# Romans, rubies and the Haskell

Motivated by Romans, rubies and the D, I wanted to see if the same could be done in Haskell.

module Romans where

import Data.Text

num :: String -> String
num s = rep $pack s where r1 s1 = replace (pack "IV") (pack "IIII") s1 r2 s2 = replace (pack "IX") (pack "VIIII") s2 r3 s3 = replace (pack "XL") (pack "XXXX") s3 r4 s4 = replace (pack "XC") (pack "LXXXX") s4 rep = unpack . r4 . r3 . r2 . r1 value :: String -> Int value s = cnt$ pack s
where
c1 s1 = (count (pack "I") s1) * 1
c2 s2 = (count (pack "V") s2) * 5
c3 s3 = (count (pack "X") s3) * 10
c4 s4 = (count (pack "L") s4) * 50
c5 s5 = (count (pack "C") s5) * 100
cnt t = c5 t + c4 t + c3 t + c2 t + c1 t

roman :: String -> ExpQ
roman s = return $LitE (IntegerL (compute s)) where compute s = fromIntegral$ value $num s  and: {-# LANGUAGE TemplateHaskell #-} import Romans main = print$ $(roman "CCLXXXI")  First, as I am new to Template Haskell, I would like to know if I've got it right. The actual computation happens at compile time, correct? and second, how do I improve the syntax? Instead of $(roman "CCLXXXI") I would like something like roman "CCLXXXI", or even something better. So far I've failed to improve the syntax.

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The actual computation happens at compile time, correct?

Correct. Your Template Haskell code is generating an integer literal, which must obviously be evaluated at compile-time. To have the computation happen at run-time you would have to generate some other kind of expression, e.g. a function application.

and second, how do I improve the syntax?

You can't, really. Compile-time code is designed to stand out from regular code for a good reason, as compile-time code can behave quite differently from regular code. The alternative is to write a quasi-quoter, which would allow you to use the syntax [roman| CCLXXXI |] instead.

However, your use of the ($) operator is redundant here, so you can also write print$(roman "CCLXXI")


which perhaps looks a little prettier.

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Actually, Don Stewart has a nice blog post describing how an LLVM backend with appropriate switches will precompile Haskell 98 code like that without template extensions. –  Gabriel Gonzalez Mar 31 '12 at 4:28

First, it would be nice if you explained what you want. I take it from the link that you want compile-time translation of roman numerals to Num a => a, but perhaps I didn't get it exactly in my brief read.

I don't see why the extra TH syntax is an issue, but I think you can do it without Template Haskell. One would be using a quasi-quoter, resulting in syntax like:

[r|XXVI|]


But that still isn't very clean.

Another way would be an interpreter for a data type of Roman numerals:

data Roman = M Roman | D Roman | C Roman | X Roman | V Roman | I Roman | O
romanToInt :: Roman -> Int
romanToInt = ...

-- or use a shorter function name for obvious reasons.
r = romanToInt

{-# rewrite
"Roman M" forall n. romanToInt (M n) -> 1000 + romanToInt n
#-}
-- many more rewrite rules are needed to ensure the simplifier does the work

-- The resulting syntax would have spaces:
val95 = r (V C)


Or perhaps ghc's -O2 will optimize toInteger calls already? I'm not sure about that, but if so then you could just use a trivial Integral instance:

instance Integral Roman where
toInteger (M n) = 1000 + toInteger n
...

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toInteger is a member of Integral, not Num. (I guess you were thinking of fromInteger?) –  hammar Mar 30 '12 at 19:52
Oops. Nice catch. I'll edit it sometime I'm not on a phone. –  Thomas M. DuBuisson Mar 31 '12 at 0:48