/// <summary> /// Write WAV file header. /// </summary> /// <param name="fs">The file stream.</param> /// <param name="h">The wav file header.</param> public static void WriteFileHeader(FileStream fs, WavFileHeader h) { // Write WAV header. var b = new BinaryWriter(fs); // WAVE b.Write((UInt32)0x46464952); // 0x46464952, "RIFF" b.Write(h.ChunkSize); b.Write((UInt32)0x45564157); // 0x45564157, "WAVE" // fmt b.Write((UInt32)0x20746d66); // 0x20746d66, "fmt " b.Write(h.Subchunk1Size); b.Write(h.AudioFormat); b.Write(h.NumChannels); b.Write(h.SampleRate); b.Write(h.ByteRate); b.Write(h.BlockAlign); b.Write(h.BitsPerSample); // Write PCM data or extensible data if exists. if (h.Subchunk1Size == 16 && h.AudioFormat == 1) { // PCM b.Write((UInt32)0x61746164); // 0x61746164, "data" b.Write(h.Subchunk2Size); } else if (h.Subchunk1Size > 16 && h.AudioFormat == 0xFFFE) { // Write WAVEFORMATEXTENSIBLE b.Write(h.ExtraParamSize); b.Write(h.Samples); b.Write(h.ChannelMask); b.Write(h.GuidSubFormat.ToByteArray()); b.Write((UInt32)0x61746164); // 0x61746164, "data" b.Write(h.Subchunk2Size); } else { throw new Exception("Not supported WAV file header."); } }
/// <summary> /// Get mono WAV file header from multi-channel WAV file. /// </summary> /// <param name="h">The wav file header.</param> /// <returns>The new instance of the <see cref="WavFileHeader"/> struct.</returns> public static WavFileHeader GetMonoWavFileHeader(WavFileHeader h) { // Each mono output file has the same header. var mh = new WavFileHeader(); // WAVE mh.ChunkID = (UInt32)0x46464952; // 0x46464952, "RIFF" mh.ChunkSize = 36 + (h.Subchunk2Size / h.NumChannels); // 36 + SubChunk2Size, 4 + (8 + SubChunk1Size) + (8 + SubChunk2Size) mh.Format = (UInt32)0x45564157; // 0x45564157, "WAVE" // fmt mh.Subchunk1ID = (UInt32)0x20746d66; // 0x20746d66, "fmt " mh.Subchunk1Size = 16; // 16 for PCM, 40 for WAVEFORMATEXTENSIBLE mh.AudioFormat = (UInt16)1; // PCM = 1, WAVEFORMATEXTENSIBLE.SubFormat = 0xFFFE mh.NumChannels = (UInt16)1; // Mono = 1, Stereo = 2, etc. mh.SampleRate = h.SampleRate; // 8000, 44100, etc. mh.ByteRate = (UInt32)((h.SampleRate * 1 * h.BitsPerSample) / 8); // SampleRate * NumChannels * BitsPerSample/8 mh.BlockAlign = (UInt16)((1 * h.BitsPerSample) / 8); // NumChannels * BitsPerSample/8 mh.BitsPerSample = h.BitsPerSample; // 8 bits = 8, 16 bits = 16, etc. // extensible mh.ExtraParamSize = (UInt16)0; mh.ChannelMask = (UInt32)0; mh.GuidSubFormat = new Guid(); // data mh.Subchunk2ID = (UInt32)0x61746164; // 0x61746164, "data" mh.Subchunk2Size = h.Subchunk2Size / h.NumChannels; // NumSamples * NumChannels * BitsPerSample/8 // info mh.IsExtensible = false; mh.HeaderSize = 44; mh.TotalSamples = (long)((double)mh.Subchunk2Size / ((double)mh.NumChannels * (double)mh.BitsPerSample / 8)); mh.Duration = (1 / (double)mh.SampleRate) * (double)mh.TotalSamples; return(mh); }
/// <summary> /// Get mono WAV file header from multi-channel WAV file. /// </summary> /// <param name="h">The wav file header.</param> /// <returns>The new instance of the <see cref="WavFileHeader"/> struct.</returns> public static WavFileHeader GetMonoWavFileHeader(WavFileHeader h) { // Each mono output file has the same header. var mh = new WavFileHeader(); // WAVE mh.ChunkID = (UInt32)0x46464952; // 0x46464952, "RIFF" mh.ChunkSize = 36 + (h.Subchunk2Size / h.NumChannels); // 36 + SubChunk2Size, 4 + (8 + SubChunk1Size) + (8 + SubChunk2Size) mh.Format = (UInt32)0x45564157; // 0x45564157, "WAVE" // fmt mh.Subchunk1ID = (UInt32)0x20746d66; // 0x20746d66, "fmt " mh.Subchunk1Size = 16; // 16 for PCM, 40 for WAVEFORMATEXTENSIBLE mh.AudioFormat = (UInt16)1; // PCM = 1, WAVEFORMATEXTENSIBLE.SubFormat = 0xFFFE mh.NumChannels = (UInt16)1; // Mono = 1, Stereo = 2, etc. mh.SampleRate = h.SampleRate; // 8000, 44100, etc. mh.ByteRate = (UInt32)((h.SampleRate * 1 * h.BitsPerSample) / 8); // SampleRate * NumChannels * BitsPerSample/8 mh.BlockAlign = (UInt16)((1 * h.BitsPerSample) / 8); // NumChannels * BitsPerSample/8 mh.BitsPerSample = h.BitsPerSample; // 8 bits = 8, 16 bits = 16, etc. // extensible mh.ExtraParamSize = (UInt16)0; mh.ChannelMask = (UInt32)0; mh.GuidSubFormat = new Guid(); // data mh.Subchunk2ID = (UInt32)0x61746164; // 0x61746164, "data" mh.Subchunk2Size = (h.Subchunk2Size / h.NumChannels); // NumSamples * NumChannels * BitsPerSample/8 // info mh.IsExtensible = false; mh.HeaderSize = 44; mh.TotalSamples = (long)((double)mh.Subchunk2Size / ((double)mh.NumChannels * (double)mh.BitsPerSample / 8)); mh.Duration = (1 / (double)mh.SampleRate) * (double)mh.TotalSamples; return mh; }
/// <summary> /// Read WAV file header. /// </summary> /// <param name="fs">The file stream.</param> /// <returns>The new instance of the <see cref="WavFileHeader"/> struct.</returns> public static WavFileHeader ReadFileHeader(FileStream fs) { var h = new WavFileHeader() { HeaderSize = 0 }; // Read WAV header. var b = new BinaryReader(fs); // WAVE h.ChunkID = b.ReadUInt32(); // 0x46464952, "RIFF" h.ChunkSize = b.ReadUInt32(); // 36 + SubChunk2Size, 4 + (8 + SubChunk1Size) + (8 + SubChunk2Size) h.Format = b.ReadUInt32(); // 0x45564157, "WAVE" h.HeaderSize += 12; // fmt h.Subchunk1ID = b.ReadUInt32(); // 0x20746d66, "fmt " h.Subchunk1Size = b.ReadUInt32(); // 16 for PCM, 40 for WAVEFORMATEXTENSIBLE h.AudioFormat = b.ReadUInt16(); // PCM = 1, WAVEFORMATEXTENSIBLE.SubFormat = 0xFFFE h.NumChannels = b.ReadUInt16(); // Mono = 1, Stereo = 2, etc. h.SampleRate = b.ReadUInt32(); // 8000, 44100, etc. h.ByteRate = b.ReadUInt32(); // SampleRate * NumChannels * BitsPerSample/8 h.BlockAlign = b.ReadUInt16(); // NumChannels * BitsPerSample/8 h.BitsPerSample = b.ReadUInt16(); // 8 bits = 8, 16 bits = 16, etc. h.HeaderSize += 24; // Read PCM data or extensible data if exists. if (h.Subchunk1Size == 16 && h.AudioFormat == 1) { // PCM h.IsExtensible = false; // Find "data" chunk. while (b.PeekChar() != -1) { UInt32 chunk = b.ReadUInt32(); h.HeaderSize += 4; if (chunk == 0x61746164) { // Note: 8-bit samples are stored as unsigned bytes, ranging from 0 to 255. 16-bit samples are stored as 2's-complement signed integers, ranging from -32768 to 32767. // "data" chunk h.Subchunk2ID = chunk; // 0x61746164, "data" h.Subchunk2Size = b.ReadUInt32(); // NumSamples * NumChannels * BitsPerSample/8 h.HeaderSize += 4; break; } else { // Read other non "data" chunks. UInt32 chunkSize = b.ReadUInt32(); h.HeaderSize += 4; string chunkName = Encoding.ASCII.GetString(BitConverter.GetBytes(chunk)); byte[] chunkData = b.ReadBytes((int)chunkSize); h.HeaderSize += (int)chunkSize; } } } else if (h.Subchunk1Size > 16 && h.AudioFormat == 0xFFFE) { // read WAVEFORMATEXTENSIBLE h.ExtraParamSize = b.ReadUInt16(); h.HeaderSize += 2; if (h.ExtraParamSize == 22) { // if cbSize is set to 22 => WAVEFORMATEXTENSIBLE h.IsExtensible = true; //union { // WORD wValidBitsPerSample; // bits of precision // WORD wSamplesPerBlock; // valid if wBitsPerSample==0 // WORD wReserved; // If neither applies, set to zero. //} Samples; h.Samples = b.ReadUInt16(); // DWORD dwChannelMask; which channels are present in stream h.ChannelMask = b.ReadUInt32(); // GUID SubFormat byte[] subFormat = b.ReadBytes(16); h.HeaderSize += 22; // Check sub-format. h.GuidSubFormat = new Guid(subFormat); if (h.GuidSubFormat != WavFileHeader.SubTypePCM && h.GuidSubFormat != WavFileHeader.SubTypeIEEE_FLOAT) { throw new Exception(String.Format("Not supported WAV file type: {0}", h.GuidSubFormat)); } // Find "data" chunk. while (b.PeekChar() != -1) { UInt32 chunk = b.ReadUInt32(); h.HeaderSize += 4; if (chunk == 0x61746164) { // "data" chunk h.Subchunk2ID = chunk; // 0x61746164, "data" h.Subchunk2Size = b.ReadUInt32(); // NumSamples * NumChannels * BitsPerSample/8 h.HeaderSize += 4; break; } else { // Read other non "data" chunks. UInt32 chunkSize = b.ReadUInt32(); h.HeaderSize += 4; string chunkName = Encoding.ASCII.GetString(BitConverter.GetBytes(chunk)); byte[] chunkData = b.ReadBytes((int)chunkSize); h.HeaderSize += (int)chunkSize; } } } else { throw new Exception("Not supported WAV file header."); } } else { throw new Exception("Not supported WAV file header."); } // Calculate number of total samples. h.TotalSamples = (long)((double)h.Subchunk2Size / ((double)h.NumChannels * (double)h.BitsPerSample / 8)); // Calculate duration in seconds. h.Duration = (1 / (double)h.SampleRate) * (double)h.TotalSamples; return(h); }
/// <summary> /// Read WAV file header. /// </summary> /// <param name="fs">The file stream.</param> /// <returns>The new instance of the <see cref="WavFileHeader"/> struct.</returns> public static WavFileHeader ReadFileHeader(FileStream fs) { var h = new WavFileHeader(); h.HeaderSize = 0; // Read WAV header. var b = new BinaryReader(fs); // WAVE h.ChunkID = b.ReadUInt32(); // 0x46464952, "RIFF" h.ChunkSize = b.ReadUInt32(); // 36 + SubChunk2Size, 4 + (8 + SubChunk1Size) + (8 + SubChunk2Size) h.Format = b.ReadUInt32(); // 0x45564157, "WAVE" h.HeaderSize += 12; // fmt h.Subchunk1ID = b.ReadUInt32(); // 0x20746d66, "fmt " h.Subchunk1Size = b.ReadUInt32(); // 16 for PCM, 40 for WAVEFORMATEXTENSIBLE h.AudioFormat = b.ReadUInt16(); // PCM = 1, WAVEFORMATEXTENSIBLE.SubFormat = 0xFFFE h.NumChannels = b.ReadUInt16(); // Mono = 1, Stereo = 2, etc. h.SampleRate = b.ReadUInt32(); // 8000, 44100, etc. h.ByteRate = b.ReadUInt32(); // SampleRate * NumChannels * BitsPerSample/8 h.BlockAlign = b.ReadUInt16(); // NumChannels * BitsPerSample/8 h.BitsPerSample = b.ReadUInt16(); // 8 bits = 8, 16 bits = 16, etc. h.HeaderSize += 24; // Read PCM data or extensible data if exists. if (h.Subchunk1Size == 16 && h.AudioFormat == 1) // PCM { h.IsExtensible = false; // Note: 8-bit samples are stored as unsigned bytes, ranging from 0 to 255. 16-bit samples are stored as 2's-complement signed integers, ranging from -32768 to 32767. // data h.Subchunk2ID = b.ReadUInt32(); // 0x61746164, "data" h.Subchunk2Size = b.ReadUInt32(); // NumSamples * NumChannels * BitsPerSample/8 h.HeaderSize += 8; } else if (h.Subchunk1Size > 16 && h.AudioFormat == 0xFFFE) // WAVEFORMATEXTENSIBLE { // read WAVEFORMATEXTENSIBLE h.ExtraParamSize = b.ReadUInt16(); h.HeaderSize += 2; if (h.ExtraParamSize == 22) // if cbSize is set to 22 => WAVEFORMATEXTENSIBLE { h.IsExtensible = true; //union { // WORD wValidBitsPerSample; // bits of precision // WORD wSamplesPerBlock; // valid if wBitsPerSample==0 // WORD wReserved; // If neither applies, set to zero. //} Samples; h.Samples = b.ReadUInt16(); // DWORD dwChannelMask; which channels are present in stream h.ChannelMask = b.ReadUInt32(); // GUID SubFormat byte[] SubFormat = b.ReadBytes(16); h.HeaderSize += 22; // Check sub-format. h.GuidSubFormat = new Guid(SubFormat); if (h.GuidSubFormat != WavFileHeader.SubTypePCM && h.GuidSubFormat != WavFileHeader.SubTypeIEEE_FLOAT) { throw new Exception(String.Format("Not supported WAV file type: {0}", h.GuidSubFormat)); } // Find "data" chunk. while (b.PeekChar() != -1) { UInt32 chunk = b.ReadUInt32(); h.HeaderSize += 4; if (chunk == 0x61746164) // "data" chunk { h.Subchunk2ID = chunk; // 0x61746164, "data" h.Subchunk2Size = b.ReadUInt32(); // NumSamples * NumChannels * BitsPerSample/8 h.HeaderSize += 4; break; } else { // Read other non "data" chunks. UInt32 chunkSize = b.ReadUInt32(); h.HeaderSize += 4; string chunkName = Encoding.ASCII.GetString(BitConverter.GetBytes(chunk)); byte[] chunkData = b.ReadBytes((int)chunkSize); h.HeaderSize += (int)chunkSize; } } } else { throw new Exception("Not supported WAV file header."); } } else { throw new Exception("Not supported WAV file header."); } // Calculate number of total samples. h.TotalSamples = (long)((double)h.Subchunk2Size / ((double)h.NumChannels * (double)h.BitsPerSample / 8)); // Calculate duration in seconds. h.Duration = (1 / (double)h.SampleRate) * (double)h.TotalSamples; return h; }
/// <summary> /// Write WAV file header. /// </summary> /// <param name="fs">The file stream.</param> /// <param name="h">The wav file header.</param> public static void WriteFileHeader(FileStream fs, WavFileHeader h) { // Write WAV header. var b = new BinaryWriter(fs); // WAVE b.Write((UInt32)0x46464952); // 0x46464952, "RIFF" b.Write(h.ChunkSize); b.Write((UInt32)0x45564157); // 0x45564157, "WAVE" // fmt b.Write((UInt32)0x20746d66); // 0x20746d66, "fmt " b.Write(h.Subchunk1Size); b.Write(h.AudioFormat); b.Write(h.NumChannels); b.Write(h.SampleRate); b.Write(h.ByteRate); b.Write(h.BlockAlign); b.Write(h.BitsPerSample); // Write PCM data or extensible data if exists. if (h.Subchunk1Size == 16 && h.AudioFormat == 1) // PCM { b.Write((UInt32)0x61746164); // 0x61746164, "data" b.Write(h.Subchunk2Size); } else if (h.Subchunk1Size > 16 && h.AudioFormat == 0xFFFE) // WAVEFORMATEXTENSIBLE { // Write WAVEFORMATEXTENSIBLE b.Write(h.ExtraParamSize); b.Write(h.Samples); b.Write(h.ChannelMask); b.Write(h.GuidSubFormat.ToByteArray()); b.Write((UInt32)0x61746164); // 0x61746164, "data" b.Write(h.Subchunk2Size); } else { throw new Exception("Not supported WAV file header."); } }