Beispiel #1
0
        public override void ReadSetupData( VorbisCodec codec, BitReader reader )
        {
            submaps = reader.ReadBit() == 0 ? 1 : reader.ReadBits( 4 ) + 1;
            couplingSteps = reader.ReadBit() == 0 ? 0 : reader.ReadBits( 8 ) + 1;
            int channels = codec.channels;

            if( couplingSteps > 0 && channels > 1 ) {
                magnitude = new byte[couplingSteps];
                angle = new byte[couplingSteps];
                int bits = VorbisUtils.iLog( channels - 1 );

                for( int i = 0; i < couplingSteps; i++ ) {
                    magnitude[i] = (byte)reader.ReadBits( bits );
                    angle[i] = (byte)reader.ReadBits( bits );
                }
            }

            if( reader.ReadBits( 2 ) != 0 )
                throw new InvalidDataException( "Reserved field not 0!" );
            if( submaps > 1 ) {
                mux = new byte[channels];
                for( int i = 0; i < mux.Length; i++ )
                    mux[i] = (byte)reader.ReadBits( 4 );
            } else {
                mux = new byte[channels];
            }

            submapFloor = new byte[submaps];
            submapResidue = new byte[submaps];
            for( int i = 0; i < submaps; i++ ) {
                reader.ReadBits( 8 ); // unused time configuration
                submapFloor[i] = (byte)reader.ReadBits( 8 );
                submapResidue[i] = (byte)reader.ReadBits( 8 );
            }
        }
Beispiel #2
0
 public override void ReadSetupData( VorbisCodec codec, BitReader reader )
 {
     blockFlag = reader.ReadBit();
     int windowType = reader.ReadBits( 16 );
     int transformType = reader.ReadBits( 16 );
     modeMapping = reader.ReadBits( 8 );
     if( windowType > 0 || transformType > 0 )
         throw new InvalidDataException( "windowType and/or transformType not 0" );
 }
Beispiel #3
0
        public int GetScalarContext( BitReader reader )
        {
            uint huffCode = 0;
            int bits = 1;
            int value = 0;

            while( bits <= 32 ) {
                huffCode <<= 1;
                huffCode |= (uint)reader.ReadBit();

                if( tree.GetValue( huffCode, bits, out value ) )
                    break;
                bits++;
            }
            return value;
        }
Beispiel #4
0
        public IEnumerable<AudioChunk> StreamData( Stream source )
        {
            info = new AudioChunk();
            PrimitiveReader reader = new PrimitiveReader( source );
            while( true ) {
                // Read frame header
                BitReader bitReader = new BitReader( reader );
                bitReader.BigEndian = true;
                //Console.WriteLine( "start pos" + reader.Position );

                // Skip any padding('00') bytes before the start of a frame
                byte data = 0;
                while( ( data = reader.ReadByte() ) == 0 );

                // Make sure that the 'data' byte is the first 8 bits of the sync word.
                if( data != 0xFF ) {
                    throw new InvalidDataException( "Invalid frame sync value." );
                }
                int frameSync = bitReader.ReadBits( 3/*11*/ );
                if( frameSync != 0x7/*FF*/ ) {
                    throw new InvalidDataException( "Invalid frame sync value." );
                }
                int versionId = bitReader.ReadBits( 2 );
                int layerIndex = bitReader.ReadBits( 2 );
                bool crcProtection = bitReader.ReadBit() == 0;
                int bitrateIndex = bitReader.ReadBits( 4 );
                int samplingRateIndex = bitReader.ReadBits( 2 );

                bool padded = bitReader.ReadBit() != 0;
                int privateBit = bitReader.ReadBit();
                int channelMode = bitReader.ReadBits( 2 );
                int modeExtension = bitReader.ReadBits( 2 );
                int copyrightBit = bitReader.ReadBit();
                int originalBit = bitReader.ReadBit();
                int emphasis = bitReader.ReadBits( 2 );

                int bitrate = GetBitRate( (MpegVersion)versionId, layerIndex, bitrateIndex );
                info.Frequency = samplingRates[versionId][samplingRateIndex];

                ushort crc = 0;
                if( crcProtection ) {
                    crc = (ushort)bitReader.ReadBits( 16 );
                }
                MpegFrame frame = new MpegFrame();
                frame.Bitrate = bitrate;
                frame.ChannelMode = (ChannelMode)channelMode;
                frame.Channels = Common.GetNumberOfChannels( frame.ChannelMode );
                frame.CrcProtected = crcProtection;
                frame.Padding = padded;
                frame.ModeExtension = modeExtension;
                frame.SampleRate = info.Frequency;
                frame.Emphasis = emphasis;
                frame.Version = (MpegVersion)versionId;

                LayerIndex index2 = (LayerIndex)layerIndex;
                info.Data = null;
                //Console.WriteLine( "padding: {0}, type: {1}, sr: {2}, br: {3}",
                //frame.Padding, index2, frame.SampleRate, frame.Bitrate );
                if( layerIndex == (int)LayerIndex.Layer1 ) {
                    info.Data = decoder1.Decode( frame, bitReader );
                } else if( layerIndex == (int)LayerIndex.Layer2 ) {
                    info.Data = decoder2.Decode( frame, bitReader );
                } else if( layerIndex == (int)LayerIndex.Layer3 ) {
                    throw new NotSupportedException( "Layer III not supported" );
                } else {
                    throw new InvalidDataException( "Invalid layer" );
                }
                info.Channels = frame.Channels;
                info.BitsPerSample = 16;
                //if( bitReader.offset == 8 ) {
                //reader.ReadByte();
                //}
                yield return info;
            }
        }
Beispiel #5
0
        public override void ReadSetupData( VorbisCodec codec, BitReader reader )
        {
            int syncPattern = reader.ReadBits( 24 );
            if( syncPattern != 0x564342 ) {
                throw new InvalidDataException( "Invalid codebook sync pattern: " + syncPattern );
            }

            int dimensions = reader.ReadBits( 16 );
            int entries = reader.ReadBits( 24 );
            int ordered = reader.ReadBit();
            codewordLengths = new byte[entries];
            if( ordered == 0 ) {
                int sparse = reader.ReadBit();
                for( int i = 0; i < entries; i++ ) {
                    if( sparse == 0 || ( reader.ReadBit() == 1 ) ) {
                        codewordLengths[i] = (byte)( reader.ReadBits( 5 ) + 1 );
                    }
                }
            } else {
                int curEntry = 0;
                int curLength = reader.ReadBits( 5 ) + 1;
                while( curEntry < entries ) {
                    int number = reader.ReadBits( VorbisUtils.iLog( entries - curEntry ) );
                    for( int i = curEntry; i < curEntry + number; i++ ) {
                        codewordLengths[i] = (byte)curLength;
                    }
                    curEntry += number;
                    curLength++;
                }
            }

            BuildHuffmanTree();

            int lookupType = reader.ReadBits( 4 );
            if( lookupType == 1 || lookupType == 2 ) {
                float minValue = VorbisUtils.Unpack( reader.ReadBitsU( 32 ) );
                float deltaValue = VorbisUtils.Unpack( reader.ReadBitsU( 32 ) );
                int valueBits = reader.ReadBits( 4 ) + 1;
                int sequenceP = reader.ReadBit();
                int lookupValues = 0;
                if( lookupType == 1 ) {
                    lookupValues = VorbisUtils.lookup1_values( entries, dimensions );
                } else {
                    lookupValues = entries * dimensions;
                }
                multiplicands = new ushort[lookupValues];
                for( int i = 0; i < multiplicands.Length; i++ ) {
                    multiplicands[i] = (ushort)reader.ReadBits( valueBits );
                }

                VQ = new float[entries][];
                for( int i = 0; i < entries; i++ ) {
                    float[] vector = new float[dimensions];
                    if( lookupType == 1 ) {
                        float last = 0;
                        int indexDivisor = 1;
                        for( int j = 0; j < dimensions; j++ ) {
                            int multiplicandOffset = ( i / indexDivisor ) % lookupValues;
                            vector[j] = multiplicands[multiplicandOffset] * deltaValue + minValue + last;
                            if( sequenceP != 0 ) last = vector[j];

                            indexDivisor *= lookupValues;
                        }
                    } else {
                        float last = 0;
                        int mulitiplicandOffset = i * dimensions;
                        for( int j = 0; j < dimensions; j++ ) {
                            vector[j] = multiplicands[mulitiplicandOffset] * deltaValue + minValue + last;
                            if( sequenceP != 0 ) last = vector[j];

                            mulitiplicandOffset++;
                        }
                    }
                    VQ[i] = vector;
                }
            }
        }