Thursday, December 26, 2024
Google search engine
HomeData Modelling & AIFind the missing number in Geometric Progression

Find the missing number in Geometric Progression

Given an array that represents elements of geometric progression in order. One element is missing in the progression, find the missing number. It may be assumed that one term is always missing and the missing term is not first or last of series.

Examples: 

Input : arr[] = {1, 3 , 27, 81}
Output : 9

Input : arr[] = {4, 16, 64, 1024};
Output : 256

A Simple Solution is to linearly traverse the array and find the missing number. Time complexity of this solution is O(n).

An efficient solution to solve this problem in O(Log n) time using Binary Search. The idea is to go to the middle element. Check if the ratio of middle and next to middle is equal to common ratio or not, if not then the missing element lies between mid and mid+1. If the middle element is equal to n/2th term in Geometric Series (Let n be the number of elements in input array), then missing element lies in right half. Else element lies in left half.

Implementation:

C++




// C++ program to find missing number in
// geometric progression
#include <bits/stdc++.h>
using namespace std;
 
// It returns INT_MAX in case of error
int findMissingRec(int arr[], int low,
                   int high, int ratio)
{
    if (low >= high)
        return INT_MAX;
    int mid = low + (high - low)/2;
 
    // If element next to mid is missing
    if (arr[mid+1]/arr[mid] != ratio)
        return (arr[mid] * ratio);
 
    // If element previous to mid is missing
    if ((mid > 0) && (arr[mid]/arr[mid-1]) != ratio)
        return (arr[mid-1] * ratio);
 
    // If missing element is in right half
    if (arr[mid] == arr[0] * (pow(ratio, mid)) )
        return findMissingRec(arr, mid+1, high, ratio);
 
    return findMissingRec(arr, low, mid-1, ratio);
}
 
// Find ration and calls findMissingRec
int findMissing(int arr[], int n)
{
    // Finding ration assuming that the missing term is
    // not first or last term of series.
    int ratio = (float) pow(arr[n-1]/arr[0], 1.0/n);
 
    return findMissingRec(arr, 0, n-1, ratio);
}
 
// Driver code
int main(void)
{
    int arr[] = {2, 4, 8, 32};
    int n = sizeof(arr)/sizeof(arr[0]);
    cout << findMissing(arr, n);
    return 0;
}


Java




// JAVA Code for Find the missing number
// in Geometric Progression
class GFG {
      
    // It returns INT_MAX in case of error
    public static int findMissingRec(int arr[], int low,
                       int high, int ratio)
    {
        if (low >= high)
            return Integer.MAX_VALUE;
        int mid = low + (high - low)/2;
      
        // If element next to mid is missing
        if (arr[mid+1]/arr[mid] != ratio)
            return (arr[mid] * ratio);
      
        // If element previous to mid is missing
        if ((mid > 0) && (arr[mid]/arr[mid-1]) != ratio)
            return (arr[mid-1] * ratio);
      
        // If missing element is in right half
        if (arr[mid] == arr[0] * (Math.pow(ratio, mid)) )
            return findMissingRec(arr, mid+1, high, ratio);
      
        return findMissingRec(arr, low, mid-1, ratio);
    }
      
    // Find ration and calls findMissingRec
    public static int findMissing(int arr[], int n)
    {
        // Finding ration assuming that the missing
        // term is not first or last term of series.
        int ratio =(int) Math.pow(arr[n-1]/arr[0], 1.0/n);
      
        return findMissingRec(arr, 0, n-1, ratio);
    }   
     
    /* Driver program to test above function */
    public static void main(String[] args)
    {
        int arr[] = {2, 4, 8, 32};
        int n = arr.length;
         
        System.out.print(findMissing(arr, n));
    }
  }
// This code is contributed by Arnav Kr. Mandal.


Python3




# Python3 program to find missing
# number in geometric progression
 
# It returns INT_MAX in case of error
def findMissingRec(arr, low, high, ratio):
 
    if (low >= high):
        return 2147483647
    mid = low + (high - low) // 2
 
    # If element next to mid is missing
    if (arr[mid + 1] // arr[mid] != ratio):
        return (arr[mid] * ratio)
 
    # If element previous to mid is missing
    if ((mid > 0) and (arr[mid] / arr[mid-1]) != ratio):
        return (arr[mid - 1] * ratio)
 
    # If missing element is in right half
    if (arr[mid] == arr[0] * (pow(ratio, mid)) ):
        return findMissingRec(arr, mid+1, high, ratio)
 
    return findMissingRec(arr, low, mid-1, ratio)
 
 
# Find ration and calls findMissingRec
def findMissing(arr, n):
  
    # Finding ration assuming that
    # the missing term is not first
    # or last term of series.
    ratio = int(pow(arr[n-1] / arr[0], 1.0 / n))
 
    return findMissingRec(arr, 0, n-1, ratio)
 
# Driver code
arr = [2, 4, 8, 32]
n = len(arr)
print(findMissing(arr, n))
 
# This code is contributed by Anant Agarwal.


C#




// C# Code for Find the missing number
// in Geometric Progression
using System;
 
class GFG {
     
    // It returns INT_MAX in case of error
    public static int findMissingRec(int []arr, int low,
                                    int high, int ratio)
    {
        if (low >= high)
            return int.MaxValue;
             
        int mid = low + (high - low)/2;
     
        // If element next to mid is missing
        if (arr[mid+1]/arr[mid] != ratio)
            return (arr[mid] * ratio);
     
        // If element previous to mid is missing
        if ((mid > 0) && (arr[mid]/arr[mid-1]) != ratio)
            return (arr[mid-1] * ratio);
     
        // If missing element is in right half
        if (arr[mid] == arr[0] * (Math.Pow(ratio, mid)) )
            return findMissingRec(arr, mid+1, high, ratio);
     
        return findMissingRec(arr, low, mid-1, ratio);
    }
     
    // Find ration and calls findMissingRec
    public static int findMissing(int []arr, int n)
    {
         
        // Finding ration assuming that the missing
        // term is not first or last term of series.
        int ratio =(int) Math.Pow(arr[n-1]/arr[0], 1.0/n);
     
        return findMissingRec(arr, 0, n-1, ratio);
    }
     
    /* Driver program to test above function */
    public static void Main()
    {
        int []arr = {2, 4, 8, 32};
        int n = arr.Length;
         
        Console.Write(findMissing(arr, n));
    }
}
 
// This code is contributed by nitin mittal.


PHP




<?php
// PHP program to find missing number
// in geometric progression
 
// It returns INT_MAX in case of error
function findMissingRec(&$arr, $low,
                         $high, $ratio)
{
    if ($low >= $high)
        return PHP_INT_MAX;
    $mid = $low + intval(($high - $low) / 2);
 
    // If element next to mid is missing
    if ($arr[$mid+1]/$arr[$mid] != $ratio)
        return ($arr[$mid] * $ratio);
 
    // If element previous to mid is missing
    if (($mid > 0) && ($arr[$mid] /
                       $arr[$mid - 1]) != $ratio)
        return ($arr[$mid - 1] * $ratio);
 
    // If missing element is in right half
    if ($arr[$mid] == $arr[0] * (pow($ratio, $mid)))
        return findMissingRec($arr, $mid + 1,
                              $high, $ratio);
 
    return findMissingRec($arr, $low,
                          $mid - 1, $ratio);
}
 
// Find ration and calls findMissingRec
function findMissing(&$arr, $n)
{
    // Finding ration assuming that the missing
    // term is not first or last term of series.
    $ratio = (float) pow($arr[$n - 1] /
                         $arr[0], 1.0 / $n);
 
    return findMissingRec($arr, 0, $n - 1, $ratio);
}
 
// Driver code
$arr = array(2, 4, 8, 32);
$n = sizeof($arr);
echo findMissing($arr, $n);
 
// This code is contributed by ita_c
?>


Javascript




<script>
 
// Javascript Code for Find the missing number
// in Geometric Progression
     
    // It returns INT_MAX in case of error
    function findMissingRec(arr,low,high,ratio)
    {
        if (low >= high)
            return Integer.MAX_VALUE;
        let mid = Math.floor(low + (high - low)/2);
        
        // If element next to mid is missing
        if (arr[mid+1]/arr[mid] != ratio)
            return (arr[mid] * ratio);
        
        // If element previous to mid is missing
        if ((mid > 0) && (arr[mid]/arr[mid-1]) != ratio)
            return (arr[mid-1] * ratio);
        
        // If missing element is in right half
        if (arr[mid] == arr[0] * (Math.pow(ratio, mid)) )
            return findMissingRec(arr, mid+1, high, ratio);
        
        return findMissingRec(arr, low, mid-1, ratio);
    }
     
     // Find ration and calls findMissingRec
    function findMissing(arr,n)
    {
        // Finding ration assuming that the missing
        // term is not first or last term of series.
        let ratio =Math.floor( Math.pow(arr[n-1]/arr[0], 1.0/n));
        
        return findMissingRec(arr, 0, n-1, ratio);
    }
     
    /* Driver program to test above function */
    let arr=[2, 4, 8, 32];
    let n = arr.length;
    document.write(findMissing(arr, n));
     
    // This code is contributed by rag2127
     
</script>


Output

16

Time Complexity: O(logn)

Auxiliary Space: O(logn)

Note : Drawback with this solution are : For larger values or for bigger array, it may cause overflow and/or may take more time to computer powers.

This article is contributed by Yasin Zafar. If you like neveropen and would like to contribute, you can also write an article using write.geeksforgeeks.org or mail your article to review-team@geeksforgeeks.org. See your article appearing on the neveropen main page and help other Geeks. 

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