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I have a list of objects (Chromosome) which have an attribute fitness (chromosome.fitness is between 0 and 1)

Given a list of such objects, how can I implement a function which returns a single chromosome whose chance of being selected is proportional to its fitness? That is, a chromosome with fitness 0.8 is twice as likely to be selected as one with fitness 0.4.

I've found a few Python and pseudocode implementations, but they are too complex for this requirement: the function needs only a list of chromosomes. Chromosomes store their own fitness as an internal variable.

The implementation I already wrote was before I decided to allow chromosomes to store their own fitness, so was a lot more complicated and involved zipping lists and things.


Thanks Lattyware. The following function seems to work.

def selectOne(self, population):
        max     = sum([c.fitness for c in population])
        pick    = random.uniform(0, max)
        current = 0
        for chromosome in population:
            current += chromosome.fitness
            if current > pick:
                return chromosome
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2 Answers 2

up vote 5 down vote accepted

There is a very simple way to select a weighted random choice from a dictionary:

def weighted_random_choice(choices):
    max = sum(choices.values())
    pick = random.uniform(0, max)
    current = 0
    for key, value in choices.items():
        current += value
        if current > pick:
            return key

If you don't have a dictionary at hand, you could modify this to suit your class (as you haven't given more details of it, or generate a dictionary:

choices = {chromosome: chromosome.fitness for chromosome in chromosomes}

Presuming that fitness is an attribute.

Here is an example of the function modified to take an iterable of chromosomes, again, making the same presumption.

def weighted_random_choice(chromosomes):
    max = sum(chromosome.fitness for chromosome in chromosomes)
    pick = random.uniform(0, max)
    current = 0
    for chromosome in chromosomes:
        current += chromosome.fitness
        if current > pick:
            return chromosome
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If you have many choices, or you have to pick many values with the same set of weights, you could also turn this O(n) solution into a O(log(n)) solution by using a binary search, or even an O(1) solution by using some kind of look-up table. –  Sven Marnach Apr 25 '12 at 21:35
@SvenMarnach This is true, I'm giving the simplest solution here, not necessarily the fastest - that is indeed worth noting. –  Lattyware Apr 25 '12 at 21:38
This article gives a nice exposition of developing an O(1) algorithm for this sampling. –  Dougal Apr 25 '12 at 21:53
Do you know why, if this function is called twice in succession, it always returns the same chromosome? –  Rory Apr 25 '12 at 22:50
@Blazemore That should not happen. It would imply either your list is of length 1, or for some reason the seed for the random module isn't changing. Some quick tests on my side show that it works for me. –  Lattyware Apr 25 '12 at 23:38
import random

def weighted_choice(items):
    total_weight = sum(item.weight for item in items)
    weight_to_target = random.uniform(0, total_weight)
    for item in items:
        weight_to_target -= item.weight
        if weight_to_target <= 0:
            return item
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