4 + 2]) << 16)
| (u32::from(dst[off + x*4 + 3]) << 24);
self.vert_pred[x + 0] = cur;
let cur = u32::from(dst[off + x*4 + 4])
| (u32::from(dst[off + x*4 + 5]) << 8)
| (u32::from(dst[off + x*4 + 6]) << 16)
| (u32::from(dst[off + x*4 + 7]) << 24);
hor_pred = cur.wrapping_sub(self.vert_pred[x + 1]);
self.vert_pred[x + 1] = cur;
}
}
if (y & 3) != 3 {
mask.reset_row();
} else {
mask.next_row();
}
off += stride;
}
Ok(())
}
}
impl NADecoder for TM1Decoder {
fn init(&mut self, _supp: &mut NADecoderSupport, info: NACodecInfoRef) -> DecoderResult<()> {
if let NACodecTypeInfo::Video(vinfo) = info.get_properties() {
let myinfo = NACodecTypeInfo::Video(NAVideoInfo::new(vinfo.get_width(), vinfo.get_height(), false, YUV410_FORMAT));
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() > 10);
let hdr_size = (src[0].rotate_left(3) & 0x7F) as usize;
validate!(hdr_size >= 12 && hdr_size < src.len());
let mut hdr: [u8; 127] = [0; 127];
for i in 1..hdr_size {
hdr[i - 1] = src[i] ^ src[i + 1];
}
let mut mr = MemoryReader::new_read(&hdr[0..hdr_size-1]);
let mut br = ByteReader::new(&mut mr);
let tm1type = br.read_byte()? as usize;
let delta_set = br.read_byte()? as usize;
let table_idx = br.read_byte()? as usize;
let height = br.read_u16le()? as usize;
let width = br.read_u16le()? as usize;
let _frameno = br.read_u16le()? as usize;
let version = br.read_byte()?;
let meta_type = br.read_byte()?;
validate!(width > 0 && height > 0);
let is_intra;
let mut is_sprite = false;
let mut spr_xoff = 0;
let mut spr_yoff = 0;
let mut spr_width = 0;
let mut spr_height = 0;
if version >= 2 {
validate!(meta_type <= 3);
if meta_type >= 2 {
let frameinfo = br.read_byte()?;
let _control = br.read_byte()?;
is_intra = ((frameinfo & 0x10) != 0) || ((frameinfo & 0x08) == 0);
} else {
is_intra = true;
}
if meta_type == 3 {
spr_xoff = br.read_u16le()? as usize;
spr_yoff = br.read_u16le()? as usize;
spr_width = br.read_u16le()? as usize;
spr_height = br.read_u16le()? as usize;
is_sprite = true;
}
} else {
is_intra = true;
}
validate!(tm1type < TM1_COMPR_TYPES.len());
let cinfo = TM1_COMPR_TYPES[tm1type];
if cinfo.is_none() {
//check for missing ref
let mut frm = NAFrame::new_from_pkt(pkt, self.info.clone(), NABufferType::None);
frm.set_keyframe(false);
frm.set_frame_type(FrameType::Skip);
return Ok(frm.into_ref());
}
let compr_info = cinfo.unwrap();
let is_24bit = !is_sprite && compr_info.is_24bit;
let vec_idx = if ((tm1type & 1) != 0) && (meta_type > 0) { 1 } else { table_idx };
validate!((delta_set < DUCK_Y_DELTAS.len()) && (vec_idx > 0) && (vec_idx <= DUCK_VECTABLES.len()));
self.set_delta_tables(delta_set, vec_idx, is_24bit);
let out_width = if is_24bit { width >> 1 } else { width };
let mask_row_size = if is_sprite {
((spr_width >> 2) + 3) >> 2
} else if is_intra {
0
} else {
((width >> 2) + 7) >> 3
};
let mask_size = mask_row_size * (if is_sprite { spr_height >> 2 } else { height >> 2 });
let mask_bits = &src[hdr_size..][..mask_size];
let index_bytes = &src[hdr_size+mask_size..];
validate!(src.len() >= hdr_size + mask_size);
self.vert_pred.clear();
self.vert_pred.resize(out_width, 0);
if is_intra || is_sprite {
let fmt = if is_24bit { BGR0_FORMAT } else { RGB555_FORMAT };
let myinfo = NAVideoInfo::new(out_width, height, false, fmt);
let bufinfo = alloc_video_buffer(myinfo, 2)?;
self.lastframe.reset();
if !is_24bit {
self.lastframe.set16(bufinfo.get_vbuf16().unwrap());
} else {
self.lastframe.set24(bufinfo.get_vbuf().unwrap());
}
}
self.blk_w = compr_info.block_w;
self.blk_h = compr_info.block_h;
let mut mask = MaskState::new(is_intra && !is_sprite, mask_bits, mask_row_size);
let mut index = IndexState::new(index_bytes);
let bufinfo;
if !is_24bit {
if let Some(mut buf) = self.lastframe.get16() {
let stride = buf.get_stride(0);
{
let data = buf.get_data_mut().unwrap();
if !is_sprite {
self.decode_16bit(data.as_mut_slice(), stride, out_width, height, &mut mask, &mut index)?;
} else {
validate!(spr_xoff + spr_width <= out_width);
validate!(spr_yoff + spr_height <= height);
for el in data.iter_mut() { *el = 0; }
let dst = &mut data[spr_xoff + spr_yoff * stride..];
self.decode_sprite(dst, stride, spr_width, spr_height, &mut mask, &mut index)?;
}
}
bufinfo = NABufferType::Video16(buf);
} else {
return Err(DecoderError::MissingReference);
}
} else if let Some(mut buf) = self.lastframe.get24() {
let stride = buf.get_stride(0);
{
let data = buf.get_data_mut().unwrap();
self.decode_24bit(data.as_mut_slice(), stride, out_width, height, &mut mask, &mut index)?;
}
bufinfo = NABufferType::VideoPacked(buf);
} else {
return Err(DecoderError::MissingReference);
}
let mut frm = NAFrame::new_from_pkt(pkt, self.info.clone(), bufinfo);
frm.set_keyframe(is_intra || is_sprite);
frm.set_frame_type(if is_intra { FrameType::I } else { FrameType::P });
Ok(frm.into_ref())
}
fn flush(&mut self) {
self.lastframe.reset();
}
}
impl NAOptionHandler for TM1Decoder {
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(TM1Decoder::new())
}
#[cfg(test)]
mod test {
use nihav_core::codecs::RegisteredDecoders;
use nihav_core::demuxers::RegisteredDemuxers;
use nihav_codec_support::test::dec_video::*;
use crate::duck_register_all_decoders;
use nihav_commonfmt::generic_register_all_demuxers;
#[test]
fn test_tm1() {
let mut dmx_reg = RegisteredDemuxers::new();
generic_register_all_demuxers(&mut dmx_reg);
let mut dec_reg = RegisteredDecoders::new();
duck_register_all_decoders(&mut dec_reg);
// sample: https://samples.mplayerhq.hu/V-codecs/DUCK/phant2-940.duk
test_decoding("avi", "truemotion1", "assets/Duck/phant2-940.duk", Some(12), &dmx_reg, &dec_reg,
ExpectedTestResult::MD5Frames(vec![
[0x989e62b8, 0x5d85c23c, 0x1cffba6d, 0xe599f1c4],
[0xc4231321, 0x25561487, 0x9db11f57, 0x4faeb9a5],
[0x36e3a831, 0xdbd21f89, 0x0a446071, 0xf6d31ee7],
[0x0af640af, 0x64bc2bac, 0x0e95dd72, 0x9e55360b],
[0xbc9c5f8b, 0x6c06f2bc, 0x216f4129, 0x3a421337],
[0xd8ea7297, 0xce5f79fc, 0x46071f4c, 0xaed7fb7a],
[0x87617060, 0x72ce8df8, 0xde42eaa6, 0x804a6f45],
[0xfd8c45b3, 0xf424b683, 0xb4d6a9bd, 0xc622d0b9],
[0x6c233746, 0xba8ed68e, 0xc0ed0e85, 0xc99e1dc0],
[0x5842aac0, 0xd3d78242, 0x5da21218, 0xea1ed0ad],
[0xdea0db20, 0xe2ce3586, 0xf7386649, 0xecc374f9],
[0xb80ae9cb, 0x04eb938e, 0xd8a337ee, 0x0054b5ed],
[0xf8b80e1d, 0xd8eb3d6c, 0xa99b23ff, 0x562851a1]]));
test_decoding("avi", "truemotion1", "assets/Duck/SPRITES.AVI", Some(2), &dmx_reg, &dec_reg,
ExpectedTestResult::MD5([0xb89a4275, 0xf9797f5f, 0xe53c1ccd, 0xfa163e02]));
//let file = "assets/Duck/AVI-DUCK-dk3.duk";
//let file = "assets/Duck/phant2-940.duk";
//let file = "assets/Duck/bugsampler-m01-16bit.avi";
//let file = "assets/Duck/sonic3dblast_intro.avi";
//let file = "assets/Duck/BUTTONS.AVI";
//let file = "assets/Duck/SPRITES.AVI";
//let file = "assets/Duck/TRICORD.AVI";
//test_file_decoding("avi", file, Some(42), true, false, None/*Some("tm1-")*/, &dmx_reg, &dec_reg);
}
}
|
