I think your question has three separate parts:

- How to load audio files into python?
- How to calculate spectrum in python?
- What to do with the spectrum?

**1. How to load audio files in python?**

You are probably best off by using `scipy`

, as it provides a lot of signal processing functions. For loading audio files:

```
import scipy.io.wavfile
samplerate, data = scipy.io.wavfile.read("mywav.wav")
```

Now you have the sample rate (samples/s) in `samplerate`

and data as a `numpy.array`

in `data`

. You may want to transform the data into floating point, depending on your application.

There is also a standard python module `wave`

for loading wav-files, but `numpy`

/`scipy`

offers a simpler interface and more options for signal processing.

**2. How to calculate the spectrum**

Brief answer: Use FFT. For more words of wisdom, see:

Analyze audio using Fast Fourier Transform

Longer answer is quite long. Windowing is very important, otherwise you'll have strange spectra.

**3. What to do with the spectrum**

This is a bit more difficult. Filtering is often performed in time domain for longer signals. Maybe if you tell us what you want to accomplish, you'll receive a good answer for this one. Calculating the frequency spectrum is one thing, getting meaningful results with it in signal processing is a bit more complicated.

(I know you did not ask this one, but I see it coming with a probability >> 0. Of course, it may be that you have good knowledge on audio signal processing, in which case this is irrelevant.)