Recursive Function is a function calling itself.
Every recursive function should have a base case.Recursion stops on reaching the base case.Without a base case function repeats infinite times.
Recursion makes the program simpler but it occupies more space and slower than loops.
Recursion makes the program simpler but it occupies more space and slower than loops.
Recursive function uses memory stack to store the intermediate values . Each recursion in the program gets fresh memory allocation. Calculation starts once the base case is reached.
Example:
void sum(int a,int b)
{
-----------;
----------;
sum(a,b);
----------;
}
void sum(int a,int b)
{
-----------;
----------;
sum(a,b);
----------;
}
Example 1:
Sum of first n natural numbers:
int sum(int n)
{
if(n<=0) // base case to end recursion
return 0; // if the given number is 0 then sum is 0
return(n+sum(n-1));
}
5+ sum(4)
4+sum (3)
3+sum (2)
2+ sum (1)
1 + sum(0)
0
When the value becomes zero , according to the base case it should return 0. So
remember it uses stack(Last In First Out)
1 + sum(0) will be 1+ 0 = 1
2+ sum (1) will be 2 + (the previous answer which is 1) = 3
3+sum (2) will be 3 + (the previous answer which is 3) = 6
4+sum (3) will be 4 + (the previous answer which is 6) = 10
5+ sum(4) will be 5 + (the previous answer which is 10) = 15
So the final answer is 15.
Example :
Find the output [ISC 2017]
int magicfun(int n)
{
if(n==0)
return 0;
else
return magicfun(n/2)*10+(n%2)
}
find the output if n=7
magicfun(3) *10 + 1
magicfun(1)*10+1
magicfun(0)*10+ 1
so
0 *10 +1 =1
1*10 + 1= 11
11 *10 + 1 =111
Example :
Find the output [ISC 2017]
int magicfun(int n)
{
if(n==0)
return 0;
else
return magicfun(n/2)*10+(n%2)
}
find the output if n=7
magicfun(3) *10 + 1
magicfun(1)*10+1
magicfun(0)*10+ 1
so
0 *10 +1 =1
1*10 + 1= 11
11 *10 + 1 =111
A common example is finding factorial using Recursion.
Here in factorial we
are multiplying from 1 till the number given.
Using Loops:
Using Loops:
void factorial(int n)
{
int i,f=1;
for(i=1;i<=n;i++)
{
f=f*i;
}
System.out.print(f);
{
int i,f=1;
for(i=1;i<=n;i++)
{
f=f*i;
}
System.out.print(f);
Using Recursion :
int factorial(int n)
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
If n is 5 , then 5 x 4 x 3 x 2 x 1 = 120
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
If n is 5 , then 5 x 4 x 3 x 2 x 1 = 120
This also can be
written like this:
int f=1;
int factorial(int n)
{
if (n==0) // factorial of 0 is 1
return f;
else
{
f=f*n; // multiply the given number with f which is 1
return(factorial(n-1)); // Call the method with the next number
}
We will do some programs where we use factorial.
Example 1. Permutation function
int f=1;
int factorial(int n)
{
if (n==0) // factorial of 0 is 1
return f;
else
{
f=f*n; // multiply the given number with f which is 1
return(factorial(n-1)); // Call the method with the next number
}
We will do some programs where we use factorial.
Example 1. Permutation function
int factorial(int n)
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
void permutation()
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
void permutation()
{
int x=factorial(n); // Calculate factorial of n
int y=factorial(n-r); // Calculate factorial of (n – r)
int answer= x/y;
System.out.print(answer);
}
Example 2: Special number / Krishnamurthy number
int factorial(int n)
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
void special(int n)
{
int a,s=0,m=n;
while(n>0)
{
a=n%10;
s=s+factorial(a);
n=n/10;
}
if (s==m)
System.out.print(“Special Number”);
else
System.out.print(“Not a Special Number”);
int x=factorial(n); // Calculate factorial of n
int y=factorial(n-r); // Calculate factorial of (n – r)
int answer= x/y;
System.out.print(answer);
}
Example 2: Special number / Krishnamurthy number
int factorial(int n)
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
void special(int n)
{
int a,s=0,m=n;
while(n>0)
{
a=n%10;
s=s+factorial(a);
n=n/10;
}
if (s==m)
System.out.print(“Special Number”);
else
System.out.print(“Not a Special Number”);
Example 3:
sum
sum
int factorial(int n)
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
void sum(int x )
{
int i, a,sum=1;
for(i=1;i<=n;i++)
sum=sum+(x/ factorial(i));
int i, a,sum=1;
for(i=1;i<=n;i++)
sum=sum+(x/ factorial(i));
System.out.print(sum);
}
POWER
To find the power of a
number:
Using Loop:
int p=1;
int powerNum(int base, int power)
{
int ctr=1;
while(ctr<=power)
{
p=p*base;
ctr++;
}
return p;
}
int p=1;
int powerNum(int base, int power)
{
int ctr=1;
while(ctr<=power)
{
p=p*base;
ctr++;
}
return p;
}
Using Recursion:
int powerNum(int base, int power)
{
if (power==0) // whatever the base ,if the power is 0 then answer is 1
int powerNum(int base, int power)
{
if (power==0) // whatever the base ,if the power is 0 then answer is 1
return 1;
else
return(base * powerNum(base, power-1));
}
Example 1:
Sum
else
return(base * powerNum(base, power-1));
}
Example 1:
Sum
Here both factorial and power can be calculated using recursion technique.
int factorial(int n)
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
{
if (n==0) // factorial of 0 is 1
return 1;
else
return ( n *(factorial(n-1)); // multiply the given number with the
previous number and so on
}
int powerNum(int base, int
power)
{
if (power==0) // whatever the base ,if the power is 0 then answer is 1
{
if (power==0) // whatever the base ,if the power is 0 then answer is 1
return 1;
else
return(base * powerNum(base, power-1));
}
void series(int x,int n)
else
return(base * powerNum(base, power-1));
}
void series(int x,int n)
{
int i;
double s=0.0;
for(i=1;i<=n;i++)
s=s+powerNum(x,i)/factorial(i);
System.out.print(s);
}
double s=0.0;
for(i=1;i<=n;i++)
s=s+powerNum(x,i)/factorial(i);
System.out.print(s);
}
Fibonacci Series
0,1,1,2,3,5,8...........
void Fibonacci(int n)
{
int ctr=3,a=0,b=1,c=0;
while (ctr<=n)
{
c=a+b; // add the previous two values
System.out.print(c+” “);
a=b;
b=c;
ctr++;
}
}
0,1,1,2,3,5,8...........
void Fibonacci(int n)
{
int ctr=3,a=0,b=1,c=0;
while (ctr<=n)
{
c=a+b; // add the previous two values
System.out.print(c+” “);
a=b;
b=c;
ctr++;
}
}
int Fibonacci(int n)
//to find the nth term in Fibonacci series
{
if (n==1)
return 0;
if (n==2)
return 1;
else
return (Fibonacci(n-1)+Fibonacci(n-2));
}
return 0;
if (n==2)
return 1;
else
return (Fibonacci(n-1)+Fibonacci(n-2));
}
Prime Number
int c=0;
int Prime(int n, int i)
{
if(i<=n)
{
if(n%i==0)
c=c+1;
return (Prime(n,i+1));
}
else
return c;
}
int Prime(int n, int i)
{
if(i<=n)
{
if(n%i==0)
c=c+1;
return (Prime(n,i+1));
}
else
return c;
}
Try the following:
·
Twin Prime
