Given an array, arr[0..n-1] of distinct elements and a range [low, high], find all numbers that are in a range, but not the array. The missing elements should be printed in sorted order.
Examples:
Input: arr[] = {10, 12, 11, 15},
low = 10, high = 15
Output: 13, 14
Input: arr[] = {1, 14, 11, 51, 15},
low = 50, high = 55
Output: 50, 52, 53, 54 55
Naive Approach:
The naive approach for the problem can be to use two nested loops: one to traverse numbers from low to high and other one to traverse entire array to find out whether the element of the outer loop exists in the array or not. If it doesn’t exist we will print it else continue to next iteration.
Algorithm:
- Traverse numbers from low to high using a for loop.
- For each number i in the range, initialize a boolean variable found to false.
- Traverse the array arr to check if i is present in the array.
- If i is found in arr, set found to true and break out of the loop.
- If i is not found in arr, print i.
- Repeat steps 2-5 for all numbers in the range [low, high].
// C++ code for the approach #include <bits/stdc++.h> using namespace std;
// Function to find and print missing // elements in the given range void findMissing( int arr[], int n, int low, int high) {
// Loop through the range of numbers from low to high
for ( int i = low; i <= high; i++) {
bool found = false ;
// Loop through the array to check if i exists in it
for ( int j = 0; j < n; j++) {
if (arr[j] == i) {
found = true ;
break ;
}
}
// If i is not found in the array, print it
if (!found) {
cout << i << " " ;
}
}
} // Driver's code int main() {
// Input array
int arr[] = { 1, 3, 5, 4 };
int n = sizeof (arr) / sizeof (arr[0]);
int low = 1, high = 10;
// Function call
findMissing(arr, n, low, high);
return 0;
} |
// Java code for the approach import java.util.*;
public class GFG {
// Function to find and print missing
// elements in the given range
static void findMissing( int [] arr, int n, int low,
int high)
{
// Loop through the range of numbers from low to
// high
for ( int i = low; i <= high; i++) {
boolean found = false ;
// Loop through the array to check if i exists
// in it
for ( int j = 0 ; j < n; j++) {
if (arr[j] == i) {
found = true ;
break ;
}
}
// If i is not found in the array, print it
if (!found) {
System.out.print(i + " " );
}
}
}
// Driver's code
public static void main(String[] args)
{
// Input array
int [] arr = { 1 , 3 , 5 , 4 };
int n = arr.length;
int low = 1 , high = 10 ;
// Function call
findMissing(arr, n, low, high);
}
} |
# Function to find and print missing # elements in the given range def findMissing(arr, n, low, high):
# Loop through the range of numbers from low to high
for i in range (low, high + 1 ):
found = False
# Loop through the array to check if i exists in it
for j in range (n):
if arr[j] = = i:
found = True
break
# If i is not found in the array, print it
if not found:
print (i, end = ' ' )
# Driver's code if __name__ = = '__main__' :
# Input array
arr = [ 1 , 3 , 5 , 4 ]
n = len (arr)
low = 1
high = 10
# Function call
findMissing(arr, n, low, high)
|
using System;
class GFG {
// Function to find and print missing
// elements in the given range
static void FindMissing( int [] arr, int n, int low,
int high)
{
// Loop through the range of numbers from low to
// high
for ( int i = low; i <= high; i++) {
bool found = false ;
// Loop through the array to check if i exists
// in it
for ( int j = 0; j < n; j++) {
if (arr[j] == i) {
found = true ;
break ;
}
}
// If i is not found in the array, print it
if (!found) {
Console.Write(i + " " );
}
}
}
// Driver's code
static void Main()
{
// Input array
int [] arr = { 1, 3, 5, 4 };
int n = arr.Length;
int low = 1, high = 10;
// Function call
FindMissing(arr, n, low, high);
}
} // This code is contributed by rambabuguphka |
// Function to find and print missing // elements in the given range function findMissing(arr, low, high) {
const missing = [];
// Loop through the range of numbers from low to high
for (let i = low; i <= high; i++) {
let found = false ;
// Loop through the array to check if i exists in it
for (let j = 0; j < arr.length; j++) {
if (arr[j] === i) {
found = true ;
break ;
}
}
// If i is not found in the array, add it to the missing array
if (!found) {
missing.push(i);
}
}
// Print the missing elements
for (let i = 0; i < missing.length; i++) {
console.log(missing[i] + " " );
}
} // Driver's code const arr = [1, 3, 5, 4]; const low = 1, high = 10; // Function call findMissing(arr, low, high); // THIS CODE IS CONTRIBUTED BY CHANDAN AGARWAL |
2 6 7 8 9 10
Time Complexity: O( n * (high-low+1) ) as two nested for loops are executing with outer one from low to high and inner one from 1 to n where n is size of the input array.
Space Complexity: O(1) as no extra space has been taken.
There can be two approaches to solve the problem.
Use Sorting: Sort the array, then do a binary search for ‘low’. Once the location of low is found, start traversing the array from that location and keep printing all missing numbers.
Implementation:
// A sorting based C++ program to find missing // elements from an array #include <bits/stdc++.h> using namespace std;
// Print all elements of range [low, high] that // are not present in arr[0..n-1] void printMissing( int arr[], int n, int low,
int high)
{ // Sort the array
sort(arr, arr + n);
// Do binary search for 'low' in sorted
// array and find index of first element
// which either equal to or greater than
// low.
int * ptr = lower_bound(arr, arr + n, low);
int index = ptr - arr;
// Start from the found index and linearly
// search every range element x after this
// index in arr[]
int i = index, x = low;
while (i < n && x <= high) {
// If x doesn't match with current element
// print it
if (arr[i] != x)
cout << x << " " ;
// If x matches, move to next element in arr[]
else
i++;
// Move to next element in range [low, high]
x++;
}
// Print range elements that are greater than the
// last element of sorted array.
while (x <= high)
cout << x++ << " " ;
} // Driver program int main()
{ int arr[] = { 1, 3, 5, 4 };
int n = sizeof (arr) / sizeof (arr[0]);
int low = 1, high = 10;
printMissing(arr, n, low, high);
return 0;
} |
// A sorting based Java program to find missing // elements from an array import java.util.Arrays;
public class PrintMissing {
// Print all elements of range [low, high] that
// are not present in arr[0..n-1]
static void printMissing( int ar[], int low, int high)
{
Arrays.sort(ar);
// Do binary search for 'low' in sorted
// array and find index of first element
// which either equal to or greater than
// low.
int index = ceilindex(ar, low, 0 , ar.length - 1 );
int x = low;
// Start from the found index and linearly
// search every range element x after this
// index in arr[]
while (index < ar.length && x <= high) {
// If x doesn't match with current element
// print it
if (ar[index] != x) {
System.out.print(x + " " );
}
// If x matches, move to next element in arr[]
else
index++;
// Move to next element in range [low, high]
x++;
}
// Print range elements that are greater than the
// last element of sorted array.
while (x <= high) {
System.out.print(x + " " );
x++;
}
}
// Utility function to find ceil index of given element
static int ceilindex( int ar[], int val, int low, int high)
{
if (val < ar[ 0 ])
return 0 ;
if (val > ar[ar.length - 1 ])
return ar.length;
int mid = (low + high) / 2 ;
if (ar[mid] == val)
return mid;
if (ar[mid] < val) {
if (mid + 1 < high && ar[mid + 1 ] >= val)
return mid + 1 ;
return ceilindex(ar, val, mid + 1 , high);
}
else {
if (mid - 1 >= low && ar[mid - 1 ] < val)
return mid;
return ceilindex(ar, val, low, mid - 1 );
}
}
// Driver program to test above function
public static void main(String[] args)
{
int arr[] = { 1 , 3 , 5 , 4 };
int low = 1 , high = 10 ;
printMissing(arr, low, high);
}
} // This code is contributed by Rishabh Mahrsee |
# Python library for binary search from bisect import bisect_left
# A sorting based C++ program to find missing # elements from an array # Print all elements of range [low, high] that # are not present in arr[0..n-1] def printMissing(arr, n, low, high):
# Sort the array
arr.sort()
# Do binary search for 'low' in sorted
# array and find index of first element
# which either equal to or greater than
# low.
ptr = bisect_left(arr, low)
index = ptr
# Start from the found index and linearly
# search every range element x after this
# index in arr[]
i = index
x = low
while (i < n and x < = high):
# If x doesn't match with current element
# print it
if (arr[i] ! = x):
print (x, end = " " )
# If x matches, move to next element in arr[]
else :
i = i + 1
# Move to next element in range [low, high]
x = x + 1
# Print range elements that are greater than the
# last element of sorted array.
while (x < = high):
print (x, end = " " )
x = x + 1
# Driver code arr = [ 1 , 3 , 5 , 4 ]
n = len (arr)
low = 1
high = 10
printMissing(arr, n, low, high); # This code is contributed by YatinGupta |
// A sorting based Java program to // find missing elements from an array using System;
class GFG {
// Print all elements of range
// [low, high] that are not
// present in arr[0..n-1]
static void printMissing( int [] ar,
int low, int high)
{
Array.Sort(ar);
// Do binary search for 'low' in sorted
// array and find index of first element
// which either equal to or greater than
// low.
int index = ceilindex(ar, low, 0,
ar.Length - 1);
int x = low;
// Start from the found index and linearly
// search every range element x after this
// index in arr[]
while (index < ar.Length && x <= high) {
// If x doesn't match with current
// element print it
if (ar[index] != x) {
Console.Write(x + " " );
}
// If x matches, move to next
// element in arr[]
else
index++;
// Move to next element in
// range [low, high]
x++;
}
// Print range elements that
// are greater than the
// last element of sorted array.
while (x <= high) {
Console.Write(x + " " );
x++;
}
}
// Utility function to find
// ceil index of given element
static int ceilindex( int [] ar, int val,
int low, int high)
{
if (val < ar[0])
return 0;
if (val > ar[ar.Length - 1])
return ar.Length;
int mid = (low + high) / 2;
if (ar[mid] == val)
return mid;
if (ar[mid] < val) {
if (mid + 1 < high && ar[mid + 1] >= val)
return mid + 1;
return ceilindex(ar, val, mid + 1, high);
}
else {
if (mid - 1 >= low && ar[mid - 1] < val)
return mid;
return ceilindex(ar, val, low, mid - 1);
}
}
// Driver Code
static public void Main()
{
int [] arr = { 1, 3, 5, 4 };
int low = 1, high = 10;
printMissing(arr, low, high);
}
} // This code is contributed // by Sach_Code |
<script> // JavaScript code for the above approach
// Print all elements of range [low, high] that
// are not present in arr[0..n-1]
function printMissing(ar, low, high)
{
ar.sort();
// Do binary search for 'low' in sorted
// array and find index of first element
// which either equal to or greater than
// low.
let index = ceilindex(ar, low, 0, ar.length - 1);
let x = low;
// Start from the found index and linearly
// search every range element x after this
// index in arr[]
while (index < ar.length && x <= high) {
// If x doesn't match with current element
// print it
if (ar[index] != x) {
document.write(x + " " );
}
// If x matches, move to next element in arr[]
else
index++;
// Move to next element in range [low, high]
x++;
}
// Print range elements that are greater than the
// last element of sorted array.
while (x <= high) {
document.write(x + " " );
x++;
}
}
// Utility function to find ceil index of given element
function ceilindex(ar, val, low, high)
{
if (val < ar[0])
return 0;
if (val > ar[ar.length - 1])
return ar.length;
let mid = Math.floor((low + high) / 2);
if (ar[mid] == val)
return mid;
if (ar[mid] < val) {
if (mid + 1 < high && ar[mid + 1] >= val)
return mid + 1;
return ceilindex(ar, val, mid + 1, high);
}
else {
if (mid - 1 >= low && ar[mid - 1] < val)
return mid;
return ceilindex(ar, val, low, mid - 1);
}
}
// Driver Code
let arr = [ 1, 3, 5, 4 ];
let low = 1, high = 10;
printMissing(arr, low, high);
</script>
|
2 6 7 8 9 10
Time Complexity: O(n log n + k) where k is the number of missing elements
Auxiliary Space: O(n) or O(1) depending on the type of the array.
Using Arrays: Create a boolean array, where each index will represent whether the (i+low)th element is present in the array or not. Mark all those elements which are in the given range and are present in the array. Once all array items present in the given range have been marked true in the array, we traverse through the Boolean array and print all elements whose value is false.
Implementation:
// An array based C++ program // to find missing elements from // an array #include <bits/stdc++.h> using namespace std;
// Print all elements of range // [low, high] that are not present // in arr[0..n-1] void printMissing(
int arr[], int n,
int low, int high)
{ // Create boolean array of size
// high-low+1, each index i representing
// whether (i+low)th element found or not.
bool points_of_range[high - low + 1] = { false };
for ( int i = 0; i < n; i++) {
// if ith element of arr is in
// range low to high then mark
// corresponding index as true in array
if (low <= arr[i] && arr[i] <= high)
points_of_range[arr[i] - low] = true ;
}
// Traverse through the range and
// print all elements whose value
// is false
for ( int x = 0; x <= high - low; x++) {
if (points_of_range[x] == false )
cout << low + x << " " ;
}
} // Driver program int main()
{ int arr[] = { 1, 3, 5, 4 };
int n = sizeof (arr) / sizeof (arr[0]);
int low = 1, high = 10;
printMissing(arr, n, low, high);
return 0;
} // This code is contributed by Shubh Bansal |
// An array based Java program // to find missing elements from // an array import java.util.Arrays;
public class Print {
// Print all elements of range
// [low, high] that are not present
// in arr[0..n-1]
static void printMissing(
int arr[], int low,
int high)
{
// Create boolean array of
// size high-low+1, each index i
// representing whether (i+low)th
// element found or not.
boolean [] points_of_range = new boolean
[high - low + 1 ];
for ( int i = 0 ; i < arr.length; i++) {
// if ith element of arr is in
// range low to high then mark
// corresponding index as true in array
if (low <= arr[i] && arr[i] <= high)
points_of_range[arr[i] - low] = true ;
}
// Traverse through the range and print all
// elements whose value is false
for ( int x = 0 ; x <= high - low; x++) {
if (points_of_range[x] == false )
System.out.print((low + x) + " " );
}
}
// Driver program to test above function
public static void main(String[] args)
{
int arr[] = { 1 , 3 , 5 , 4 };
int low = 1 , high = 10 ;
printMissing(arr, low, high);
}
} // This code is contributed by Shubh Bansal |
# An array-based Python3 program to # find missing elements from an array # Print all elements of range # [low, high] that are not # present in arr[0..n-1] def printMissing(arr, n, low, high):
# Create boolean list of size
# high-low+1, each index i
# representing whether (i+low)th
# element found or not.
points_of_range = [ False ] * (high - low + 1 )
for i in range (n) :
# if ith element of arr is in range
# low to high then mark corresponding
# index as true in array
if ( low < = arr[i] and arr[i] < = high ) :
points_of_range[arr[i] - low] = True
# Traverse through the range
# and print all elements whose value
# is false
for x in range (high - low + 1 ) :
if (points_of_range[x] = = False ) :
print (low + x, end = " " )
# Driver Code arr = [ 1 , 3 , 5 , 4 ]
n = len (arr)
low, high = 1 , 10
printMissing(arr, n, low, high) # This code is contributed # by Shubh Bansal |
// An array based C# program // to find missing elements from // an array using System;
class GFG{
// Print all elements of range // [low, high] that are not present // in arr[0..n-1] static void printMissing( int [] arr, int n,
int low, int high)
{ // Create boolean array of size
// high-low+1, each index i representing
// whether (i+low)th element found or not.
bool [] points_of_range = new bool [high - low + 1];
for ( int i = 0; i < high - low + 1; i++)
points_of_range[i] = false ;
for ( int i = 0; i < n; i++)
{
// If ith element of arr is in
// range low to high then mark
// corresponding index as true in array
if (low <= arr[i] && arr[i] <= high)
points_of_range[arr[i] - low] = true ;
}
// Traverse through the range and
// print all elements whose value
// is false
for ( int x = 0; x <= high - low; x++)
{
if (points_of_range[x] == false )
Console.Write( "{0} " , low + x);
}
} // Driver code public static void Main()
{ int [] arr = { 1, 3, 5, 4 };
int n = arr.Length;
int low = 1, high = 10;
printMissing(arr, n, low, high);
} } // This code is contributed by subhammahato348 |
<script> // Javascript program to find missing elements from // an array // Print all elements of range // [low, high] that are not present
// in arr[0..n-1]
function printMissing(
arr, low, high)
{
// Create boolean array of
// size high-low+1, each index i
// representing whether (i+low)th
// element found or not.
let points_of_range = Array(high - low + 1).fill(0);
for (let i = 0; i < arr.length; i++) {
// if ith element of arr is in
// range low to high then mark
// corresponding index as true in array
if (low <= arr[i] && arr[i] <= high)
points_of_range[arr[i] - low] = true ;
}
// Traverse through the range and print all
// elements whose value is false
for (let x = 0; x <= high - low; x++) {
if (points_of_range[x] == false )
document.write((low + x) + " " );
}
}
// Driver program let arr = [ 1, 3, 5, 4 ];
let low = 1, high = 10;
printMissing(arr, low, high);
// This code is contributed by code_hunt.
</script> |
2 6 7 8 9 10
Time Complexity: O(n + (high-low+1))
Auxiliary Space: O(n)
Use Hashing: Create a hash table and insert all array items into the hash table. Once all items are in hash table, traverse through the range and print all missing elements.
// A hashing based C++ program to find missing // elements from an array #include <bits/stdc++.h> using namespace std;
// Print all elements of range [low, high] that // are not present in arr[0..n-1] void printMissing( int arr[], int n, int low,
int high)
{ // Insert all elements of arr[] in set
unordered_set< int > s;
for ( int i = 0; i < n; i++)
s.insert(arr[i]);
// Traverse through the range an print all
// missing elements
for ( int x = low; x <= high; x++)
if (s.find(x) == s.end())
cout << x << " " ;
} // Driver program int main()
{ int arr[] = { 1, 3, 5, 4 };
int n = sizeof (arr) / sizeof (arr[0]);
int low = 1, high = 10;
printMissing(arr, n, low, high);
return 0;
} |
// A hashing based Java program to find missing // elements from an array import java.util.Arrays;
import java.util.HashSet;
public class Print {
// Print all elements of range [low, high] that
// are not present in arr[0..n-1]
static void printMissing( int ar[], int low, int high)
{
HashSet<Integer> hs = new HashSet<>();
// Insert all elements of arr[] in set
for ( int i = 0 ; i < ar.length; i++)
hs.add(ar[i]);
// Traverse through the range an print all
// missing elements
for ( int i = low; i <= high; i++) {
if (!hs.contains(i)) {
System.out.print(i + " " );
}
}
}
// Driver program to test above function
public static void main(String[] args)
{
int arr[] = { 1 , 3 , 5 , 4 };
int low = 1 , high = 10 ;
printMissing(arr, low, high);
}
} // This code is contributed by Rishabh Mahrsee |
# A hashing based Python3 program to # find missing elements from an array # Print all elements of range # [low, high] that are not # present in arr[0..n-1] def printMissing(arr, n, low, high):
# Insert all elements of
# arr[] in set
s = set (arr)
# Traverse through the range
# and print all missing elements
for x in range (low, high + 1 ):
if x not in s:
print (x, end = ' ' )
# Driver Code arr = [ 1 , 3 , 5 , 4 ]
n = len (arr)
low, high = 1 , 10
printMissing(arr, n, low, high) # This code is contributed # by SamyuktaSHegde |
// A hashing based C# program to // find missing elements from an array using System;
using System.Collections.Generic;
class GFG {
// Print all elements of range
// [low, high] that are not
// present in arr[0..n-1]
static void printMissing( int [] arr, int n,
int low, int high)
{
// Insert all elements of arr[] in set
HashSet< int > s = new HashSet< int >();
for ( int i = 0; i < n; i++) {
s.Add(arr[i]);
}
// Traverse through the range
// an print all missing elements
for ( int x = low; x <= high; x++)
if (!s.Contains(x))
Console.Write(x + " " );
}
// Driver Code
public static void Main()
{
int [] arr = { 1, 3, 5, 4 };
int n = arr.Length;
int low = 1, high = 10;
printMissing(arr, n, low, high);
}
} // This code is contributed by ihritik |
<script> // A hashing based Java program to find missing // elements from an array // Print all elements of range [low, high] that // are not present in arr[0..n-1] function printMissing(ar, low, high) {
let hs = new Set();
// Insert all elements of arr[] in set
for (let i = 0; i < ar.length; i++)
hs.add(ar[i]);
// Traverse through the range an print all
// missing elements
for (let i = low; i <= high; i++) {
if (!hs.has(i)) {
document.write(i + " " );
}
}
} // Driver program to test above function let arr = [1, 3, 5, 4]; let low = 1, high = 10; printMissing(arr, low, high); // This code is contributed by gfgking </script> |
2 6 7 8 9 10
Time Complexity: O(n + (high-low+1))
Auxiliary Space: O(n)
Which approach is better?
The time complexity of the first approach is O(nLogn + k) where k is the number of missing elements (Note that k may be more than n Log n if the array is small and the range is big)
The time complexity of the second and third solutions is O(n + (high-low+1)).
If the given array has almost all elements of the range, i.e., n is close to the value of (high-low+1), then the second and third approaches are definitely better as there is no Log n factor. But if n is much smaller than the range, then the first approach is better as it doesn’t require extra space for hashing. We can also modify the first approach to print adjacent missing elements as range to save time. For example, if 50, 51, 52, 53, 54, 59 are missing, we can print them as 50-54, 59 in the first method. And if printing this way is allowed, the first approach takes only O(n Log n) time. Out of the Second and Third Solutions, the second solution is better because the worst-case time complexity of the second solution is better than the third.