The *measure-CountingSort.ps1* Script =========================== This PowerShell script measures the speed of the CountingSort algorithm. CountingSort is an algorithm for sorting a collection of objects according to keys that are small positive integers; that is, it is an integer sorting algorithm. It operates by counting the number of objects that possess distinct key values, and applying prefix sum on those counts to determine the positions of each key value in the output sequence. Its running time is linear in the number of items and the difference between the maximum key value and the minimum key value, so it is only suitable for direct use in situations where the variation in keys is not significantly greater than the number of items. It is often used as a subroutine in radix sort, another sorting algorithm, which can handle larger keys more efficiently. Parameters ---------- ```powershell /home/markus/Repos/PowerShell/scripts/measure-CountingSort.ps1 [[-numIntegers] ] [] -numIntegers Specifies the number of integers to sort Required? false Position? 1 Default value 1000 Accept pipeline input? false Accept wildcard characters? false [] This script supports the common parameters: Verbose, Debug, ErrorAction, ErrorVariable, WarningAction, WarningVariable, OutBuffer, PipelineVariable, and OutVariable. ``` Example ------- ```powershell PS> ./measure-CountingSort.ps1 🧭 0.045 sec to sort 1000 integers by CountingSort ``` Notes ----- Author: Markus Fleschutz | License: CC0 Related Links ------------- https://github.com/fleschutz/PowerShell Script Content -------------- ```powershell <# .SYNOPSIS Measures the speed of CountingSort .DESCRIPTION This PowerShell script measures the speed of the CountingSort algorithm. CountingSort is an algorithm for sorting a collection of objects according to keys that are small positive integers; that is, it is an integer sorting algorithm. It operates by counting the number of objects that possess distinct key values, and applying prefix sum on those counts to determine the positions of each key value in the output sequence. Its running time is linear in the number of items and the difference between the maximum key value and the minimum key value, so it is only suitable for direct use in situations where the variation in keys is not significantly greater than the number of items. It is often used as a subroutine in radix sort, another sorting algorithm, which can handle larger keys more efficiently. .PARAMETER numIntegers Specifies the number of integers to sort .EXAMPLE PS> ./measure-CountingSort.ps1 🧭 0.045 sec to sort 1000 integers by CountingSort .LINK https://github.com/fleschutz/PowerShell .NOTES Author: Markus Fleschutz | License: CC0 #> param([int]$numIntegers = 1000) class CountingSort { static Sort($targetList) { $min = 0 $max = 0 for ($counter = 0; $counter -lt $targetList.Count; $counter++) { if ($targetList[$counter] -lt $min) { $min = $targetList[$counter] } if ($targetList[$counter] -gt $max) { $max = $targetList[$counter] } } $arrayBucket = New-Object int[] ($max - $min + 1) for ($counter = 0; $counter -lt $targetList.Count; $counter++) { $arrayBucket[$targetList[$counter]]++; } $lastPosition = 0 for ($counter = 0; $counter -lt $arrayBucket.Count ; $counter++) { for ($innerCounter = 0; $innerCounter -lt $arrayBucket[$counter]; $innerCounter++) { $targetList[$lastPosition++] = $counter } } } } $list = (1..$numIntegers | foreach{Get-Random -minimum 1 -maximum $numIntegers}) $stopWatch = [system.diagnostics.stopwatch]::startNew() [CountingSort]::Sort($list) [float]$elapsed = $stopWatch.Elapsed.TotalSeconds $elapsed3 = "{0:N3}" -f $elapsed # formatted to 3 decimal places "🧭 $elapsed3 sec to sort $numIntegers integers by CountingSort" exit 0 # success ``` *(generated by convert-ps2md.ps1 as of 11/20/2024 11:51:57)*