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BucketSort.js
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BucketSort.js
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/**
* BucketSort implementation.
*
* Wikipedia says: Bucket sort, or bin sort, is a sorting algorithm that works by distributing the elements of an array
* into a number of buckets. Each bucket is then sorted individually, either using a different sorting algorithm, or by
* recursively applying the bucket sorting algorithm. It is a distribution sort, and is a cousin of radix sort in the
* most to least significant digit flavour. Bucket sort is a generalization of pigeonhole sort. Bucket sort can be
* implemented with comparisons and therefore can also be considered a comparison sort algorithm. The computational
* complexity estimates involve the number of buckets.
*
* @see https://en.wikipedia.org/wiki/Bucket_sort#:~:text=Bucket%20sort%2C%20or%20bin%20sort,applying%20the%20bucket%20sorting%20algorithm.&text=Sort%20each%20non%2Dempty%20bucket.
*
* Time Complexity of Solution:
* Best Case O(n); Average Case O(n); Worst Case O(n)
*
* @param {number[]} list The array of numbers to be sorted.
* @param {number} size The size of the buckets used. If not provided, size will be 5.
* @return {number[]} An array of numbers sorted in increasing order.
*/
export function bucketSort (list, size) {
if (undefined === size) {
size = 5
}
if (list.length === 0) {
return list
}
let min = list[0]
let max = list[0]
// find min and max
for (let iList = 0; iList < list.length; iList++) {
if (list[iList] < min) {
min = list[iList]
} else if (list[iList] > max) {
max = list[iList]
}
}
// how many buckets we need
const count = Math.floor((max - min) / size) + 1
// create buckets
const buckets = []
for (let iCount = 0; iCount < count; iCount++) {
buckets.push([])
}
// bucket fill
for (let iBucket = 0; iBucket < list.length; iBucket++) {
const key = Math.floor((list[iBucket] - min) / size)
buckets[key].push(list[iBucket])
}
const sorted = []
// now sort every bucket and merge it to the sorted list
for (let iBucket = 0; iBucket < buckets.length; iBucket++) {
const arr = buckets[iBucket].sort((a, b) => a - b)
for (let iSorted = 0; iSorted < arr.length; iSorted++) {
sorted.push(arr[iSorted])
}
}
return sorted
}