Given two binary strings A and B of length N, the task is to check if the string A can be converted to B by reversing substrings of A which contains even number of 1s.
Examples:
Input: A = “10011”, B = “11100”
Output: Yes
Explanation: Reverse substring A[2, 5], 10011 → 11100.
After completing the above steps, strings A and B are the same.Input: A = “10011” B = “00111”
Output: No
Approach: The idea is based on the following observations:
- If the string A can be transformed into string B, then the converse also holds true, since the operations to convert A to B can be reversed to convert B to A.
-
A can only be made equal to B when:
- Length(A) = Length(B) and the number of 1s in A and B are the same, and
- cntA= cntBwhere cntS is the number of Position i where 1 ≤ i ≤ length(S) and (∑ij=1 (Sj))mod 2 = 1.
Follow the steps below to solve the problem:
- Traverse the string A and B and store the frequency of 1 in variables, say count1A and count1B respectively.
- Initialize a variable, say temp, to store the temporary count of 1s.
- Traverse the string A using variable i and perform the following steps:
- If the current character is 1, then increment temp by 1.
- Otherwise, if the value of temp is odd, then increment variable odd1A by 1. Otherwise, increment variable even1A by 1.
- Repeat the above steps 2 to 3 for string B also.
- After completing the above steps, if the value of count1A and count1B are the same, the value of odd1A and odd1B are the same, and the value of even1A and even1B, is the same then print “Yes” else print “No”.
Below is the implementation of the above approach:
// C++ program for the above approach #include <bits/stdc++.h> using namespace std;
// Function to check if string A can be // transformed to string B by reversing // substrings of A having even number of 1s void canTransformStrings(string A, string B)
{ // Store the size of string A
int n1 = A.size();
// Store the size of string B
int n2 = B.size();
// Store the count of 1s in A and B
int count1A = 0, count1B = 0;
// Stores cntA for string A
// and cntB for string B
int odd1A = 0, odd1B = 0;
int even1A = 0, even1B = 0;
// Traverse the string A
for ( int i = 0; i < n1; i++) {
// If current character is 1
if (A[i] == '1' )
// Increment 1s count
count1A++;
// Otherwise, update odd1A or
// even1A depending whether
// count1A is odd or even
else {
if (count1A & 1)
odd1A++;
else
even1A++;
}
}
// Traverse the string B
for ( int i = 0; i < n2; i++) {
// If current character is 1
if (B[i] == '1' )
// Increment 1s count
count1B++;
// Otherwise, update odd1B or
// even1B depending whether
// count1B is odd or even
else {
if (count1B & 1)
odd1B++;
else
even1B++;
}
}
// If the condition is satisfied
if (count1A == count1B
&& odd1A == odd1B
&& even1A == even1B) {
// If true, print Yes
cout << "Yes" ;
}
// Otherwise, print No
else
cout << "No" ;
} // Driver Code int main()
{ string A = "10011" , B = "11100" ;
// Function Call
canTransformStrings(A, B);
return 0;
} |
// Java program for the above approach class GFG{
// Function to check if string A can be // transformed to string B by reversing // substrings of A having even number of 1s public static void canTransformStrings(String A,
String B)
{ // Store the size of string A
int n1 = A.length();
// Store the size of string B
int n2 = B.length();
// Store the count of 1s in A and B
int count1A = 0 , count1B = 0 ;
// Stores cntA for string A
// and cntB for string B
int odd1A = 0 , odd1B = 0 ;
int even1A = 0 , even1B = 0 ;
// Traverse the string A
for ( int i = 0 ; i < n1; i++)
{
// If current character is 1
if (A.charAt(i) == '1' )
// Increment 1s count
count1A++;
// Otherwise, update odd1A or
// even1A depending whether
// count1A is odd or even
else
{
if ((count1A & 1 ) == 1 )
odd1A++;
else
even1A++;
}
}
// Traverse the string B
for ( int i = 0 ; i < n2; i++)
{
// If current character is 1
if (B.charAt(i) == '1' )
// Increment 1s count
count1B++;
// Otherwise, update odd1B or
// even1B depending whether
// count1B is odd or even
else
{
if ((count1B & 1 ) == 1 )
odd1B++;
else
even1B++;
}
}
// If the condition is satisfied
if (count1A == count1B &&
odd1A == odd1B &&
even1A == even1B)
{
// If true, print Yes
System.out.print( "Yes" );
}
// Otherwise, print No
else
System.out.print( "No" );
} // Driver Code public static void main(String[] args)
{ String A = "10011" , B = "11100" ;
// Function Call
canTransformStrings(A, B);
} } // This code is contributed by divyeshrabadiya07 |
# Python program for the above approach # Function to check if string A can be # transformed to string B by reversing # substrings of A having even number of 1s def canTransformStrings(A, B):
# Store the size of string A
n1 = len (A);
# Store the size of string B
n2 = len (B);
# Store the count of 1s in A and B
count1A = 0 ;
count1B = 0 ;
# Stores cntA for string A
# and cntB for string B
odd1A = 0 ; odd1B = 0 ;
even1A = 0 ; even1B = 0 ;
# Traverse the string A
for i in range (n1):
# If current character is 1
if (A[i] = = '1' ):
# Increment 1s count
count1A + = 1 ;
# Otherwise, update odd1A or
# even1A depending whether
# count1A is odd or even
else :
if ((count1A & 1 ) = = 1 ):
odd1A + = 1 ;
else :
even1A + = 1 ;
# Traverse the string B
for i in range (n2):
# If current character is 1
if (B[i] = = '1' ):
# Increment 1s count
count1B + = 1 ;
# Otherwise, update odd1B or
# even1B depending whether
# count1B is odd or even
else :
if ((count1B & 1 ) = = 1 ):
odd1B + = 1 ;
else :
even1B + = 1 ;
# If the condition is satisfied
if (count1A = = count1B and odd1A = = odd1B and even1A = = even1B):
# If True, print Yes
print ( "Yes" );
# Otherwise, print No
else :
print ( "No" );
# Driver Code if __name__ = = '__main__' :
A = "10011" ;
B = "11100" ;
# Function Call
canTransformStrings(A, B);
# This code is contributed by Princi Singh |
// C# program for the above approach using System;
using System.Collections;
class GFG {
// Function to check if string A can be
// transformed to string B by reversing
// substrings of A having even number of 1s
static void canTransformStrings( string A, string B)
{
// Store the size of string A
int n1 = A.Length;
// Store the size of string B
int n2 = B.Length;
// Store the count of 1s in A and B
int count1A = 0, count1B = 0;
// Stores cntA for string A
// and cntB for string B
int odd1A = 0, odd1B = 0;
int even1A = 0, even1B = 0;
// Traverse the string A
for ( int i = 0; i < n1; i++)
{
// If current character is 1
if (A[i] == '1' )
// Increment 1s count
count1A++;
// Otherwise, update odd1A or
// even1A depending whether
// count1A is odd or even
else
{
if ((count1A & 1) == 1)
odd1A++;
else
even1A++;
}
}
// Traverse the string B
for ( int i = 0; i < n2; i++)
{
// If current character is 1
if (B[i] == '1' )
// Increment 1s count
count1B++;
// Otherwise, update odd1B or
// even1B depending whether
// count1B is odd or even
else
{
if ((count1B & 1) == 1)
odd1B++;
else
even1B++;
}
}
// If the condition is satisfied
if (count1A == count1B &&
odd1A == odd1B &&
even1A == even1B)
{
// If true, print Yes
Console.Write( "Yes" );
}
// Otherwise, print No
else
Console.Write( "No" );
}
static void Main()
{
string A = "10011" , B = "11100" ;
// Function Call
canTransformStrings(A, B);
}
} // This code is contributed by divyesh072019 |
<script> // JavaScript program for above approach // Function to check if string A can be
// transformed to string B by reversing
// substrings of A having even number of 1s
function canTransformStrings(A, B)
{
// Store the size of string A
let n1 = A.length;
// Store the size of string B
let n2 = B.length;
// Store the count of 1s in A and B
let count1A = 0, count1B = 0;
// Stores cntA for string A
// and cntB for string B
let odd1A = 0, odd1B = 0;
let even1A = 0, even1B = 0;
// Traverse the string A
for (let i = 0; i < n1; i++)
{
// If current character is 1
if (A[i] == '1' )
// Increment 1s count
count1A++;
// Otherwise, update odd1A or
// even1A depending whether
// count1A is odd or even
else
{
if ((count1A & 1) == 1)
odd1A++;
else
even1A++;
}
}
// Traverse the string B
for (let i = 0; i < n2; i++)
{
// If current character is 1
if (B[i] == '1' )
// Increment 1s count
count1B++;
// Otherwise, update odd1B or
// even1B depending whether
// count1B is odd or even
else
{
if ((count1B & 1) == 1)
odd1B++;
else
even1B++;
}
}
// If the condition is satisfied
if (count1A == count1B &&
odd1A == odd1B &&
even1A == even1B)
{
// If true, print Yes
document.write( "Yes" );
}
// Otherwise, print No
else
document.write( "No" );
}
// Driver Code let A = "10011" , B = "11100" ;
// Function Call
canTransformStrings(A, B);
</script> |
Yes
Time Complexity: O(N)
Auxiliary Space: O(1)