mirror of
https://github.com/idris-lang/Idris2.git
synced 2024-12-21 02:31:50 +03:00
339 lines
10 KiB
Idris
339 lines
10 KiB
Idris
module Data.SortedMap
|
|
|
|
-- TODO: write split
|
|
|
|
private
|
|
data Tree : Nat -> (k : Type) -> Type -> Ord k -> Type where
|
|
Leaf : k -> v -> Tree Z k v o
|
|
Branch2 : Tree n k v o -> k -> Tree n k v o -> Tree (S n) k v o
|
|
Branch3 : Tree n k v o -> k -> Tree n k v o -> k -> Tree n k v o -> Tree (S n) k v o
|
|
|
|
branch4 :
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o ->
|
|
Tree (S (S n)) k v o
|
|
branch4 a b c d e f g =
|
|
Branch2 (Branch2 a b c) d (Branch2 e f g)
|
|
|
|
branch5 :
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o ->
|
|
Tree (S (S n)) k v o
|
|
branch5 a b c d e f g h i =
|
|
Branch2 (Branch2 a b c) d (Branch3 e f g h i)
|
|
|
|
branch6 :
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o ->
|
|
Tree (S (S n)) k v o
|
|
branch6 a b c d e f g h i j k =
|
|
Branch3 (Branch2 a b c) d (Branch2 e f g) h (Branch2 i j k)
|
|
|
|
branch7 :
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o -> k ->
|
|
Tree n k v o ->
|
|
Tree (S (S n)) k v o
|
|
branch7 a b c d e f g h i j k l m =
|
|
Branch3 (Branch3 a b c d e) f (Branch2 g h i) j (Branch2 k l m)
|
|
|
|
merge1 : Tree n k v o -> k -> Tree (S n) k v o -> k -> Tree (S n) k v o -> Tree (S (S n)) k v o
|
|
merge1 a b (Branch2 c d e) f (Branch2 g h i) = branch5 a b c d e f g h i
|
|
merge1 a b (Branch2 c d e) f (Branch3 g h i j k) = branch6 a b c d e f g h i j k
|
|
merge1 a b (Branch3 c d e f g) h (Branch2 i j k) = branch6 a b c d e f g h i j k
|
|
merge1 a b (Branch3 c d e f g) h (Branch3 i j k l m) = branch7 a b c d e f g h i j k l m
|
|
|
|
merge2 : Tree (S n) k v o -> k -> Tree n k v o -> k -> Tree (S n) k v o -> Tree (S (S n)) k v o
|
|
merge2 (Branch2 a b c) d e f (Branch2 g h i) = branch5 a b c d e f g h i
|
|
merge2 (Branch2 a b c) d e f (Branch3 g h i j k) = branch6 a b c d e f g h i j k
|
|
merge2 (Branch3 a b c d e) f g h (Branch2 i j k) = branch6 a b c d e f g h i j k
|
|
merge2 (Branch3 a b c d e) f g h (Branch3 i j k l m) = branch7 a b c d e f g h i j k l m
|
|
|
|
merge3 : Tree (S n) k v o -> k -> Tree (S n) k v o -> k -> Tree n k v o -> Tree (S (S n)) k v o
|
|
merge3 (Branch2 a b c) d (Branch2 e f g) h i = branch5 a b c d e f g h i
|
|
merge3 (Branch2 a b c) d (Branch3 e f g h i) j k = branch6 a b c d e f g h i j k
|
|
merge3 (Branch3 a b c d e) f (Branch2 g h i) j k = branch6 a b c d e f g h i j k
|
|
merge3 (Branch3 a b c d e) f (Branch3 g h i j k) l m = branch7 a b c d e f g h i j k l m
|
|
|
|
treeLookup : Ord k => k -> Tree n k v o -> Maybe v
|
|
treeLookup k (Leaf k' v) =
|
|
if k == k' then
|
|
Just v
|
|
else
|
|
Nothing
|
|
treeLookup k (Branch2 t1 k' t2) =
|
|
if k <= k' then
|
|
treeLookup k t1
|
|
else
|
|
treeLookup k t2
|
|
treeLookup k (Branch3 t1 k1 t2 k2 t3) =
|
|
if k <= k1 then
|
|
treeLookup k t1
|
|
else if k <= k2 then
|
|
treeLookup k t2
|
|
else
|
|
treeLookup k t3
|
|
|
|
treeInsert' : Ord k => k -> v -> Tree n k v o -> Either (Tree n k v o) (Tree n k v o, k, Tree n k v o)
|
|
treeInsert' k v (Leaf k' v') =
|
|
case compare k k' of
|
|
LT => Right (Leaf k v, k, Leaf k' v')
|
|
EQ => Left (Leaf k v)
|
|
GT => Right (Leaf k' v', k', Leaf k v)
|
|
treeInsert' k v (Branch2 t1 k' t2) =
|
|
if k <= k' then
|
|
case treeInsert' k v t1 of
|
|
Left t1' => Left (Branch2 t1' k' t2)
|
|
Right (a, b, c) => Left (Branch3 a b c k' t2)
|
|
else
|
|
case treeInsert' k v t2 of
|
|
Left t2' => Left (Branch2 t1 k' t2')
|
|
Right (a, b, c) => Left (Branch3 t1 k' a b c)
|
|
treeInsert' k v (Branch3 t1 k1 t2 k2 t3) =
|
|
if k <= k1 then
|
|
case treeInsert' k v t1 of
|
|
Left t1' => Left (Branch3 t1' k1 t2 k2 t3)
|
|
Right (a, b, c) => Right (Branch2 a b c, k1, Branch2 t2 k2 t3)
|
|
else
|
|
if k <= k2 then
|
|
case treeInsert' k v t2 of
|
|
Left t2' => Left (Branch3 t1 k1 t2' k2 t3)
|
|
Right (a, b, c) => Right (Branch2 t1 k1 a, b, Branch2 c k2 t3)
|
|
else
|
|
case treeInsert' k v t3 of
|
|
Left t3' => Left (Branch3 t1 k1 t2 k2 t3')
|
|
Right (a, b, c) => Right (Branch2 t1 k1 t2, k2, Branch2 a b c)
|
|
|
|
treeInsert : Ord k => k -> v -> Tree n k v o -> Either (Tree n k v o) (Tree (S n) k v o)
|
|
treeInsert k v t =
|
|
case treeInsert' k v t of
|
|
Left t' => Left t'
|
|
Right (a, b, c) => Right (Branch2 a b c)
|
|
|
|
delType : Nat -> (k : Type) -> Type -> Ord k -> Type
|
|
delType Z k v o = ()
|
|
delType (S n) k v o = Tree n k v o
|
|
|
|
treeDelete : Ord k => (n : Nat) -> k -> Tree n k v o -> Either (Tree n k v o) (delType n k v o)
|
|
treeDelete _ k (Leaf k' v) =
|
|
if k == k' then
|
|
Right ()
|
|
else
|
|
Left (Leaf k' v)
|
|
treeDelete (S Z) k (Branch2 t1 k' t2) =
|
|
if k <= k' then
|
|
case treeDelete Z k t1 of
|
|
Left t1' => Left (Branch2 t1' k' t2)
|
|
Right () => Right t2
|
|
else
|
|
case treeDelete Z k t2 of
|
|
Left t2' => Left (Branch2 t1 k' t2')
|
|
Right () => Right t1
|
|
treeDelete (S Z) k (Branch3 t1 k1 t2 k2 t3) =
|
|
if k <= k1 then
|
|
case treeDelete Z k t1 of
|
|
Left t1' => Left (Branch3 t1' k1 t2 k2 t3)
|
|
Right () => Left (Branch2 t2 k2 t3)
|
|
else if k <= k2 then
|
|
case treeDelete Z k t2 of
|
|
Left t2' => Left (Branch3 t1 k1 t2' k2 t3)
|
|
Right () => Left (Branch2 t1 k1 t3)
|
|
else
|
|
case treeDelete Z k t3 of
|
|
Left t3' => Left (Branch3 t1 k1 t2 k2 t3')
|
|
Right () => Left (Branch2 t1 k1 t2)
|
|
treeDelete (S (S n)) k (Branch2 t1 k' t2) =
|
|
if k <= k' then
|
|
case treeDelete (S n) k t1 of
|
|
Left t1' => Left (Branch2 t1' k' t2)
|
|
Right t1' =>
|
|
case t2 of
|
|
Branch2 a b c => Right (Branch3 t1' k' a b c)
|
|
Branch3 a b c d e => Left (branch4 t1' k' a b c d e)
|
|
else
|
|
case treeDelete (S n) k t2 of
|
|
Left t2' => Left (Branch2 t1 k' t2')
|
|
Right t2' =>
|
|
case t1 of
|
|
Branch2 a b c => Right (Branch3 a b c k' t2')
|
|
Branch3 a b c d e => Left (branch4 a b c d e k' t2')
|
|
treeDelete (S (S n)) k (Branch3 t1 k1 t2 k2 t3) =
|
|
if k <= k1 then
|
|
case treeDelete (S n) k t1 of
|
|
Left t1' => Left (Branch3 t1' k1 t2 k2 t3)
|
|
Right t1' => Left (merge1 t1' k1 t2 k2 t3)
|
|
else if k <= k2 then
|
|
case treeDelete (S n) k t2 of
|
|
Left t2' => Left (Branch3 t1 k1 t2' k2 t3)
|
|
Right t2' => Left (merge2 t1 k1 t2' k2 t3)
|
|
else
|
|
case treeDelete (S n) k t3 of
|
|
Left t3' => Left (Branch3 t1 k1 t2 k2 t3')
|
|
Right t3' => Left (merge3 t1 k1 t2 k2 t3')
|
|
|
|
treeToList : Tree n k v o -> List (k, v)
|
|
treeToList = treeToList' (:: [])
|
|
where
|
|
-- explicit quantification to avoid conflation with {n} from treeToList
|
|
treeToList' : {0 n : Nat} -> ((k, v) -> List (k, v)) -> Tree n k v o -> List (k, v)
|
|
treeToList' cont (Leaf k v) = cont (k, v)
|
|
treeToList' cont (Branch2 t1 _ t2) = treeToList' (:: treeToList' cont t2) t1
|
|
treeToList' cont (Branch3 t1 _ t2 _ t3) = treeToList' (:: treeToList' (:: treeToList' cont t3) t2) t1
|
|
|
|
export
|
|
data SortedMap : Type -> Type -> Type where
|
|
Empty : Ord k => SortedMap k v
|
|
M : (o : Ord k) => (n:Nat) -> Tree n k v o -> SortedMap k v
|
|
|
|
export
|
|
empty : Ord k => SortedMap k v
|
|
empty = Empty
|
|
|
|
export
|
|
lookup : k -> SortedMap k v -> Maybe v
|
|
lookup _ Empty = Nothing
|
|
lookup k (M _ t) = treeLookup k t
|
|
|
|
export
|
|
insert : k -> v -> SortedMap k v -> SortedMap k v
|
|
insert k v Empty = M Z (Leaf k v)
|
|
insert k v (M _ t) =
|
|
case treeInsert k v t of
|
|
Left t' => (M _ t')
|
|
Right t' => (M _ t')
|
|
|
|
export
|
|
singleton : Ord k => k -> v -> SortedMap k v
|
|
singleton k v = insert k v empty
|
|
|
|
export
|
|
insertFrom : Foldable f => f (k, v) -> SortedMap k v -> SortedMap k v
|
|
insertFrom = flip $ foldl $ flip $ uncurry insert
|
|
|
|
export
|
|
delete : k -> SortedMap k v -> SortedMap k v
|
|
delete _ Empty = Empty
|
|
delete k (M Z t) =
|
|
case treeDelete Z k t of
|
|
Left t' => (M _ t')
|
|
Right () => Empty
|
|
delete k (M (S n) t) =
|
|
case treeDelete (S n) k t of
|
|
Left t' => (M _ t')
|
|
Right t' => (M _ t')
|
|
|
|
export
|
|
fromList : Ord k => List (k, v) -> SortedMap k v
|
|
fromList l = foldl (flip (uncurry insert)) empty l
|
|
|
|
export
|
|
toList : SortedMap k v -> List (k, v)
|
|
toList Empty = []
|
|
toList (M _ t) = treeToList t
|
|
|
|
||| Gets the keys of the map.
|
|
export
|
|
keys : SortedMap k v -> List k
|
|
keys = map fst . toList
|
|
|
|
||| Gets the values of the map. Could contain duplicates.
|
|
export
|
|
values : SortedMap k v -> List v
|
|
values = map snd . toList
|
|
|
|
treeMap : (a -> b) -> Tree n k a o -> Tree n k b o
|
|
treeMap f (Leaf k v) = Leaf k (f v)
|
|
treeMap f (Branch2 t1 k t2) = Branch2 (treeMap f t1) k (treeMap f t2)
|
|
treeMap f (Branch3 t1 k1 t2 k2 t3)
|
|
= Branch3 (treeMap f t1) k1 (treeMap f t2) k2 (treeMap f t3)
|
|
|
|
treeTraverse : Applicative f => (a -> f b) -> Tree n k a o -> f (Tree n k b o)
|
|
treeTraverse f (Leaf k v) = Leaf k <$> f v
|
|
treeTraverse f (Branch2 t1 k t2) =
|
|
Branch2
|
|
<$> treeTraverse f t1
|
|
<*> pure k
|
|
<*> treeTraverse f t2
|
|
treeTraverse f (Branch3 t1 k1 t2 k2 t3) =
|
|
Branch3
|
|
<$> treeTraverse f t1
|
|
<*> pure k1
|
|
<*> treeTraverse f t2
|
|
<*> pure k2
|
|
<*> treeTraverse f t3
|
|
|
|
export
|
|
implementation Functor (SortedMap k) where
|
|
map _ Empty = Empty
|
|
map f (M n t) = M _ (treeMap f t)
|
|
|
|
export
|
|
implementation Foldable (SortedMap k) where
|
|
foldr f z = foldr f z . values
|
|
|
|
null Empty = True
|
|
null (M _ _) = False
|
|
|
|
export
|
|
implementation Traversable (SortedMap k) where
|
|
traverse _ Empty = pure Empty
|
|
traverse f (M n t) = M _ <$> treeTraverse f t
|
|
|
|
||| Merge two maps. When encountering duplicate keys, using a function to combine the values.
|
|
||| Uses the ordering of the first map given.
|
|
export
|
|
mergeWith : (v -> v -> v) -> SortedMap k v -> SortedMap k v -> SortedMap k v
|
|
mergeWith f x y = insertFrom inserted x where
|
|
inserted : List (k, v)
|
|
inserted = do
|
|
(k, v) <- toList y
|
|
let v' = (maybe id f $ lookup k x) v
|
|
pure (k, v')
|
|
|
|
||| Merge two maps using the Semigroup (and by extension, Monoid) operation.
|
|
||| Uses mergeWith internally, so the ordering of the left map is kept.
|
|
export
|
|
merge : Semigroup v => SortedMap k v -> SortedMap k v -> SortedMap k v
|
|
merge = mergeWith (<+>)
|
|
|
|
||| Left-biased merge, also keeps the ordering specified by the left map.
|
|
export
|
|
mergeLeft : SortedMap k v -> SortedMap k v -> SortedMap k v
|
|
mergeLeft = mergeWith const
|
|
|
|
export
|
|
(Show k, Show v) => Show (SortedMap k v) where
|
|
show m = "fromList " ++ (show $ toList m)
|
|
|
|
export
|
|
(Eq k, Eq v) => Eq (SortedMap k v) where
|
|
(==) = (==) `on` toList
|
|
|
|
-- TODO: is this the right variant of merge to use for this? I think it is, but
|
|
-- I could also see the advantages of using `mergeLeft`. The current approach is
|
|
-- strictly more powerful I believe, because `mergeLeft` can be emulated with
|
|
-- the `First` monoid. However, this does require more code to do the same
|
|
-- thing.
|
|
export
|
|
Semigroup v => Semigroup (SortedMap k v) where
|
|
(<+>) = merge
|
|
|
|
||| For `neutral <+> y`, y is rebuilt in `Ord k`, so this is not a "strict" Monoid.
|
|
||| However, semantically, it should be equal.
|
|
export
|
|
(Ord k, Semigroup v) => Monoid (SortedMap k v) where
|
|
neutral = empty
|