# Golang, math/big: what is the max value of *big.Int

What is the max value of *big.Int and max precision of *big.Rat?

• who is downvoting all these questions and answers on the go tag? this question is totally valid!
– thwd
Commented Jul 10, 2013 at 7:53

Here are the structure definitions :

``````// A Word represents a single digit of a multi-precision unsigned integer.
type Word uintptr

type nat []Word

type Int struct {
neg bool // sign
abs nat  // absolute value of the integer
}

type Rat struct {
// To make zero values for Rat work w/o initialization,
// a zero value of b (len(b) == 0) acts like b == 1.
// a.neg determines the sign of the Rat, b.neg is ignored.
a, b Int
}
``````

There is no explicit limit. The limit will be your memory or, theoretically, the max array size (2^31 or 2^63, depending on your platform).

If you have practical concerns, you might be interested by the tests made in http://golang.org/src/pkg/math/big/nat_test.go, for example the one where 10^100000 is benchmarked.

And you can easily run this kind of program :

``````package main

import (
"fmt"
"math/big"
)

func main() {
verybig := big.NewInt(1)
ten := big.NewInt(10)
for i:=0; i<100000; i++ {
verybig.Mul(verybig, ten)
}
fmt.Println(verybig)
}
``````

(if you want it to run fast enough for Go Playground, use a smaller exponent than `100000`)

The problem won't be the max size but the used memory and the time such computations take.

• When using `math/big` you should try and avoid unnecessary `big.Int` allocations (in particular if they escape to the heap). The above can be made faster and simpler by eliminating `temp` making the loop body just: `verybig.Mul(verybig, ten)`. Commented Oct 29, 2017 at 16:04
• Thanks @DaveC. Applied your suggestion. Commented Oct 30, 2017 at 5:57