There are 12 intermediate stations between two places A and B. Find the number of ways in which a train can be made to stop at 4 of these intermediate stations so that no two stopping stations are consecutive?
Examples –
Input : n = 12, s = 4
Output : 126Input : n = 16, s = 5
Output : 792
Explanation 1 :
Fix/remove of the four stops as fixed points and calculate in how many ways the other stations can be inserted between them, if you must have at least one station between stops.
A x x x x x x x x B
Between these 8 non-halting stations we have 9 places and we select these 9 places as halt between these 8 stations.
Therefore, answer should be
Explanation 2 :
If you know about combinations about indistinguishable balls into distinguishable boxes, then you can simply use,
Therefore,
Below is the code implementation of the solution:
#include <stdio.h> int stopping_station( int , int );
// function to calculate number // of ways of selecting 'p' non consecutive // stations out of 'n' stations int stopping_station( int p, int n)
{ int num = 1, dem = 1, s = p;
// selecting 's' positions out of 'n-s+1'
while (p != 1) {
dem *= p;
p--;
}
int t = n - s + 1;
while (t != (n - 2 * s + 1)) {
num *= t;
t--;
}
if ((n - s + 1) >= s)
printf ( "%d" , num / dem);
else
// if conditions does not satisfy of combinatorics
printf ( "not possible" );
} // driver code int main()
{ // n is total number of stations
// s is no. of stopping stations
int n, s;
// arguments of function are
// number of stopping station
// and total number of stations
stopping_station(4, 12);
} |
// Java code to calculate number // of ways of selecting 'p' non // consecutive stations out of // 'n' stations import java.io.*;
import java.util.*;
class GFG
{ public static int stopping_station( int p, int n)
{
int num = 1 , dem = 1 , s = p;
// selecting 's' positions out of 'n-s+1'
while (p != 1 )
{
dem *= p;
p--;
}
int t = n - s + 1 ;
while (t != (n - 2 * s + 1 ))
{
num *= t;
t--;
}
if ((n - s + 1 ) >= s)
System.out.print(num / dem);
else
// if conditions does not satisfy of combinatorics
System.out.print( "not possible" );
return 0 ;
}
public static void main (String[] args)
{
// n is total number of stations
// s is no. of stopping stations
int n, s;
// arguments of function are
// number of stopping station
// and total number of stations
stopping_station( 4 , 12 );
}
} // ""This code is contributed by Mohit Gupta_OMG "" |
# Python code to calculate number # of ways of selecting 'p' non # consecutive stations out of # 'n' stations def stopping_station( p, n):
num = 1
dem = 1
s = p
# selecting 's' positions
# out of 'n-s+1'
while p ! = 1 :
dem * = p
p - = 1
t = n - s + 1
while t ! = (n - 2 * s + 1 ):
num * = t
t - = 1
if (n - s + 1 ) > = s:
return int (num / dem)
else :
# if conditions does not
# satisfy of combinatorics
return - 1
# driver code num = stopping_station( 4 , 12 )
if num ! = - 1 :
print (num)
else :
print ( "Not Possible" )
# This code is contributed by "Abhishek Sharma 44" |
// C# code to calculate number // of ways of selecting 'p' non // consecutive stations out of // 'n' stations using System;
class GFG {
public static int stopping_station( int p,
int n)
{
int num = 1, dem = 1, s = p;
// selecting 's' positions
// out of 'n-s+1'
while (p != 1)
{
dem *= p;
p--;
}
int t = n - s + 1;
while (t != (n - 2 * s + 1))
{
num *= t;
t--;
}
if ((n - s + 1) >= s)
Console.WriteLine(num / dem);
// if conditions does not
// satisfy of combinatorics
else
Console.WriteLine( "Not possible" );
return 0;
}
// Driver Code
public static void Main(String []args)
{
// arguments of function are
// number of stopping station
// and total number of stations
stopping_station(4, 12);
}
} // This code is contributed by vt_m. |
<?php // PHP code for Number of stopping // station problem // function to calculate number // of ways of selecting 'p' non // consecutive stations out of // 'n' stations function stopping_station(int $p , int $n )
{ $num = 1;
$dem = 1;
$s = $p ;
// selecting 's' positions
// out of 'n-s+1'
while ( $p != 1)
{
$dem *= $p ;
$p --;
}
$t = $n - $s + 1;
while ( $t != ( $n - 2 * $s + 1))
{
$num *= $t ;
$t --;
}
if (( $n - $s + 1) >= $s )
echo $num / $dem ;
else
// if conditions does not
// satisfy of combinatorics
echo "not possible" ;
} // Driver Code
// n is total number of stations
// s is no. of stopping stations
$n ; $s ;
// arguments of function are
// number of stopping station
// and total number of stations
stopping_station(4, 12);
// This code is contributed by anuj_67. ?> |
<script> // Javascript code to calculate number // of ways of selecting 'p' non // consecutive stations out of // 'n' stations function stopping_station( p, n)
{
var num = 1, dem = 1, s = p;
// selecting 's' positions
// out of 'n-s+1'
while (p != 1)
{
dem *= p;
p--;
}
var t = n - s + 1;
while (t != (n - 2 * s + 1))
{
num *= t;
t--;
}
if ((n - s + 1) >= s){
document.write(num / dem);
}
// if conditions does not
// satisfy of combinatorics
else {
document.write( "Not possible" );
}
return 0;
}
// Driver Code
// arguments of function are
// number of stopping station
// and total number of stations
stopping_station(4, 12);
</script> |
Output :
126
Time Complexity: O(s)
Auxiliary Space: O(1)