Issue
Is there a way to efficiently implement a rolling window for 1D arrays in Numpy?
For example, I have this pure Python code snippet to calculate the rolling standard deviations for a 1D list, where observations
is the 1D list of values, and n
is the window length for the standard deviation:
stdev = []
for i, data in enumerate(observations[n-1:]):
strip = observations[i:i+n]
mean = sum(strip) / n
stdev.append(sqrt(250*sum([(s-mean)**2 for s in strip])/(n-1)))
Is there a way to do this completely within Numpy, i.e., without any Python loops? The standard deviation is trivial with numpy.std
, but the rolling window part completely stumps me.
I found this blog post regarding a rolling window in Numpy, but it doesn't seem to be for 1D arrays.
Solution
Just use the blog code, but apply your function to the result.
i.e.
numpy.std(rolling_window(observations, n), 1)
where you have (from the blog):
def rolling_window(a, window):
shape = a.shape[:-1] + (a.shape[-1] - window + 1, window)
strides = a.strides + (a.strides[-1],)
return np.lib.stride_tricks.as_strided(a, shape=shape, strides=strides)
Answered By - so12311
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