internal override void Begin(byte[] wfx)
{
if (_deviceOpen)
{
throw new InvalidOperationException();
}
WAVEFORMATEX.AvgBytesPerSec(wfx, out _nAvgBytesPerSec, out _blockAlign);
MMSYSERR mMSYSERR;
lock (_noWriteOutLock)
{
mMSYSERR = SafeNativeMethods.waveOutOpen(ref _hwo, _curDevice, wfx, _delegate, IntPtr.Zero, 196608u);
if (_fPaused && mMSYSERR == MMSYSERR.NOERROR)
{
mMSYSERR = SafeNativeMethods.waveOutPause(_hwo);
}
_aborted = false;
_deviceOpen = true;
}
if (mMSYSERR != 0)
{
throw new AudioException(mMSYSERR);
}
_bytesWritten = 0;
_evt.Set();
}
internal static AudioCodec TypeOf(WAVEFORMATEX format)
{
AudioCodec result = AudioCodec.Undefined;
switch (format.wFormatTag)
{
case 1:
switch (format.nBlockAlign / format.nChannels)
{
case 1:
result = AudioCodec.PCM8;
break;
case 2:
result = AudioCodec.PCM16;
break;
}
break;
case 6:
result = AudioCodec.G711A;
break;
case 7:
result = AudioCodec.G711U;
break;
}
return(result);
}
void ISpEngineSite.LoadResource(string uri, ref string mediaType, out IStream stream)
{
mediaType = null;
try
{
Stream stream2 = _site.LoadResource(new Uri(uri, UriKind.RelativeOrAbsolute), mediaType);
BinaryReader br = new BinaryReader(stream2);
byte[] waveFormat = AudioBase.GetWaveFormat(br);
mediaType = null;
if (waveFormat != null)
{
WAVEFORMATEX wAVEFORMATEX = WAVEFORMATEX.ToWaveHeader(waveFormat);
WaveFormatId wFormatTag = (WaveFormatId)wAVEFORMATEX.wFormatTag;
if (wFormatTag == WaveFormatId.Pcm || (uint)(wFormatTag - 6) <= 1u)
{
mediaType = "audio/x-wav";
}
}
stream2.Position = 0L;
stream = new SpStreamWrapper(stream2);
}
catch
{
stream = null;
}
}
internal bool PrepareConverter(ref WAVEFORMATEX inWavFormat, ref WAVEFORMATEX outWavFormat)
{
bool result = true;
if (inWavFormat.nSamplesPerSec <= 0 || inWavFormat.nChannels > 2 || inWavFormat.nChannels <= 0 || outWavFormat.nChannels <= 0 || outWavFormat.nSamplesPerSec <= 0 || outWavFormat.nChannels > 2)
{
throw new FormatException();
}
_iInFormatType = AudioFormatConverter.TypeOf(inWavFormat);
_iOutFormatType = AudioFormatConverter.TypeOf(outWavFormat);
if (_iInFormatType < AudioCodec.G711U || _iOutFormatType < AudioCodec.G711U)
{
throw new FormatException();
}
if (outWavFormat.nSamplesPerSec == inWavFormat.nSamplesPerSec && _iOutFormatType == _iInFormatType && outWavFormat.nChannels == inWavFormat.nChannels)
{
result = false;
}
else
{
if (inWavFormat.nSamplesPerSec != outWavFormat.nSamplesPerSec)
{
CreateResamplingFilter(inWavFormat.nSamplesPerSec, outWavFormat.nSamplesPerSec);
}
_inWavFormat = inWavFormat;
_outWavFormat = outWavFormat;
}
return(result);
}
private short[] Resample(WAVEFORMATEX inWavFormat, WAVEFORMATEX outWavFormat, short[] pnBuff, float[] memory)
{
if (inWavFormat.nSamplesPerSec != outWavFormat.nSamplesPerSec)
{
float[] inSamples = Short2Float(pnBuff);
inSamples = Resampling(inSamples, memory);
pnBuff = Float2Short(inSamples);
}
return(pnBuff);
}
internal override void Begin(byte[] wfx)
{
if (_deviceOpen)
{
throw new InvalidOperationException();
}
_wfxIn = WAVEFORMATEX.ToWaveHeader(wfx);
_doConversion = _pcmConverter.PrepareConverter(ref _wfxIn, ref _wfxOut);
if (_totalByteWrittens == 0 && _hasHeader)
{
AudioBase.WriteWaveHeader(_stream, _wfxOut, _startStreamPosition, 0);
}
_bytesWritten = 0;
_aborted = false;
_deviceOpen = true;
}
internal static WAVEFORMATEX ToWaveHeader(byte[] waveHeader)
{
GCHandle gCHandle = GCHandle.Alloc(waveHeader, GCHandleType.Pinned);
IntPtr ptr = gCHandle.AddrOfPinnedObject();
WAVEFORMATEX result = default(WAVEFORMATEX);
result.wFormatTag = Marshal.ReadInt16(ptr);
result.nChannels = Marshal.ReadInt16(ptr, 2);
result.nSamplesPerSec = Marshal.ReadInt32(ptr, 4);
result.nAvgBytesPerSec = Marshal.ReadInt32(ptr, 8);
result.nBlockAlign = Marshal.ReadInt16(ptr, 12);
result.wBitsPerSample = Marshal.ReadInt16(ptr, 14);
result.cbSize = Marshal.ReadInt16(ptr, 16);
if (result.cbSize != 0)
{
throw new InvalidOperationException();
}
gCHandle.Free();
return(result);
}
internal byte[] WaveFormat(byte[] targetWaveFormat)
{
if (targetWaveFormat == null && _waveFormat == null && VoiceInfo.SupportedAudioFormats.Count > 0)
{
targetWaveFormat = VoiceInfo.SupportedAudioFormats[0].WaveFormat;
}
if (targetWaveFormat == null && _waveFormat != null)
{
return(_waveFormat);
}
if (_waveFormat == null || !object.Equals(targetWaveFormat, _waveFormat))
{
IntPtr intPtr = IntPtr.Zero;
GCHandle gCHandle = default(GCHandle);
if (targetWaveFormat != null)
{
gCHandle = GCHandle.Alloc(targetWaveFormat, GCHandleType.Pinned);
}
try
{
intPtr = _engine.GetOutputFormat((targetWaveFormat != null) ? gCHandle.AddrOfPinnedObject() : IntPtr.Zero);
}
finally
{
if (targetWaveFormat != null)
{
gCHandle.Free();
}
}
if (intPtr != IntPtr.Zero)
{
_waveFormat = WAVEFORMATEX.ToBytes(intPtr);
Marshal.FreeCoTaskMem(intPtr);
}
else
{
_waveFormat = WAVEFORMATEX.Default.ToBytes();
}
}
return(_waveFormat);
}
internal AudioFileOut(Stream stream, SpeechAudioFormatInfo formatInfo, bool headerInfo, IAsyncDispatch asyncDispatch)
{
_asyncDispatch = asyncDispatch;
_stream = stream;
_startStreamPosition = _stream.Position;
_hasHeader = headerInfo;
_wfxOut = default(WAVEFORMATEX);
if (formatInfo != null)
{
_wfxOut.wFormatTag = (short)formatInfo.EncodingFormat;
_wfxOut.wBitsPerSample = (short)formatInfo.BitsPerSample;
_wfxOut.nSamplesPerSec = formatInfo.SamplesPerSecond;
_wfxOut.nChannels = (short)formatInfo.ChannelCount;
}
else
{
_wfxOut = WAVEFORMATEX.Default;
}
_wfxOut.nBlockAlign = (short)(_wfxOut.nChannels * _wfxOut.wBitsPerSample / 8);
_wfxOut.nAvgBytesPerSec = _wfxOut.wBitsPerSample * _wfxOut.nSamplesPerSec * _wfxOut.nChannels / 8;
}
internal static void WriteWaveHeader(Stream stream, WAVEFORMATEX waveEx, long position, int cData)
{
RIFFHDR rIFFHDR = new RIFFHDR(0);
BLOCKHDR bLOCKHDR = new BLOCKHDR(0);
DATAHDR dATAHDR = new DATAHDR(0);
int num = Marshal.SizeOf((object)rIFFHDR);
int num2 = Marshal.SizeOf((object)bLOCKHDR);
int length = waveEx.Length;
int num3 = Marshal.SizeOf((object)dATAHDR);
int num4 = num + num2 + length + num3;
using (MemoryStream memoryStream = new MemoryStream())
{
BinaryWriter binaryWriter = new BinaryWriter(memoryStream);
try
{
rIFFHDR._len = num4 + cData - 8;
binaryWriter.Write(rIFFHDR._id);
binaryWriter.Write(rIFFHDR._len);
binaryWriter.Write(rIFFHDR._type);
bLOCKHDR._len = length;
binaryWriter.Write(bLOCKHDR._id);
binaryWriter.Write(bLOCKHDR._len);
binaryWriter.Write(waveEx.ToBytes());
dATAHDR._len = cData;
binaryWriter.Write(dATAHDR._id);
binaryWriter.Write(dATAHDR._len);
stream.Seek(position, SeekOrigin.Begin);
stream.Write(memoryStream.GetBuffer(), 0, (int)memoryStream.Length);
}
finally
{
((IDisposable)binaryWriter).Dispose();
}
}
}
internal void PlayWaveFile(AudioData audio)
{
try
{
if (!string.IsNullOrEmpty(audio._mimeType))
{
WAVEFORMATEX wAVEFORMATEX = default(WAVEFORMATEX);
wAVEFORMATEX.nChannels = 1;
wAVEFORMATEX.nSamplesPerSec = 8000;
wAVEFORMATEX.nAvgBytesPerSec = 8000;
wAVEFORMATEX.nBlockAlign = 1;
wAVEFORMATEX.wBitsPerSample = 8;
wAVEFORMATEX.cbSize = 0;
string mimeType = audio._mimeType;
if (!(mimeType == "audio/basic"))
{
if (!(mimeType == "audio/x-alaw-basic"))
{
throw new FormatException(SR.Get(SRID.UnknownMimeFormat));
}
wAVEFORMATEX.wFormatTag = 6;
}
else
{
wAVEFORMATEX.wFormatTag = 7;
}
Begin(wAVEFORMATEX.ToBytes());
try
{
byte[] array = new byte[(int)audio._stream.Length];
audio._stream.Read(array, 0, array.Length);
Play(array);
}
finally
{
WaitUntilDone();
End();
}
}
else
{
BinaryReader binaryReader = new BinaryReader(audio._stream);
try
{
byte[] waveFormat = GetWaveFormat(binaryReader);
if (waveFormat == null)
{
throw new FormatException(SR.Get(SRID.NotValidAudioFile, audio._uri.ToString()));
}
Begin(waveFormat);
try
{
while (true)
{
DATAHDR dATAHDR = default(DATAHDR);
if (audio._stream.Position + 8 >= audio._stream.Length)
{
break;
}
dATAHDR._id = binaryReader.ReadUInt32();
dATAHDR._len = binaryReader.ReadInt32();
if (dATAHDR._id == 1635017060)
{
byte[] buffer = Helpers.ReadStreamToByteArray(audio._stream, dATAHDR._len);
Play(buffer);
}
else
{
audio._stream.Seek(dATAHDR._len, SeekOrigin.Current);
}
}
}
finally
{
WaitUntilDone();
End();
}
}
finally
{
((IDisposable)binaryReader).Dispose();
}
}
}
finally
{
audio.Dispose();
}
}