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Data.Tree | Portability | portable | Stability | experimental | Maintainer | libraries@haskell.org |
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Description |
Multi-way trees (aka rose trees) and forests.
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Synopsis |
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Documentation |
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data Tree a |
Multi-way trees, also known as rose trees.
| Constructors | Node | | rootLabel :: a | label value
| subForest :: (Forest a) | zero or more child trees
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| Instances | |
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type Forest a = [Tree a] |
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Two-dimensional drawing
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drawTree :: Tree String -> String |
Neat 2-dimensional drawing of a tree.
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drawForest :: Forest String -> String |
Neat 2-dimensional drawing of a forest.
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Extraction
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flatten :: Tree a -> [a] |
The elements of a tree in pre-order.
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levels :: Tree a -> [[a]] |
Lists of nodes at each level of the tree.
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Building trees
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unfoldTree :: (b -> (a, [b])) -> b -> Tree a |
Build a tree from a seed value
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unfoldForest :: (b -> (a, [b])) -> [b] -> Forest a |
Build a forest from a list of seed values
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unfoldTreeM :: Monad m => (b -> m (a, [b])) -> b -> m (Tree a) |
Monadic tree builder, in depth-first order
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unfoldForestM :: Monad m => (b -> m (a, [b])) -> [b] -> m (Forest a) |
Monadic forest builder, in depth-first order
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unfoldTreeM_BF :: Monad m => (b -> m (a, [b])) -> b -> m (Tree a) |
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.
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unfoldForestM_BF :: Monad m => (b -> m (a, [b])) -> [b] -> m (Forest a) |
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.
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Produced by Haddock version 0.7 |