Mercurial > hg > Members > atton > similar_monad
view similar.hs @ 17:279ebcf670c4
Define Similar as Applicative
| author | Yasutaka Higa <e115763@ie.u-ryukyu.ac.jp> |
|---|---|
| date | Tue, 09 Sep 2014 16:21:22 +0900 |
| parents | 4b315cf0edb9 |
| children | c77397d0677f |
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import Control.Applicative data Similar a = Single a | Similar a (Similar a) deriving (Show) instance (Eq a) => Eq (Similar a) where s == ss = (same s) == (same ss) same :: (Eq a) => Similar a -> a same (Single x) = x same (Similar x s) = if x == (same s) then x else (error "same") value :: Similar a -> a value (Single x) = x value (Similar x s) = value s similar :: Similar a -> Similar a -> Similar a similar (Single x) ss = Similar x ss similar (Similar x s) ss = Similar x (similar s ss) instance Functor Similar where fmap f (Single a) = Single (f a) fmap f (Similar a s) = Similar (f a) (fmap f s) instance Applicative Similar where pure = Single (Single f) <*> s = fmap f s (Similar f s) <*> ss = similar (fmap f ss) (s <*> ss) mu :: (Similar (Similar a)) -> Similar a mu (Single s) = s mu (Similar s ss) = similar s (mu ss) instance Monad Similar where return = Single (Single x) >>= f = f x (Similar x s) >>= f = mu $ Similar (f x) (fmap f s) -- samples double :: Int -> Similar Int double x = Single (2 * x) twicePlus :: Int -> Similar Int twicePlus x = Similar (x + x) (double x) plusTwo :: Int -> Similar Int plusTwo x = Similar (x + 2) (double x) -- samples {- - Similar as Functor *Main> fmap (double ) (Single 1) Single (Single 2) *Main> fmap (twicePlus) (Single 1) Single (Similar 2 (Single 2)) *Main> fmap (plusTwo) (Single 1) Single (Similar 3 (Single 2)) *Main> fmap (fmap double) (fmap (plusTwo ) (Single 1)) Single (Similar (Single 6) (Single (Single 4))) *Main> same $ fmap same $ fmap (fmap double) (fmap (plusTwo ) (Single 1)) *** Exception: same *Main> same $ fmap same $ fmap (fmap double) (fmap (plusTwo ) (Single 2)) Single 8 - Similar as Applicative Functor *Main> Single (\x -> x * x) <*> Single 100 Single 10000 *Main> Similar (\x -> x * x) (Single (\x -> x * 3)) <*> Single 100 Similar 10000 (Single 300) *Main> Similar (\x -> x * x) (Single (\x -> x * 3)) <*> (Similar 100 (Single 200)) Similar 10000 (Similar 40000 (Similar 300 (Single 600))) - Similar as Monad *Main> return 100 >>= double >>= twicePlus Similar 400 (Single 400) *Main> return 100 >>= double >>= twicePlus >>= plusTwo Similar 402 (Similar 800 (Similar 402 (Single 800))) *Main> same $ return 100 >>= double >>= twicePlus >>= plusTwo *** Exception: same *Main> same $ return 100 >>= double >>= twicePlus 400 *Main> same $ return 100 >>= double >>= twicePlus 400 *Main> same $ return 100 >>= double >>= twicePlus >>= plusTwo *** Exception: same *Main> value $ return 100 >>= double >>= twicePlus >>= plusTwo 800 -}