In shapeless, the Nat type represents a way to encode natural numbers at a type level. This is used for example for fixed size lists. You can even do calculations on type level, e.g. append a list of N elements to a list of K elements and get back a list that is known at compile time to have N+K elements.

Is this representation capable of representing large numbers, e.g. 1000000 or 253, or will this cause the Scala compiler to give up?

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    Miles's NE Scala presentation last year addresses this question, and the short answer is that it would be possible to represent large numbers at the type level in Scala—or at least in 2.10—using singleton types, but it might not be worth it. Shapeless 2.0 currently still uses the Church encoding, which will get you to 1,000 or so before the compiler gives up. Commented Jan 23, 2014 at 0:18
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    I'll try to write up an answer with a little more context later today. As a side note, it's not too hard to work with integer singleton types if you need larger type level numbers—see for example my blog post here or the singleton functionality in Shapeless. Commented Jan 23, 2014 at 12:47
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    If you want to do arithmetic on large type-level numbers, you may consider implementing them as a linked list of bits.
    – Karol S
    Commented May 6, 2014 at 22:22
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    @KarolS I have an implementation of that strategy! And I'd be glad to contribute it to shapeless if anyone is interested, although it's worthless unless someone can help solve stackoverflow.com/questions/31768203/…
    – beefyhalo
    Commented Aug 13, 2015 at 18:25
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    It looks like stackoverflow.com/questions/31768203/… is solved, so can you contribute you code and close the question with your own answer ? Commented Sep 22, 2015 at 13:07

2 Answers 2


I will attempt one myself. I will gladly accept a better answer from Travis Brown or Miles Sabin.

Nat can currently not be used to represent large numbers

In the current implementation of Nat, the value corresponds to the number of nested shapeless.Succ[] types:

scala> Nat(3)
res10: shapeless.Succ[shapeless.Succ[shapeless.Succ[shapeless._0]]] = Succ()

So to represent the number 1000000, you would have a type that is nested 1000000 levels deep, which would definitely blow up the scala compiler. The current limit seems to be about 400 from experimentation, but for reasonable compile times it would probably be best to stay below 50.

However, there is a way to encode large integers or other values at type level, provided that you do not want to do calculations on them. The only thing you can do with those as far as I know is to check if they are equal or not. See below.

scala> type OneMillion = Witness.`1000000`.T
defined type alias OneMillion

scala> type AlsoOneMillion = Witness.`1000000`.T
defined type alias AlsoOneMillion

scala> type OneMillionAndOne = Witness.`1000001`.T
defined type alias OneMillionAndOne

scala> implicitly[OneMillion =:= AlsoOneMillion]
res0: =:=[OneMillion,AlsoOneMillion] = <function1>

scala> implicitly[OneMillion =:= OneMillionAndOne]
<console>:16: error: Cannot prove that OneMillion =:= OneMillionAndOne.
       implicitly[OneMillion =:= OneMillionAndOne]

This could be used to e.g. enforce same array size when doing bit operations on Array[Byte].

  • Just saw this answer, and +1, this is a good example. It's worth noting though that you could provide type classes like e.g. Shapeless's ops.nat.Sum that would witness that two type-level integers had a particular sum, etc. (they'd just have to be provided by a macro). Commented Mar 10, 2016 at 20:19
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    Here is an example of a Concat type class that allows to concatenate two type-level strings via a macro. A type class for summing type-level integers would probably look very similar. Commented Apr 16, 2016 at 15:57

Shapeless's Nat encodes natural numbers at the type level using Church encoding. An alternate method is to represent the naturals as a type level HList of bits.

Check out dense which implements this solution in a shapeless style.

I haven't worked on it in a while, and it needs a sprinkling of shapeless' Lazy here and there for when scalac gives up, but the concept is solid :)


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