# Recursive Exponent Method

``````public static int exponent(int baseNum) {
int temp = baseNum *= baseNum;

return temp * exponent(baseNum);
}
``````

Right now the method above does n * n into infinity if I debug it, so it still works but I need this recursive method to stop after 10 times because my instructor requires us to find the exponent given a power of 10.

The method must have only one parameter, here's some examples of calling exponent:

``````                System.out.println ("The power of 10 in " + n + " is " +
exponent(n));
``````

So output should be:

``````The power of 10 in 2 is 1024
``````

OR

``````The power of 10 in 5 is 9765625
``````
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There's no base case in your recursive method! – Luiggi Mendoza Nov 1 '12 at 17:24
If you need it to stop after ten times, you need to have a variable for how many times it's recursed. – Louis Wasserman Nov 1 '12 at 17:26
You need to pass the power as an argument like `power(baseName, n);` decrease the power by one each time you recurse. – Peter Lawrey Nov 1 '12 at 17:26

Create an auxiliary method to do the recursion. It should have two arguments: the base and the exponent. Call it with a value of 10 for the exponent and have it recurse with (exponent-1). The base case is `exponent == 0`, in which case it should return 1. (You can also use `exponent == 1` as a base case, in which case it should return the base.)

-

Do something like

``````public static int exp(int pow, int num) {
if (pow < 1)
return 1;
else
return num * exp(pow-1, num) ;
}

public static void main (String [] args) {
System.out.println (exp (10, 5));
}
``````

and do not forget the base case (i.e a condition) which tells when to stop recursion and pop the values from the stack.

-

Shouldn't it have 2 parameter and handle exit condition like below?

``````public static int exponent(int baseNum, int power) {
if(power == 0){
return 1;
}else{
return baseNum * exponent(baseNum, power-1);
}
}
``````
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For recursion function, we need to :

1. check stopping condition (i.e. when exp is 0, return 1)
2. call itself with adjusted condition (i.e. base * base^(n-1) )

Here is the code.

``````public class Test
{
public static int exponent(int baseNum, int exp)
{
if (exp<=0)
return 1;

return baseNum * exponent(baseNum, --exp);
}

public static void main(String a[])
{
int base=2;
int exp =10;

System.out.println("The power of "+exp+" in "+base+" is "+exponent(base,exp));
}

}
``````
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Don't forget , for each recursive function , you need a base case. A stop condition` static double r2(float base, int n) {

``````    if (n<=0) return 1;
return  base*r2(base,n-1);

}
``````
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The following is what my instructor, Professor Penn Wu, provided in his lecture note.

```public class Exp
{
public static int exponent(int a, int n)
{
if (n==0) { return 1; } // base
else // recursion
{
a *= exponent(a, n-1);
return a;
}
}

public static void main(String[] args)
{
System.out.print(exponent(2, 10));
}
}
```
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