internal override PacketData UnpackPacket(DataPacket packet, int blockSize, int channel)
{
var data = _reusablePacketData[channel];
data.BlockSize = blockSize;
data.ForceEnergy = false;
data.ForceNoEnergy = false;
data.Amp = packet.ReadUBits(_ampBits);
if (data.Amp > 0f)
{
// this is pretty well stolen directly from libvorbis... BSD license
Array.Clear(data.Coeff, 0, data.Coeff.Length);
data.Amp = data.Amp / _ampDiv * _ampOfs;
uint bookNum = (uint)packet.ReadUBits(_bookBits);
if (bookNum >= _books.Length)
{
// we ran out of data or the packet is corrupt... 0 the floor and return
data.Amp = 0;
return(data);
}
VorbisCodebook book = _books[bookNum];
// first, the book decode...
for (int i = 0; i < _order;)
{
int entry = book.DecodeScalar(packet);
if (entry == -1)
{
// we ran out of data or the packet is corrupt... 0 the floor and return
data.Amp = 0;
return(data);
}
for (int j = 0; i < _order && j < book.Dimensions; j++, i++)
{
data.Coeff[i] = book[entry, j];
}
}
// then, the "averaging"
float last = 0f;
for (int j = 0; j < _order;)
{
for (int k = 0; j < _order && k < book.Dimensions; j++, k++)
{
data.Coeff[j] += last;
}
last = data.Coeff[j - 1];
}
}
return(data);
}
internal override PacketData UnpackPacket(DataPacket packet, int blockSize, int channel)
{
var data = _reusablePacketData[channel];
data.BlockSize = blockSize;
data.ForceEnergy = false;
data.ForceNoEnergy = false;
data.PostCount = 0;
Array.Clear(data.Posts, 0, 64);
// hoist ReadPosts to here since that's all we're doing...
if (packet.ReadBit())
{
var postCount = 2;
data.Posts[0] = (int)packet.ReadUBits(_yBits);
data.Posts[1] = (int)packet.ReadUBits(_yBits);
for (int i = 0; i < _partitionClass.Length; i++)
{
var clsNum = _partitionClass[i];
var cdim = _classDimensions[clsNum];
var cbits = _classSubclasses[clsNum];
var csub = (1 << cbits) - 1;
var cval = 0U;
if (cbits > 0)
{
if ((cval = (uint)_classMasterBooks[clsNum].DecodeScalar(packet)) == uint.MaxValue)
{
// we read a bad value... bail
postCount = 0;
break;
}
}
for (int j = 0; j < cdim; j++)
{
var book = _subclassBooks[clsNum][cval & csub];
cval >>= cbits;
if (book != null)
{
if ((data.Posts[postCount] = book.DecodeScalar(packet)) == -1)
{
// we read a bad value... bail
postCount = 0;
i = _partitionClass.Length;
break;
}
}
++postCount;
}
}
data.PostCount = postCount;
}
return(data);
}
bool ProcessStreamHeader(DataPacket packet)
{
if (!CheckForHeader(packet, streamHeader))
{
// don't mark the packet as done... it might be used elsewhere
_glueBits += packet.Length * 8;
return(false);
}
if (!_pagesSeen.Contains(_lastPageSeen = packet.PageSequenceNumber))
{
_pagesSeen.Add(_lastPageSeen);
}
_glueBits += 56;
long startPos = packet.BitsRead;
if (packet.ReadInt32() != 0)
{
throw new InvalidDataException("Only Vorbis stream version 0 is supported.");
}
_channels = packet.ReadByte();
_sampleRate = packet.ReadInt32();
_upperBitrate = packet.ReadInt32();
_nominalBitrate = packet.ReadInt32();
_lowerBitrate = packet.ReadInt32();
Block0Size = 1 << (int)packet.ReadUBits(4);
Block1Size = 1 << (int)packet.ReadUBits(4);
if (_nominalBitrate == 0)
{
if (_upperBitrate > 0 && _lowerBitrate > 0)
{
_nominalBitrate = (_upperBitrate + _lowerBitrate) / 2;
}
}
_metaBits += packet.BitsRead - startPos + 8;
_wasteHdrBits += 8 * packet.Length - packet.BitsRead;
return(true);
}
internal void Init(DataPacket packet)
{
// first, check the sync pattern
ulong chkVal = packet.ReadUBits(24);
if (chkVal != 0x564342UL)
{
throw new InvalidDataException();
}
// get the counts
Dimensions = (int)packet.ReadUBits(16);
Entries = (int)packet.ReadUBits(24);
// init the storage
Lengths = new int[Entries];
InitTree(packet);
InitLookupTable(packet);
}
public static VorbisMode Init(VorbisStreamDecoder vorbis, DataPacket packet)
{
var mode = new VorbisMode(vorbis);
mode.BlockFlag = packet.ReadBit();
mode.WindowType = (int)packet.ReadUBits(16);
mode.TransformType = (int)packet.ReadUBits(16);
var mapping = (int)packet.ReadUBits(8);
if (mode.WindowType != 0 || mode.TransformType != 0 || mapping >= vorbis.Maps.Length)
{
throw new InvalidDataException();
}
mode.Mapping = vorbis.Maps[mapping];
mode.BlockSize = mode.BlockFlag ? vorbis.Block1Size : vorbis.Block0Size;
// now pre-calc the window(s)...
if (mode.BlockFlag)
{
// long block
mode._windows = new float[4][];
mode._windows[0] = new float[vorbis.Block1Size];
mode._windows[1] = new float[vorbis.Block1Size];
mode._windows[2] = new float[vorbis.Block1Size];
mode._windows[3] = new float[vorbis.Block1Size];
}
else
{
// short block
mode._windows = new float[1][];
mode._windows[0] = new float[vorbis.Block0Size];
}
mode.CalcWindows();
return(mode);
}
internal static VorbisTime Init(VorbisStreamDecoder vorbis, DataPacket packet)
{
var type = (int)packet.ReadUBits(16);
VorbisTime time = null;
switch (type)
{
case 0: time = new Time0(vorbis); break;
}
if (time == null)
{
throw new InvalidDataException();
}
time.Init(packet);
return(time);
}
internal static VorbisMapping Create(VorbisStreamDecoder vorbis, DataPacket packet)
{
int type = (int)packet.ReadUBits(16);
VorbisMapping mapping = null;
switch (type)
{
case 0:
mapping = new Mapping0(vorbis);
break;
}
if (mapping == null)
{
throw new InvalidDataException();
}
mapping.Init(packet);
return(mapping);
}
internal static VorbisResidue Init(VorbisStreamDecoder vorbis, DataPacket packet)
{
var type = (int)packet.ReadUBits(16);
VorbisResidue residue = null;
switch (type)
{
case 0: residue = new Residue0(vorbis); break;
case 1: residue = new Residue1(vorbis); break;
case 2: residue = new Residue2(vorbis); break;
}
if (residue == null)
{
throw new InvalidDataException();
}
residue.Init(packet);
return(residue);
}
internal int GetPacketLength(DataPacket curPacket, DataPacket lastPacket)
{
// if we don't have a previous packet, or we're re-syncing, this packet has no audio data to return
if (lastPacket == null || curPacket.IsResync)
{
return(0);
}
// make sure they are audio packets
if (curPacket.ReadBit())
{
return(0);
}
if (lastPacket.ReadBit())
{
return(0);
}
// get the current packet's information
int modeIndex = (int)curPacket.ReadUBits(_modeFieldBits);
if (modeIndex < 0 || modeIndex >= Modes.Length)
{
return(0);
}
var mode = Modes[modeIndex];
// get the last packet's information
modeIndex = (int)lastPacket.ReadUBits(_modeFieldBits);
if (modeIndex < 0 || modeIndex >= Modes.Length)
{
return(0);
}
// now calculate the totals...
var prevMode = Modes[modeIndex];
return(mode.BlockSize / 4 + prevMode.BlockSize / 4);
}
internal static VorbisFloor Create(VorbisStreamDecoder vorbis, DataPacket packet)
{
int type = (int)packet.ReadUBits(16);
VorbisFloor floor = null;
switch (type)
{
case 0:
floor = new Floor0(vorbis);
break;
case 1:
floor = new Floor1(vorbis);
break;
}
if (floor == null)
{
throw new InvalidDataException();
}
floor.Init(packet);
return(floor);
}
bool UnpackPacket(DataPacket packet)
{
// make sure we're on an audio packet
if (packet.ReadBit())
{
// we really can't do anything... count the bits as waste
return(false);
}
// get mode and prev/next flags
var modeBits = _modeFieldBits;
_mode = Modes[(int)packet.ReadUBits(_modeFieldBits)];
if (_mode.BlockFlag)
{
_prevFlag = packet.ReadBit();
_nextFlag = packet.ReadBit();
modeBits += 2;
}
else
{
_prevFlag = _nextFlag = false;
}
if (packet.IsShort)
{
return(false);
}
var startBits = packet.BitsRead;
var halfBlockSize = _mode.BlockSize / 2;
// read the noise floor data (but don't decode yet)
for (int i = 0; i < _channels; i++)
{
_floorData[i] = _mode.Mapping.ChannelSubmap[i].Floor.UnpackPacket(packet, _mode.BlockSize, i);
_noExecuteChannel[i] = !_floorData[i].ExecuteChannel;
// go ahead and clear the residue buffers
Array.Clear(_residue[i], 0, halfBlockSize);
}
// make sure we handle no-energy channels correctly given the couplings...
foreach (var step in _mode.Mapping.CouplingSteps)
{
if (_floorData[step.Angle].ExecuteChannel || _floorData[step.Magnitude].ExecuteChannel)
{
_floorData[step.Angle].ForceEnergy = true;
_floorData[step.Magnitude].ForceEnergy = true;
}
}
var floorBits = packet.BitsRead - startBits;
startBits = packet.BitsRead;
foreach (var subMap in _mode.Mapping.Submaps)
{
for (int j = 0; j < _channels; j++)
{
if (_mode.Mapping.ChannelSubmap[j] != subMap)
{
_floorData[j].ForceNoEnergy = true;
}
}
float[][] rTemp = subMap.Residue.Decode(packet, _noExecuteChannel, _channels, _mode.BlockSize);
for (int c = 0; c < _channels; c++)
{
var r = _residue[c];
var rt = rTemp[c];
for (int i = 0; i < halfBlockSize; i++)
{
r[i] += rt[i];
}
}
}
_glueBits += 1;
_modeBits += modeBits;
_floorBits += floorBits;
_resBits += packet.BitsRead - startBits;
_wasteBits += 8 * packet.Length - packet.BitsRead;
_packetCount += 1;
return(true);
}
void InitLookupTable(DataPacket packet)
{
MapType = (int)packet.ReadUBits(4);
if (MapType == 0)
{
return;
}
float minValue = Utils.ConvertFromVorbisFloat32(packet.ReadUInt32());
float deltaValue = Utils.ConvertFromVorbisFloat32(packet.ReadUInt32());
int valueBits = (int)packet.ReadUBits(4) + 1;
bool sequence_p = packet.ReadBit();
int lookupValueCount = Entries * Dimensions;
LookupTable = new float[lookupValueCount];
if (MapType == 1)
{
lookupValueCount = Lookup1_values();
}
Span <uint> multiplicands = stackalloc uint[lookupValueCount];
for (var i = 0; i < lookupValueCount; i++)
{
multiplicands[i] = (uint)packet.ReadUBits(valueBits);
}
// now that we have the initial data read in, calculate the entry tree
if (MapType == 1)
{
for (int idx = 0; idx < Entries; idx++)
{
double last = 0.0;
int idxDiv = 1;
for (var i = 0; i < Dimensions; i++)
{
int moff = idx / idxDiv % lookupValueCount;
double value = multiplicands[moff] * deltaValue + minValue + last;
LookupTable[idx * Dimensions + i] = (float)value;
if (sequence_p)
{
last = value;
}
idxDiv *= lookupValueCount;
}
}
}
else
{
for (int idx = 0; idx < Entries; idx++)
{
double last = 0.0;
int moff = idx * Dimensions;
for (var i = 0; i < Dimensions; i++)
{
double value = multiplicands[moff] * deltaValue + minValue + last;
LookupTable[idx * Dimensions + i] = (float)value;
if (sequence_p)
{
last = value;
}
moff++;
}
}
}
}
bool LoadBooks(DataPacket packet)
{
if (!CheckForHeader(packet, bookHeader))
{
return(false);
}
if (!_pagesSeen.Contains(_lastPageSeen = packet.PageSequenceNumber))
{
_pagesSeen.Add(_lastPageSeen);
}
var bits = packet.BitsRead;
_glueBits += packet.BitsRead;
// get books
Books = new VorbisCodebook[packet.ReadByte() + 1];
for (int i = 0; i < Books.Length; i++)
{
Books[i] = VorbisCodebook.Create(this, packet, i);
}
_bookBits += packet.BitsRead - bits;
bits = packet.BitsRead;
// get times
Times = new VorbisTime[(int)packet.ReadUBits(6) + 1];
for (int i = 0; i < Times.Length; i++)
{
Times[i] = VorbisTime.Init(this, packet);
}
_timeHdrBits += packet.BitsRead - bits;
bits = packet.BitsRead;
// get floor
Floors = new VorbisFloor[(int)packet.ReadUBits(6) + 1];
for (int i = 0; i < Floors.Length; i++)
{
Floors[i] = VorbisFloor.Create(this, packet);
}
_floorHdrBits += packet.BitsRead - bits;
bits = packet.BitsRead;
// get residue
Residues = new VorbisResidue[(int)packet.ReadUBits(6) + 1];
for (int i = 0; i < Residues.Length; i++)
{
Residues[i] = VorbisResidue.Init(this, packet);
}
_resHdrBits += packet.BitsRead - bits;
bits = packet.BitsRead;
// get map
Maps = new VorbisMapping[(int)packet.ReadUBits(6) + 1];
for (int i = 0; i < Maps.Length; i++)
{
Maps[i] = VorbisMapping.Create(this, packet);
}
_mapHdrBits += packet.BitsRead - bits;
bits = packet.BitsRead;
// get mode settings
Modes = new VorbisMode[(int)packet.ReadUBits(6) + 1];
for (int i = 0; i < Modes.Length; i++)
{
Modes[i] = VorbisMode.Init(this, packet);
}
_modeHdrBits += packet.BitsRead - bits;
// check the framing bit
if (!packet.ReadBit())
{
throw new InvalidDataException();
}
++_glueBits;
_wasteHdrBits += 8 * packet.Length - packet.BitsRead;
_modeFieldBits = Utils.ILog(Modes.Length - 1);
return(true);
}
protected override void Init(DataPacket packet)
{
// this is pretty well stolen directly from libvorbis... BSD license
_order = (int)packet.ReadUBits(8);
_rate = (int)packet.ReadUBits(16);
_bark_map_size = (int)packet.ReadUBits(16);
_ampBits = (int)packet.ReadUBits(6);
_ampOfs = (int)packet.ReadUBits(8);
_books = new VorbisCodebook[(int)packet.ReadUBits(4) + 1];
if (_order < 1 || _rate < 1 || _bark_map_size < 1 || _books.Length == 0)
{
throw new InvalidDataException();
}
_ampDiv = (1 << _ampBits) - 1;
for (int i = 0; i < _books.Length; i++)
{
int num = (int)packet.ReadUBits(8);
if (num < 0 || num >= _vorbis.Books.Length)
{
throw new InvalidDataException();
}
VorbisCodebook book = _vorbis.Books[num];
if (book.MapType == 0 || book.Dimensions < 1)
{
throw new InvalidDataException();
}
_books[i] = book;
}
_bookBits = Utils.ILog(_books.Length);
_barkMaps = new Dictionary <int, int[]>();
_barkMaps[_vorbis.Block0Size] = SynthesizeBarkCurve(_vorbis.Block0Size / 2);
_barkMaps[_vorbis.Block1Size] = SynthesizeBarkCurve(_vorbis.Block1Size / 2);
_wMap = new Dictionary <int, float[]>();
_wMap[_vorbis.Block0Size] = SynthesizeWDelMap(_vorbis.Block0Size / 2);
_wMap[_vorbis.Block1Size] = SynthesizeWDelMap(_vorbis.Block1Size / 2);
_reusablePacketData = new PacketData0[_vorbis._channels];
for (int i = 0; i < _reusablePacketData.Length; i++)
{
_reusablePacketData[i] = new PacketData0()
{
Coeff = new float[_order + 1]
}
}
;
}
int[] SynthesizeBarkCurve(int n)
{
float scale = _bark_map_size / ToBARK(_rate / 2);
int[] map = new int[n + 1];
for (int i = 0; i < n - 1; i++)
{
map[i] = Math.Min(_bark_map_size - 1, (int)MathF.Floor(ToBARK(_rate / 2f / n * i) * scale));
}
map[n] = -1;
return(map);
}
void InitTree(DataPacket packet)
{
bool sparse;
int total = 0;
if (packet.ReadBit())
{
// ordered
var len = (int)packet.ReadUBits(5) + 1;
for (var i = 0; i < Entries;)
{
int cnt = (int)packet.ReadUBits(Utils.ILog(Entries - i));
while (--cnt >= 0)
{
Lengths[i++] = len;
}
len++;
}
total = 0;
sparse = false;
}
else
{
// unordered
sparse = packet.ReadBit();
for (var i = 0; i < Entries; i++)
{
if (!sparse || packet.ReadBit())
{
Lengths[i] = (int)packet.ReadUBits(5) + 1;
total++;
}
else
{
// mark the entry as unused
Lengths[i] = -1;
}
}
}
// figure out the maximum bit size; if all are unused, don't do anything else
if ((MaxBits = Lengths.Max()) > -1)
{
Span <int> codewordLengths = stackalloc int[0];
if (sparse && total >= Entries >> 2)
{
codewordLengths = stackalloc int[Entries];
for (int i = 0; i < Entries; i++)
{
codewordLengths[i] = Lengths[i];
}
sparse = false;
}
// compute size of sorted tables
int sortedEntries = sparse ? total : 0;
Span <int> values = stackalloc int[0];
Span <int> codewords = stackalloc int[0];
if (!sparse)
{
codewords = stackalloc int[Entries];
}
else if (sortedEntries != 0)
{
codewordLengths = stackalloc int[sortedEntries];
codewords = stackalloc int[sortedEntries];
values = stackalloc int[sortedEntries];
}
if (!ComputeCodewords(sparse, sortedEntries, codewords, codewordLengths, Lengths, Entries, values))
{
throw new InvalidDataException();
}
Span <int> valueList = stackalloc int[codewords.Length];
if (values.Length != 0)
{
valueList = values;
}
else
{
for (int i = 0; i < codewords.Length; i++)
{
valueList[i] = i;
}
}
Span <int> lengthList = codewordLengths.Length > 0 ? codewordLengths : Lengths.AsSpan();
PrefixList = Huffman.BuildPrefixedLinkedList(
valueList, lengthList, codewords, out PrefixBitLength, out PrefixOverflowTree);
}
}
protected override void Init(DataPacket packet)
{
_partitionClass = new int[(int)packet.ReadUBits(5)];
for (int i = 0; i < _partitionClass.Length; i++)
{
_partitionClass[i] = (int)packet.ReadUBits(4);
}
int maximum_class = _partitionClass.Max();
_classDimensions = new int[maximum_class + 1];
_classSubclasses = new int[maximum_class + 1];
_classMasterBooks = new VorbisCodebook[maximum_class + 1];
_classMasterBookIndex = new int[maximum_class + 1];
_subclassBooks = new VorbisCodebook[maximum_class + 1][];
_subclassBookIndex = new int[maximum_class + 1][];
for (int i = 0; i <= maximum_class; i++)
{
_classDimensions[i] = (int)packet.ReadUBits(3) + 1;
_classSubclasses[i] = (int)packet.ReadUBits(2);
if (_classSubclasses[i] > 0)
{
_classMasterBookIndex[i] = (int)packet.ReadUBits(8);
_classMasterBooks[i] = _vorbis.Books[_classMasterBookIndex[i]];
}
_subclassBooks[i] = new VorbisCodebook[1 << _classSubclasses[i]];
_subclassBookIndex[i] = new int[_subclassBooks[i].Length];
for (int j = 0; j < _subclassBooks[i].Length; j++)
{
int bookNum = (int)packet.ReadUBits(8) - 1;
if (bookNum >= 0)
{
_subclassBooks[i][j] = _vorbis.Books[bookNum];
}
_subclassBookIndex[i][j] = bookNum;
}
}
_multiplier = (int)packet.ReadUBits(2);
_range = _rangeLookup[_multiplier];
_yBits = _yBitsLookup[_multiplier];
_multiplier++;
int rangeBits = (int)packet.ReadUBits(4);
int xListIndex = 0;
int xListSize = 2; // we always add at least 2 elements
for (int i = 0; i < _partitionClass.Length; i++) // precalc size of xList
{
int classNum = _partitionClass[i];
int dim = _classDimensions[classNum];
xListSize += dim;
}
_xList = new int[xListSize];
_xList[xListIndex++] = 0;
_xList[xListIndex++] = 1 << rangeBits;
for (int i = 0; i < _partitionClass.Length; i++)
{
int classNum = _partitionClass[i];
int dim = _classDimensions[classNum];
for (int j = 0; j < dim; j++)
{
_xList[xListIndex++] = (int)packet.ReadUBits(rangeBits);
}
}
// precalc the low and high neighbors (and init the sort table)
_lNeigh = new int[_xList.Length];
_hNeigh = new int[_xList.Length];
_sortIdx = new int[_xList.Length];
_sortIdx[0] = 0;
_sortIdx[1] = 1;
for (int i = 2; i < _lNeigh.Length; i++)
{
_lNeigh[i] = 0;
_hNeigh[i] = 1;
_sortIdx[i] = i;
for (int j = 2; j < i; j++)
{
int tmp = _xList[j];
if (tmp < _xList[i])
{
if (tmp > _xList[_lNeigh[i]])
{
_lNeigh[i] = j;
}
}
else
{
if (tmp < _xList[_hNeigh[i]])
{
_hNeigh[i] = j;
}
}
}
}
// precalc the sort table
for (int i = 0; i < _sortIdx.Length - 1; i++)
{
for (int j = i + 1; j < _sortIdx.Length; j++)
{
if (_xList[i] == _xList[j])
{
throw new InvalidDataException();
}
if (_xList[_sortIdx[i]] > _xList[_sortIdx[j]])
{
// swap the sort indexes
int tmp = _sortIdx[i];
_sortIdx[i] = _sortIdx[j];
_sortIdx[j] = tmp;
}
}
}
// pre-create our packet data instances
_reusablePacketData = new PacketData1[_vorbis._channels];
for (int i = 0; i < _reusablePacketData.Length; i++)
{
_reusablePacketData[i] = new PacketData1();
}
}
protected override void Init(DataPacket packet)
{
// this is pretty well stolen directly from libvorbis... BSD license
_begin = (int)packet.ReadUBits(24);
_end = (int)packet.ReadUBits(24);
_partitionSize = (int)packet.ReadUBits(24) + 1;
_classifications = (int)packet.ReadUBits(6) + 1;
_classBook = _vorbis.Books[(int)packet.ReadUBits(8)];
_cascade = new int[_classifications];
int acc = 0;
for (int i = 0; i < _classifications; i++)
{
var low_bits = (int)packet.ReadUBits(3);
if (packet.ReadBit())
{
_cascade[i] = (int)packet.ReadUBits(5) << 3 | low_bits;
}
else
{
_cascade[i] = low_bits;
}
acc += ICount(_cascade[i]);
}
int[] bookNums = new int[acc];
for (var i = 0; i < acc; i++)
{
bookNums[i] = (int)packet.ReadUBits(8);
if (_vorbis.Books[bookNums[i]].MapType == 0)
{
throw new InvalidDataException();
}
}
int entries = _classBook.Entries;
int dim = _classBook.Dimensions;
int partvals = 1;
while (dim > 0)
{
partvals *= _classifications;
if (partvals > entries)
{
throw new InvalidDataException();
}
--dim;
}
// now the lookups
_ = _classBook.Dimensions;
_books = new VorbisCodebook[_classifications][];
acc = 0;
var maxstage = 0;
int stages;
for (int j = 0; j < _classifications; j++)
{
stages = Utils.ILog(_cascade[j]);
_books[j] = new VorbisCodebook[stages];
if (stages > 0)
{
maxstage = Math.Max(maxstage, stages);
for (int k = 0; k < stages; k++)
{
if ((_cascade[j] & (1 << k)) > 0)
{
_books[j][k] = _vorbis.Books[bookNums[acc++]];
}
}
}
}
_maxStages = maxstage;
_decodeMap = new int[partvals][];
for (int j = 0; j < partvals; j++)
{
var val = j;
var mult = partvals / _classifications;
_decodeMap[j] = new int[_classBook.Dimensions];
for (int k = 0; k < _classBook.Dimensions; k++)
{
var deco = val / mult;
val -= deco * mult;
mult /= _classifications;
_decodeMap[j][k] = deco;
}
}
_entryCache = new int[_partitionSize];
_partWordCache = new int[_vorbis._channels][][];
var maxPartWords = ((_end - _begin) / _partitionSize + _classBook.Dimensions - 1) / _classBook.Dimensions;
for (int ch = 0; ch < _vorbis._channels; ch++)
{
_partWordCache[ch] = new int[maxPartWords][];
}
}
protected override void Init(DataPacket packet)
{
var submapCount = 1;
if (packet.ReadBit())
{
submapCount += (int)packet.ReadUBits(4);
}
// square polar mapping
var couplingSteps = 0;
if (packet.ReadBit())
{
couplingSteps = (int)packet.ReadUBits(8) + 1;
}
var couplingBits = Utils.ILog(_vorbis._channels - 1);
CouplingSteps = new CouplingStep[couplingSteps];
for (int j = 0; j < couplingSteps; j++)
{
var magnitude = (int)packet.ReadUBits(couplingBits);
var angle = (int)packet.ReadUBits(couplingBits);
if (magnitude == angle || magnitude > _vorbis._channels - 1 || angle > _vorbis._channels - 1)
{
throw new InvalidDataException();
}
CouplingSteps[j] = new CouplingStep {
Angle = angle, Magnitude = magnitude
};
}
// reserved bits
if (packet.ReadUBits(2) != 0UL)
{
throw new InvalidDataException();
}
// channel multiplex
var mux = new int[_vorbis._channels];
if (submapCount > 1)
{
for (int c = 0; c < ChannelSubmap.Length; c++)
{
mux[c] = (int)packet.ReadUBits(4);
if (mux[c] >= submapCount)
{
throw new InvalidDataException();
}
}
}
// submaps
Submaps = new Submap[submapCount];
for (int j = 0; j < submapCount; j++)
{
packet.ReadUBits(8); // unused placeholder
var floorNum = (int)packet.ReadUBits(8);
if (floorNum >= _vorbis.Floors.Length)
{
throw new InvalidDataException();
}
var residueNum = (int)packet.ReadUBits(8);
if (residueNum >= _vorbis.Residues.Length)
{
throw new InvalidDataException();
}
Submaps[j] = new Submap
{
Floor = _vorbis.Floors[floorNum],
Residue = _vorbis.Residues[floorNum]
};
}
ChannelSubmap = new Submap[_vorbis._channels];
for (int c = 0; c < ChannelSubmap.Length; c++)
{
ChannelSubmap[c] = Submaps[mux[c]];
}
}