I want to know what does the output array of fft_frequencies() function means.

I've heard that there are overtones corresponding each note,
but the output array seems to include only one frequency for each note per second.

I want to know, if the array already includes the overtones.

The code I wrote is below:

import librosa
from scipy import signal

y, sr = librosa.load('./data/dreamy.wav')
Nfft = 256
stft = librosa.stft(y, n_fft=Nfft, window=signal.windows.hamming)
freqs = librosa.fft_frequencies(sr=sr, n_fft=Nfft)


And the result like this:

[    0.           86.1328125   172.265625    258.3984375   344.53125
   430.6640625   516.796875    602.9296875   689.0625      775.1953125
   861.328125    947.4609375  1033.59375    1119.7265625  1205.859375
   ... ]

The FFT or STFT does not produce notes like you can find them in sheet music. Instead, it delivers the magnitude and phase for specific frequency bins. fft_frequencies() gives you these frequency bins in Hertz (Hz). Note that this has nothing to do with overtones.

What you might be looking for is the Constant-Q-Transform (a.k.a. CQT), which can be configured to deliver something similar to "notes". However, it will contain overtones. If you are really after individual notes, you might want to try the pYIN algorithm by Mauch and Dixon.

librosa happens to offer both a CQT and a pYIN implementation. You can find the docs here and here.

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