# How to take a cube root in Go?

I'm writing a cube root function in Google Go using Newton's method. I want to check the results using math/`cmplx.Pow()`, but for the life of me, I can't figure out how. How do I do this?

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Have you tried `myCubicRootOfx = Pow(x, 1.0/3)` ?

edited: thanks to `Jason McCreary` comment:
We cannot use `1/3` as the 2nd parameter to `Pow` as this is a integer division and hence doesn't produce the expected 1/3 value. By using `1.0/3' or`1/3.0` etc. we effectively produce a float with the 0.333333... value.

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Doesn't get much simpler than that! +1 –  Niet the Dark Absol Mar 6 '13 at 3:06
Needs to be `1.0/3.0` to prevent integer division. –  Jason McCreary Aug 28 '13 at 16:09
This is the right answer unless you are in a hurry. If you need to call this millions of times per frame or second, then pow() can be slow. Compare the speed of sqrt(x) vs pow(x,1/2.0). If you know the argument range, and also know what accuracy you need, you can do better than pow() –  Tom Andersen Nov 10 '13 at 13:54

I wrote the cube root function using Newton's method as part of the Go Tour Exercise 47. Perhaps the two functions below (`Cbrt1` and `Cbrt`) are helpful.

``````package main

import (
"fmt"
"math/cmplx"
)

// Newton's method cube root function that hopes for
//   convergence within 20 iterations
func Cbrt1(x complex128) complex128 {
var z complex128 = x
for i:= 0; i < 20; i++ {
z = z - ((z*z*z - x) / (3.0*z*z))
}
return z
}

// Newton's method cube root function that runs until stable
func Cbrt(x complex128) complex128 {
var z, z0 complex128 = x, x
for {
z = z - ((z*z*z - x) / (3.0*z*z))
if cmplx.Abs(z - z0) < 1e-10 {
break
}
z0 = z
}
return z
}

func main() {
fmt.Println(Cbrt(2.0) , "should match" , cmplx.Pow(2, 1.0/3.0))
}
``````
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As you're using Newton's method, I suppose you're starting with a positive real number.

So you don't need complex numbers.

You may simply do

``````package main

import (
"fmt"
"math"
)

func main() {
x := 100.0
root := math.Pow(x, 1.0/3.0)
fmt.Println(root)
}
``````
-

For example,

``````package main

import (
"fmt"
"math/cmplx"
)

func main() {
var x complex128
x = -8
y := cmplx.Pow(x, 1.0/3.0)
fmt.Println(y)
x = -27i
y = cmplx.Pow(x, 1.0/3.0)
fmt.Println(y)
x = -8 - 27i
y = cmplx.Pow(x, 1.0/3.0)
fmt.Println(y)
x = complex(-8, -27)
y = cmplx.Pow(x, 1.0/3.0)
fmt.Println(y)
}
``````

Output:

``````(1+1.732050807568877i)
(2.5980762113533156-1.4999999999999996i)
(2.4767967587776756-1.7667767800295509i)
(2.4767967587776756-1.7667767800295509i)
``````

The Go Programming Language Specification

Package cmplx

-

try something like this

``````package main

import(
"fmt"
"math/cmplx"
)

func Cbrt(x complex128) complex128 {
z := complex128(1)

for i:=0;i<100;i++ {  // OR JUST for{ since you will outrun complex128 in worth case
last_z := z

z = z - ((z*z*z - x)/(3 *z*z))
if last_z == z{
return z
}
}
return z
}

func main() {
fmt.Println("good enough", Cbrt(9))
fmt.Println("builtin", cmplx.Pow(9, 1.0/3.0))
}
``````
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Whenever I read an answer with “try (something like) this” and throws out a bunch of code I have to ask (myself) “why?”. Please provide some information what your code does, what it accomplishes, and what the “something like” variance points to. –  Kissaki Nov 9 '13 at 13:03
its called Newton's method. You can read source can you? –  Andrew Yasinsky Jan 10 at 17:40