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# Using the heapq function 'nlargest' to find the peaks of an FFT and their corresponding frequencies in python

I am using an FFT to look at the distortion I have on an output signal for an IC tester i am designing. I have two arrays, one containing the sampled frequencies, and the other containing the corresponding FFT values. I have been able to print the three highest FFT values using the nlargest function from the heapq library, but want to also print the corresponding frequency values from the x axis array. My partial code is below. the frequency values are stored in an array 'frq' and the FFT values in array 'Y'

``````Y = sci.fft(y)/n # fft computing and normalization
Y = Y[range(n/2)]
Y = abs(Y)
print heapq.nlargest(3, 20*np.log10(abs(Y)))
print heapq.nlargest(3, frq, key=lambda i: Y[i])
``````

I receive the following error from the last line of code:

``````print heapq.nlargest(2, frq, key=lambda i: Y[i])
IndexError: index 500 is out of bounds for axis 0 with size 50
``````
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Are you sure you didn't mean something like: `nlargest(3,enumerate(frq),key=lambda i,_:Y[i])` – mgilson Jun 3 '13 at 17:42

Here is a way that will give 3 tuples corresponding to the highest

``````from itertools import izip
print heapq.nlargest(3, izip(frq, 20*np.log10(abs(Y))), key=lambda x: x[1])
``````

You can also just put the Y first

``````print heapq.nlargest(3, izip(20*np.log10(abs(Y)), frq))
``````
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That works great, now I can just return one array with both the frequency and FFT info from my FFt function. Thank you! – Brett Prudhom Jun 3 '13 at 18:08

The numpythonic way of doing this would skip `heapq` altogether and go somethinkg like this:

``````idx = np.argsort(Y)[::-1][:3]
y_top_3 = 20*np.log10(Y[idx])
f_top_3 = frq[idx]
``````

If you want to get an iterable of iterables, you could then do:

``````top_3 = np.vstack(f_top_3, y_top_3).T
``````
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