public void Test_SFF_Linear2()
{
// test creating SFF file from 16-bit 48kHz mono WAV file
// read the wav file
(int sampleRate, double[] audio) = WavFile.ReadMono("../../../../../data/03-02-03-01-02-01-19.wav");
Assert.AreEqual(48000, sampleRate);
// save the SFF
int fftSize = 1 << 12;
var spec = new Spectrogram(sampleRate, fftSize, stepSize: 300, maxFreq: 2000);
spec.Add(audio);
spec.SaveData("testDoor.sff");
// load the SFF and verify all the values are the same
var spec2 = new SFF("testDoor.sff");
Assert.AreEqual(spec.SampleRate, spec2.SampleRate);
Assert.AreEqual(spec.StepSize, spec2.StepSize);
Assert.AreEqual(spec.Width, spec2.Width);
Assert.AreEqual(spec.FftSize, spec2.FftSize);
Assert.AreEqual(spec.NextColumnIndex, spec2.FftFirstIndex);
Assert.AreEqual(spec.Height, spec2.Height);
Assert.AreEqual(spec.OffsetHz, spec2.OffsetHz);
Assert.AreEqual("SFF 701x170", spec2.ToString());
}
public void Test_SFF_LinearBigMaxFreq()
{
// test creating SFF file from 16-bit 48kHz mono WAV file
(int sampleRate, double[] audio) = WavFile.ReadMono("../../../../../data/03-02-03-01-02-01-19.wav");
Assert.AreEqual(48000, sampleRate);
int fftSize = 1 << 12;
var spec = new Spectrogram(sampleRate, fftSize, stepSize: 300, maxFreq: 7999);
spec.Add(audio);
spec.SaveData("testDoorBig.sff");
}
public void Test_SFF_Linear()
{
(int sampleRate, double[] audio) = WavFile.ReadMono("../../../../../data/cant-do-that-44100.wav");
int fftSize = 1 << 12;
var spec = new Spectrogram(sampleRate, fftSize, stepSize: 700, maxFreq: 2000);
spec.SetWindow(FftSharp.Window.Hanning(fftSize / 3)); // sharper window than typical
spec.Add(audio);
spec.SaveData("../../../../../dev/sff/hal.sff");
var spec2 = new SFF("../../../../../dev/sff/hal.sff");
Assert.AreEqual(spec.SampleRate, spec2.SampleRate);
Assert.AreEqual(spec.StepSize, spec2.StepSize);
Assert.AreEqual(spec.Width, spec2.Width);
Assert.AreEqual(spec.FftSize, spec2.FftSize);
Assert.AreEqual(spec.NextColumnIndex, spec2.FftFirstIndex);
Assert.AreEqual(spec.Height, spec2.Height);
Assert.AreEqual(spec.OffsetHz, spec2.OffsetHz);
}
public void Test_SFF_Mel()
{
(int sampleRate, double[] audio) = WavFile.ReadMono("../../../../../data/cant-do-that-44100.wav");
int fftSize = 1 << 12;
var spec = new Spectrogram(sampleRate, fftSize, stepSize: 700);
spec.SetWindow(FftSharp.Window.Hanning(fftSize / 3)); // sharper window than typical
spec.Add(audio);
Bitmap bmp = spec.GetBitmapMel(250, 3, true);
bmp.Save("../../../../../dev/sff/halMel.png", System.Drawing.Imaging.ImageFormat.Png);
spec.SaveData("../../../../../dev/sff/halMel.sff", melBinCount: 250);
var spec2 = new SFF("../../../../../dev/sff/halMel.sff");
Assert.AreEqual(spec.SampleRate, spec2.SampleRate);
Assert.AreEqual(spec.StepSize, spec2.StepSize);
Assert.AreEqual(spec.Width, spec2.Width);
Assert.AreEqual(spec.FftSize, spec2.FftSize);
Assert.AreEqual(spec.NextColumnIndex, spec2.FftFirstIndex);
Assert.AreEqual(spec.Height, spec2.Height);
Assert.AreEqual(spec.OffsetHz, spec2.OffsetHz);
}