# Swift Quicksort Algorithm

been trying to program the following Quicksort Algorithm in Swift for a while now and cannot work out the issue. [Quicksort as there are around 15,000 actual values in array]. The problem is only the left half of the array is ordered (see pic), and the method is never exited (infinite loop). Following a Java conversion from http://www.java2novice.com/java-sorting-algorithms/quick-sort/ (tested in Java and does work). Cannot work out the error.

var arr = [Int]()
var length = 0

{

arr = [5,2,4,7,2,1,3,9,10,11,7,8]
print(arr)

sort(inputArr: &arr);

print(arr)
}

func sort(inputArr: inout [Int])
{

if (inputArr.count == 0) || (inputArr == nil)
{
print("finished")
return
}

arr = inputArr
length = arr.count
quicksort(low:0,high:length-1)

}

func quicksort(low: Int, high: Int)
{
var i = low
var j = high

var piv = (low + (high-low))
piv = piv / 2
let pivot_location = arr[piv]

print("----")

while i <= j
{
while arr[i] < pivot_location
{
i+=1
}
while arr[j] > pivot_location
{
j-=1
}

if i <= j
{
let temp = arr[i]
arr[i] = arr[j]
arr[j] = temp

i+=1
j-=1
}
}

print(arr)

if low < j
{
quicksort(low: low, high: j)
}
if i < high
{
quicksort(low: i, high: high)
}
}


Console print of array after iteration through method

• Because your large array the array function .sorted is not an option for you? inputArr.sorted { $0 >$1 } or vice versa Commented Jan 28, 2017 at 12:36
• The built-in sort routines are highly optimized and generally give very good results. Why not use them? All you have to do is to provide a comparison closure that lets you compare 2 elements and the system does the rest. Commented Jan 28, 2017 at 12:43
• [Quicksort as there are around 15,000 actual values in array] is this meant to explain why you don't use built-in sorting? This amount of data is not particularly big, nor something that requires extra effort. I don't know how swift array implements sorting, but as shown here, CFArray is highly optimized for different situations and I would expect swift's array to do something similar. Commented Jan 28, 2017 at 13:54
• @vikingosegundo can't lie mate only writing my own because it earns me more points for the task Commented Jan 28, 2017 at 14:44
• Points for what? If you want to earn points in some sort of course, I'd create a generic sorting and not a sorting only for ints. Commented Jan 28, 2017 at 15:01

Quicksort in Swift:

func quicksort<T: Comparable>(_ a: [T]) -> [T] {
guard a.count > 1 else { return a }

let pivot = a[a.count/2]
let less = a.filter { $0 < pivot } let equal = a.filter {$0 == pivot }
let greater = a.filter { $0 > pivot } return quicksort(less) + equal + quicksort(greater) }  Benchmark with 15.000 random numbers (count time after generating numbers): • the arr.filter{$0 < $1 } takes: about 0,30 min • the code in the question takes: about 1,00 min • the quicksort in my answer takes: about 2,00 min see: https://github.com/raywenderlich/swift-algorithm-club/tree/master/Quicksort other quicksort types here: https://github.com/raywenderlich/swift-algorithm-club/blob/master/Quicksort/Quicksort.swift • yeah i looked at this and couldn't work it out: what is guard, filter and the use of a$ Commented Jan 28, 2017 at 14:43

If you want, you can use this code for quickSort, much cleaner code and easy to understand. Give it a try

func quickSort2(_ input: [Int], startIndex:Int, endIndex: Int)-> [Int] {
var inputArray = input
if startIndex<endIndex {
let pivot = inputArray[endIndex]
var index = startIndex

for demo in startIndex..<endIndex {
if inputArray[demo] <= pivot {
(inputArray[index], inputArray[demo]) = (inputArray[demo], inputArray[index])
index += 1
}
}
(inputArray[index], inputArray[endIndex]) = (inputArray[endIndex], inputArray[index])
inputArray = quickSort2(inputArray, startIndex: startIndex, endIndex: index-1)
inputArray = quickSort2(inputArray, startIndex: index+1, endIndex: endIndex)
}
return inputArray
}


Your computation of piv and pivot_location is wrong. It should be:

let piv = (low + (high - low) / 2)
let pivot_location = arr[piv]


Note that I moved the division by two inside the previous calculation.

Output:

[5, 2, 4, 7, 2, 1, 3, 9, 10, 11, 7, 8]
[1, 2, 4, 7, 2, 5, 3, 9, 10, 11, 7, 8]
[1, 2, 3, 2, 7, 5, 4, 9, 10, 11, 7, 8]
[1, 2, 2, 3, 7, 5, 4, 9, 10, 11, 7, 8]
[1, 2, 2, 3, 7, 5, 4, 9, 10, 11, 7, 8]
[1, 2, 2, 3, 7, 5, 4, 8, 7, 11, 10, 9]
[1, 2, 2, 3, 4, 5, 7, 8, 7, 11, 10, 9]
[1, 2, 2, 3, 4, 5, 7, 8, 7, 11, 10, 9]
[1, 2, 2, 3, 4, 5, 7, 8, 7, 11, 10, 9]
[1, 2, 2, 3, 4, 5, 7, 7, 8, 11, 10, 9]
[1, 2, 2, 3, 4, 5, 7, 7, 8, 9, 10, 11]
[1, 2, 2, 3, 4, 5, 7, 7, 8, 9, 10, 11]

• Thank you so much really appreciate it Commented Jan 28, 2017 at 13:02

QuickSort code :

func quickSort<T: Comparable>(_ array: [T]) -> [T] {
if array.count < 2 {
return array
}

let pivot = array[0]
print("pivot : \(pivot)")

let smaller = array.filter { $0 < pivot } let larger = array.filter {$0 > pivot }

let result = quickSort(smaller) + [pivot] + quickSort(larger)
print("result : \(result)")

return result
}


## Details

• Swift 5.2, Xcode 11.4 (11E146)

## Solution

import Foundation

enum QuickSortOrder { case lowToHight, hightToLow }

// MARK: Quik Sort
// time: n*log n
// memory: n*log n

extension RangeReplaceableCollection where Element: Comparable {
func quickSort(by order: QuickSortOrder = .lowToHight) -> Self {
guard count > 1 else { return self }
let pivot = self[index(endIndex, offsetBy: -1)]
var pivotCount = 0
var lessThanPivot = Self()
var greaterThanPivot = Self()
forEach { element in
switch element {
case ..<pivot: lessThanPivot.append(element)
case pivot: pivotCount += 1
default: greaterThanPivot.append(element)
}
}

let equalPivot = Self(repeating: pivot, count: pivotCount)

if equalPivot.count == count {
return equalPivot
} else {
if lessThanPivot.first != nil {
switch order {
case .lowToHight: return Self(lessThanPivot.quickSort(by: order) + equalPivot + greaterThanPivot.quickSort(by: order))
case .hightToLow: return Self(greaterThanPivot.quickSort(by: order) + equalPivot + lessThanPivot.quickSort(by: order))
}
} else {
switch order {
case .lowToHight: return Self(equalPivot + greaterThanPivot.quickSort(by: order))
case .hightToLow: return Self(greaterThanPivot.quickSort(by: order) + equalPivot)
}
}
}
}
}

// MARK: Quik Sort Partition Algorithm
// time: n*log n
// memory: use the same array (0)

extension MutableCollection where Element: Comparable {

mutating
func quickSorted(by order: QuickSortOrder = .lowToHight) {
quickSortSlicing(left: startIndex, right: index(endIndex, offsetBy: -1), by: order)
}

private mutating
func quickSortSlicing(left: Index, right: Index, by order: QuickSortOrder) {
guard left < right else { return }
let index = quickSortSliceElementsReordering(left: left, right: right, by: order)
quickSortSlicing(left: left, right: self.index(index, offsetBy: -1), by: order)
quickSortSlicing(left: index, right: right, by: order)
}

private mutating
func quickSortSliceElementsReordering(left: Index, right: Index, by order: QuickSortOrder) -> Index {
let distance = self.distance(from: left, to: right)
let pivot = self[self.index(left, offsetBy: distance/2)]
var leftIndex = left
var rightIndex = right
while leftIndex <= rightIndex {
switch order {
case .lowToHight:
while self[leftIndex] < pivot { leftIndex = index(leftIndex, offsetBy: 1) }
while self[rightIndex] > pivot {
rightIndex = index(rightIndex, offsetBy: -1)
}
case .hightToLow:
while self[leftIndex] > pivot { leftIndex = index(leftIndex, offsetBy: 1) }
while self[rightIndex] < pivot {
rightIndex = index(rightIndex, offsetBy: -1)
}
}
if leftIndex <= rightIndex {
self.swapAt(leftIndex, rightIndex)
leftIndex = index(leftIndex, offsetBy: 1)
rightIndex = index(rightIndex, offsetBy: -1)
}
}
return leftIndex
}
}


## Usage

// Option 1
let sortedArray = array.quickSort()

// Option 2
let sortedArray = array.quickSort(by: .lowToHight)

// Option 3
let sortedArray = array.quickSort(by: .hightToLow)

// Option 4
var array = [......]
array.quickSorted()

// Option 5
var array = [......]
array.quickSorted(by: .lowToHight)

// Option 6
var array = [......]
array.quickSorted(by: .hightToLow)


## Unit Tests

import XCTest
//@testable import stackoverflow_41909806

protocol QuicSortTestable {
associatedtype C: MutableCollection & RangeReplaceableCollection where C:Equatable, C.Element: Comparable, C.Index == Int
typealias Element = C.Element
func generateCollection() -> C
}

extension QuicSortTestable where Self: XCTestCase {
func _test() {
let collection = generateCollection()
_test(collection: collection, sortBy: <, quickSortOrder: .lowToHight)
//_test(collection: collection, sortBy: >, quickSortOrder: .hightToLow)
}

private func measureTime(of closure: (() -> Void)) -> TimeInterval {
let start = ProcessInfo.processInfo.systemUptime
closure()
return ProcessInfo.processInfo.systemUptime - start
}

private func _test(collection: C, sortBy closure: (_ left: Element, _ right: Element) -> Bool, quickSortOrder: QuickSortOrder) {
print("--------------------------\n-- Collection size: \(collection.count), sorting order: \(quickSortOrder)")
var times = [String: TimeInterval]()

var sortedCollection = C()
times["collection.sorted(by:)"] = measureTime (of: { sortedCollection = collection.sorted(by: closure) as! Self.C })

var quickSortedCollection: C!
times["collection.quickSort(by:)"] = measureTime (of: { quickSortedCollection = collection.quickSort(by: quickSortOrder) })
XCTAssertEqual(quickSortedCollection, sortedCollection)

quickSortedCollection = collection
times["collection.quickSorted(by:)"] = measureTime (of: {
quickSortedCollection.quickSorted(by: quickSortOrder)
})
XCTAssertEqual(quickSortedCollection!, sortedCollection)

quickSortedCollection = collection
times["collection.quickSorted(by:)"] = measureTime (of: {
quickSortedCollection.quickSorted(by: quickSortOrder)
})
XCTAssertEqual(quickSortedCollection!, sortedCollection)

let numberFormatter = NumberFormatter()
numberFormatter.numberStyle = .decimal
numberFormatter.maximumFractionDigits = 6
times.forEach { key, value in
print("-- Excecution time of \(key) = \(numberFormatter.string(from: NSNumber(value: value)) ?? "\(value)")")
}
}
}

//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////

class SortingAlgorithmsTests_emptyCollection: XCTestCase, QuicSortTestable {
func generateCollection() -> [Int] { [] }
func test() { _test() }
}

class SortingAlgorithmsTests_oneElementCollection: SortingAlgorithmsTests_emptyCollection {
override func generateCollection() -> [Int] { [1] }
}

class SortingAlgorithmsTests_dublicatedElementCollection: SortingAlgorithmsTests_emptyCollection {
override func generateCollection() -> [Int] { [1,1] }
}

class SortingAlgorithmsTests_randomCollection: SortingAlgorithmsTests_emptyCollection {
var generatedArraySize: Int { return 1_000 }
override func generateCollection() -> [Int] {
return (0 ..< generatedArraySize).map { (0...1000).randomElement() ?? \$0 }
}
}

class SortingAlgorithmsTests_randomCollection2: SortingAlgorithmsTests_randomCollection {
override var generatedArraySize: Int { return 100_000 }

}

class SortingAlgorithmsTests_randomCollection3: SortingAlgorithmsTests_randomCollection {
override var generatedArraySize: Int { return 1_000_000 }
}


## Time measurement (unit tests logs)

--------------------------
-- Collection size: 2, sorting order: lowToHight
-- Excecution time of collection.quickSort(by:) = 0.00008
-- Excecution time of collection.quickSorted(by:) = 0.000003
-- Excecution time of collection.sorted(by:) = 0.000109
--------------------------
-- Collection size: 0, sorting order: lowToHight
-- Excecution time of collection.quickSort(by:) = 0.000001
-- Excecution time of collection.quickSorted(by:) = 0
-- Excecution time of collection.sorted(by:) = 0.000007
--------------------------
-- Collection size: 1, sorting order: lowToHight
-- Excecution time of collection.sorted(by:) = 0.00001
-- Excecution time of collection.quickSort(by:) = 0.000002
-- Excecution time of collection.quickSorted(by:) = 0.000001
--------------------------
-- Collection size: 1000, sorting order: lowToHight
-- Excecution time of collection.quickSort(by:) = 0.009461
-- Excecution time of collection.sorted(by:) = 0.008551
-- Excecution time of collection.quickSorted(by:) = 0.006646
--------------------------
-- Collection size: 100000, sorting order: lowToHight
-- Excecution time of collection.quickSorted(by:) = 0.892118
-- Excecution time of collection.sorted(by:) = 0.59183
-- Excecution time of collection.quickSort(by:) = 0.588457
--------------------------
-- Collection size: 1000000, sorting order: lowToHight
-- Excecution time of collection.quickSort(by:) = 5.857336
-- Excecution time of collection.sorted(by:) = 6.957055
-- Excecution time of collection.quickSorted(by:) = 10.518193