Sort n numbers in range from 0 to n^2 – 1 in linear time

Last Updated : 14 Mar, 2023

Given an array of numbers of size n. It is also given that the array elements are in the range from 0 to n² – 1. Sort the given array in linear time.

Examples:

Since there are 5 elements, the elements can be from 0 to 24.
Input: arr[] = {0, 23, 14, 12, 9}
Output: arr[] = {0, 9, 12, 14, 23}

Since there are 3 elements, the elements can be from 0 to 8.
Input: arr[] = {7, 0, 2}
Output: arr[] = {0, 2, 7}

Solution: If we use Counting Sort, it would take O(n^2) time as the given range is of size n^2. Using any comparison-based sorting like Merge Sort, Heap Sort, .. etc would take O(nLogn) time.
Now the question arises how to do this in 0(n)? Firstly, is it possible? Can we use the data given in the question? n numbers in the range from 0 to n² – 1?

The idea is to use Radix Sort. Following is the standard Radix Sort algorithm.

1) Do following for each digit i where i varies from least 
   significant digit to the most significant digit.
…………..a) Sort input array using counting sort (or any stable 
         sort) according to the i’th digit

Let there be d digits in input integers. Radix Sort takes O(d*(n+b)) time where b is the base for representing numbers, for example, for a decimal system, b is 10. Since n²-1 is the maximum possible value, the value of d would be O(log_b(n)). So overall time complexity is O((n+b)*O(log_b(n)). Which looks more than the time complexity of comparison-based sorting algorithms for a large k. The idea is to change base b. If we set b as n, the value of O(log_b(n)) becomes O(1) and overall time complexity becomes O(n).

arr[] = {0, 10, 13, 12, 7}

Let us consider the elements in base 5. For example 13 in
base 5 is 23, and 7 in base 5 is 12.
arr[] = {00(0), 20(10), 23(13), 22(12), 12(7)}

After first iteration (Sorting according to the last digit in 
base 5),  we get.
arr[] = {00(0), 20(10), 12(7), 22(12), 23(13)}

After second iteration, we get
arr[] = {00(0), 12(7), 20(10), 22(12), 23(13)}

Following is the implementation to sort an array of size n where elements are in range from 0 to n² – 1.

C++

#include<iostream>
using namespace std;
 
// A function to do counting sort of arr[] according to
// the digit represented by exp.
int countSort(int arr[], int n, int exp)
{
 
    int output[n]; // output array
    int i, count[n] ;
    for (int i=0; i < n; i++)
       count[i] = 0;
 
    // Store count of occurrences in count[]
    for (i = 0; i < n; i++)
        count[ (arr[i]/exp)%n ]++;
 
    // Change count[i] so that count[i] now contains actual
    // position of this digit in output[]
    for (i = 1; i < n; i++)
        count[i] += count[i - 1];
 
    // Build the output array
    for (i = n - 1; i >= 0; i--)
    {
        output[count[ (arr[i]/exp)%n] - 1] = arr[i];
        count[(arr[i]/exp)%n]--;
    }
 
    // Copy the output array to arr[], so that arr[] now
    // contains sorted numbers according to current digit
    for (i = 0; i < n; i++)
        arr[i] = output[i];
}
 
 
// The main function to that sorts arr[] of size n using Radix Sort
void sort(int arr[], int n)
{
    // Do counting sort for first digit in base n. Note that
    // instead of passing digit number, exp (n^0 = 1) is passed.
    countSort(arr, n, 1);
 
    // Do counting sort for second digit in base n. Note that
    // instead of passing digit number, exp (n^1 = n) is passed.
    countSort(arr, n, n);
}
 
// A utility function to print an array
void printArr(int arr[], int n)
{
    for (int i = 0; i < n; i++)
        cout << arr[i] << " ";
}
 
// Driver program to test above functions
int main()
{
    // Since array size is 7, elements should be from 0 to 48
    int arr[] = {40, 12, 45, 32, 33, 1, 22};
    int n = sizeof(arr)/sizeof(arr[0]);
    cout << "Given array is\n";
    printArr(arr, n);
 
    sort(arr, n);
 
    cout << "\nSorted array is\n";
    printArr(arr, n);
    return 0;
}

Java

// Java program to sort an array of size n where elements are
// in range from 0 to n^2 – 1.
import java.io.*;
public class Sort1ToN2
{
    // A function to do counting sort of arr[] according to
    // the digit represented by exp.
    void countSort(int arr[], int n, int exp)
    {
        int output[] = new int[n]; // output array
        int i, count[] = new int[n] ;
        for (i=0; i < n; i++)
           count[i] = 0;
 
        // Store count of occurrences in count[]
        for (i = 0; i < n; i++)
            count[ (arr[i]/exp)%n ]++;
 
        // Change count[i] so that count[i] now contains actual
        // position of this digit in output[]
        for (i = 1; i < n; i++)
            count[i] += count[i - 1];
 
        // Build the output array
        for (i = n - 1; i >= 0; i--)
        {
            output[count[ (arr[i]/exp)%n] - 1] = arr[i];
            count[(arr[i]/exp)%n]--;
        }
 
        // Copy the output array to arr[], so that arr[] now
        // contains sorted numbers according to current digit
        for (i = 0; i < n; i++)
            arr[i] = output[i];
    }
 
 
    // The main function to that sorts arr[] of size n using Radix Sort
    void sort(int arr[], int n)
    {
        // Do counting sort for first digit in base n. Note that
        // instead of passing digit number, exp (n^0 = 1) is passed.
        countSort(arr, n, 1);
 
        // Do counting sort for second digit in base n. Note that
        // instead of passing digit number, exp (n^1 = n) is passed.
        countSort(arr, n, n);
    }
 
    // A utility function to print an array
    void printArr(int arr[], int n)
    {
        for (int i = 0; i < n; i++)
            System.out.print(arr[i]+" ");
    }
 
    // Driver program to test above functions
    public static void main(String args[])
    {
        Sort1ToN2 ob = new Sort1ToN2();
 
        // Since array size is 7, elements should be from 0 to 48
        int arr[] = {40, 12, 45, 32, 33, 1, 22};
        int n = arr.length;
        System.out.println("Given array");
        ob.printArr(arr, n);
 
        ob.sort(arr, n);
        System.out.println("\nSorted array");
        ob.printArr(arr, n);
    }
}
/*This code is contributed by Rajat Mishra */

Python3

# Python3 the implementation to sort an 
# array of size n
 
# A function to do counting sort of arr[] 
# according to the digit represented by exp. 
def countSort(arr, n, exp): 
    output = [0] * n # output array 
    count = [0] * n
    for i in range(n):
        count[i] = 0
 
    # Store count of occurrences in count[] 
    for i in range(n):
        count[ (arr[i] // exp) % n ] += 1
 
    # Change count[i] so that count[i] now contains 
    # actual position of this digit in output[] 
    for i in range(1, n): 
        count[i] += count[i - 1] 
 
    # Build the output array 
    for i in range(n - 1, -1, -1): 
 
        output[count[ (arr[i] // exp) % n] - 1] = arr[i] 
        count[(arr[i] // exp) % n] -= 1
 
    # Copy the output array to arr[], so that 
    # arr[] now contains sorted numbers according 
    # to current digit 
    for i in range(n): 
        arr[i] = output[i] 
 
# The main function to that sorts arr[] of 
# size n using Radix Sort 
def sort(arr, n) :
     
    # Do counting sort for first digit in base n. 
    # Note that instead of passing digit number,
    # exp (n^0 = 1) is passed. 
    countSort(arr, n, 1) 
 
    # Do counting sort for second digit in base n. 
    # Note that instead of passing digit number, 
    # exp (n^1 = n) is passed. 
    countSort(arr, n, n) 
 
# Driver Code
if __name__ =="__main__": 
     
    # Since array size is 7, elements should
    # be from 0 to 48 
    arr = [40, 12, 45, 32, 33, 1, 22]
    n = len(arr) 
    print("Given array is")
    print(*arr)
     
    sort(arr, n)
     
    print("Sorted array is")
    print(*arr)
 
# This code is contribute by 
# Shubham Singh(SHUBHAMSINGH10)

C#

// C# program to sort an array of 
// size n where elements are
// in range from 0 to n^2 – 1.
using System;
 
class GFG {
     
    // A function to do counting 
    // sort of arr[] according to
    // the digit represented by exp.
    static void countSort(int[] arr, 
                          int n, 
                          int exp)
    {
         
        // output array
        int[] output = new int[n]; 
        int[] count = new int[n] ;
        int i;
        for (i = 0; i < n; i++)
        count[i] = 0;
 
        // Store count of 
        // occurrences in count[]
        for (i = 0; i < n; i++)
            count[(arr[i] / exp) % n ]++;
 
        // Change count[i] so that 
        // count[i] now contains actual
        // position of this digit in output[]
        for (i = 1; i < n; i++)
            count[i] += count[i - 1];
 
        // Build the output array
        for (i = n - 1; i >= 0; i--)
        {
            output[count[(arr[i] / 
                   exp) % n] - 1] = arr[i];
            count[(arr[i] / exp) % n]--;
        }
 
        // Copy the output array to 
        // arr[], so that arr[] now
        // contains sorted numbers 
        // according to current digit
        for (i = 0; i < n; i++)
            arr[i] = output[i];
    }
 
 
    // The main function to that 
    // sorts arr[] of size n 
    // using Radix Sort
    static void sort(int[] arr, int n)
    {
         
        // Do counting sort for first 
        // digit in base n. Note that
        // instead of passing digit number, 
        // exp (n^0 = 1) is passed.
        countSort(arr, n, 1);
 
        // Do counting sort for second 
        // digit in base n. Note that
        // instead of passing digit number, 
        // exp (n^1 = n) is passed.
        countSort(arr, n, n);
    }
 
    // A utility function
    // to print an array
    static void printArr(int[] arr, int n)
    {
        for (int i = 0; i < n; i++)
            Console.Write(arr[i] + " ");
    }
 
    // Driver Code
    static public void Main ()
    {
         
        // Since array size is 7, 
        // elements should be 
        // from 0 to 48
        int[] arr = {40, 12, 45, 32, 33, 1, 22};
        int n = arr.Length;
        Console.WriteLine("Given array");
        printArr(arr, n);
 
        sort(arr, n);
 
        Console.WriteLine("\nSorted array");
        printArr(arr, n);
    }
}
 
// This code is contributed by Ajit.

Javascript

<script>
 
// Javascript program to sort an array of 
// size n where elements are
// in range from 0 to n^2 – 1.
 
// A function to do counting 
// sort of arr[] according to
// the digit represented by exp.
function countSort(arr, n, exp)
{
     
    // Output array
    let output = new Array(n); 
    let count = new Array(n);
     
    count.fill(0);
    output.fill(0);
    let i;
     
    for(i = 0; i < n; i++)
        count[i] = 0;
 
    // Store count of 
    // occurrences in count[]
    for(i = 0; i < n; i++)
        count[parseInt(arr[i] / exp, 10) % n ]++;
 
    // Change count[i] so that 
    // count[i] now contains actual
    // position of this digit in output[]
    for(i = 1; i < n; i++)
        count[i] += count[i - 1];
 
    // Build the output array
    for (i = n - 1; i >= 0; i--)
    {
        output[count[parseInt(
            arr[i] / exp, 10) % n] - 1] = arr[i];
        count[parseInt(arr[i] / exp, 10) % n]--;
    }
 
    // Copy the output array to 
    // arr[], so that arr[] now
    // contains sorted numbers 
    // according to current digit
    for(i = 0; i < n; i++)
        arr[i] = output[i];
}
 
// The main function to that 
// sorts arr[] of size n 
// using Radix Sort
function sort(arr, n)
{
       
    // Do counting sort for first 
    // digit in base n. Note that
    // instead of passing digit number, 
    // exp (n^0 = 1) is passed.
    countSort(arr, n, 1);
 
    // Do counting sort for second 
    // digit in base n. Note that
    // instead of passing digit number, 
    // exp (n^1 = n) is passed.
    countSort(arr, n, n);
}
 
// A utility function
// to print an array
function printArr(arr, n)
{
    for(let i = 0; i < n; i++)
        document.write(arr[i] + " ");
}
 
// Driver code
 
// Since array size is 7, 
// elements should be 
// from 0 to 48
let arr = [ 40, 12, 45, 32, 33, 1, 22 ];
let n = arr.length;
 
document.write("Given array" + "</br>");
printArr(arr, n);
 
sort(arr, n);
 
document.write("</br>Sorted array" + "</br>");
printArr(arr, n);
 
// This code is contributed by divyesh072019
 
</script>

Output

Given array is
40 12 45 32 33 1 22 
Sorted array is
1 12 22 32 33 40 45

Time Complexity: O(n).
Auxiliary Space: O(n)

How to sort if the range is from 1 to n²?
If the range is from 1 to n², the above process can not be directly applied, it must be changed. Consider n = 100 and range from 1 to 10000. Since the base is 100, a digit must be from 0 to 99 and there should be 2 digits in the numbers. But the number 10000 has more than 2 digits. So to sort numbers in a range from 1 to n², we can use the following process.
1) Subtract all numbers by 1.
2) Since the range is now 0 to n², do counting sort twice as done in the above implementation.
3) After the elements are sorted, add 1 to all numbers to obtain the original numbers.

How to sort if the range is from 0 to n^3 -1?
Since there can be 3 digits in base n, we need to call counting sort 3 times.

Suggest improvement

MSD( Most Significant Digit ) Radix Sort

How to efficiently sort a big list dates in 20's

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Sort n numbers in range from 0 to n^2 – 1 in linear time

C++

Java

Python3

C#

Javascript

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