-use nihav_core::codecs::*;
-
-pub fn get_decoder() -> Box<NADecoder> {
-unimplemented!("");
-}
-
+use nihav_core::codecs::*;
+use nihav_core::io::byteio::*;
+use nihav_core::io::bitreader::*;
+use nihav_core::io::codebook::*;
+use nihav_codec_support::codecs::{IPShuffler, HAMShuffler};
+
+use super::binkviddata::*;
+
+const SKIP_BLOCK: u8 = 0;
+const SCALED_BLOCK: u8 = 1;
+const MOTION_BLOCK: u8 = 2;
+const RUN_BLOCK: u8 = 3;
+const RESIDUE_BLOCK: u8 = 4;
+const INTRA_BLOCK: u8 = 5;
+const FILL_BLOCK: u8 = 6;
+const INTER_BLOCK: u8 = 7;
+const PATTERN_BLOCK: u8 = 8;
+const RAW_BLOCK: u8 = 9;
+
+#[derive(Default, Clone,Copy)]
+struct Tree {
+ id: usize,
+ syms: [u8; 16],
+}
+
+impl Tree {
+ fn read_desc(&mut self, br: &mut BitReader) -> DecoderResult<()> {
+ self.id = br.read(4)? as usize;
+ if self.id == 0 {
+ for i in 0..16 { self.syms[i] = i as u8; }
+ } else {
+ if br.read_bool()? {
+ let len = br.read(3)? as usize;
+ let mut present: [bool; 16] = [false; 16];
+ for i in 0..=len {
+ self.syms[i] = br.read(4)? as u8;
+ present[self.syms[i] as usize] = true;
+ }
+ let mut idx = len + 1;
+ for i in 0..16 {
+ if present[i] { continue; }
+ self.syms[idx] = i as u8;
+ idx += 1;
+ }
+ } else {
+ let len = br.read(2)? as usize;
+ let mut syms: [u8; 16] = [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15];
+ let mut tmp: [u8; 16] = [0; 16];
+ for bits in 0..=len {
+ let size = 1 << bits;
+ for arr in syms.chunks_mut(size * 2) {
+ let mut ptr0 = 0;
+ let mut ptr1 = size;
+ let mut optr = 0;
+ while (ptr0 < size) && (ptr1 < size * 2) {
+ if !br.read_bool()? {
+ tmp[optr] = arr[ptr0];
+ ptr0 += 1;
+ } else {
+ tmp[optr] = arr[ptr1];
+ ptr1 += 1;
+ }
+ optr += 1;
+ }
+ while ptr0 < size {
+ tmp[optr] = arr[ptr0];
+ ptr0 += 1;
+ optr += 1;
+ }
+ while ptr1 < size * 2 {
+ tmp[optr] = arr[ptr1];
+ ptr1 += 1;
+ optr += 1;
+ }
+ arr.copy_from_slice(&tmp[0..size * 2]);
+ }
+ }
+ self.syms = syms;
+ }
+ }
+ Ok(())
+ }
+ fn read_sym(&self, br: &mut BitReader, trees: &BinkTrees) -> DecoderResult<u8> {
+ let idx = br.read_cb(&trees.cb[self.id])?;
+ Ok(self.syms[idx as usize])
+ }
+}
+
+#[derive(Default)]
+struct Bundle<T: Copy> {
+ tree: Tree,
+ data: Vec<T>,
+ dec_pos: usize,
+ read_pos: usize,
+ bits: u8,
+}
+
+impl<T:Copy> Bundle<T> {
+ fn binkb_reset(&mut self, bits: u8) {
+ self.bits = bits;
+ self.dec_pos = 0;
+ self.read_pos = 0;
+ }
+ fn reset(&mut self) {
+ self.dec_pos = 0;
+ self.read_pos = 0;
+ }
+ fn read_desc(&mut self, br: &mut BitReader) -> DecoderResult<()> {
+ self.dec_pos = 0;
+ self.read_pos = 0;
+ self.tree.read_desc(br)?;
+ Ok(())
+ }
+ fn read_len(&mut self, br: &mut BitReader) -> DecoderResult<usize> {
+ if self.read_pos < self.dec_pos { return Ok(0); }
+ let len = br.read(self.bits)? as usize;
+ if len == 0 {
+ self.dec_pos = self.data.len();
+ self.read_pos = self.data.len() - 1;
+ }
+ Ok(len)
+ }
+ fn read_len_binkb(&mut self, br: &mut BitReader) -> DecoderResult<usize> {
+ if self.read_pos < self.dec_pos { return Ok(0); }
+ let len = br.read(13)? as usize;
+ if len == 0 {
+ self.dec_pos = self.data.len();
+ self.read_pos = self.data.len() - 1;
+ }
+ Ok(len)
+ }
+ fn get_val(&mut self) -> DecoderResult<T> {
+ validate!(self.read_pos < self.dec_pos);
+ let val = self.data[self.read_pos];
+ self.read_pos += 1;
+ Ok(val)
+ }
+}
+
+const BLOCK_TYPE_RUNS: [usize; 4] = [ 4, 8, 12, 32 ];
+impl Bundle<u8> {
+ fn read_binkb(&mut self, br: &mut BitReader) -> DecoderResult<()> {
+ let len = self.read_len_binkb(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ for i in 0..len {
+ self.data[self.dec_pos + i] = br.read(self.bits)? as u8;
+ }
+ self.dec_pos += len;
+ Ok(())
+ }
+ fn read_runs(&mut self, br: &mut BitReader, trees: &BinkTrees) -> DecoderResult<()> {
+ let len = self.read_len(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ if br.read_bool()? {
+ let val = br.read(4)? as u8;
+ for i in 0..len { self.data[self.dec_pos + i] = val; }
+ self.dec_pos += len;
+ } else {
+ while self.dec_pos < end {
+ self.data[self.dec_pos] = self.tree.read_sym(br, trees)?;
+ self.dec_pos += 1;
+ }
+ }
+ Ok(())
+ }
+ fn read_block_types(&mut self, br: &mut BitReader, trees: &BinkTrees) -> DecoderResult<()> {
+ let len = self.read_len(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ if br.read_bool()? {
+ let val = br.read(4)? as u8;
+ for i in 0..len { self.data[self.dec_pos + i] = val; }
+ self.dec_pos += len;
+ } else {
+ let mut last = 0;
+ while self.dec_pos < end {
+ let val = self.tree.read_sym(br, trees)?;
+ if val < 12 {
+ self.data[self.dec_pos] = val;
+ self.dec_pos += 1;
+ last = val;
+ } else {
+ let run = BLOCK_TYPE_RUNS[(val - 12) as usize];
+ validate!(self.dec_pos + run <= end);
+ for i in 0..run {
+ self.data[self.dec_pos + i] = last;
+ }
+ self.dec_pos += run;
+ }
+ }
+ }
+ Ok(())
+ }
+ fn read_patterns(&mut self, br: &mut BitReader, trees: &BinkTrees) -> DecoderResult<()> {
+ let len = self.read_len(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ for i in 0..len {
+ let pat_lo = self.tree.read_sym(br, trees)?;
+ let pat_hi = self.tree.read_sym(br, trees)?;
+ self.data[self.dec_pos + i] = pat_lo | (pat_hi << 4);
+ }
+ self.dec_pos += len;
+ Ok(())
+ }
+ fn cvt_color(lo: u8, hi: u8, new_bink: bool) -> u8 {
+ let val = lo | (hi << 4);
+ if !new_bink {
+ let sign = ((val as i8) >> 7) as u8;
+ ((val & 0x7F) ^ sign).wrapping_sub(sign) ^ 0x80
+ } else {
+ val
+ }
+ }
+ fn read_colors(&mut self, br: &mut BitReader, trees: &BinkTrees, col_hi: &[Tree; 16], col_last: &mut u8, new_bink: bool) -> DecoderResult<()> {
+ let len = self.read_len(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ let mut last = *col_last;
+ if br.read_bool()? {
+ last = col_hi[last as usize].read_sym(br, trees)?;
+ let lo = self.tree.read_sym(br, trees)?;
+ let val = Self::cvt_color(lo, last, new_bink);
+ for i in 0..len { self.data[self.dec_pos + i] = val; }
+ self.dec_pos += len;
+ } else {
+ while self.dec_pos < end {
+ last = col_hi[last as usize].read_sym(br, trees)?;
+ let lo = self.tree.read_sym(br, trees)?;
+ let val = Self::cvt_color(lo, last, new_bink);
+ self.data[self.dec_pos] = val;
+ self.dec_pos += 1;
+ }
+ }
+ *col_last = last;
+ Ok(())
+ }
+}
+
+impl Bundle<i8> {
+ fn read_binkb(&mut self, br: &mut BitReader) -> DecoderResult<()> {
+ let len = self.read_len_binkb(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ let bias = 1 << (self.bits - 1);
+ for i in 0..len {
+ self.data[self.dec_pos + i] = (br.read(self.bits)? as i8) - bias;
+ }
+ self.dec_pos += len;
+ Ok(())
+ }
+ fn read_motion_values(&mut self, br: &mut BitReader, trees: &BinkTrees) -> DecoderResult<()> {
+ let len = self.read_len(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ if br.read_bool()? {
+ let mut val = br.read(4)? as i8;
+ if val != 0 && br.read_bool()? { val = -val; }
+ for i in 0..len { self.data[self.dec_pos + i] = val; }
+ self.dec_pos += len;
+ } else {
+ while self.dec_pos < end {
+ self.data[self.dec_pos] = self.tree.read_sym(br, trees)? as i8;
+ if self.data[self.dec_pos] != 0 && br.read_bool()? {
+ self.data[self.dec_pos] = -self.data[self.dec_pos];
+ }
+ self.dec_pos += 1;
+ }
+ }
+ Ok(())
+ }
+}
+
+const DC_START_BITS: u8 = 11;
+impl Bundle<u16> {
+ fn read_binkb(&mut self, br: &mut BitReader) -> DecoderResult<()> {
+ let len = self.read_len_binkb(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ for i in 0..len {
+ self.data[self.dec_pos + i] = br.read(self.bits)? as u16;
+ }
+ self.dec_pos += len;
+ Ok(())
+ }
+ fn read_dcs(&mut self, br: &mut BitReader, start_bits: u8) -> DecoderResult<()> {
+ let len = self.read_len(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ let mut val = br.read(start_bits)? as u16;
+ self.data[self.dec_pos] = val;
+ self.dec_pos += 1;
+ for i in (1..len).step_by(8) {
+ let seg_len = (len - i).min(8);
+ let bits = br.read(4)? as u8;
+ if bits != 0 {
+ for _ in 0..seg_len {
+ let diff = br.read(bits)? as u16;
+ let res = if diff != 0 && br.read_bool()? {
+ val.checked_sub(diff)
+ } else {
+ val.checked_add(diff)
+ };
+ validate!(res.is_some());
+ val = res.unwrap();
+ self.data[self.dec_pos] = val;
+ self.dec_pos += 1;
+ }
+ } else {
+ for _ in 0..seg_len {
+ self.data[self.dec_pos] = val;
+ self.dec_pos += 1;
+ }
+ }
+ }
+ Ok(())
+ }
+}
+
+impl Bundle<i16> {
+ fn read_binkb(&mut self, br: &mut BitReader) -> DecoderResult<()> {
+ let len = self.read_len_binkb(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ let bias = 1 << (self.bits - 1);
+ for i in 0..len {
+ self.data[self.dec_pos + i] = (br.read(self.bits)? as i16) - bias;
+ }
+ self.dec_pos += len;
+ Ok(())
+ }
+ fn read_dcs(&mut self, br: &mut BitReader, start_bits: u8) -> DecoderResult<()> {
+ let len = self.read_len(br)?;
+ if len == 0 { return Ok(()); }
+ let end = self.dec_pos + len;
+ validate!(end <= self.data.len());
+ let mut val = br.read(start_bits - 1)? as i16;
+ if val != 0 && br.read_bool()? {
+ val = -val;
+ }
+ self.data[self.dec_pos] = val;
+ self.dec_pos += 1;
+ for i in (1..len).step_by(8) {
+ let seg_len = (len - i).min(8);
+ let bits = br.read(4)? as u8;
+ if bits != 0 {
+ for _ in 0..seg_len {
+ let mut diff = br.read(bits)? as i16;
+ if diff != 0 && br.read_bool()? {
+ diff = -diff;
+ }
+ let res = val.checked_add(diff);
+ validate!(res.is_some());
+ val = res.unwrap();
+ self.data[self.dec_pos] = val;
+ self.dec_pos += 1;
+ }
+ } else {
+ for _ in 0..seg_len {
+ self.data[self.dec_pos] = val;
+ self.dec_pos += 1;
+ }
+ }
+ }
+ Ok(())
+ }
+}
+
+struct BinkTrees {
+ cb: [Codebook<u8>; 16],
+}
+
+fn map_u8(idx: usize) -> u8 { idx as u8 }
+
+impl Default for BinkTrees {
+ fn default() -> Self {
+ let cb = unsafe {
+ let mut ucb: std::mem::MaybeUninit::<[Codebook<u8>; 16]> = std::mem::MaybeUninit::uninit();
+ for i in 0..16 {
+ let mut cr = TableCodebookDescReader::new(&BINK_TREE_CODES[i], &BINK_TREE_BITS[i], map_u8);
+ std::ptr::write(&mut (*ucb.as_mut_ptr())[i], Codebook::new(&mut cr, CodebookMode::LSB).unwrap());
+ }
+ ucb.assume_init()
+ };
+ Self { cb }
+ }
+}
+
+const A1: i32 = 2896;
+const A2: i32 = 2217;
+const A3: i32 = 3784;
+const A4: i32 = -5352;
+
+macro_rules! idct {
+ ($src: expr, $sstep: expr, $dst: expr, $dstep: expr, $off: expr, $bias: expr, $shift: expr) => {
+ let a0 = $src[$off + 0 * $sstep] + $src[$off + 4 * $sstep];
+ let a1 = $src[$off + 0 * $sstep] - $src[$off + 4 * $sstep];
+ let a2 = $src[$off + 2 * $sstep] + $src[$off + 6 * $sstep];
+ let a3 = A1.wrapping_mul($src[$off + 2 * $sstep] - $src[$off + 6 * $sstep]) >> 11;
+ let a4 = $src[$off + 5 * $sstep] + $src[$off + 3 * $sstep];
+ let a5 = $src[$off + 5 * $sstep] - $src[$off + 3 * $sstep];
+ let a6 = $src[$off + 1 * $sstep] + $src[$off + 7 * $sstep];
+ let a7 = $src[$off + 1 * $sstep] - $src[$off + 7 * $sstep];
+ let b0 = a4 + a6;
+ let b1 = A3.wrapping_mul(a5 + a7) >> 11;
+ let b2 = (A4.wrapping_mul(a5) >> 11) - b0 + b1;
+ let b3 = (A1.wrapping_mul(a6 - a4) >> 11) - b2;
+ let b4 = (A2.wrapping_mul(a7) >> 11) + b3 - b1;
+ let c0 = a0 + a2;
+ let c1 = a0 - a2;
+ let c2 = a1 + (a3 - a2);
+ let c3 = a1 - (a3 - a2);
+
+ $dst[$off + 0 * $dstep] = (c0 + b0 + $bias) >> $shift;
+ $dst[$off + 1 * $dstep] = (c2 + b2 + $bias) >> $shift;
+ $dst[$off + 2 * $dstep] = (c3 + b3 + $bias) >> $shift;
+ $dst[$off + 3 * $dstep] = (c1 - b4 + $bias) >> $shift;
+ $dst[$off + 4 * $dstep] = (c1 + b4 + $bias) >> $shift;
+ $dst[$off + 5 * $dstep] = (c3 - b3 + $bias) >> $shift;
+ $dst[$off + 6 * $dstep] = (c2 - b2 + $bias) >> $shift;
+ $dst[$off + 7 * $dstep] = (c0 - b0 + $bias) >> $shift;
+ };
+}
+
+#[derive(Default)]
+struct BinkDecoder {
+ info: NACodecInfoRef,
+ ips: IPShuffler,
+ hams: HAMShuffler<u8>,
+
+ is_ver_b: bool,
+ is_ver_i: bool,
+ has_alpha: bool,
+ is_gray: bool,
+ swap_uv: bool,
+ key_frame: bool,
+
+ cur_w: usize,
+ cur_h: usize,
+ cur_plane: usize,
+
+ colhi_tree: [Tree; 16],
+ col_last: u8,
+
+ btype: Bundle<u8>,
+ sbtype: Bundle<u8>,
+ colors: Bundle<u8>,
+ pattern: Bundle<u8>,
+ xoff: Bundle<i8>,
+ yoff: Bundle<i8>,
+ intradc: Bundle<u16>,
+ interdc: Bundle<i16>,
+ intraq: Bundle<u8>,
+ interq: Bundle<u8>,
+ nresidues: Bundle<u8>,
+ run: Bundle<u8>,
+
+ trees: BinkTrees,
+
+ qmat_b: QuantMats,
+}
+
+fn calc_len(size: usize) -> u8 {
+ (32 - ((size + 511) as u32).leading_zeros()) as u8
+}
+
+impl BinkDecoder {
+ fn new() -> Self {
+ Self::default()
+ }
+ fn init_bundle_bufs(&mut self, bw: usize, bh: usize) {
+ let size = bw * bh * 64;
+ self.btype.data.resize(size, 0);
+ self.sbtype.data.resize(size, 0);
+ self.colors.data.resize(size, 0);
+ self.pattern.data.resize(size, 0);
+ self.xoff.data.resize(size, 0);
+ self.yoff.data.resize(size, 0);
+ self.intradc.data.resize(size, 0);
+ self.interdc.data.resize(size, 0);
+ self.intraq.data.resize(size, 0);
+ self.interq.data.resize(size, 0);
+ self.nresidues.data.resize(size, 0);
+ self.run.data.resize(size, 0);
+ }
+ fn init_bundle_lengths(&mut self, w: usize, bw: usize) {
+ let w = (w + 7) & !7;
+ self.btype.bits = calc_len(w >> 3);
+ self.sbtype.bits = calc_len(w >> 4);
+ self.colors.bits = calc_len(bw * 64);
+ self.pattern.bits = calc_len(bw * 8);
+ self.xoff.bits = calc_len(w >> 3);
+ self.yoff.bits = calc_len(w >> 3);
+ self.intradc.bits = calc_len(w >> 3);
+ self.interdc.bits = calc_len(w >> 3);
+ self.run.bits = calc_len(bw * 48);
+ }
+ fn init_bundle_lengths_binkb(&mut self) {
+ self.btype.binkb_reset(4);
+ self.colors.binkb_reset(8);
+ self.pattern.binkb_reset(8);
+ self.xoff.binkb_reset(5);
+ self.yoff.binkb_reset(5);
+ self.intradc.binkb_reset(11);
+ self.interdc.binkb_reset(11);
+ self.intraq.binkb_reset(4);
+ self.interq.binkb_reset(4);
+ self.nresidues.binkb_reset(7);
+ }
+ fn read_bundles_desc(&mut self, br: &mut BitReader) -> DecoderResult<()> {
+ self.btype.read_desc(br)?;
+ self.sbtype.read_desc(br)?;
+ for el in &mut self.colhi_tree {
+ el.read_desc(br)?;
+ }
+ self.col_last = 0;
+ self.colors.read_desc(br)?;
+ self.pattern.read_desc(br)?;
+ self.xoff.read_desc(br)?;
+ self.yoff.read_desc(br)?;
+ self.intradc.reset();
+ self.interdc.reset();
+ self.run.read_desc(br)?;
+ Ok(())
+ }
+ fn read_bundles_binkb(&mut self, br: &mut BitReader) -> DecoderResult<()> {
+ self.btype.read_binkb(br)?;
+ self.colors.read_binkb(br)?;
+ self.pattern.read_binkb(br)?;
+ self.xoff.read_binkb(br)?;
+ self.yoff.read_binkb(br)?;
+ self.intradc.read_binkb(br)?;
+ self.interdc.read_binkb(br)?;
+ self.intraq.read_binkb(br)?;
+ self.interq.read_binkb(br)?;
+ self.nresidues.read_binkb(br)?;
+ Ok(())
+ }
+ fn read_bundles(&mut self, br: &mut BitReader) -> DecoderResult<()> {
+ self.btype.read_block_types(br, &self.trees)?;
+ self.sbtype.read_block_types(br, &self.trees)?;
+ self.colors.read_colors(br, &self.trees, &self.colhi_tree, &mut self.col_last, self.is_ver_i)?;
+ self.pattern.read_patterns(br, &self.trees)?;
+ self.xoff.read_motion_values(br, &self.trees)?;
+ self.yoff.read_motion_values(br, &self.trees)?;
+ self.intradc.read_dcs(br, DC_START_BITS)?;
+ self.interdc.read_dcs(br, DC_START_BITS)?;
+ self.run.read_runs(br, &self.trees)?;
+ Ok(())
+ }
+
+ fn put_block(&self, block: &[u8; 64], dst: &mut [u8], mut off: usize, stride: usize, scaled: bool) {
+ if !scaled {
+ for src in block.chunks_exact(8) {
+ let out = &mut dst[off..][..8];
+ out.copy_from_slice(src);
+ off += stride;
+ }
+ } else {
+ for src in block.chunks_exact(8) {
+ for i in 0..8 {
+ dst[off + i * 2 + 0] = src[i];
+ dst[off + i * 2 + 1] = src[i];
+ }
+ off += stride;
+ for i in 0..8 {
+ dst[off + i * 2 + 0] = src[i];
+ dst[off + i * 2 + 1] = src[i];
+ }
+ off += stride;
+ }
+ }
+ }
+ fn copy_block(&mut self, dst: &mut [u8], mut off: usize, stride: usize, bx: usize, by: usize, xoff: i8, yoff: i8) -> DecoderResult<()> {
+ if let Some(prev_buf) = self.ips.get_ref() {
+ let xoff = ((bx * 8) as isize) + (xoff as isize);
+ let yoff = ((by * 8) as isize) + (yoff as isize);
+ validate!((xoff >= 0) && (xoff + 8 <= (self.cur_w as isize)));
+ validate!((yoff >= 0) && (yoff + 8 <= (self.cur_h as isize)));
+ let pstride = prev_buf.get_stride(self.cur_plane);
+ let mut poff = prev_buf.get_offset(self.cur_plane) + (xoff as usize) + (yoff as usize) * pstride;
+ let pdata = prev_buf.get_data();
+ let ppix = pdata.as_slice();
+ for _ in 0..8 {
+ let src = &ppix[poff..][..8];
+ let out = &mut dst[off..][..8];
+ out.copy_from_slice(src);
+ off += stride;
+ poff += pstride;
+ }
+ Ok(())
+ } else {
+ Err(DecoderError::MissingReference)
+ }
+ }
+ fn copy_overlapped(&mut self, dst: &mut [u8], mut off: usize, stride: usize, bx: usize, by: usize, xoff: i8, yoff1: i8) -> DecoderResult<()> {
+ let ybias = if self.key_frame { -15 } else { 0 };
+ let yoff = yoff1 + ybias;
+
+ let xpos = ((bx * 8) as isize) + (xoff as isize);
+ let ypos = ((by * 8) as isize) + (yoff as isize);
+ validate!((xpos >= 0) && (xpos + 8 <= (self.cur_w as isize)));
+ validate!((ypos >= 0) && (ypos + 8 <= (self.cur_h as isize)));
+
+ let mut block: [u8; 64] = [0; 64];
+ let mut ref_off = ((off as isize) + (xoff as isize) + (yoff as isize) * (stride as isize)) as usize;
+ for row in block.chunks_exact_mut(8) {
+ row.copy_from_slice(&dst[ref_off..][..8]);
+ ref_off += stride;
+ }
+ for row in block.chunks_exact(8) {
+ let out = &mut dst[off..][..8];
+ out.copy_from_slice(row);
+ off += stride;
+ }
+
+ Ok(())
+ }
+ fn add_block(&self, coeffs: &[i32; 64], dst: &mut [u8], mut off: usize, stride: usize) {
+ for src in coeffs.chunks_exact(8) {
+ for i in 0..8 {
+ let v = (dst[off + i] as i32) + src[i];
+ dst[off + i] = v as u8;
+ }
+ off += stride;
+ }
+ }
+ fn idct_put(&self, coeffs: &[i32; 64], dst: &mut [u8], mut off: usize, stride: usize) {
+ let mut tmp: [i32; 64] = [0; 64];
+ let mut row: [i32; 8] = [0; 8];
+ for i in 0..8 {
+ idct!(coeffs, 8, tmp, 8, i, 0, 0);
+ }
+ for srow in tmp.chunks_exact(8) {
+ idct!(srow, 1, row, 1, 0, 0x7F, 8);
+ for i in 0..8 {
+ dst[off + i] = row[i] as u8;
+ }
+ off += stride;
+ }
+ }
+ fn idct_add(&self, coeffs: &[i32; 64], dst: &mut [u8], mut off: usize, stride: usize) {
+ let mut tmp: [i32; 64] = [0; 64];
+ let mut row: [i32; 8] = [0; 8];
+ for i in 0..8 {
+ idct!(coeffs, 8, tmp, 8, i, 0, 0);
+ }
+ for srow in tmp.chunks_exact(8) {
+ idct!(srow, 1, row, 1, 0, 0x7F, 8);
+ for i in 0..8 {
+ let v = (dst[off + i] as i32) + row[i];
+ dst[off + i] = v as u8;
+ }
+ off += stride;
+ }
+ }
+
+ fn decode_plane_binkb(&mut self, br: &mut BitReader, plane_no: usize, buf: &mut NAVideoBuffer<u8>) -> DecoderResult<()> {
+ let stride = buf.get_stride(plane_no);
+ let mut off = buf.get_offset(plane_no);
+ let (width, height) = buf.get_dimensions(plane_no);
+ let data = buf.get_data_mut().unwrap();
+ let dst = data.as_mut_slice();
+ let bw = (width + 7) >> 3;
+ let bh = (height + 7) >> 3;
+ self.cur_w = (width + 7) & !7;
+ self.cur_h = (height + 7) & !7;
+ self.cur_plane = plane_no;
+ self.init_bundle_lengths_binkb();
+ for by in 0..bh {
+ self.read_bundles_binkb(br)?;
+ for bx in 0..bw {
+ let mut coeffs: [i32; 64] = [0; 64];
+ let btype = self.btype.get_val()?;
+ match btype {
+ 0 => { // skip
+ },
+ 1 => { // run
+ let scan = BINK_PATTERNS[br.read(4)? as usize];
+ let mut idx = 0;
+ while idx < 63 {
+ let run = br.read_bool()?;
+ let len = (br.read(BINKB_RUN_BITS[idx])? as usize) + 1;
+ validate!(idx + len <= 64);
+ if run {
+ let val = self.colors.get_val()?;
+ for j in 0..len {
+ let pos = scan[idx + j] as usize;
+ dst[off + (pos >> 3) * stride + (pos & 7)] = val;
+ }
+ idx += len;
+ } else {
+ for _ in 0..len {
+ let pos = scan[idx] as usize;
+ dst[off + (pos >> 3) * stride + (pos & 7)] = self.colors.get_val()?;
+ idx += 1;
+ }
+ }
+ }
+ if idx == 63 {
+ let pos = scan[idx] as usize;
+ dst[off + (pos >> 3) * stride + (pos & 7)] = self.colors.get_val()?;
+ }
+ },
+ 2 => { // intra
+ coeffs[0] = self.intradc.get_val()? as i32;
+ let q = self.intraq.get_val()? as usize;
+ read_dct_coefficients(br, &mut coeffs, &BINK_SCAN, &self.qmat_b.intra_qmat, Some(q))?;
+ self.idct_put(&coeffs, dst, off, stride);
+ },
+ 3 => { // residue
+ let xoff = self.xoff.get_val()?;
+ let yoff = self.yoff.get_val()?;
+ self.copy_overlapped(dst, off, stride, bx, by, xoff, yoff)?;
+ let nmasks = self.nresidues.get_val()? as usize;
+ read_residue(br, &mut coeffs, nmasks)?;
+ self.add_block(&coeffs, dst, off, stride);
+ },
+ 4 => { // inter
+ let xoff = self.xoff.get_val()?;
+ let yoff = self.yoff.get_val()?;
+ self.copy_overlapped(dst, off, stride, bx, by, xoff, yoff)?;
+ coeffs[0] = self.interdc.get_val()? as i32;
+ let q = self.interq.get_val()? as usize;
+ read_dct_coefficients(br, &mut coeffs, &BINK_SCAN, &self.qmat_b.inter_qmat, Some(q))?;
+ self.idct_add(&coeffs, dst, off, stride);
+ },
+ 5 => { // fill
+ let fill = self.colors.get_val()?;
+ for i in 0..8 {
+ for j in 0..8 { dst[off + i * stride + j] = fill; }
+ }
+ },
+ 6 => { // pattern
+ let clr: [u8; 2] = [ self.colors.get_val()?, self.colors.get_val()? ];
+ for i in 0..8 {
+ let pattern = self.pattern.get_val()? as usize;
+ for j in 0..8 {
+ dst[off + i * stride + j] = clr[(pattern >> j) & 1];
+ }
+ }
+ },
+ 7 => { // motion block
+ let xoff = self.xoff.get_val()?;
+ let yoff = self.yoff.get_val()?;
+ self.copy_overlapped(dst, off, stride, bx, by, xoff, yoff)?;
+ },
+ 8 => { // raw
+ for i in 0..8 {
+ for j in 0..8 {
+ dst[off + i * stride + j] = self.colors.get_val()?;
+ }
+ }
+ },
+ _ => { return Err(DecoderError::InvalidData); },
+ };
+ off += 8;
+ }
+ off += stride * 8 - bw * 8;
+ }
+ if (br.tell() & 0x1F) != 0 {
+ let skip = (32 - (br.tell() & 0x1F)) as u32;
+ br.skip(skip)?;
+ }
+ Ok(())
+ }
+ fn handle_block(&mut self, br: &mut BitReader, bx: usize, by: usize,
+ dst: &mut [u8], off: usize, stride: usize, btype: u8, scaled: bool) -> DecoderResult<()> {
+ let mut oblock: [u8; 64] = [0; 64];
+ let mut coeffs: [i32; 64] = [0; 64];
+ match btype {
+ SKIP_BLOCK => {
+ validate!(!scaled);
+ self.copy_block(dst, off, stride, bx, by, 0, 0)?;
+ },
+ SCALED_BLOCK => {
+ validate!(!scaled);
+ let sbtype = self.sbtype.get_val()?;
+ self.handle_block(br, bx, by, dst, off, stride, sbtype, true)?;
+ },
+ MOTION_BLOCK => {
+ validate!(!scaled);
+ let xoff = self.xoff.get_val()?;
+ let yoff = self.yoff.get_val()?;
+ self.copy_block(dst, off, stride, bx, by, xoff, yoff)?;
+ },
+ RUN_BLOCK => {
+ let scan = BINK_PATTERNS[br.read(4)? as usize];
+ let mut idx = 0;
+ while idx < 63 {
+ let run = (self.run.get_val()? as usize) + 1;
+ validate!(idx + run <= 64);
+ if br.read_bool()? {
+ let val = self.colors.get_val()?;
+ for j in 0..run {
+ oblock[scan[idx + j] as usize] = val;
+ }
+ idx += run;
+ } else {
+ for _ in 0..run {
+ oblock[scan[idx] as usize] = self.colors.get_val()?;
+ idx += 1;
+ }
+ }
+ }
+ if idx == 63 { oblock[scan[63] as usize] = self.colors.get_val()?; }
+ self.put_block(&oblock, dst, off, stride, scaled);
+ },
+ RESIDUE_BLOCK => {
+ validate!(!scaled);
+ let xoff = self.xoff.get_val()?;
+ let yoff = self.yoff.get_val()?;
+ self.copy_block(dst, off, stride, bx, by, xoff, yoff)?;
+ let nmasks = br.read(7)? as usize;
+ read_residue(br, &mut coeffs, nmasks)?;
+ self.add_block(&coeffs, dst, off, stride);
+ },
+ INTRA_BLOCK => {
+ coeffs[0] = self.intradc.get_val()? as i32;
+ read_dct_coefficients(br, &mut coeffs, &BINK_SCAN, BINK_INTRA_QUANT, None)?;
+ if !scaled {
+ self.idct_put(&coeffs, dst, off, stride);
+ } else {
+ self.idct_put(&coeffs, &mut oblock, 0, 8);
+ self.put_block(&oblock, dst, off, stride, scaled);
+ }
+ },
+ FILL_BLOCK => {
+ let fill = self.colors.get_val()?;
+ oblock = [fill; 64];
+ self.put_block(&oblock, dst, off, stride, scaled);
+ },
+ INTER_BLOCK => {
+ validate!(!scaled);
+ let xoff = self.xoff.get_val()?;
+ let yoff = self.yoff.get_val()?;
+ self.copy_block(dst, off, stride, bx, by, xoff, yoff)?;
+ coeffs[0] = self.interdc.get_val()? as i32;
+ read_dct_coefficients(br, &mut coeffs, &BINK_SCAN, BINK_INTER_QUANT, None)?;
+ self.idct_add(&coeffs, dst, off, stride);
+ },
+ PATTERN_BLOCK => {
+ let clr: [u8; 2] = [ self.colors.get_val()?, self.colors.get_val()? ];
+ for i in 0..8 {
+ let pattern = self.pattern.get_val()? as usize;
+ for j in 0..8 {
+ oblock[i * 8 + j] = clr[(pattern >> j) & 1];
+ }
+ }
+ self.put_block(&oblock, dst, off, stride, scaled);
+ },
+ RAW_BLOCK => {
+ for i in 0..8 {
+ for j in 0..8 {
+ oblock[i * 8 + j] = self.colors.get_val()?;
+ }
+ }
+ self.put_block(&oblock, dst, off, stride, scaled);
+ },
+ _ => { return Err(DecoderError::InvalidData); },
+ };
+ Ok(())
+ }
+ fn decode_plane(&mut self, br: &mut BitReader, plane_no: usize, buf: &mut NAVideoBuffer<u8>) -> DecoderResult<()> {
+ let stride = buf.get_stride(plane_no);
+ let mut off = buf.get_offset(plane_no);
+ let (width, height) = buf.get_dimensions(plane_no);
+ let data = buf.get_data_mut().unwrap();
+ let dst = data.as_mut_slice();
+ let bw = (width + 7) >> 3;
+ let bh = (height + 7) >> 3;
+ self.cur_w = (width + 7) & !7;
+ self.cur_h = (height + 7) & !7;
+ self.cur_plane = plane_no;
+ self.init_bundle_lengths(width.max(8), bw);
+ self.read_bundles_desc(br)?;
+ for by in 0..bh {
+ self.read_bundles(br)?;
+ let mut bx = 0;
+ while bx < bw {
+ let btype = self.btype.get_val()?;
+ if btype == SCALED_BLOCK && (by & 1) == 1 { // already decoded scaled block, skip
+ bx += 2;
+ continue;
+ }
+ self.handle_block(br, bx, by, dst, off + bx * 8, stride, btype, false)?;
+ if btype == SCALED_BLOCK {
+ bx += 1;
+ }
+ bx += 1;
+ }
+ off += stride * 8;
+ }
+ if (br.tell() & 0x1F) != 0 {
+ let skip = (32 - (br.tell() & 0x1F)) as u32;
+ br.skip(skip)?;
+ }
+ Ok(())
+ }
+}
+
+fn get_coef(br: &mut BitReader, bits1: u8) -> DecoderResult<i32> {
+ let t;
+ if bits1 == 1 {
+ t = if br.read_bool()? { -1 } else { 1 };
+ } else {
+ let bits = bits1 - 1;
+ let val = (br.read(bits)? as i32) | (1 << bits);
+ if br.read_bool()? {
+ t = -val;
+ } else {
+ t = val;
+ }
+ }
+ Ok(t)
+}
+
+fn read_dct_coefficients(br: &mut BitReader, block: &mut [i32; 64], scan: &[usize; 64],
+ quant_matrices: &[[i32; 64]; 16], q: Option<usize>) -> DecoderResult<()> {
+ let mut coef_list: [i32; 128] = [0; 128];
+ let mut mode_list: [u8; 128] = [0; 128];
+ let mut list_start = 64;
+ let mut list_end = 64;
+ let mut coef_idx: [usize; 64] = [0; 64];
+ let mut coef_count = 0;
+
+ coef_list[list_end] = 4; mode_list[list_end] = 0; list_end += 1;
+ coef_list[list_end] = 24; mode_list[list_end] = 0; list_end += 1;
+ coef_list[list_end] = 44; mode_list[list_end] = 0; list_end += 1;
+ coef_list[list_end] = 1; mode_list[list_end] = 3; list_end += 1;
+ coef_list[list_end] = 2; mode_list[list_end] = 3; list_end += 1;
+ coef_list[list_end] = 3; mode_list[list_end] = 3; list_end += 1;
+
+ let mut bits1 = br.read(4)? as u8;
+ while bits1 >= 1 {
+ let mut list_pos = list_start;
+ while list_pos < list_end {
+ let ccoef = coef_list[list_pos];
+ let mode = mode_list[list_pos];
+ if (mode == 0 && ccoef == 0) || !br.read_bool()? {
+ list_pos += 1;
+ continue;
+ }
+ match mode {
+ 0 | 2 => {
+ if mode == 0 {
+ coef_list[list_pos] = ccoef + 4;
+ mode_list[list_pos] = 1;
+ } else {
+ coef_list[list_pos] = 0;
+ mode_list[list_pos] = 0;
+ list_pos += 1;
+ }
+ for i in 0..4 {
+ if br.read_bool()? {
+ list_start -= 1;
+ coef_list[list_start] = ccoef + i;
+ mode_list[list_start] = 3;
+ } else {
+ let idx = (ccoef + i) as usize;
+ block[scan[idx]] = get_coef(br, bits1)?;
+ coef_idx[coef_count] = idx;
+ coef_count += 1;
+ }
+ }
+ },
+ 1 => {
+ mode_list[list_pos] = 2;
+ for i in 0..3 {
+ coef_list[list_end] = ccoef + i * 4 + 4;
+ mode_list[list_end] = 2;
+ list_end += 1;
+ }
+ },
+ 3 => {
+ let idx = ccoef as usize;
+ block[scan[idx]] = get_coef(br, bits1)?;
+ coef_idx[coef_count] = idx;
+ coef_count += 1;
+ coef_list[list_pos] = 0;
+ mode_list[list_pos] = 0;
+ list_pos += 1;
+ },
+ _ => unreachable!(),
+ };
+ }
+ bits1 -= 1;
+ }
+
+ let q_index = if let Some(qidx) = q { qidx } else { br.read(4)? as usize };
+ let qmat = &quant_matrices[q_index];
+ block[0] = block[0].wrapping_mul(qmat[0]) >> 11;
+ for idx in coef_idx.iter().take(coef_count) {
+ block[scan[*idx]] = block[scan[*idx]].wrapping_mul(qmat[*idx]) >> 11;
+ }
+
+ Ok(())
+}
+
+fn read_residue(br: &mut BitReader, block: &mut [i32; 64], mut masks_count: usize) -> DecoderResult<()> {
+ let mut coef_list: [i32; 128] = [0; 128];
+ let mut mode_list: [u8; 128] = [0; 128];
+ let mut list_start = 64;
+ let mut list_end = 64;
+ let mut nz_coef_idx: [usize; 64] = [0; 64];
+ let mut nz_coef_count = 0;
+
+ coef_list[list_end] = 4; mode_list[list_end] = 0; list_end += 1;
+ coef_list[list_end] = 24; mode_list[list_end] = 0; list_end += 1;
+ coef_list[list_end] = 44; mode_list[list_end] = 0; list_end += 1;
+ coef_list[list_end] = 0; mode_list[list_end] = 2; list_end += 1;
+
+ let mut mask = 1 << br.read(3)?;
+ while mask > 0 {
+ for i in 0..nz_coef_count {
+ if !br.read_bool()? { continue; }
+ let idx = nz_coef_idx[i];
+ if block[idx] < 0 {
+ block[idx] -= mask;
+ } else {
+ block[idx] += mask;
+ }
+ if masks_count == 0 {
+ return Ok(());
+ }
+ masks_count -= 1;
+ }
+ let mut list_pos = list_start;
+ while list_pos < list_end {
+ let ccoef = coef_list[list_pos];
+ let mode = mode_list[list_pos];
+ if (mode == 0 && ccoef == 0) || !br.read_bool()? {
+ list_pos += 1;
+ continue;
+ }
+ match mode {
+ 0 | 2 => {
+ if mode == 0 {
+ coef_list[list_pos] = ccoef + 4;
+ mode_list[list_pos] = 1;
+ } else {
+ coef_list[list_pos] = 0;
+ mode_list[list_pos] = 0;
+ list_pos += 1;
+ }
+ for i in 0..4 {
+ if br.read_bool()? {
+ list_start -= 1;
+ coef_list[list_start] = ccoef + i;
+ mode_list[list_start] = 3;
+ } else {
+ let idx = (ccoef + i) as usize;
+ nz_coef_idx[nz_coef_count] = BINK_SCAN[idx];
+ nz_coef_count += 1;
+ block[BINK_SCAN[idx]] = if br.read_bool()? { -mask } else { mask };
+ if masks_count == 0 {
+ return Ok(());
+ }
+ masks_count -= 1;
+ }
+ }
+ },
+ 1 => {
+ mode_list[list_pos] = 2;
+ for i in 0..3 {
+ coef_list[list_end] = ccoef + i * 4 + 4;
+ mode_list[list_end] = 2;
+ list_end += 1;
+ }
+ },
+ 3 => {
+ let idx = ccoef as usize;
+ nz_coef_idx[nz_coef_count] = BINK_SCAN[idx];
+ nz_coef_count += 1;
+ block[BINK_SCAN[idx]] = if br.read_bool()? { -mask } else { mask };
+ coef_list[list_pos] = 0;
+ mode_list[list_pos] = 0;
+ list_pos += 1;
+ if masks_count == 0 {
+ return Ok(());
+ }
+ masks_count -= 1;
+ },
+ _ => unreachable!(),
+ };
+ }
+ mask >>= 1;
+ }
+
+ Ok(())
+}
+
+const BINK_FLAG_ALPHA: u32 = 0x00100000;
+const BINK_FLAG_GRAY: u32 = 0x00020000;
+
+impl NADecoder for BinkDecoder {
+ fn init(&mut self, _supp: &mut NADecoderSupport, info: NACodecInfoRef) -> DecoderResult<()> {
+ if let NACodecTypeInfo::Video(vinfo) = info.get_properties() {
+ let w = vinfo.get_width();
+ let h = vinfo.get_height();
+
+ let edata = info.get_extradata().unwrap();
+ validate!(edata.len() >= 8);
+
+ let mut mr = MemoryReader::new_read(&edata);
+ let mut br = ByteReader::new(&mut mr);
+ let magic = br.read_u32be()?;
+ let flags = br.read_u32le()?;
+
+ self.is_ver_b = (magic & 0xFF) == (b'b' as u32);
+ self.is_ver_i = (magic & 0xFF) >= (b'i' as u32);
+ self.has_alpha = (flags & BINK_FLAG_ALPHA) != 0;
+ self.is_gray = (flags & BINK_FLAG_GRAY) != 0;
+ self.swap_uv = (magic & 0xFF) >= (b'h' as u32);
+ if self.has_alpha && self.is_gray { return Err(DecoderError::NotImplemented); }
+
+ let aplane = if self.has_alpha { Some(NAPixelChromaton::new(0, 0, false, 8, 0, 3, 1)) } else { None };
+ let fmt;
+ if !self.is_gray {
+ fmt = NAPixelFormaton::new(ColorModel::YUV(YUVSubmodel::YUVJ),
+ Some(NAPixelChromaton::new(0, 0, false, 8, 0, 0, 1)),
+ Some(NAPixelChromaton::new(1, 1, false, 8, 0, 1, 1)),
+ Some(NAPixelChromaton::new(1, 1, false, 8, 0, 2, 1)),
+ aplane, None,
+ 0, if self.has_alpha { 4 } else { 3 } );
+ } else {
+ fmt = NAPixelFormaton::new(ColorModel::YUV(YUVSubmodel::YUVJ),
+ Some(NAPixelChromaton::new(0, 0, false, 8, 0, 0, 1)),
+ None, None, None, None, 0, 1);
+ }
+ let myinfo = NACodecTypeInfo::Video(NAVideoInfo::new(w, h, false, fmt));
+ self.info = NACodecInfo::new_ref(info.get_name(), myinfo, info.get_extradata()).into_ref();
+
+ //self.init_bundle_lengths(w.max(8), (w + 7) >> 3);
+ self.init_bundle_bufs((w + 7) >> 3, (h + 7) >> 3);
+
+ if self.is_ver_b {
+ self.qmat_b.calc_binkb_quants();
+ }
+
+ Ok(())
+ } else {
+ Err(DecoderError::InvalidData)
+ }
+ }
+ fn decode(&mut self, _supp: &mut NADecoderSupport, pkt: &NAPacket) -> DecoderResult<NAFrameRef> {
+ let src = pkt.get_buffer();
+
+ let mut br = BitReader::new(&src, BitReaderMode::LE);
+
+ let mut buf;
+ self.key_frame = pkt.is_keyframe();
+ if self.is_ver_b {
+ let bufret = self.hams.clone_ref();
+ if let Some(bbuf) = bufret {
+ buf = bbuf;
+ } else {
+ let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 4)?;
+ buf = bufinfo.get_vbuf().unwrap();
+ self.key_frame = true;
+ self.hams.add_frame(buf);
+ buf = self.hams.get_output_frame().unwrap();
+ }
+ } else {
+ let bufinfo = alloc_video_buffer(self.info.get_properties().get_video_info().unwrap(), 4)?;
+ buf = bufinfo.get_vbuf().unwrap();
+ }
+
+ let nplanes = if self.is_gray { 1 } else { 3 };
+ if self.has_alpha {
+ validate!(!self.is_ver_b);
+ if self.is_ver_i {
+ br.skip(32)?;
+ }
+ self.decode_plane(&mut br, nplanes, &mut buf)?;
+ }
+ if self.is_ver_i {
+ br.skip(32)?;
+ }
+ for plane in 0..nplanes {
+ if self.is_ver_b {
+ self.decode_plane_binkb(&mut br, plane, &mut buf)?;
+ } else {
+ let plane_idx = if plane > 0 && self.swap_uv { plane ^ 3 } else { plane };
+ self.decode_plane(&mut br, plane_idx, &mut buf)?;
+ }
+ }
+ let bufinfo = NABufferType::Video(buf);
+ if !self.is_ver_b {
+ self.ips.add_frame(bufinfo.get_vbuf().unwrap());
+ }
+
+ let mut frm = NAFrame::new_from_pkt(pkt, self.info.clone(), bufinfo);
+ frm.set_frame_type(FrameType::P);
+ Ok(frm.into_ref())
+ }
+ fn flush(&mut self) {
+ self.ips.clear();
+ }
+}
+
+impl NAOptionHandler for BinkDecoder {
+ 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(BinkDecoder::new())
+}
+
+#[cfg(test)]
+mod test {
+ use nihav_core::codecs::RegisteredDecoders;
+ use nihav_core::demuxers::RegisteredDemuxers;
+ use nihav_codec_support::test::dec_video::*;
+ use crate::rad_register_all_decoders;
+ use crate::rad_register_all_demuxers;
+ #[test]
+ fn test_binkvid_b() {
+ let mut dmx_reg = RegisteredDemuxers::new();
+ rad_register_all_demuxers(&mut dmx_reg);
+ let mut dec_reg = RegisteredDecoders::new();
+ rad_register_all_decoders(&mut dec_reg);
+
+ // sample: https://samples.mplayerhq.hu/game-formats/bink/bikb/NEW.BIK
+ test_decoding("bink", "bink-video", "assets/RAD/NEW.BIK", Some(16), &dmx_reg, &dec_reg,
+ ExpectedTestResult::MD5Frames(vec![
+ [0x00edef7e, 0x7efad3b1, 0x7e8bdd74, 0x3f6b00ba],
+ [0xbc40683f, 0xbeb1c5e4, 0x934777b5, 0x8a8a350d],
+ [0x68b78627, 0x28ceb63d, 0xfdb1171a, 0x23e69d90],
+ [0xc8d907a0, 0xb8d44079, 0x0286336b, 0x996479f3],
+ [0x57bbe4ec, 0xdb8bb9c2, 0x0e6f1fd6, 0xe180125e],
+ [0xd43c2ae0, 0x4010007f, 0x2a6360a1, 0xb5203a05],
+ [0xa883acf6, 0x25843f92, 0x4ced9a46, 0x6d513ad9],
+ [0x959e843f, 0x8d8182b9, 0x3f12d29b, 0x2af8d39f],
+ [0x93840946, 0x1188c6d1, 0xd5499833, 0x62aac0c6],
+ [0x4e5a56a6, 0x21517d9a, 0xbe1f270d, 0xe5621945],
+ [0x1b133742, 0x1eb1bf0a, 0x68cab2e3, 0x92176b5d],
+ [0x0cf78c43, 0x4bc15549, 0x3dd94323, 0x737eaaae],
+ [0xdd731c4a, 0x801453b3, 0xa38bef3e, 0x285cfdfe],
+ [0xe1fec4ee, 0x46737abc, 0x8c452209, 0xc8c6addd],
+ [0x2978aa50, 0x5f1e6d5a, 0x1f5b0fba, 0xb8e32196],
+ [0x2e1e95ab, 0x8e31a0b0, 0xfe998512, 0xea9397b6],
+ [0xf7f6c0d8, 0x893e77a7, 0xdfe0309f, 0xf5e644e2]]));
+ }
+ #[test]
+ fn test_binkvid() {
+ let mut dmx_reg = RegisteredDemuxers::new();
+ rad_register_all_demuxers(&mut dmx_reg);
+ let mut dec_reg = RegisteredDecoders::new();
+ rad_register_all_decoders(&mut dec_reg);
+
+ // sample: https://samples.mplayerhq.hu/game-formats/bink/ActivisionLogo.bik
+ test_decoding("bink", "bink-video", "assets/RAD/ActivisionLogo.bik", Some(42),
+ &dmx_reg, &dec_reg,
+ ExpectedTestResult::MD5([0x41128884, 0x73a8c710, 0x5072ea4a, 0x8caca428]));
+ }
+}