drawTree, drawForest,
-- * Extraction
flatten, levels,
+ -- * Building trees
+ unfoldTree, unfoldForest,
+ unfoldTreeM, unfoldForestM,
+ unfoldTreeM_BF, unfoldForestM_BF,
) where
#ifdef __HADDOCK__
import Prelude
#endif
+import Control.Applicative (Applicative(..), (<$>))
+import Control.Monad
+import Data.Monoid (Monoid(..))
+import Data.Sequence (Seq, empty, singleton, (<|), (|>), fromList,
+ ViewL(..), ViewR(..), viewl, viewr)
+import Data.Foldable (Foldable(foldMap), toList)
+import Data.Traversable (Traversable(traverse))
+import Data.Typeable
+
+#ifdef __GLASGOW_HASKELL__
+import Data.Generics.Basics (Data)
+#endif
+
-- | Multi-way trees, also known as /rose trees/.
-data Tree a = Node a (Forest a) -- ^ a value and zero or more child trees.
+data Tree a = Node {
+ rootLabel :: a, -- ^ label value
+ subForest :: Forest a -- ^ zero or more child trees
+ }
#ifndef __HADDOCK__
+# ifdef __GLASGOW_HASKELL__
+ deriving (Eq, Read, Show, Data)
+# else
deriving (Eq, Read, Show)
+# endif
#else /* __HADDOCK__ (which can't figure these out by itself) */
instance Eq a => Eq (Tree a)
instance Read a => Read (Tree a)
instance Show a => Show (Tree a)
+instance Data a => Data (Tree a)
#endif
type Forest a = [Tree a]
+#include "Typeable.h"
+INSTANCE_TYPEABLE1(Tree,treeTc,"Tree")
+
instance Functor Tree where
- fmap = mapTree
+ fmap f (Node x ts) = Node (f x) (map (fmap f) ts)
-mapTree :: (a -> b) -> (Tree a -> Tree b)
-mapTree f (Node x ts) = Node (f x) (map (mapTree f) ts)
+instance Traversable Tree where
+ traverse f (Node x ts) = Node <$> f x <*> traverse (traverse f) ts
+
+instance Foldable Tree where
+ foldMap f (Node x ts) = f x `mappend` foldMap (foldMap f) ts
-- | Neat 2-dimensional drawing of a tree.
drawTree :: Tree String -> String
-- | Lists of nodes at each level of the tree.
levels :: Tree a -> [[a]]
-levels t = map (map root) $ takeWhile (not . null) $ iterate subforest [t]
- where root (Node x _) = x
- subforest f = [t | Node _ ts <- f, t <- ts]
+levels t = map (map rootLabel) $
+ takeWhile (not . null) $
+ iterate (concatMap subForest) [t]
+
+-- | Build a tree from a seed value
+unfoldTree :: (b -> (a, [b])) -> b -> Tree a
+unfoldTree f b = let (a, bs) = f b in Node a (unfoldForest f bs)
+
+-- | Build a forest from a list of seed values
+unfoldForest :: (b -> (a, [b])) -> [b] -> Forest a
+unfoldForest f = map (unfoldTree f)
+
+-- | Monadic tree builder, in depth-first order
+unfoldTreeM :: Monad m => (b -> m (a, [b])) -> b -> m (Tree a)
+unfoldTreeM f b = do
+ (a, bs) <- f b
+ ts <- unfoldForestM f bs
+ return (Node a ts)
+
+-- | Monadic forest builder, in depth-first order
+#ifndef __NHC__
+unfoldForestM :: Monad m => (b -> m (a, [b])) -> [b] -> m (Forest a)
+#endif
+unfoldForestM f = mapM (unfoldTreeM f)
+
+-- | Monadic tree builder, in breadth-first order,
+-- using an algorithm adapted from
+-- /Breadth-First Numbering: Lessons from a Small Exercise in Algorithm Design/,
+-- by Chris Okasaki, /ICFP'00/.
+unfoldTreeM_BF :: Monad m => (b -> m (a, [b])) -> b -> m (Tree a)
+unfoldTreeM_BF f b = liftM getElement $ unfoldForestQ f (singleton b)
+ where getElement xs = case viewl xs of
+ x :< _ -> x
+ EmptyL -> error "unfoldTreeM_BF"
+
+-- | Monadic forest builder, in breadth-first order,
+-- using an algorithm adapted from
+-- /Breadth-First Numbering: Lessons from a Small Exercise in Algorithm Design/,
+-- by Chris Okasaki, /ICFP'00/.
+unfoldForestM_BF :: Monad m => (b -> m (a, [b])) -> [b] -> m (Forest a)
+unfoldForestM_BF f = liftM toList . unfoldForestQ f . fromList
+
+-- takes a sequence (queue) of seeds
+-- produces a sequence (reversed queue) of trees of the same length
+unfoldForestQ :: Monad m => (b -> m (a, [b])) -> Seq b -> m (Seq (Tree a))
+unfoldForestQ f aQ = case viewl aQ of
+ EmptyL -> return empty
+ a :< aQ -> do
+ (b, as) <- f a
+ tQ <- unfoldForestQ f (foldl (|>) aQ as)
+ let (tQ', ts) = splitOnto [] as tQ
+ return (Node b ts <| tQ')
+ where splitOnto :: [a'] -> [b'] -> Seq a' -> (Seq a', [a'])
+ splitOnto as [] q = (q, as)
+ splitOnto as (_:bs) q = case viewr q of
+ q' :> a -> splitOnto (a:as) bs q'
+ EmptyR -> error "unfoldForestQ"
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