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I have a list of 500 floats.

I want to pick 11 numbers out of the list which when added together sum up to N and N is within a range X <= N <= Y

It's basically for a fantasy football game where we autopick 11 players in the persons lineup.

The total cost should be somewhere within a range rather than random.

One solution might be to continuously randomly pick 11 players until I get a total that fits within the range but i'm wondering if there is a more elegant approach?

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6  
Dynamic Programming :) Its a modified version of knapsack problem. –  thefourtheye Oct 18 '13 at 10:48
    
Also a modified version of the subset sum problem. Not surprising, given both are NP-complete. –  aib Oct 18 '13 at 10:57
    
You need just one pick? And it has to give a fair chance to all players? –  Erik Allik Oct 18 '13 at 11:21
    
Thanks thefourtheye, didn't even know what to google for! –  jawache Oct 19 '13 at 13:05
    
You do not have to pick players at random. Selecting random players will cause collisions that will slow down finding a solution. Instead of that, you can systematically loop through different combinations, hoping to fall on a solution soon enough. –  Tarik Oct 20 '13 at 4:29

3 Answers 3

up vote 3 down vote accepted

Like the commenters pointed out, this is an NP-hard problem. However, if your data isn't too bad, the following should work pretty well:

picks[] := K numbers chosen at random from the population
While sum(picks) is not in the allowable range
  if sum(picks) < MinRange
    select an element p from picks at random
    let subpop := elements in population which are larger than p
    replace p with a random element from subpop
  if sum(picks) > MaxRange
    select an element p from picks at random
    let subpop := elements in population which are smaller than p
    replace p with a random element from subpop

This is pretty easy to code up, it will return a relatively random selection that satisfies the constraints, and it shouldn't take too long unless you really have a hard instance of the problem, in which case it's going to be very hard to find a solution using any algorithm.

If you want to speed up the algorithm, then you can choose the element p to be the smallest/largest element from picks each time through. This should make the algorithm go faster, but it will also result in a less "random" selection of picks.

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Thanks mrip, this totally did the trick! –  jawache Oct 19 '13 at 13:04

I believe it's not best approach, but it might work:

import random

data  # list of 500 floats
n = 11 # numbers to pick
bottom_limit = X
top_limit = Y
max_tries = 100

data_min = min(data)
data_max = max(data)

i = 0
while i < max_tries:
    i += 1
    picked = []

    for j in xrange(n-1):  # pick random except the last one
        picked.append(random.choice(data))
    s = sum(picked)

    if s + data_min < top_limit and s + data_max > bottom_limit:
        # Ok, we know we can find proper values, let's do it
        filtered = []
        for value in data:
            if value + s > bottom_limit and value + s < top_limit:
                filtered.append()

        picked.append(random.choice(filtered))
        break  # Success
else:
    print 'Unable to pick, sorry'

Success rate is highly relative to the data and limits values.

Hope this helps.

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What are X and Y? Can you approximate them and players' scores with integers? If so, than you can use dynamic programming like for knapsack problem.

But there are several problems.

  1. This algorithm needs O(Y) memory and O(M + Y) time, where M is total number of players.
  2. If you want to find all allowable teams and then choose random one, then you'll have a problem, that there are possibly exponential amount of such teams.

So for practical approach my vote is for mrip's suggestion.

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