I am trying to solve this problem from leetcode, going to copy here for convenience

Given an integer array, find three numbers whose product is maximum and output the maximum product.

Example 1:
Input: [1,2,3]
Output: 6
Example 2:
Input: [1,2,3,4]
Output: 24
The length of the given array will be in range [3,104] and all elements are in the range [-1000, 1000].
Multiplication of any three numbers in the input won't exceed the range of 32-bit signed integer.

After (unsuccessfully) trying it, I googled the solution and this works

class Solution(object):
    def maximumProduct(self, nums):
        :type nums: List[int]
        :rtype: int
        ans = pa = pb = pc = None
        na = nb = 0x7FFFFFFF
        for n in nums:
            if n > pa:
                pa, pb, pc = n, pa, pb
            elif n > pb:
                pb, pc = n, pb
            elif n > pc:
                pc = n
            if n < na:
                na, nb = n, na
            elif n < nb:
                nb = n
        return max(ans, pa * na * nb, pa * pb * pc)

I understand the logic except why na and nb are assigned a value of 0x7FFFFFFF. It looks like it is int32's maximum value. Can someone help me explain the significance of this number and why it is used here? (I would have used 1001 instead)

  • 1
    ans is never changed from its initial constant value - why? I don't think 0x7FFF_FFFF is of any significance except that it's the maximum possible number, and therefore is guaranteed to be overwritten with the numbers from the array. It's arguably better than 1001 because even someone who hadn't read the problem description properly would be able to see that it's the maximum possible number. That's all there is to it, I reckon. – user234461 May 10 '18 at 13:29
  • 2
    The code also looks like it was written by a Java programmer; the class serves no purpose. – chepner May 10 '18 at 13:29
  • Basically, the answer comes from one of three cases: the three largest positive numbers, the three largest negative numbers, or the two largest negative numbers and the largest positive number. na and nb are just initialized to some version of infinity to make the comparisons work the first time. – chepner May 10 '18 at 13:35
  • @chepner thanks for responding, leetcode gives basic barebones for expected code so that's why the class. However, I agree it serves no purpose – user1596115 May 10 '18 at 17:18

In pseudocode, 0x7FFFFFFF would be rendered as infinity (and None, as minus infinity). The proof of correctness is a lemma to the effect that the three numbers with the greatest product can be found among the greatest three and the least two. Plus/minus infinity serves as a sentinel value for the min/max two/three values, to be replaced shortly by actual values once the first three have been scanned.

1001 would work as well.


In addition to the @David Eisenstat answer, few additional comments:

  • Considering None as minus infinity is something that will work on python2 but it'll raise an exception in python3, for instance:

In early Python, the decision was made that the comparison of any two objects was legal and would return a consistent result. So objects of different types will compare according to an ordering on their types (an implementation dependent, unspecified, but consistent ordering), and objects of the same type will be compared according to rules that make sense for that type.

Other implementations have the right to compare an integer and None differently, but on a specific implementation, the result will not change.

Python 3 will raise an exception on such comparisons.

  • You're correct, 0x7FFFFFFF would be the equivalent to the max signed int, sys.maxsize == 0x7FFFFFFF

  • In python2 you can make the next comparisons, both 0x7FFFFFFF>(1000*1000*1000) and None<-(1000*1000*1000) are True, so using 0x7FFFFFFF as upper bound and None as lower bound is just fine, although other bounds would be correct as well

  • That said, I'd suggest you refactor that code to make it work also in python3 :)


Taking the following example: [-999, -999, 100, 200, 300], the answer is to take -999, -999 and 300 (and not simply the product of the 3 largest numbers).

As a consequence, you need to store:

  • the 3 largest numbers (pa, pb, pc)
  • the 2 smallest numbers (na, nb)

The result is the greatest value between pa * na * nb and pa * pb * pc.

0x7FFFFFFF is just a very big number used to find the smallest values. Since the greatest possible value is 1000, 1000 could have been used instead.

Similarly, the author used None to initialize pa, pb and pc. The author could have used -1000 instead.


Although this doesn't actually provide an answer to the actual question, it's an alternative that goes around the scenario that was brought up, and achieves the same (final) goal (it's more elegant, but slower - especially for large lists).
It works on both Python 2 and Python 3 (where reduce could also be replaced by itertools.accumulate), and makes use of:

>>> import itertools
>>> import operator
>>> l = [1, 9, 0, -5, 7, 2, 4]
>>> def max_prod(seq, count=3):
...     return max(reduce(operator.mul, item) for item in itertools.combinations(seq, count))
>>> max_prod(l)

which is: 9 * 7 * 4.

  • 2
    I think you should also say that it's more elegant but much slower if the list is big. However, the statement says that the length of the list is lower than 104, so it's perfectly acceptable (less than 200 000 combinations). – Maxime Chéramy May 10 '18 at 15:23

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