Given a sorted array of n distinct integers where each integer is in the range from 0 to m-1 and m > n. Find the smallest number that is missing from the array.
Examples
Input: {0, 1, 2, 6, 9}, n = 5, m = 10 Output: 3 Input: {4, 5, 10, 11}, n = 4, m = 12 Output: 0 Input: {0, 1, 2, 3}, n = 4, m = 5 Output: 4 Input: {0, 1, 2, 3, 4, 5, 6, 7, 10}, n = 9, m = 11 Output: 8
Thanks to Ravichandra for suggesting following two methods.
Method 1 (Use Binary Search)
For i = 0 to m-1, do binary search for i in the array. If i is not present in the array then return i.
Time Complexity: O(m log n)
Method 2 (Linear Search)
If arr[0] is not 0, return 0. Otherwise traverse the input array starting from index 0, and for each pair of elements a[i] and a[i+1], find the difference between them. if the difference is greater than 1 then a[i]+1 is the missing number.
Time Complexity: O(n)
Method 3 (Use Modified Binary Search)
Thanks to yasein and Jams for suggesting this method.
In the standard Binary Search process, the element to be searched is compared with the middle element and on the basis of comparison result, we decide whether to search is over or to go to left half or right half.
In this method, we modify the standard Binary Search algorithm to compare the middle element with its index and make decision on the basis of this comparison.
- If the first element is not same as its index then return first index
- Else get the middle index say mid
- If arr[mid] greater than mid then the required element lies in left half.
- Else the required element lies in right half.
C++
// C++ program to find the smallest elements // missing in a sorted array. #include<bits/stdc++.h> using namespace std; int findFirstMissing( int array[], int start, int end) { if (start > end) return end + 1; if (start != array[start]) return start; int mid = (start + end) / 2; // Left half has all elements // from 0 to mid if (array[mid] == mid) return findFirstMissing(array, mid+1, end); return findFirstMissing(array, start, mid); } // Driver code int main() { int arr[] = {0, 1, 2, 3, 4, 5, 6, 7, 10}; int n = sizeof (arr)/ sizeof (arr[0]); cout << "Smallest missing element is " << findFirstMissing(arr, 0, n-1) << endl; } // This code is contributed by // Shivi_Aggarwal |
Smallest missing element is 8
Note: This method doesn’t work if there are duplicate elements in the array.
Time Complexity: O(logn)
Auxiliary Space: O(logn)
Another Method: The idea is to use Recursive Binary Search to find the smallest missing number. Below is the illustration with the help of steps:
- If the first element of the array is not 0, then the smallest missing number is 0.
- If the last elements of the array is N-1, then the smallest missing number is N.
- Otherwise, find the middle element from the first and last index and check if the middle element is equal to the desired element. i.e. first + middle_index.
- If the middle element is the desired element, then the smallest missing element is in the right search space of the middle.
- Otherwise, the smallest missing number is in the left search space of the middle.
Below is the implementation of the above approach:
C++
//C++ program for the above approach #include <bits/stdc++.h> using namespace std; // Program to find missing element int findFirstMissing(vector< int > arr , int start , int end, int first) { if (start < end) { int mid = (start + end) / 2; /** Index matches with value at that index, means missing element cannot be upto that po*/ if (arr[mid] != mid+first) return findFirstMissing(arr, start, mid , first); else return findFirstMissing(arr, mid + 1, end , first); } return start + first; } // Program to find Smallest // Missing in Sorted Array int findSmallestMissinginSortedArray(vector< int > arr) { // Check if 0 is missing // in the array if (arr[0] != 0) return 0; // Check is all numbers 0 to n - 1 // are present in array if (arr[arr.size() - 1] == arr.size() - 1) return arr.size(); int first = arr[0]; return findFirstMissing(arr, 0, arr.size() - 1, first); } // Driver program to test the above function int main() { vector< int > arr = {0, 1, 2, 3, 4, 5, 7}; int n = arr.size(); // Function Call cout<< "First Missing element is : " <<findSmallestMissinginSortedArray(arr); } // This code is contributed by mohit kumar 29. |
First Missing element is : 6
Time Complexity: O(Logn)
Auxiliary Space: O(logn) where logn is the size of the recursive stack tree
Please refer complete article on Find the smallest missing number for more details!
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