compdata-0.5: examples/Examples/Multi/Eval.hs
{-# LANGUAGE TemplateHaskell, TypeOperators, MultiParamTypeClasses,
FlexibleInstances, FlexibleContexts, UndecidableInstances, GADTs,
OverlappingInstances #-}
--------------------------------------------------------------------------------
-- |
-- Module : Examples.Multi.Eval
-- Copyright : (c) 2011 Patrick Bahr, Tom Hvitved
-- License : BSD3
-- Maintainer : Tom Hvitved <hvitved@diku.dk>
-- Stability : experimental
-- Portability : non-portable (GHC Extensions)
--
-- Expression Evaluation
--
-- The example illustrates how to use generalised compositional data types
-- to implement a small expression language, with a sub language of values, and
-- an evaluation function mapping expressions to values.
--
--------------------------------------------------------------------------------
module Examples.Multi.Eval where
import Data.Comp.Multi
import Data.Comp.Multi.Derive
import Examples.Multi.Common
-- Term evaluation algebra
class Eval f v where
evalAlg :: Alg f (Term v)
$(derive [liftSum] [''Eval])
-- Lift the evaluation algebra to a catamorphism
eval :: (HFunctor f, Eval f v) => Term f :-> Term v
eval = cata evalAlg
instance (f :<: v) => Eval f v where
evalAlg = inject -- default instance
instance (Value :<: v) => Eval Op v where
evalAlg (Add x y) = iConst $ projC x + projC y
evalAlg (Mult x y) = iConst $ projC x * projC y
evalAlg (Fst x) = fst $ projP x
evalAlg (Snd x) = snd $ projP x
projC :: (Value :<: v) => Term v Int -> Int
projC v = case project v of Just (Const n) -> n
projP :: (Value :<: v) => Term v (s,t) -> (Term v s, Term v t)
projP v = case project v of Just (Pair x y) -> (x,y)
-- Example: evalEx = iConst 2
evalEx :: Term Value Int
evalEx = eval (iFst $ iPair (iConst 2) (iConst 1) :: Term Sig Int)