[Haskell-cafe] Exponential complexity of type checking (Was:
Type-level naturals & multiplication)
lennart at augustsson.net
Tue Oct 13 12:14:26 EDT 2009
Yes, there are simple H-M examples that are exponential.
x0 = undefined
x1 = (x1,x1)
x2 = (x2,x2)
x3 = (x3,x3)
xn will have a type with 2^n type variables so it has size 2^n.
On Tue, Oct 13, 2009 at 6:04 PM, Brad Larsen <brad.larsen at gmail.com> wrote:
> On Tue, Oct 13, 2009 at 3:37 AM, Simon Peyton-Jones
> <simonpj at microsoft.com> wrote:
>> | > Is there any way to define type-level multiplication without requiring
>> | > undecidable instances?
>> | No, not at the moment. The reasons are explained in the paper "Type
>> | Checking with Open Type Functions" (ICFP'08):
>> | http://www.cse.unsw.edu.au/~chak/papers/tc-tfs.pdf
>> | We want to eventually add closed *type families* to the system (ie,
>> | families where you can't add new instances in other modules). For
>> | such closed families, we should be able to admit more complex
>> | instances without requiring undecidable instances.
>> It's also worth noting that while "undecidable" instances sound scary, but all it means is that the type checker can't prove that type inference will terminate. We accept this lack-of-guarantee for the programs we *run*, and type inference can (worst case) take exponential time which is not so different from failing to terminate; so risking non-termination in type inference is arguably not so bad.
> I have written code that makes heavy use of multi-parameter type
> classes in the ``finally tagless'' tradition, which takes several
> seconds and many megabytes of memory for GHCI to infer its type.
> However, that example is rather complicated, and I am not sure its
> type inference complexity is exponential---it is at least very bad.
> Are there any simple, well-known examples where Haskell type inference
> has exponential complexity? Or Hindley-Milner type inference, for
> that matter? (Haskell 98 is not quite Hindley-Milner?)
> Brad Larsen
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> Haskell-Cafe at haskell.org
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