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I have a list-of-list-of-lists, where the first two act as a "matrix", where I can access the third list as

list3 = m[x][y]   

and the third list contains a mix of strings and numbers, but each list has the same size & structure. Let's call a specific entry in this list The Number of Interest. This number always has the same index in this list!

What's the fastest way to get the 'coordinates' (x,y) for the list that has the largest Number of Interest in Python?

Thank you!

(So really, I'm trying to pick the largest number in m[x][y][k] where k is fixed, for all x & y, and 'know' what its address is)

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how do you know what element in the third list you are interested in? –  Winston Ewert Oct 9 '11 at 0:08
Are the nunbers of interest (or the lists holding them) in any sort of preexisting order? If not, the fastest you'll get is O(n^3) with for i in m: for j in i: for k in j: (not exact code). –  Chris Lutz Oct 9 '11 at 0:17
I'm always interested in the same element because of the way I've set it up. –  Deniz Oct 9 '11 at 0:18
@FooBah There's no need to sort to find the max. –  Nick Johnson Oct 9 '11 at 3:56

3 Answers 3

up vote 4 down vote accepted
max((cell[k], x, y)
    for (y, row) in enumerate(m)
    for (x, cell) in enumerate(row))[1:]

Also, you can assign the result directly to a couple of variables:

(_, x, y) = max((cell[k], x, y)
                for (y, row) in enumerate(m)
                for (x, cell) in enumerate(row))

This is O(n2), btw.

share|improve this answer
import itertools

indexes = itertools.product( xrange(len(m)), xrange(len(m[0]))
print max(indexes, key = lambda x: m[x[0]][x[1]][k])

or using numpy

import numpy
data = numpy.array(m)
print numpy.argmax(m[:,:,k])

In you are interested in speeding up operations in python, you really need to look at numpy.

share|improve this answer
+1. Any solution is O(mn) by its very nature, but the constant factor can be high with Python's method call overhead. Numpy can speed things up by a large factor. –  Nick Johnson Oct 9 '11 at 3:57

Assuming "The Number of Interest" is in a known spot in the list, and there will be a nonzero maximum,

maxCoords = [-1, -1]
maxNumOfInterest = -1
rowIndex = 0
for row in m:
    colIndex = 0
    for entry in row:
        if entry[indexOfNum] > maxNumOfInterest:
            maxNumOfInterest = entry[indexOfNum]
            maxCoords = [rowIndex,colIndex]
        colIndex += 1
    rowIndex += 1

Is a naive method that will be O(n2) on the size of the matrix. Since you have to check every element, this is the fastest solution possible.

@Marcelo's method is more succulent, but perhaps less readable.

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Less readable?? –  Marcelo Cantos Oct 9 '11 at 0:33
It takes a fair amount of syntactical knowledge to understand the logic. I'd use it, but probably not if I was attempting to teach someone why the code worked if they weren't well versed in python. –  brc Oct 9 '11 at 0:34
List comprehensions present a vastly superior way to think about data manipulation than the traditional looping approaches. They are one of the first concepts I would teach a new Python programmer. –  Marcelo Cantos Oct 9 '11 at 0:37
I think @MarceloCantos wins on the readability count. For one, you could really use enumerate rather then manual counting. –  Winston Ewert Oct 9 '11 at 0:38
Teaching python, not teaching the concept in a language-agnostic way, like most CS is taught. Again, it's clearly a more pythonic solution, but entry level programmers need to understand why the logic works before they can understand why there is a better way to do something in a particular language. I've walked people learning programming through loops, sometimes adding extra variables that aren't needed to illustrate a point, and it seems to work better than trying to explain my one-liner for the same problem to them. To each his own, I suppose. –  brc Oct 9 '11 at 0:41

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