# how to get exponents without using the math.pow for java

This is my program

``````// ************************************************************
// PowersOf2.java
//
// Print out as many powers of 2 as the user requests
//
// ************************************************************

import java.util.Scanner;

public class PowersOf2 {

public static void main(String[] args)

{
int numPowersOf2; //How many powers of 2 to compute
int nextPowerOf2 = 1; //Current power of 2
int exponent= 1;
double x;

//Exponent for current power of 2 -- this
//also serves as a counter for the loop Scanner

Scanner scan = new Scanner(System.in);
System.out.println("How many powers of 2 would you like printed?");
numPowersOf2 = scan.nextInt();
System.out.println ("There will be " + numPowersOf2 + " powers of 2 printed");
//initialize exponent -- the first thing printed is 2 to the what?

while( exponent <= numPowersOf2)
{
double x1 = Math.pow(2, exponent);
System.out.println("2^" + exponent + " = " + x1);
exponent++;
}
//print out current power of 2
//find next power of 2 -- how do you get this from the last one?
//increment exponent

}
}
``````

The thing is that I am not allowed to use the math.pow method, I need to find another way to get the correct answer in the while loop.

• Multiply maybe ?!? After all `next power = previous power * 2`..eg `2^1=2` `2^2 = 4`, `2^3 = 4*2 = 8` – GoldRoger Apr 19 '14 at 16:45
• Make sure to preserve whether the power is negative. If so, divide, not multiply. – cevaris Apr 19 '14 at 16:48
• to get exponents you use `log`, not `pow`. `pow` is used to get the powers – phuclv Oct 10 '14 at 2:11

Powers of 2 can simply be computed by Bit Shift Operators

``````int exponent = ...
int powerOf2 = 1 << exponent;
``````

Even for the more general form, you should not compute an exponent by "multiplying `n` times". Instead, you could do Exponentiation by squaring

Here is a post that allows both negative/positive power calculations.

https://stackoverflow.com/a/23003962/3538289

Function to handle +/- exponents with O(log(n)) complexity.

``````double power(double x, int n){
if(n==0)
return 1;

if(n<0){
x = 1.0/x;
n = -n;
}
double ret = power(x,n/2);
ret = ret * ret;
if(n%2!=0)
ret = ret * x;
return ret;
}
``````

You could implement your own `power` function.

The complexity of the `power` function depends on your requirements and constraints. For example, you may constraint exponents to be only positive integer.

Here's an example of `power` function:

``````public static double power(double base, int exponent) {
double ans = 1;
if (exponent != 0) {
int absExponent = exponent > 0 ? exponent : (-1) * exponent;
for (int i = 1; i <= absExponent; i++) {
ans *= base;
}

if (exponent < 0) {
// For negative exponent, must invert
ans = 1.0 / ans;
}
} else {
// exponent is 0
ans = 1;
}

return ans;
}
``````

If there are no performance constraints you can do:

``````double x1=1;

for(int i=1;i<=numPowersOf2;i++){
x1 =* 2
}
``````
• There are performance constraints on this one. Will be `O(n)`. It can be done in `O(1)` time. – Pritam Banerjee Apr 27 '19 at 5:17

You can try to do this based on this explanation:

`````` public double myPow(double x, int n) {

if(n < 0) {
if(n == Integer.MIN_VALUE) {
n = (n+1)*(-1);
return 1.0/(myPow(x*x, n));
}
n = n*(-1);
return (double)1.0/myPow(x, n);
}
double y = 1;
while(n > 0) {
if(n%2 == 0) {
x = x*x;
}
else {
y = y*x;
x = x*x;
}
n = n/2;
}
return y;
}
``````

It's unclear whether your comment about using a loop is a desire or a requirement. If it's just a desire there is a math identity you can use that doesn't rely on `Math.Pow`.

``xy = ey∙ln(x)``

In Java this would look like

``````public static double myPow(double x, double y){
return Math.exp(y*Math.log(x));
}
``````

If you really need a loop, you can use something like the following

``````public static double myPow(double b, int e) {
if (e < 0) {
b = 1 / b;
e = -e;
}

double pow = 1.0;
double intermediate = b;
boolean fin = false;

while (e != 0) {
if (e % 2 == 0) {
intermediate *= intermediate;
fin = true;
} else {
pow *= intermediate;
intermediate = b;
fin = false;
}
e >>= 1;
}

return pow * (fin ? intermediate : 1.0);
}
``````
``````// Set the variables

int numPowersOf2;        //How many powers of 2 to compute
int nextPowerOf2 = 1;    //Current power of  2
int exponent = 0;

/* User input here */

// Loop and print results

do
{

System.out.println ("2^" + exponent + " = " + nextPowerOf2);

nextPowerOf2 = nextPowerOf2*2;

exponent ++;
}
while (exponent < numPowersOf2);
``````

here is how I managed without using "myPow(x,n)", but by making use of "while". (I've only been learning Java for 2 weeks so excuse, if the code is a bit lumpy :)

``````    String base ="";
String exp ="";
try {System.out.print("enter the base number: ");
System.out.print("enter the exponent: ");
catch(IOException e){System.out.print("error");}

int x = Integer.valueOf(base);
int n = Integer.valueOf(exp);
int y=x;
int m=1;
while(m<n+1) {
System.out.println(x+"^"+m+"= "+y);
y=y*x;
m++;
}
``````

To implement pow function without using built-in Math.pow(), we can use the below recursive way to implement it. To optimize the runtime, we can store the result of power(a, b/2) and reuse it depending on the number of times is even or odd.

``````static float power(float a, int b)
{
float temp;
if( b == 0)
return 1;
temp = power(a, b/2);

// if even times
if (b%2 == 0)
return temp*temp;
else  // if odd times
{
if(b > 0)
return a * temp * temp;
else  // if negetive i.e. 3 ^ (-2)
return (temp * temp) / a;
}
}
``````

I know this answer is very late, but there's a very simple solution you can use if you are allowed to have variables that store the base and the exponent.

``````public class trythis {
public static void main(String[] args) {
int b = 2;
int p = 5;
int r = 1;
for (int i = 1; i <= p; i++) {
r *= b;
}
System.out.println(r);
}
}
``````

This will work with positive and negative bases, but not with negative powers.

To get the exponential value without using `Math.pow()` you can use a loop: As long as the count is less than b (your power), your loop will have an additional "* a" to it. Mathematically, it is the same as having a `Math.pow()`

``````while (count <=b){
a= a* a;
}
``````

Try this simple code:

``````public static int exponent(int base, int power) {