# Is there a way to do a right bit-shift on a BigInt in Rust?

I get this error when attempting to do >> or >>= on a BigInt:

`no implementation for `BigInt >> BigInt`

using the `num_bigint::BigInt` library

Edit: More Context:

I am rewriting this program https://www.geeksforgeeks.org/how-to-generate-large-prime-numbers-for-rsa-algorithm/ from python/c++ into rust however I will focus on the python implementation as it is written to handle 1024 bit prime numbers which are extremely big.

Update: I have completed a rust implementation https://github.com/dzyphr/Rust_Repo/blob/master/big_prime/src/main.rs

In the code we run the Miller Rabin Primality test which includes shifting EC: (prime-candidate - 1) to the right by 1 if we find that EC % 2 == 0. As I mentioned in the python implementation EC can be an incredibly large integer.

It would be convenient to be able to use the same operator in rust, if that is not possible can someone suggest an alternative?

• It would not make any sense, BigInt is a complex data structure used to represent any arbitrary number size. There is not bit to shift from a user point of view, it's a black box. Jan 5, 2023 at 11:08
• It seems that BigInt shifting has been implemented several times however if you assert that it makes no sense can you offer a replacement for it? BigInt Shift in Java: geeksforgeeks.org/biginteger-shiftright-method-in-java Jan 5, 2023 at 17:13
• @Stargateur It makes perfect sense to do bitwise operations on bigints, and the library in question does implement bitwise operations including right-shift, just not right-shift where the second operand is a bigint. Jan 5, 2023 at 18:07
• @kaya3 I don't get how it's useful but ok nevermind. Jan 5, 2023 at 20:01

According to the documentation for the `num-bigint` crate, the `BigInt` struct does implement the `Shr` trait for the right-shift operator, just not when the shift amount is itself a `BigInt`. If you convert the shift amount to a standard integer type (e.g. `i64`) then it should work.
It is unlikely you would ever want to shift by an amount greater than `i64::MAX`, but if you do need this, then the correct result is going to be zero (because no computer has 2^60 bytes of memory), so you can write a simple implementation which checks for that case.