Given two strings S1 and S2 consisting of N and M lowercase characters, the task is to construct the lexicographically largest string by repeatedly appending the first character from either of the strings and remove that character from the chosen string.
Examples:
Input: S1 = “dbcbb”, S2 = “cdbbb”
Output: “dcdbcbbbbb”
Explanation:
Let ans be the lexicographically largest string which is initially empty and perform the following steps to generate the resultant string:
Take first character from s1: ans = “d”, s1 = “bcbb”, s2 = “cdbbb”
Take first character from s2: ans = “dc”, s1 = “bcbb”, word2 = “dbbb”
Take first character from s2: ans = “dcd”, s1 = “bcbb”, word2 = “bbb”
Take first character from s1: ans = “dcdb”, s1 = “cbb”, word2 = “bbb”
Take first character from s1: ans = “dcbdc”, s1 = “bb”, word2 = “bbb”
Append the remaining 5 b’s from s1 and s2 at the end of ans. Therefore, print “dcdbcbbbbb” as the resultant string.Input: S1 = “xyzxyz”, S2 = “xywzxyx”
Output: “xyzxyzxywzxyx”
Approach: The given problem can be solved by using the Two-Pointer Approach. Follow the steps below to solve the problem:
- Initialize an empty string, say merge as “” to store the lexicographically largest string.
- Initialize two pointers, say i as 0, j as 0 to traverse both the strings simultaneously.
-
Traverse the string until either of the string has been used completely.
- If the substring word1[i, N – 1] is lexicographically greater than or equal to the substring word2[j, M – 1], then append the character word1[i] at the end of the string merge and increment the pointer i by 1.
- Otherwise, append the character word2[i] at the end of the string merge and increment the pointer j by 1.
- After completing the above steps, print the string merge as the resultant string.
Below is the implementation of the above approach:
C++
// C++ program for the above approach#include <bits/stdc++.h>using namespace std;
// Function to make the lexicographically// largest string by merging two stringsstring largestMerge(string word1, string word2)
{ // Stores the resultant string
string merge = "";
while (word1.size() != 0
|| word2.size() != 0) {
// If the string word1 is
// lexicographically greater
// than or equal to word2
if (word1 >= word2) {
// Update the string merge
merge = merge + word1[0];
// Erase the first index
// of the string word1
word1.erase(word1.begin() + 0);
}
// Otherwise
else {
// Update the string merge
merge = merge + word2[0];
// Erase the first index of
// the string word2
word2.erase(word2.begin() + 0);
}
}
// Return the final string
return merge;
}// Driver Codeint main()
{ string S1 = "xyzxyz";
string S2 = "xywzxyx";
cout << largestMerge(S1, S2);
return 0;
} |
Java
// Java program for the above approachimport java.io.*;
class GFG {
// Function to make the lexicographically// largest string by merging two stringsstatic String largestMerge(String word1,
String word2)
{ // Stores the resultant string
String merge = "";
while (word1.length() != 0 ||
word2.length() != 0)
{
// If the string word1 is
// lexicographically greater
// than or equal to word
if (word1.compareTo(word2) == 0 || ( word1.compareTo(word2) > 0))
{
// Update the string merge
merge = merge + word1.charAt(0);
// Erase the first index
// of the string word1
word1 = word1.substring(1);
}
// Otherwise
else
{
// Update the string merge
merge = merge + word2.charAt(0);
// Erase the first index of
// the string word2
word2 = word2.substring(1);
}
}
// Return the final string
return merge;
}// Driver Codepublic static void main(String[] args)
{ String S1 = "xyzxyz";
String S2 = "xywzxyx";
System.out.println(largestMerge(S1, S2));
}}// This code is contributed by sanjoy_62. |
Python3
# Python program for the above approach# Function to make the lexicographically# largest string by merging two stringsdef largestMerge(word1, word2):
# Stores the resultant string
merge = ""
while len(word1) != 0 or len(word2) != 0:
# If the string word1 is
# lexicographically greater
# than or equal to word2
if word1 >= word2:
# Update the string merge
merge = merge + word1[0]
# Erase the first index
# of the string word1
word1 = word1[1:]
# Otherwise
else:
# Update the string merge
merge = merge + word2[0]
# Erase the first index
# of the string word2
word2 = word2[1:]
# Return the final string
return merge
# Driver codeS1 = "xyzxyz"
S2 = "xywzxyx"
print(largestMerge(S1, S2))
# This code is contributed by Parth Manchanda |
C#
// C# program for the above approachusing System;
using System.Collections.Generic;
class GFG{
// Function to make the lexicographically// largest string by merging two stringsstatic string largestMerge(string word1,
string word2)
{ // Stores the resultant string
string merge = "";
while (word1.Length != 0 ||
word2.Length != 0)
{
// If the string word1 is
// lexicographically greater
// than or equal to word2
if (String.Compare(word1, word2) == 0 ||
String.Compare(word1, word2) > 0)
{
// Update the string merge
merge = merge + word1[0];
// Erase the first index
// of the string word1
word1 = word1.Substring(1);
}
// Otherwise
else
{
// Update the string merge
merge = merge + word2[0];
// Erase the first index of
// the string word2
word2 = word2.Substring(1);
}
}
// Return the final string
return merge;
}// Driver Codepublic static void Main()
{ string S1 = "xyzxyz";
string S2 = "xywzxyx";
Console.Write(largestMerge(S1, S2));
}}// This code is contributed by SURENDRA_GANGWAR |
Javascript
<script>// Javascript program for the above approach// Function to make the lexicographically// largest let by merging two letsfunction largestMerge(word1, word2)
{ // Stores the resultant let
let merge = "";
while (word1.length != 0 ||
word2.length != 0)
{
// If the let word1 is
// lexicographically greater
// than or equal to word
if (word1.localeCompare(word2) == 0 || ( word1.localeCompare(word2) > 0))
{
// Update the let merge
merge = merge + word1[0];
// Erase the first index
// of the let word1
word1 = word1.substring(1);
}
// Otherwise
else
{
// Update the let merge
merge = merge + word2[0];
// Erase the first index of
// the let word2
word2 = word2.substring(1);
}
}
// Return the final let
return merge;
}// Driver Code let S1 = "xyzxyz";
let S2 = "xywzxyx";
document.write(largestMerge(S1, S2));
// This code is contributed by splevel62.</script> |
Output:
xyzxyzxywzxyx
Time Complexity: O(N*M)
Auxiliary Space: O(1)