Left rotation bitwise operation in Elixir/why is the signed left shift missing?

Disclaimer: I'm extremely naive when it comes to bitwise ops, so dumbing down is appreciated.

I'm basically trying to perform a left rotation in Elixir, based on some equivalent Java I'm working from (I need to port a small chunk over).

``````public static long rotateLeft(long l, int shift) {
return (l << shift) | l >>> (64 - shift);
}
``````

Normally I wouldn't be so blunt about what it is that I'm working from, however I believe it's relevant due to the use of the `<<` operator (which doesn't appear to exist in Elixir/Erlang).

Is there some obvious way to replicate the above behaviour in Elixir that I'm missing? I've searched for implementations without the operator, but it appears that most other languages have it and so it hasn't come up anywhere. One thing which did come up was `X << Y == X * 2 * Y`, and so I implemented like this:

``````def rotate_left(l, shift) when is_number(l) and is_number(shift) do
(l * 2 * shift) ||| l >>> (64 - shift)
end
``````

However, running a test through both languages (`rotate_left(2461839666708829781, 13)`) provides different results in each language - so I guess I made a mistake.

If anyone can lend a hand/explain what I'm missing here (I assume there's a reason this operator doesn't exist), it'd be appreciated. I've tried to cover everything in case it's due to specific numbers etc, but if I've missed anything important just let me know.

Also; if it's not possible with Elixir, I'm perfectly happy to drop down to Erlang. Thanks in advance!

You want to use the `Bitwise` module:
``````iex(1)> use Bitwise
• Is `<<<` equivalent to `<<`? Commented Dec 21, 2015 at 3:25
• Yes, except that in Elixir and Erlang, integers are arbitrary precision, so it doesn't matter if values exceed the maximum 64 bits can hold. Because of this, you'll get a different result than you would in Java or C/C++. You can limit the result to 64 bits using bitwise-and: `((val <<< shift) ||| (val >>> (64 - shift))) &&& 0xFFFFFFFFFFFFFFFF`. Commented Dec 21, 2015 at 3:46
• The hexadecimal value `0xFFFFFFFFFFFFFFFF` is 64 bits in size and is composed of all 1s. Performing a bitwise-and against it of some value means that all bits of that value that fit in 64 bits are preserved, while any bits of the value that extend above 64 bits are effectively bitwise-anded with 0, so they too become 0 and are thus dropped. Commented Dec 21, 2015 at 3:57