**Update**: see Fast argmax in Python for the final word.

Python doesn’t come with an argmax function built-in. That is, a function that tells you where a maximum is in an array. And I keep needing to write my own argmax function so I’m getting better and better at it. Here’s the best I could come up with so far:

`from itertools import izip`

argmax = lambda array: max(izip(array, xrange(len(array))))[1]

The really nice thing about izip and xrange is that they don’t actually output arrays, but only lazy iterators. You also have plenty of similar functions such as imap or ifilter. Very neat.

Here’s a challenge to you: can you do better? That is, can you write a faster, less memory hungry function? If not, did I find the optimal solution? If so, do I get some kind of prize?

Next, suppose you want to find argmax, but excluding some set of bad indexes, you can do it this way…

`from itertools import izip`

argmaxbad = lambda array,badindexes: max(ifilter(lambda t: t[1] not in badindexes,izip(array, xrange(len(array)))))[1]

Python is amazingly easy.

As a side-note, you can also do intersections and union of sets in Python in a similar (functional) spirit:

`def intersection(set1,set2): return filter(lambda s:s in set2,set1)`

def union(set1, set2): return set1 + filter(lambda s:s not in set1, set2)

**Update**: you can do the same things with hash tables:

`max(izip(hashtable[max].itervalues(), hashtable[max].iterkeys()))[1]`

You can try this:

def positionMax(sequence, excludedIndexesSet=None):

if not badindexes:

return max( izip(sequence, xrange(len(sequence)) ) )[1]

else:

badindexes = set(badindexes)

return max( (e,i) for i,e in enumerate(sequence) if i not in badindexes )[1]

You should also try a functional idiom – typically better and faster:

array = [1.0, 2.0, 3.0, 1.0]

m = reduce(max, array)

I’m sorry SwiftCoder, but I believe that is a max. It is equivalent to:

m = max(array)

My (arg)max:

lambda array: max([array[i],i] for i in range(len(array)))[1]

Cheers!

array.index(max(array))

is it too simple?

import numpy

array = numpy.array ( [1,2,4,3,5,1 ] )

numpy.argmax( array )

# should return 4

In case of duplicate values you solution returns the last position, while the array.index(max(array)) solution returns the first which, beside the simplicity of the solution, seems to be the more natural answer.

How about

max(xrange(len(array)), key=array.__getitem__)

numpy.ndarray object has no attributes index and maxarg. What should I do?

argmax=max([(i[0], array[i[0]]) \

for i in enumerate(array)], key=lambda t:t[1])[0]