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147 lines
3.8 KiB
Idris
147 lines
3.8 KiB
Idris
module Data.SortedMap
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import Data.SortedMap.Dependent
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%hide Prelude.toList
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export
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record SortedMap k v where
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constructor M
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unM : SortedDMap k $ const v
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-- Helper function
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unDPair : (x : a ** const b x) -> (a, b)
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unDPair (k ** v) = (k, v)
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export
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empty : Ord k => SortedMap k v
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empty = M empty
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export
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lookup : k -> SortedMap k v -> Maybe v
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lookup k = map snd . lookup k . unM
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export
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insert : k -> v -> SortedMap k v -> SortedMap k v
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insert k v = M . insert k v . unM
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export
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singleton : Ord k => k -> v -> SortedMap k v
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singleton = M .: singleton
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export
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insertFrom : Foldable f => f (k, v) -> SortedMap k v -> SortedMap k v
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insertFrom = flip $ foldl $ flip $ uncurry insert
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export
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delete : k -> SortedMap k v -> SortedMap k v
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delete k = M . delete k . unM
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export
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fromList : Ord k => List (k, v) -> SortedMap k v
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fromList = flip insertFrom empty
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export
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toList : SortedMap k v -> List (k, v)
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toList = map unDPair . toList . unM
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||| Gets the keys of the map.
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export
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keys : SortedMap k v -> List k
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keys = map fst . toList
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||| Gets the values of the map. Could contain duplicates.
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export
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values : SortedMap k v -> List v
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values = map snd . toList
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export
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implementation Functor (SortedMap k) where
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map f = M . map f . unM
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export
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implementation Foldable (SortedMap k) where
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foldr f z = foldr f z . values
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foldl f z = foldl f z . values
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null = null . unM
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foldMap f = foldMap f . values
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export
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implementation Traversable (SortedMap k) where
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traverse f = map M . traverse f . unM
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||| Merge two maps. When encountering duplicate keys, using a function to combine the values.
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||| Uses the ordering of the first map given.
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export
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mergeWith : (v -> v -> v) -> SortedMap k v -> SortedMap k v -> SortedMap k v
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mergeWith f x y = insertFrom inserted x where
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inserted : List (k, v)
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inserted = do
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(k, v) <- toList y
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let v' = (maybe id f $ lookup k x) v
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pure (k, v')
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||| Merge two maps using the Semigroup (and by extension, Monoid) operation.
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||| Uses mergeWith internally, so the ordering of the left map is kept.
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export
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merge : Semigroup v => SortedMap k v -> SortedMap k v -> SortedMap k v
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merge = mergeWith (<+>)
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||| Left-biased merge, also keeps the ordering specified by the left map.
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export
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mergeLeft : SortedMap k v -> SortedMap k v -> SortedMap k v
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mergeLeft = mergeWith const
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||| looks up a key in map, returning the left and right closest values, so that
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||| k1 <= k < k2. If at the end of the beginning and/or end of the sorted map, returns
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||| nothing appropriately
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export
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lookupBetween : key -> SortedMap key val -> (Maybe (key,val), Maybe (key,val))
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lookupBetween k = bimap (map unDPair) (map unDPair) . lookupBetween k . unM
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||| Returns the leftmost (least) key and value
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export
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leftMost : SortedMap key val -> Maybe (key,val)
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leftMost = map unDPair . leftMost . unM
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||| Returns the rightmost (greatest) key and value
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export
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rightMost : SortedMap key val -> Maybe (key,val)
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rightMost = map unDPair . rightMost . unM
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export
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(Show k, Show v) => Show (SortedMap k v) where
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show m = "fromList " ++ (show $ toList m)
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export
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(Eq k, Eq v) => Eq (SortedMap k v) where
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(==) = (==) `on` toList
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-- TODO: is this the right variant of merge to use for this? I think it is, but
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-- I could also see the advantages of using `mergeLeft`. The current approach is
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-- strictly more powerful I believe, because `mergeLeft` can be emulated with
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-- the `First` monoid. However, this does require more code to do the same
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-- thing.
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export
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Semigroup v => Semigroup (SortedMap k v) where
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(<+>) = merge
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||| For `neutral <+> y`, y is rebuilt in `Ord k`, so this is not a "strict" Monoid.
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||| However, semantically, it should be equal.
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export
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(Ord k, Semigroup v) => Monoid (SortedMap k v) where
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neutral = empty
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export %inline
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Cast (SortedDMap k (const v)) (SortedMap k v) where
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cast = M
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export %inline
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Cast (SortedMap k v) (SortedDMap k (const v)) where
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cast = unM
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