Saturday, December 28, 2024
Google search engine
HomeData Modelling & AIK’th Smallest/Largest Element in Unsorted Array | Expected Linear Time

K’th Smallest/Largest Element in Unsorted Array | Expected Linear Time

Prerequisite: K’th Smallest/Largest Element in Unsorted Array | Set 1

Given an array and a number k where k is smaller than the size of the array, we need to find the k’th smallest element in the given array. It is given that all array elements are distinct.

Examples:

Input: arr[] = {7, 10, 4, 3, 20, 15}
       k = 3
Output: 7

Input: arr[] = {7, 10, 4, 3, 20, 15}
      k = 4
Output: 10

We have discussed three different solutions here.

Approach 1:

  1. Select a random element from an array as a pivot.
  2. Then partition to the array around the pivot, its help to all the smaller elements were placed before the pivot and all greater elements are placed after the pivot.
  3. then Check the position of the pivot. If it is the kth element then return it.
  4. If it is less than the kth element then repeat the process of the subarray.
  5. If it is greater than the kth element then repeat the process of the left subarray.

That Algorithm is the QuickSelect and It is similar to the QuickSort.

In this post method 5 is discussed which is mainly an extension of method 5 (QuickSelect) discussed in the previous post. The idea is to randomly pick a pivot element. To implement a randomized partition, we use a random function, rand() to generate an index between l and r, swap the element at the randomly generated index with the last element, and finally call the standard partition process which uses the last element as pivot.

Steps to solve the problem:

1. Check if k>0&& k<=r-l+1:

declare pos as randomPartition(arr,l,r).
check if pos-1==k-1 than return arr[pos].
check if pos-1>k-1 than recursively call kthsmallest(arr,l,pos-1,k).
return recursively call kthsmallest(arr,pos+1,r,k-pos+l-1).

2. Return INT_MAX.

Following is an implementation of the above Randomized QuickSelect.

C++




// C++ implementation of randomized quickSelect 
#include<iostream> 
#include<climits> 
#include<cstdlib> 
using namespace std; 
  
int randomPartition(int arr[], int l, int r); 
  
// This function returns k'th smallest element in arr[l..r] using 
// QuickSort based method. ASSUMPTION: ELEMENTS IN ARR[] ARE DISTINCT 
int kthSmallest(int arr[], int l, int r, int k) 
    // If k is smaller than number of elements in array 
    if (k > 0 && k <= r - l + 1) 
    
        // Partition the array around a random element and 
        // get position of pivot element in sorted array 
        int pos = randomPartition(arr, l, r); 
  
        // If position is same as k 
        if (pos-l == k-1) 
            return arr[pos]; 
        if (pos-l > k-1) // If position is more, recur for left subarray 
            return kthSmallest(arr, l, pos-1, k); 
  
        // Else recur for right subarray 
        return kthSmallest(arr, pos+1, r, k-pos+l-1); 
    
  
    // If k is more than the number of elements in the array 
    return INT_MAX; 
  
void swap(int *a, int *b) 
    int temp = *a; 
    *a = *b; 
    *b = temp; 
  
// Standard partition process of QuickSort(). It considers the last 
// element as pivot and moves all smaller element to left of it and 
// greater elements to right. This function is used by randomPartition() 
int partition(int arr[], int l, int r) 
    int x = arr[r], i = l; 
    for (int j = l; j <= r - 1; j++) 
    
        if (arr[j] <= x) 
        
            swap(&arr[i], &arr[j]); 
            i++; 
        
    
    swap(&arr[i], &arr[r]); 
    return i; 
  
// Picks a random pivot element between l and r and partitions 
// arr[l..r] around the randomly picked element using partition() 
int randomPartition(int arr[], int l, int r) 
    int n = r-l+1; 
    int pivot = rand() % n; 
    swap(&arr[l + pivot], &arr[r]); 
    return partition(arr, l, r); 
  
// Driver program to test above methods 
int main() 
    int arr[] = {12, 3, 5, 7, 4, 19, 26}; 
    int n = sizeof(arr)/sizeof(arr[0]), k = 3; 
    cout << "K'th smallest element is " << kthSmallest(arr, 0, n-1, k); 
    return 0; 
}


Java




// Java program to find k'th smallest element in expected 
// linear time 
class KthSmallst 
    // This function returns k'th smallest element in arr[l..r] 
    // using QuickSort based method. ASSUMPTION: ALL ELEMENTS 
    // IN ARR[] ARE DISTINCT 
    int kthSmallest(int arr[], int l, int r, int k) 
    
        // If k is smaller than number of elements in array 
        if (k > 0 && k <= r - l + 1
        
            // Partition the array around a random element and 
            // get position of pivot element in sorted array 
            int pos = randomPartition(arr, l, r); 
  
            // If position is same as k 
            if (pos-l == k-1
                return arr[pos]; 
  
            // If position is more, recur for left subarray 
            if (pos-l > k-1
                return kthSmallest(arr, l, pos-1, k); 
  
            // Else recur for right subarray 
            return kthSmallest(arr, pos+1, r, k-pos+l-1); 
        
  
        // If k is more than number of elements in array 
        return Integer.MAX_VALUE; 
    
  
    // Utility method to swap arr[i] and arr[j] 
    void swap(int arr[], int i, int j) 
    
        int temp = arr[i]; 
        arr[i] = arr[j]; 
        arr[j] = temp; 
    
  
    // Standard partition process of QuickSort(). It considers 
    // the last element as pivot and moves all smaller element 
    // to left of it and greater elements to right. This function 
    // is used by randomPartition() 
    int partition(int arr[], int l, int r) 
    
        int x = arr[r], i = l; 
        for (int j = l; j < r; j++) 
        
            if (arr[j] <= x) 
            
                swap(arr, i, j); 
                i++; 
            
        
        swap(arr, i, r); 
        return i; 
    
  
    // Picks a random pivot element between l and r and 
    // partitions arr[l..r] arount the randomly picked 
    // element using partition() 
    int randomPartition(int arr[], int l, int r) 
    
        int n = r - l + 1
        int pivot = (int)(Math.random() * (n - 1)); 
        swap(arr, l + pivot, r); 
        return partition(arr, l, r); 
    
  
    // Driver method to test above 
    public static void main(String args[]) 
    
        KthSmallst ob = new KthSmallst(); 
        int arr[] = {12, 3, 5, 7, 4, 19, 26}; 
        int n = arr.length,k = 3
        System.out.println("K'th smallest element is "
                        ob.kthSmallest(arr, 0, n-1, k)); 
    
/*This code is contributed by Rajat Mishra*/


Python3




# Python3 implementation of randomized 
# quickSelect 
import random 
  
# This function returns k'th smallest 
# element in arr[l..r] using QuickSort 
# based method. ASSUMPTION: ELEMENTS 
# IN ARR[] ARE DISTINCT 
def kthSmallest(arr, l, r, k): 
      
    # If k is smaller than number of 
    # elements in array 
    if (k > 0 and k <= r - l + 1): 
          
        # Partition the array around a random 
        # element and get position of pivot 
        # element in sorted array 
        pos = randomPartition(arr, l, r) 
  
        # If position is same as k 
        if (pos - l == k - 1): 
            return arr[pos] 
        if (pos - l > k - 1): # If position is more, 
                            # recur for left subarray 
            return kthSmallest(arr, l, pos - 1, k) 
  
        # Else recur for right subarray 
        return kthSmallest(arr, pos + 1, r, 
                        k - pos + l - 1
  
    # If k is more than the number of 
    # elements in the array 
    return 999999999999
  
def swap(arr, a, b): 
    temp = arr[a] 
    arr[a] = arr[b] 
    arr[b] = temp 
  
# Standard partition process of QuickSort(). 
# It considers the last element as pivot and 
# moves all smaller element to left of it and 
# greater elements to right. This function 
# is used by randomPartition() 
def partition(arr, l, r): 
    x = arr[r] 
    i =
    for j in range(l, r): 
        if (arr[j] <= x): 
            swap(arr, i, j) 
            i += 1
    swap(arr, i, r) 
    return
  
# Picks a random pivot element between l and r 
# and partitions arr[l..r] around the randomly 
# picked element using partition() 
def randomPartition(arr, l, r): 
    n = r - l + 1
    pivot = int(random.random() * n) 
    swap(arr, l + pivot, r) 
    return partition(arr, l, r) 
  
# Driver Code 
if __name__ == '__main__'
  
    arr = [12, 3, 5, 7, 4, 19, 26
    n = len(arr) 
    k = 3
    print("K'th smallest element is"
        kthSmallest(arr, 0, n - 1, k)) 
  
# This code is contributed by PranchalK 


C#




// C# program to find k'th smallest 
// element in expected linear time 
using System; 
  
class GFG 
// This function returns k'th smallest 
// element in arr[l..r] using QuickSort 
// based method. ASSUMPTION: ALL ELEMENTS 
// IN ARR[] ARE DISTINCT 
int kthSmallest(int []arr, int l, int r, int k) 
    // If k is smaller than number 
    // of elements in array 
    if (k > 0 && k <= r - l + 1) 
    
        // Partition the array around a 
        // random element and get position 
        // of pivot element in sorted array 
        int pos = randomPartition(arr, l, r); 
  
        // If position is same as k 
        if (pos-l == k - 1) 
            return arr[pos]; 
  
        // If position is more, recur 
        // for left subarray 
        if (pos - l > k - 1) 
            return kthSmallest(arr, l, pos - 1, k); 
  
        // Else recur for right subarray 
        return kthSmallest(arr, pos + 1, r, 
                        k - pos + l - 1); 
    
  
    // If k is more than number of 
    // elements in array 
    return int.MaxValue; 
  
// Utility method to swap arr[i] and arr[j] 
void swap(int []arr, int i, int j) 
    int temp = arr[i]; 
    arr[i] = arr[j]; 
    arr[j] = temp; 
  
// Standard partition process of QuickSort(). 
// It considers the last element as pivot and 
// moves all smaller element to left of it 
// and greater elements to right. This function 
// is used by randomPartition() 
int partition(int []arr, int l, int r) 
    int x = arr[r], i = l; 
    for (int j = l; j <= r - 1; j++) 
    
        if (arr[j] <= x) 
        
            swap(arr, i, j); 
            i++; 
        
    
    swap(arr, i, r); 
    return i; 
  
// Picks a random pivot element between 
// l and r and partitions arr[l..r] 
// around the randomly picked element 
// using partition() 
int randomPartition(int []arr, int l, int r) 
    int n = r - l + 1; 
    Random rnd = new Random(); 
    int rand = rnd.Next(0, 1); 
    int pivot = (int)(rand * (n - 1)); 
    swap(arr, l + pivot, r); 
    return partition(arr, l, r); 
  
// Driver Code 
public static void Main() 
    GFG ob = new GFG(); 
    int []arr = {12, 3, 5, 7, 4, 19, 26}; 
    int n = arr.Length,k = 3; 
    Console.Write("K'th smallest element is "
            ob.kthSmallest(arr, 0, n - 1, k)); 
  
// This code is contributed by 29AjayKumar 


PHP




<?php 
// Php program to find k'th smallest 
// element in expected linear time 
  
// This function returns k'th smallest 
// element in arr[l..r] using QuickSort based method. 
// ASSUMPTION: ELEMENTS IN ARR[] ARE DISTINCT 
function kthSmallest($arr, $l, $r, $k
    // If k is smaller than number of elements in array 
    if ($k > 0 && $k <= $r - $l + 1) 
    
        // Partition the array around a random element and 
        // get position of pivot element in sorted array 
        $pos = randomPartition($arr, $l, $r); 
  
        // If position is same as k 
        if ($pos-$l == $k-1) 
            return $arr[$pos]; 
              
        // If position is more, recur for left subarray 
        if ($pos-$l > $k-1) 
            return kthSmallest($arr, $l, $pos-1, $k); 
  
        // Else recur for right subarray 
        return kthSmallest($arr, $pos+1, $r
                            $k-$pos+$l-1); 
    
  
    // If k is more than the number of elements in the array 
    return PHP_INT_MAX; 
  
function swap($a, $b
    $temp = $a
    $a = $b
    $b = $temp
  
// Standard partition process of QuickSort(). 
// It considers the last element as pivot 
// and moves all smaller element to left 
// of it and greater elements to right. 
// This function is used by randomPartition() 
function partition($arr, $l, $r
    $x = $arr[$r]; 
    $i = $l
    for ($j = $l; $j <= $r - 1; $j++) 
    
        if ($arr[$j] <= $x
        
            list($arr[$i], $arr[$j])=array($arr[$j],$arr[$i]); 
            //swap(&arr[i], &arr[j]); 
            $i++; 
        
    
    list($arr[$i], $arr[$r])=array($arr[$r],$arr[$i]); 
    //swap(&arr[i], &arr[r]); 
    return $i
  
// Picks a random pivot element between 
// l and r and partitions arr[l..r] around 
// the randomly picked element using partition() 
function randomPartition($arr, $l, $r
    $n = $r-$l+1; 
    $pivot = rand() % $n
      
    list($arr[$l + $pivot], $arr[$r]) = 
            array($arr[$r],$arr[$l + $pivot] ); 
      
    //swap(&arr[l + pivot], &arr[r]); 
    return partition($arr, $l, $r); 
  
// Driver program to test the above methods 
    $arr = array(12, 3, 5, 7, 4, 19, 260); 
    $n = sizeof($arr)/sizeof($arr[0]); 
    $k = 3; 
    echo "K'th smallest element is "
            kthSmallest($arr, 0, $n-1, $k); 
      
  
// This code is contributed by ajit. 
?> 


Javascript




<script>
  
// JavaScript program to find k'th smallest element in expected 
// linear time 
  
  
// This function returns k'th smallest element in arr[l..r] 
// using QuickSort based method. ASSUMPTION: ALL ELEMENTS 
// IN ARR[] ARE DISTINCT 
function kthSmallest(arr,l,r,k)
{
    // If k is smaller than number of elements in array
        if (k > 0 && k <= r - l + 1)
        {
            // Partition the array around a random element and
            // get position of pivot element in sorted array
            let pos = randomPartition(arr, l, r);
   
            // If position is same as k
            if (pos-l == k-1)
                return arr[pos];
   
            // If position is more, recur for left subarray
            if (pos-l > k-1)
                return kthSmallest(arr, l, pos-1, k);
   
            // Else recur for right subarray
            return kthSmallest(arr, pos+1, r, k-pos+l-1);
        }
   
        // If k is more than number of elements in array
        return Integer.MAX_VALUE;
}
  
// Utility method to swap arr[i] and arr[j] 
function swap(arr,i,j)
{
    let temp = arr[i];
        arr[i] = arr[j];
        arr[j] = temp;
}
  
// Standard partition process of QuickSort(). It considers 
// the last element as pivot and moves all smaller element 
// to left of it and greater elements to right. This function 
// is used by randomPartition() 
function partition(arr,l,r)
{
    let x = arr[r], i = l;
        for (let j = l; j <= r - 1; j++)
        {
            if (arr[j] <= x)
            {
                swap(arr, i, j);
                i++;
            }
        }
        swap(arr, i, r);
        return i;
}
  
// Picks a random pivot element between l and r and 
// partitions arr[l..r] arount the randomly picked 
// element using partition() 
function randomPartition(arr,l,r)
{
        let n = r-l+1;
        let pivot = Math.floor((Math.random()) * (n-1));
        swap(arr, l + pivot, r);
        return partition(arr, l, r);
}
  
let arr=[12, 3, 5, 7, 4, 19, 26];
let n = arr.length,k = 3;
document.write("K'th smallest element is "+
kthSmallest(arr, 0, n-1, k));
  
  
  
// This code is contributed by rag2127
  
</script>


Output

K'th smallest element is 5

Time Complexity: O(n^2) 
The worst-case time complexity of the above solution is still O(n2). In the worst case, the randomized function may always pick a corner element. The expected time complexity of the above randomized QuickSelect is O(n). The assumption in the analysis is, random number generator is equally likely to generate any number in the input range.
Auxiliary Space: O(1) since using constant variables.

Feeling lost in the world of random DSA topics, wasting time without progress? It’s time for a change! Join our DSA course, where we’ll guide you on an exciting journey to master DSA efficiently and on schedule.
Ready to dive in? Explore our Free Demo Content and join our DSA course, trusted by over 100,000 neveropen!

RELATED ARTICLES

Most Popular

Recent Comments