In this article we'll see how you can represent the current audio input level coming from a recording device.
In NAudio, the method you call to start capturing audio from an input device is called StartRecording. This method name can cause confusion. All that it means is that you are asking the input device to provide you with samples audio. It doesn't mean you are actually recording to an audio file.
So if you want to allow the user to set up their volume levels before they start "recording", you'll actually need to call StartRecording to start capturing the audio simply for the purposes of updating the level meter.
We won't go into great detail in this article on how to record audio as that's covered elsewhere, but here we'll create a new recording device, subscribe to the data available event, and start capturing audio by calling StartRecording.
var waveIn = new WaveInEvent(deviceNumber);
waveIn.DataAvailable += OnDataAvailable;
waveIn.StartRecording();In the DataAvailable event handler, if we were simply recording audio, we'd write to a WaveFileWriter like this:
private void OnDataAvailable(object sender, WaveInEventArgs args)
{
writer.Write(args.Buffer, 0, args.BytesRecorded);
};But if we're just letting the user get their levels set up, we'd only write to the file if the user had actually begun recording. So we might have a boolean flag that says whether we're recording or not. So when we get the DataAvailable event we don't necessarily write to a file.
private void OnDataAvailable(object sender, WaveInEventArgs args)
{
if (isRecording)
{
writer.Write(args.Buffer, 0, args.BytesRecorded);
}
};The WaveInEventArgs.Buffer property contains the captured audio. Unfortunately this is represented as a byte array. This means that we must convert to samples.
The way this works depends on the bit depth being recorded at. The two most common options are 16 bit signed integers (short's in C#), which is what WaveIn and WaveInEvent will supply by default. And 32 bit IEEE floating point numbers (float's in C#) which is what WasapiIn or WasapiLoopbackCapture will supply by default.
Here's how we might discover the maximum sample value if the incoming audio is 16 bit. Notice that we are simply taking the absolute value of each sample, and we are calculating one maximum value irrespective of whether it is mono or stereo audio. If you wanted, you could calculate the maximum values for each channel separately, by maintaining separate max values for each channel (the samples are interleaved):
void OnDataAvailable(object sender, WaveInEventArgs args)
{
if (isRecording)
{
writer.Write(args.Buffer, 0, args.BytesRecorded);
}
float max = 0;
// interpret as 16 bit audio
for (int index = 0; index < args.BytesRecorded; index += 2)
{
short sample = (short)((args.Buffer[index + 1] << 8) |
args.Buffer[index + 0]);
// to floating point
var sample32 = sample/32768f;
// absolute value
if (sample32 < 0) sample32 = -sample32;
// is this the max value?
if (sample32 > max) max = sample32;
}
}The previous example showed using bit manipulation, but NAudio also has a clever trick up its sleeve called WaveBuffer. This allows us to 'cast' from a byte[] to a short[] or float[], something that is not normally possible in C#.
Here's it working for floating point audio:
void OnDataAvailable(object sender, WaveInEventArgs args)
{
if (isRecording)
{
writer.Write(args.Buffer, 0, args.BytesRecorded);
}
float max = 0;
var buffer = new WaveBuffer(args.Buffer);
// interpret as 32 bit floating point audio
for (int index = 0; index < args.BytesRecorded / 4; index++)
{
var sample = buffer.FloatBuffer[index];
// absolute value
if (sample < 0) sample = -sample;
// is this the max value?
if (sample > max) max = sample;
}
}The same approach can be used for 16 bit audio, by accessing ShortBuffer instead of FloatBuffer.
A very simple way to implement a volume meter in WinForms or WPF is to use a progressbar. You can set it up with a minimum value of 0 and a maximum value of 100.
In both our examples, we calulated max as a floating point value between 0.0f and 1.0f, so setting the progressBar value is as simple as:
progressBar.Value = 100 * max;Note that you are updating the UI in the OnDataAvailable callback. NAudio will attempt to call this on the UI context if there is one.
Also, this approach means that the frequency of meter updates will match the size of recording buffers. This is the simplest approach, and normally works just fine as there will usually be at least 10 buffers per second which is usually adequate for a volume meter.