/// <summary>
/// Now that we've gotten a message, examine it and dissect the audio data.
/// </summary>
/// <param name="connection"></param>
/// <param name="message"></param>
public void OnMessageReceived(NetworkConnection connection, NetworkInMessage message)
{
// Unused byte headerSize
message.ReadByte();
Int32 pack = message.ReadInt32();
// Unused int version
versionExtractor.GetBitsValue(pack);
int audioStreamCount = audioStreamCountExtractor.GetBitsValue(pack);
int channelCount = channelCountExtractor.GetBitsValue(pack);
int sampleRate = sampleRateExtractor.GetBitsValue(pack);
int sampleType = sampleTypeExtractor.GetBitsValue(pack);
int bytesPerSample = sizeof(float);
if (sampleType == 1)
{
bytesPerSample = sizeof(Int16);
}
int sampleCount = sampleCountExtractor.GetBitsValue(pack);
int codecType = codecTypeExtractor.GetBitsValue(pack);
// Unused int sequenceNumber
sequenceNumberExtractor.GetBitsValue(pack);
if (sampleRate == 0)
{
// Unused int extendedSampleRate
message.ReadInt32();
}
try
{
audioDataMutex.WaitOne();
prominentSpeakerCount = 0;
for (int i = 0; i < audioStreamCount; i++)
{
float averageAmplitude = message.ReadFloat();
UInt32 hrtfSourceID = (UInt32)message.ReadInt32();
Vector3 hrtfPosition = new Vector3();
Vector3 hrtfDirection = new Vector3();
if (hrtfSourceID != 0)
{
hrtfPosition.x = message.ReadFloat();
hrtfPosition.y = message.ReadFloat();
hrtfPosition.z = message.ReadFloat();
hrtfDirection.x = message.ReadFloat();
hrtfDirection.y = message.ReadFloat();
hrtfDirection.z = message.ReadFloat();
Vector3 cameraPosRelativeToGlobalAnchor = Vector3.zero;
Vector3 cameraDirectionRelativeToGlobalAnchor = Vector3.zero;
if (GlobalAnchorTransform != null)
{
cameraPosRelativeToGlobalAnchor = MathUtils.TransformPointFromTo(
null,
GlobalAnchorTransform,
Camera.main.transform.position);
cameraDirectionRelativeToGlobalAnchor = MathUtils.TransformDirectionFromTo(
null,
GlobalAnchorTransform,
Camera.main.transform.position);
}
cameraPosRelativeToGlobalAnchor.Normalize();
cameraDirectionRelativeToGlobalAnchor.Normalize();
Vector3 soundVector = hrtfPosition - cameraPosRelativeToGlobalAnchor;
soundVector.Normalize();
// x is forward
float fltx = (kDropOffMaximum / DropOffMaximumMetres) * Vector3.Dot(soundVector, cameraDirectionRelativeToGlobalAnchor);
// y is right
Vector3 myRight = Quaternion.Euler(0, 90, 0) * cameraDirectionRelativeToGlobalAnchor;
float flty = -(kPanMaximum / PanMaximumMetres) * Vector3.Dot(soundVector, myRight);
// z is up
Vector3 myUp = Quaternion.Euler(90, 0, 0) * cameraDirectionRelativeToGlobalAnchor;
float fltz = (kPanMaximum / PanMaximumMetres) * Vector3.Dot(soundVector, myUp);
// Hacky distance check so we don't get too close to source.
Vector3 flt = new Vector3(fltx, flty, fltz);
if (flt.magnitude < (MinimumDistance * kDropOffMaximum))
{
flt = flt.normalized * MinimumDistance * kDropOffMaximum;
fltx = flt.x;
flty = flt.y;
fltz = flt.z;
}
AddProminentSpeaker(hrtfSourceID, averageAmplitude, fltx, flty, fltz);
}
for (int j = 0; j < channelCount; j++)
{
// if uncompressed, size = sampleCount
Int16 size = (Int16)sampleCount;
if (codecType != 0)
{
// if compressed, size is first 2 bytes, sampleCount should be number of bytes after decompression
size = message.ReadInt16();
}
// make this array big enough to hold all of the uncompressed data only if the
// buffer is not the right size, minimize new operations
int totalBytes = size * bytesPerSample;
if (networkPacketBufferBytes.Length != totalBytes)
{
networkPacketBufferBytes = new byte[totalBytes];
}
message.ReadArray(networkPacketBufferBytes, (uint)(totalBytes));
if (codecType != 0)
{
// in place decompression please - should fill out the data buffer
// ...
}
if (hrtfSourceID > 0)
{
// hrtf processing here
}
circularBuffer.Write(networkPacketBufferBytes, 0, networkPacketBufferBytes.Length);
}
}
}
catch (Exception e)
{
Debug.LogError(e.Message);
}
finally
{
audioDataMutex.ReleaseMutex();
}
}
