Minimum number of mails required to distribute all the questions
Last Updated :
30 Sep, 2021
Given N questions in a test and K students in the class. Out of the batch of K students, N students memorised exactly one question each. A mail can contain about a maximum of X questions.
Find the minimum number of mails required so that the entire class gets to know about all the questions.
NOTE: A mail has the following information- Name of sender, Name of the recipient and the question(s)
Examples:
Input: N = 3, K = 3, X = 1
Output: 6
Student 1 sends his question to student 2 and student 3 (2 mails),
so does student 2 and student 3 so total mails = 2 * 3 = 6
Input: N = 4, K = 9, X = 2
Output: 19
Refer to the flowchart below
Flowchart:
N = 4, K = 9, X = 2
Pivot = 4th Student
Student 1, 2, & 3 sends 3 mails to student 4. Now student 4 has all the questions. He distributes them accordingly, 3/2 = 2(using ceil) mails to each 3 students who already has 1 question and 4/2 = 2 mails to rest 5 students. So total mails are (3 + 2 * 3 + 2 * 5) = 19
Approach: A greedy approach has been used here. A pivot is selected which receives all the questions first and then distribute them accordingly. This will take a minimum number of steps. N-1 students, send each of their questions to the Nth student. So the Nth student has all the questions, (mails sent till now = N-1). Now it is mentioned that the mails contain the name of senders, so the Nth student knows which question came from whom, thus he can avoid sending back the same question. Now the Nth student acts as the distributor, he packages the questions and sends them accordingly. Each of the N-1 students needs to know about the rest of N-1 questions. So minimum mails that needs to be sent to each of them is ceil((N-1)/X), where X is the maximum number of questions a mail can hold and ceil denotes least integer function. So total mails sent till now = ceil((N-1)/X) * (N-1) + (N-1). So N students know about all the questions. The rest of the K-N students needs to know about all the N questions, so each of them must receive atleast ceil(N/X) mails, where X is the maximum number of questions a mail can hold and ceil denotes least integer function. So total mail received is:
ceil(N/X) * (K-N) + (( ceil((N-1)/X)) * (N-1)) + (N-1)
Below is the implementation of the above approach:
C++
#include <bits/stdc++.h>
#define ll long long int
using namespace std;
long long int MinimumMail(int n, int k, int x)
{
ll m = (n - 1) + (ll)ceil((n - 1) * 1.0 / x) * (n - 1)
+ (ll)ceil(n * 1.0 / x) * (k - n);
return m;
}
int main()
{
int N = 4;
int K = 9;
int X = 2;
cout << MinimumMail(N, K, X) << endl;
return 0;
}
|
Java
import java.io.*;
import java.util.*;
import java.lang.*;
class GFG
{
static double MinimumMail(int n,
int k,
int x)
{
double m = (n - 1) + Math.ceil((n - 1) * 1.0 / x) * (n - 1)
+ Math.ceil(n * 1.0 / x) * (k - n);
return m;
}
public static void main(String[] args)
{
int N = 4;
int K = 9;
int X = 2;
System.out.print((int)MinimumMail(N, K, X) + "\n");
}
}
|
Python3
import math
def MinimumMail(n, k, x):
m = ((n - 1) + int(math.ceil((n - 1) * 1.0 / x) *
(n - 1) + math.ceil(n * 1.0 / x) * (k - n)));
return m;
N = 4;
K = 9;
X = 2;
print(MinimumMail(N, K, X));
|
C#
using System;
class GFG
{
static double MinimumMail(int n,
int k,
int x)
{
double m = (n - 1) + Math.Ceiling((n - 1) *
1.0 / x) * (n - 1) +
Math.Ceiling(n * 1.0 /
x) * (k - n);
return m;
}
public static void Main()
{
int N = 4;
int K = 9;
int X = 2;
Console.WriteLine((int)MinimumMail(N, K, X) + "\n");
}
}
|
PHP
<?php
function MinimumMail($n, $k, $x)
{
$m = ($n - 1) + ceil(($n - 1) *
1.0 / $x) * ($n - 1) +
ceil($n * 1.0 /
$x) * ($k - $n);
return $m;
}
$N = 4;
$K = 9;
$X = 2;
echo MinimumMail($N, $K, $X), "\n";
?>
|
Javascript
<script>
function MinimumMail(n, k, x)
{
let m = (n - 1) + Math.ceil((n - 1) * 1.0 / x) *
(n - 1) + Math.ceil(n * 1.0 / x) * (k - n);
return m;
}
let N = 4;
let K = 9;
let X = 2;
document.write(MinimumMail(N, K, X) + "</br>");
</script>
|
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