public WaveFormatExtensible(int channels, int samplesPerSecond, int bitsPerSample, int validBitsPerSample, SpeakerPositions channelMask, Guid subFormat) : base(WaveFormatTag.Extensible, channels, samplesPerSecond, bitsPerSample) { extraDataSize = (short) (StandardSizeExtensible - StandardSize); _validBitsPerSample = (short) validBitsPerSample; _channelMask = channelMask; _subFormat = subFormat; }
public WaveFormatExtensible(int channels, int samplesPerSecond, int bitsPerSample, int validBitsPerSample, SpeakerPositions channelMask, Guid subFormat) : base(WaveFormatTag.Extensible, channels, samplesPerSecond, bitsPerSample) { extraDataSize = (short)(StandardSizeExtensible - StandardSize); _validBitsPerSample = (short)validBitsPerSample; _channelMask = channelMask; _subFormat = subFormat; }
internal override void Read(BinaryReader reader) { base.Read(reader); try { if (extraDataSize < StandardSizeExtensible - StandardSize && formatTag != WaveFormatTag.Extensible) { return; } _validBitsPerSample = reader.ReadInt16(); _channelMask = (SpeakerPositions)reader.ReadUInt32(); _subFormat = new Guid(reader.ReadBytes(16)); } finally { reader = null; } }
internal override void Read(BinaryReader reader) { base.Read(reader); try { if (extraDataSize < StandardSizeExtensible - StandardSize && formatTag != WaveFormatTag.Extensible) return; _validBitsPerSample = reader.ReadInt16(); _channelMask = (SpeakerPositions) reader.ReadUInt32(); _subFormat = new Guid(reader.ReadBytes(16)); } finally { reader = null; } }