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I was thinking of writing a function to normalize some data. A simple approach is

def normalize(l, aggregate=sum, norm_by=operator.truediv):
    for i in range(len(l)):
        l[i]=norm_by(l[i], aggregated)

l -> [0.1, 0.2, 0.3, 0.4]

However for nested lists and dicts where I want to normalize over an inner index this doesnt work. I mean I'd like to get

normalize(l, ?? )
l -> [[0.1,100],[0.2,100],[0.3,100],[0.4,100]]

Any ideas how I could implement such a normalize function?

Maybe it would be crazy cool to write


Is it possible to make this work?? Or any other ideas?

Also not only lists but also dict could be nested. Hmm...

EDIT: I just found out that numpy offers such a syntax (for lists however). Anyone know how I would implement the ellipsis trick myself?

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Any important reason to make in-place operations instead of creating new objects? it may be slightly slower, but it pays off on the long run. – tokland Feb 6 '11 at 22:06

3 Answers 3

I don't think any change to the normalize() function is necessary. To handle the nested lists, you just need to supply the right aggregate() and norm_by() functions to handle the case.

l = [[1, 100], [2, 100], [3, 100], [4, 100]]
def aggregator(l):
    return sum(item[0] for item in l)

def normalizer(item , aggregated):
    # mutating the inner list
    item[0] = operator.truediv(item[0], aggregated)
    return item

normalize(l, aggregate = aggregator, norm_by = normalizer)
# l -> [[0.1, 100], [0.2, 100], [0.3, 100], [0.4, 100]]
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Use this:

zip(normalize(zip(*l)[0]), zip(*l)[1])

There is one (normally unimportant) side effect: the inner lists are transformed into tuples. This can, however, be corrected with [list(el) for el in zip(normalize(zip(*l)[0]), zip(*l)[1])].

If you have a dict, I suppose it would look like {'a': 1, 'b': 2}, the values needing normalizing. You could use the above trick by using l.items():

dict(zip(normalize(zip(*l.items())[0]), zip(*l.items())[1]))


You could do something like this:

def normalize(l, aggregate=sum, norm_by=operator.truediv, key=None):
    for i in range(len(l)):
        if key is not None:
            l[i][key] = norm_by(l[i][key], aggregated)
            l[i]=norm_by(l[i], aggregated)

And call the function with

normalize(l, key=0)
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I'd maybe prefer a way to extend the normalize function so that it is more comfortable in the long run :) and which doesn't transform too much, as the sequences might be very large. Either the Ellipsis syntax I thought of maybe something like normalize(l, further_access=?? [0]) – Gerenuk Feb 6 '11 at 20:33

I'd recommend creating new objects instead of modifying in-place. Assuming that each element in the iterable may be different (if not, you can make it more efficient by selecting the merge function earlier):

def normalize(input, index=None, aggregate=sum, norm_by=operator.truediv):
    aggregated = aggregate(input)
    for item in input:
        if isinstance(item, list):
            yield item[:index] + [norm_by(item[index], aggregated)] + item[index+1:]
        elsif isinstance(item, dict):
            yield dict(d, **{index: norm_by(item[index], aggregated)})
            yield norm_by(item, aggregated)

To be used:

normalize([1, 2, 3])
normalize([(1, 2), (3, 4)], 0)
normalize([{"a": 1, "b": 2}, {"a": 3, "b": 4}], "a")
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