Weighted Random in JavaScript

Oleksii Trekhleb
4 min readOct 22, 2021

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โ„น๏ธ Examples are from the javascript-algorithms repository

What is โ€œWeighted Randomโ€

Letโ€™s say you have a list of items. The item could be anything. For example, we may have a list of fruits and vegetables that you like to eat: [ '๐ŸŒ', '๐ŸŽ', '๐Ÿฅ•' ].

The list of weights represents the weight (or probability, or importance) of each item. Weights are numbers. For example, weights like [3, 7, 1] would say that:

  • you would like to eat ๐ŸŽ apples more often (7 out of 3 + 7 + 1 = 11 times),
  • then you would like to eat bananas ๐ŸŒ less often (only 3 out of 11 times),
  • and the carrots ๐Ÿฅ• you really don't like (want to eat it only 1 out of 11 times).

If we speak in terms of probabilities than the weights list might be an array of floats that sum up to 1 (i.e. [0.1, 0.5, 0.2, 0.2]).

The Weighted Random in this case will be the function that will randomly return you the item from the list, and it will take each itemโ€™s weight into account so that items with the higher weight will be picked more often.

Example of the function interface:

const items =   [ '๐ŸŒ', '๐ŸŽ', '๐Ÿฅ•' ];
const weights = [ 3, 7, 1 ];
function weightedRandom(items, weights) {
// implementation goes here ...
}
const nextSnackToEat = weightedRandom(items, weights); // Could be '๐ŸŽ'

Applications of Weighted Random

The Algorithm

The straightforward approach would be to:

  1. Repeat each item in the list according to its weight.
  2. Pick the random item from the list.

For example, in our case with fruits and vegetables, we could generate the following list of size 3 + 7 + 1 = 11:

const items =   [ '๐ŸŒ', '๐ŸŽ', '๐Ÿฅ•' ];
const weights = [ 3, 7, 1 ];
// Repeating the items based on weights.
const weightedItems = [
'๐ŸŒ', '๐ŸŒ', '๐ŸŒ',
'๐ŸŽ', '๐ŸŽ', '๐ŸŽ', '๐ŸŽ', '๐ŸŽ', '๐ŸŽ', '๐ŸŽ',
'๐Ÿฅ•',
];
// And now just pick the random item from weightedItems array.

However, as you may see, this approach may require a lot of memory, in case if the objects are heavy, and in case if we have a lot of them to repeat in weightedItems list.

The more efficient approach would be to:

  1. Prepare the list of cumulative weights for each item (i.e. the cumulativeWeights list which will have the same number of elements as the original weights list). In our case it will look like this: cumulativeWeights = [3, 3 + 7, 3 + 7 + 1] = [3, 10, 11]
  2. Generate the random number randomNumber from 0 to the highest cumulative weight value. In our case, the random number will be in a range of [0..11]. Let's say that we have randomNumber = 8.
  3. Go through the cumulativeWeights list from left to right and pick the first element which is higher or equal to the randomNumber. The index of such element we will use to pick the item from the items array.

The idea behind this approach is that the higher weights will โ€œoccupyโ€ more numeric space. Therefore, there is a higher chance that the random number will fall into the โ€œhigher weight numeric bucketโ€.

const weights =           [3, 7,  1 ];
const cumulativeWeights = [3, 10, 11];
// In a pseudo-representation we may think about the cumulativeWeights array like this.
const pseudoCumulativeWeights = [
1, 2, 3, // <-- [3] numbers
4, 5, 6, 7, 8, 9, 10, // <-- [7] numbers
11, // <-- [1] number
];

Here is an example of how the weightedRandom the function might be implemented:

/**
* Picks the random item based on its weight.
* The items with higher weight will be picked more often (with a higher probability).
*
* For example:
* - items = ['banana', 'orange', 'apple']
* - weights = [0, 0.2, 0.8]
* - weightedRandom(items, weights) in 80% of cases will return 'apple', in 20% of cases will return
* 'orange' and it will never return 'banana' (because probability of picking the banana is 0%)
*
* @param {any[]} items
* @param {number[]} weights
* @returns {{item: any, index: number}}
*/
export default function weightedRandom(items, weights) {
if (items.length !== weights.length) {
throw new Error('Items and weights must be of the same size');
}
if (!items.length) {
throw new Error('Items must not be empty');
}
// Preparing the cumulative weights array.
// For example:
// - weights = [1, 4, 3]
// - cumulativeWeights = [1, 5, 8]
const cumulativeWeights = [];
for (let i = 0; i < weights.length; i += 1) {
cumulativeWeights[i] = weights[i] + (cumulativeWeights[i - 1] || 0);
}
// Getting the random number in a range of [0...sum(weights)]
// For example:
// - weights = [1, 4, 3]
// - maxCumulativeWeight = 8
// - range for the random number is [0...8]
const maxCumulativeWeight = cumulativeWeights[cumulativeWeights.length - 1];
const randomNumber = maxCumulativeWeight * Math.random();
// Picking the random item based on its weight.
// The items with higher weight will be picked more often.
for (let itemIndex = 0; itemIndex < items.length; itemIndex += 1) {
if (cumulativeWeights[itemIndex] >= randomNumber) {
return {
item: items[itemIndex],
index: itemIndex,
};
}
}
}

Implementation

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