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Obviously the following type definition is cyclic:

type node = int * node;;
Error: The type abbreviation node is cyclic 

My question is how comes the following one is not cyclic?

type tree = Node of int * tree;;

The second definition also refers to itself.

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The difference is that you won't risk infinite unfolding of the definition at type-checking time: one has to apply a constructor Node to get the type tree to unfold to int * tree. – gallais Feb 28 '14 at 12:20
@gallais can you transform your comment to a more detailed answer? – Jackson Tale Feb 28 '14 at 13:11
Note that you can actually allow such types using the -rectypes option (this disables the occurs-check of the type-checking/inferring mechanism). – phimuemue Feb 28 '14 at 14:54

1 Answer 1

up vote 1 down vote accepted

One way to look at it is that node is an abbreviation for a type, not a new type itself. So the compiler (or anybody who's interested) has to look inside to see what it's an abbreviation for. Once you look inside you start noticing things that make it difficult to analyze (e.g., that it's a recursive type and hence can require many unfoldings).

On the other hand, tree is a new type that's characterized by its constructors. (In this case, just the one constructor Node). So the compiler (or other interested party) doesn't need to look inside at all to determine what the type is. Once you see Node the type is determined. Even if you do look inside, you only need to look down one level. This allows recursion without causing any difficulties in analysis.

As a practical matter, recursive types of the first sort are often unintentional, and they lead to strange typings. The second sort are virtually impossible to create by mistake because of the little signposts (constructors) all along the way; in fact they're kind of like the lifeblood of the type system.

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