syntactic-0.2: Examples/MuFeldspar/Vector.hs
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeOperators #-}
module MuFeldspar.Vector where
import Prelude hiding (length, map, max, min, reverse, sum, unzip, zip, zipWith)
import qualified Prelude
import Language.Syntactic
import Language.Syntactic.Features.Binding.HigherOrder
import MuFeldspar.Core
data Vector a
where
Indexed :: Data Length -> (Data Index -> a) -> Vector a
instance Syntax a =>
Syntactic (Vector a) (HOLambda FeldDomain :+: Variable :+: FeldDomain)
where
type Internal (Vector a) = [Internal a]
desugar = desugar . freezeVector . map resugar
sugar = map resugar . unfreezeVector . sugar
length :: Vector a -> Data Length
length (Indexed len _) = len
indexed :: Data Length -> (Data Index -> a) -> Vector a
indexed = Indexed
index :: Vector a -> Data Index -> a
index (Indexed _ ixf) = ixf
freezeVector :: Type a => Vector (Data a) -> Data [a]
freezeVector vec = parallel (length vec) (index vec)
unfreezeVector :: Type a => Data [a] -> Vector (Data a)
unfreezeVector arr = Indexed (arrLength arr) (getIx arr)
zip :: Vector a -> Vector b -> Vector (a,b)
zip a b = indexed (length a `min` length b) (\i -> (index a i, index b i))
unzip :: Vector (a,b) -> (Vector a, Vector b)
unzip ab = (indexed len (fst . index ab), indexed len (snd . index ab))
where
len = length ab
permute :: (Data Length -> Data Index -> Data Index) -> (Vector a -> Vector a)
permute perm vec = indexed len (index vec . perm len)
where
len = length vec
reverse :: Vector a -> Vector a
reverse = permute $ \len i -> len-i-1
(...) :: Data Index -> Data Index -> Vector (Data Index)
l ... h = indexed (h-l+1) (+l)
map :: (a -> b) -> Vector a -> Vector b
map f (Indexed len ixf) = Indexed len (f . ixf)
zipWith :: (a -> b -> c) -> Vector a -> Vector b -> Vector c
zipWith f a b = map (uncurry f) $ zip a b
fold :: Syntax b => (a -> b -> b) -> b -> Vector a -> b
fold f b (Indexed len ixf) = forLoop len b (\i st -> f (ixf i) st)
sum :: (Type a, Num a) => Vector (Data a) -> Data a
sum = fold (+) 0