# How to raise a number to a power?

I was trying to raise an integer to a power using the caret operator (`^`), but I am getting surprising results, e.g.:

``````assert_eq!(2^10, 8);
``````

How can I perform exponentiation in Rust?

Rust provides exponentiation via methods `pow` and `checked_pow`. The latter guards against overflows. Thus, to raise 2 to the power of 10, do:

``````let base: i32 = 2; // an explicit type is required
assert_eq!(base.pow(10), 1024);
``````

The caret operator `^` is not used for exponentiation, it's the bitwise XOR operator.

• is this optimized by `2 << 9` ? Jul 6, 2018 at 11:16
• @Stargateur In such cases the compiler optimizes the whole operation away, but it doesn't seem like it when the base is not known: godbolt. Jul 6, 2018 at 11:18
• just tried this as a part of a constant and got the error that it is unstable for use in a constant. Putting it out in case someone else is trying the same. I'm on `rustc 1.54.0 (a178d0322 2021-07-26)` Sep 7, 2021 at 12:17

Here is the simplest method which you can use:

``````let a = 2; // Can also explicitly define type i.e. i32
let a = i32::pow(a, 10);
``````

It will output "2 raised to the power of 10", i.e.:

1024

For integers:

``````fn main() {
let n = u32::pow(2, 10);
println!("{}", n == 1024);
}
``````

For floats:

``````fn main() {
// example 1
let f = f32::powf(2.0, 10.0);
// example 2
let g = f32::powi(2.0, 10);
// print
println!("{}", f == 1024.0 && g == 1024.0);
}
``````

or, since your base is 2, you can also use shift:

``````fn main() {
let n = 2 << 9;
println!("{}", n == 1024);
}
``````
• `2<<9` is an odd choice; why not `4<<8` or `64<<4`? If what you want is 2 to the 10th power, to me it seems that the most logical expression is the one with a 10 in it: `1<<10`. Feb 23 at 0:55

I was trying the same thing as the OP. Thanks to the other answer authors.

Here's a variation that works for me:

``````let n = 2u32.pow(10);
``````

This uses a literal unsigned 32 bit integer to set the type and base, then calls the `pow()` function on it.

Bit shifting is a good way to do this particular case:

``````assert_eq!(1 << 10, 1024);
``````

There's a shortcut for a literal in scientific notation. The number `1e9` is a literal for `1 * i32::pow(10, 9)`.