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I'm new to Haskell. Given the whole premise of Haskell is that a function will always return the same value, I'd expect there to be some way of e.g. calculating fibonacci values of constants at compile time, like I can do in C++ with template metaprogrmming, but I can't see how to do it. Is there a way?

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Template Haskell, perhaps? It's even slightly less awful than template metaprogramming in C++, though that isn't saying much. Neither is much fun. :P – C. A. McCann Dec 29 '12 at 2:28
@C.A.McCann Does it work for fibs though? My understanding was that TH was more like C macros, but that could be completely wrong. (That said, template C++ is kind of just glorified macros, and hmm I guess it might be possible to define fibs in C at compile time just via macros, not sure...) Anyway, concrete example would help. – lobsterism Dec 29 '12 at 2:37
TH is arbitrary Haskell code, executed at compile time, that can generate syntax trees to splice definitions, expressions, or whatever else into the code. C macros don't even begin to compare. It's nowhere near as limited as C++ template junk is, it's just kind of a pain to use for anything non-trivial because working with the AST data types is clumsy. – C. A. McCann Dec 29 '12 at 2:40
I've found it's very similar to how Lisp macros would feel if Lisp had actual syntax – jozefg Dec 29 '12 at 12:24

2 Answers 2

up vote 9 down vote accepted

edit: Daniel Fischer points out that you can lift an ordinary expression into Template Haskell and evaluate the result at compile-time, subject to certain constraints on the output type, by having an ordinary function fib and then splicing

$(let x = fib 1000 in [|x|])

Original answer follows.

As pointed out in comments, Template Haskell is the way to go for this. For inductive functions like fibonacci, it's fairly straightforward. You write code similar to a standard definition, but returning an ExpQ value. Due to splicing restrictions, you'll need to use 2 modules.

{-# LANGUAGE TemplateHaskell #-} 
module TH where

import Language.Haskell.TH

fibTH :: Int -> ExpQ
fibTH 0 = [| 0 |]
fibTH 1 = [| 1 |]
fibTH n = [| $(fibTH (n-1)) + $(fibTH (n-2)) |]


{-# LANGUAGE TemplateHaskell #-}
module Main where

import TH

y :: Int
y = $(fibTH 10)

main = print y

To confirm that the work is performed at compile-time, we can compile with -ddump-simpl to see the core, which confirms it.

Main.y :: GHC.Types.Int
 Str=DmdType m,
 Unf=Unf{Src=<vanilla>, TopLvl=True, Arity=0, Value=True,
         ConLike=True, WorkFree=False, Expandable=True,
         Guidance=IF_ARGS [] 10 20}]
Main.y = GHC.Types.I# 55
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Isn't it much better to have an ordinary decent fib function in the other module and then splice y = $(let x = fib 1000 in [|x|])? – Daniel Fischer Dec 29 '12 at 14:03
@DanielFischer I didn't think to try that, it is better. – John L Dec 30 '12 at 0:09

There's a great article by Don Stewart where he shows that using the LLVM backend with the right choice of flags will precompute certain functions at compile time and replace them with constants.

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Well, kind of, but it seems rather trial-and-error (albeit organizedly-so) rather than directly deterministic. C++ templates are more the latter; WYSIWYG, and I was hoping for more of that kind of solution. – lobsterism Dec 29 '12 at 3:35
@lobsterism Then you want Template Haskell. I only mentioned this solution because you were asking about why we can't take advantage the purity of functions to pre-compile them. However, Template Haskell does not take advantage of purity at all and it can even have side effects. – Gabriel Gonzalez Dec 29 '12 at 14:04

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