Copyright	Copyright (c) 2002 2008 Andrew Bromage
License	MIT; see COPYRIGHT file for terms and conditions
Maintainer	robdockins AT fastmail DOT fm
Stability	stable
Portability	GHC, Hugs (MPTC and FD)
Safe Haskell	None
Language	Haskell2010

Data.Edison.Assoc.TernaryTrie

Contents

Type of ternary search tries
AssocX operations
Assoc operations
FiniteMapX operations
FiniteMap operations
OrdAssocX operations
OrdAssoc operations
Other supported operations
Documentation

Description

Finite maps implemented as ternary search tries

Synopsis

Type of ternary search tries

data FM k a Source #

Instances

Ord k => Functor (FM k) Source #
Methods fmap :: (a -> b) -> FM k a -> FM k b # (<$) :: a -> FM k b -> FM k a #
Ord k => AssocX (FM k) [k] Source #
Methods empty :: FM k a # singleton :: [k] -> a -> FM k a # fromSeq :: Sequence seq => seq ([k], a) -> FM k a # insert :: [k] -> a -> FM k a -> FM k a # insertSeq :: Sequence seq => seq ([k], a) -> FM k a -> FM k a # union :: FM k a -> FM k a -> FM k a # unionSeq :: Sequence seq => seq (FM k a) -> FM k a # delete :: [k] -> FM k a -> FM k a # deleteAll :: [k] -> FM k a -> FM k a # deleteSeq :: Sequence seq => seq [k] -> FM k a -> FM k a # null :: FM k a -> Bool # size :: FM k a -> Int # member :: [k] -> FM k a -> Bool # count :: [k] -> FM k a -> Int # lookup :: [k] -> FM k a -> a # lookupM :: Monad rm => [k] -> FM k a -> rm a # lookupAll :: Sequence seq => [k] -> FM k a -> seq a # lookupAndDelete :: [k] -> FM k a -> (a, FM k a) # lookupAndDeleteM :: Monad rm => [k] -> FM k a -> rm (a, FM k a) # lookupAndDeleteAll :: Sequence seq => [k] -> FM k a -> (seq a, FM k a) # lookupWithDefault :: a -> [k] -> FM k a -> a # adjust :: (a -> a) -> [k] -> FM k a -> FM k a # adjustAll :: (a -> a) -> [k] -> FM k a -> FM k a # adjustOrInsert :: (a -> a) -> a -> [k] -> FM k a -> FM k a # adjustAllOrInsert :: (a -> a) -> a -> [k] -> FM k a -> FM k a # adjustOrDelete :: (a -> Maybe a) -> [k] -> FM k a -> FM k a # adjustOrDeleteAll :: (a -> Maybe a) -> [k] -> FM k a -> FM k a # fold :: (a -> b -> b) -> b -> FM k a -> b # fold' :: (a -> b -> b) -> b -> FM k a -> b # fold1 :: (a -> a -> a) -> FM k a -> a # fold1' :: (a -> a -> a) -> FM k a -> a # filter :: (a -> Bool) -> FM k a -> FM k a # partition :: (a -> Bool) -> FM k a -> (FM k a, FM k a) # elements :: Sequence seq => FM k a -> seq a # strict :: FM k a -> FM k a # strictWith :: (a -> b) -> FM k a -> FM k a # structuralInvariant :: FM k a -> Bool # instanceName :: FM k a -> String #
Ord k => OrdAssocX (FM k) [k] Source #
Methods minView :: Monad rm => FM k a -> rm (a, FM k a) # minElem :: FM k a -> a # deleteMin :: FM k a -> FM k a # unsafeInsertMin :: [k] -> a -> FM k a -> FM k a # maxView :: Monad rm => FM k a -> rm (a, FM k a) # maxElem :: FM k a -> a # deleteMax :: FM k a -> FM k a # unsafeInsertMax :: [k] -> a -> FM k a -> FM k a # foldr :: (a -> b -> b) -> b -> FM k a -> b # foldr' :: (a -> b -> b) -> b -> FM k a -> b # foldl :: (b -> a -> b) -> b -> FM k a -> b # foldl' :: (b -> a -> b) -> b -> FM k a -> b # foldr1 :: (a -> a -> a) -> FM k a -> a # foldr1' :: (a -> a -> a) -> FM k a -> a # foldl1 :: (a -> a -> a) -> FM k a -> a # foldl1' :: (a -> a -> a) -> FM k a -> a # unsafeFromOrdSeq :: Sequence seq => seq ([k], a) -> FM k a # unsafeAppend :: FM k a -> FM k a -> FM k a # filterLT :: [k] -> FM k a -> FM k a # filterLE :: [k] -> FM k a -> FM k a # filterGT :: [k] -> FM k a -> FM k a # filterGE :: [k] -> FM k a -> FM k a # partitionLT_GE :: [k] -> FM k a -> (FM k a, FM k a) # partitionLE_GT :: [k] -> FM k a -> (FM k a, FM k a) # partitionLT_GT :: [k] -> FM k a -> (FM k a, FM k a) #
Ord k => FiniteMapX (FM k) [k] Source #
Methods fromSeqWith :: Sequence seq => (a -> a -> a) -> seq ([k], a) -> FM k a # fromSeqWithKey :: Sequence seq => ([k] -> a -> a -> a) -> seq ([k], a) -> FM k a # insertWith :: (a -> a -> a) -> [k] -> a -> FM k a -> FM k a # insertWithKey :: ([k] -> a -> a -> a) -> [k] -> a -> FM k a -> FM k a # insertSeqWith :: Sequence seq => (a -> a -> a) -> seq ([k], a) -> FM k a -> FM k a # insertSeqWithKey :: Sequence seq => ([k] -> a -> a -> a) -> seq ([k], a) -> FM k a -> FM k a # unionl :: FM k a -> FM k a -> FM k a # unionr :: FM k a -> FM k a -> FM k a # unionWith :: (a -> a -> a) -> FM k a -> FM k a -> FM k a # unionSeqWith :: Sequence seq => (a -> a -> a) -> seq (FM k a) -> FM k a # intersectionWith :: (a -> b -> c) -> FM k a -> FM k b -> FM k c # difference :: FM k a -> FM k b -> FM k a # properSubset :: FM k a -> FM k b -> Bool # subset :: FM k a -> FM k b -> Bool # submapBy :: (a -> a -> Bool) -> FM k a -> FM k a -> Bool # properSubmapBy :: (a -> a -> Bool) -> FM k a -> FM k a -> Bool # sameMapBy :: (a -> a -> Bool) -> FM k a -> FM k a -> Bool #
Ord k => OrdFiniteMapX (FM k) [k] Source #

Ord k => Assoc (FM k) [k] Source #
Methods toSeq :: Sequence seq => FM k a -> seq ([k], a) # keys :: Sequence seq => FM k a -> seq [k] # mapWithKey :: ([k] -> a -> b) -> FM k a -> FM k b # foldWithKey :: ([k] -> a -> b -> b) -> b -> FM k a -> b # foldWithKey' :: ([k] -> a -> b -> b) -> b -> FM k a -> b # filterWithKey :: ([k] -> a -> Bool) -> FM k a -> FM k a # partitionWithKey :: ([k] -> a -> Bool) -> FM k a -> (FM k a, FM k a) #
Ord k => OrdAssoc (FM k) [k] Source #
Methods minViewWithKey :: Monad rm => FM k a -> rm (([k], a), FM k a) # minElemWithKey :: FM k a -> ([k], a) # maxViewWithKey :: Monad rm => FM k a -> rm (([k], a), FM k a) # maxElemWithKey :: FM k a -> ([k], a) # foldrWithKey :: ([k] -> a -> b -> b) -> b -> FM k a -> b # foldrWithKey' :: ([k] -> a -> b -> b) -> b -> FM k a -> b # foldlWithKey :: (b -> [k] -> a -> b) -> b -> FM k a -> b # foldlWithKey' :: (b -> [k] -> a -> b) -> b -> FM k a -> b # toOrdSeq :: Sequence seq => FM k a -> seq ([k], a) #
Ord k => FiniteMap (FM k) [k] Source #
Methods unionWithKey :: ([k] -> a -> a -> a) -> FM k a -> FM k a -> FM k a # unionSeqWithKey :: Sequence seq => ([k] -> a -> a -> a) -> seq (FM k a) -> FM k a # intersectionWithKey :: ([k] -> a -> b -> c) -> FM k a -> FM k b -> FM k c #
Ord k => OrdFiniteMap (FM k) [k] Source #

(Ord k, Eq a) => Eq (FM k a) Source #
Methods (==) :: FM k a -> FM k a -> Bool # (/=) :: FM k a -> FM k a -> Bool #
(Ord k, Ord a) => Ord (FM k a) Source #
Methods compare :: FM k a -> FM k a -> Ordering # (<) :: FM k a -> FM k a -> Bool # (<=) :: FM k a -> FM k a -> Bool # (>) :: FM k a -> FM k a -> Bool # (>=) :: FM k a -> FM k a -> Bool # max :: FM k a -> FM k a -> FM k a # min :: FM k a -> FM k a -> FM k a #
(Ord k, Read k, Read a) => Read (FM k a) Source #
Methods readsPrec :: Int -> ReadS (FM k a) # readList :: ReadS [FM k a] # readPrec :: ReadPrec (FM k a) # readListPrec :: ReadPrec [FM k a] #
(Ord k, Show k, Show a) => Show (FM k a) Source #
Methods showsPrec :: Int -> FM k a -> ShowS # show :: FM k a -> String # showList :: [FM k a] -> ShowS #
Ord k => Semigroup (FM k a) Source #
Methods (<>) :: FM k a -> FM k a -> FM k a # sconcat :: NonEmpty (FM k a) -> FM k a # stimes :: Integral b => b -> FM k a -> FM k a #
Ord k => Monoid (FM k a) Source #
Methods mempty :: FM k a # mappend :: FM k a -> FM k a -> FM k a # mconcat :: [FM k a] -> FM k a #
(Ord k, Arbitrary k, Arbitrary a) => Arbitrary (FM k a) Source #
Methods arbitrary :: Gen (FM k a) # shrink :: FM k a -> [FM k a] #
(Ord k, CoArbitrary k, CoArbitrary a) => CoArbitrary (FM k a) Source #
Methods coarbitrary :: FM k a -> Gen b -> Gen b #

AssocX operations

empty :: Ord k => FM k a Source #

singleton :: Ord k => [k] -> a -> FM k a Source #

fromSeq :: (Ord k, Sequence seq) => seq ([k], a) -> FM k a Source #

insert :: Ord k => [k] -> a -> FM k a -> FM k a Source #

insertSeq :: (Ord k, Sequence seq) => seq ([k], a) -> FM k a -> FM k a Source #

union :: Ord k => FM k a -> FM k a -> FM k a Source #

unionSeq :: (Ord k, Sequence seq) => seq (FM k a) -> FM k a Source #

delete :: Ord k => [k] -> FM k a -> FM k a Source #

deleteAll :: Ord k => [k] -> FM k a -> FM k a Source #

deleteSeq :: (Ord k, Sequence seq) => seq [k] -> FM k a -> FM k a Source #

null :: Ord k => FM k a -> Bool Source #

size :: Ord k => FM k a -> Int Source #

member :: Ord k => [k] -> FM k a -> Bool Source #

count :: Ord k => [k] -> FM k a -> Int Source #

lookup :: Ord k => [k] -> FM k a -> a Source #

lookupM :: (Ord k, Monad rm) => [k] -> FM k a -> rm a Source #

lookupAll :: (Ord k, Sequence seq) => [k] -> FM k a -> seq a Source #

lookupAndDelete :: Ord k => [k] -> FM k a -> (a, FM k a) Source #

lookupAndDeleteM :: (Ord k, Monad rm) => [k] -> FM k a -> rm (a, FM k a) Source #

lookupAndDeleteAll :: (Ord k, Sequence seq) => [k] -> FM k a -> (seq a, FM k a) Source #

lookupWithDefault :: Ord k => a -> [k] -> FM k a -> a Source #

adjust :: Ord k => (a -> a) -> [k] -> FM k a -> FM k a Source #

adjustAll :: Ord k => (a -> a) -> [k] -> FM k a -> FM k a Source #

adjustOrInsert :: Ord k => (a -> a) -> a -> [k] -> FM k a -> FM k a Source #

adjustAllOrInsert :: Ord k => (a -> a) -> a -> [k] -> FM k a -> FM k a Source #

adjustOrDelete :: Ord k => (a -> Maybe a) -> [k] -> FM k a -> FM k a Source #

adjustOrDeleteAll :: Ord k => (a -> Maybe a) -> [k] -> FM k a -> FM k a Source #

strict :: FM k a -> FM k a Source #

strictWith :: (a -> b) -> FM k a -> FM k a Source #

map :: Ord k => (a -> b) -> FM k a -> FM k b Source #

fold :: Ord k => (a -> b -> b) -> b -> FM k a -> b Source #

fold' :: Ord k => (a -> b -> b) -> b -> FM k a -> b Source #

fold1 :: Ord k => (a -> a -> a) -> FM k a -> a Source #

fold1' :: Ord k => (a -> a -> a) -> FM k a -> a Source #

filter :: Ord k => (a -> Bool) -> FM k a -> FM k a Source #

partition :: Ord k => (a -> Bool) -> FM k a -> (FM k a, FM k a) Source #

elements :: (Ord k, Sequence seq) => FM k a -> seq a Source #

structuralInvariant :: Ord k => FM k a -> Bool Source #

Assoc operations

toSeq :: (Ord k, Sequence seq) => FM k a -> seq ([k], a) Source #

keys :: (Ord k, Sequence seq) => FM k a -> seq [k] Source #

mapWithKey :: Ord k => ([k] -> a -> b) -> FM k a -> FM k b Source #

foldWithKey :: Ord k => ([k] -> a -> b -> b) -> b -> FM k a -> b Source #

foldWithKey' :: Ord k => ([k] -> a -> b -> b) -> b -> FM k a -> b Source #

filterWithKey :: Ord k => ([k] -> a -> Bool) -> FM k a -> FM k a Source #

partitionWithKey :: Ord k => ([k] -> a -> Bool) -> FM k a -> (FM k a, FM k a) Source #

FiniteMapX operations

fromSeqWith :: (Ord k, Sequence seq) => (a -> a -> a) -> seq ([k], a) -> FM k a Source #

fromSeqWithKey :: (Ord k, Sequence seq) => ([k] -> a -> a -> a) -> seq ([k], a) -> FM k a Source #

insertWith :: Ord k => (a -> a -> a) -> [k] -> a -> FM k a -> FM k a Source #

insertWithKey :: Ord k => ([k] -> a -> a -> a) -> [k] -> a -> FM k a -> FM k a Source #

insertSeqWith :: (Ord k, Sequence seq) => (a -> a -> a) -> seq ([k], a) -> FM k a -> FM k a Source #

insertSeqWithKey :: (Ord k, Sequence seq) => ([k] -> a -> a -> a) -> seq ([k], a) -> FM k a -> FM k a Source #

unionl :: Ord k => FM k a -> FM k a -> FM k a Source #

unionr :: Ord k => FM k a -> FM k a -> FM k a Source #

unionWith :: Ord k => (a -> a -> a) -> FM k a -> FM k a -> FM k a Source #

unionSeqWith :: (Ord k, Sequence seq) => (a -> a -> a) -> seq (FM k a) -> FM k a Source #

intersectionWith :: Ord k => (a -> b -> c) -> FM k a -> FM k b -> FM k c Source #

difference :: Ord k => FM k a -> FM k b -> FM k a Source #

properSubset :: Ord k => FM k a -> FM k b -> Bool Source #

subset :: Ord k => FM k a -> FM k b -> Bool Source #

properSubmapBy :: Ord k => (a -> a -> Bool) -> FM k a -> FM k a -> Bool Source #

submapBy :: Ord k => (a -> a -> Bool) -> FM k a -> FM k a -> Bool Source #

sameMapBy :: Ord k => (a -> a -> Bool) -> FM k a -> FM k a -> Bool Source #

properSubmap :: (Ord k, Eq a) => FM k a -> FM k a -> Bool Source #

submap :: (Ord k, Eq a) => FM k a -> FM k a -> Bool Source #

sameMap :: (Ord k, Eq a) => FM k a -> FM k a -> Bool Source #

FiniteMap operations

unionWithKey :: Ord k => ([k] -> a -> a -> a) -> FM k a -> FM k a -> FM k a Source #

unionSeqWithKey :: (Ord k, Sequence seq) => ([k] -> a -> a -> a) -> seq (FM k a) -> FM k a Source #

intersectionWithKey :: Ord k => ([k] -> a -> b -> c) -> FM k a -> FM k b -> FM k c Source #

OrdAssocX operations

minView :: Monad m => FM k a -> m (a, FM k a) Source #

minElem :: FM t1 t -> t Source #

deleteMin :: Ord k => FM k a -> FM k a Source #

unsafeInsertMin :: Ord k => [k] -> a -> FM k a -> FM k a Source #

maxView :: Monad m => FM k a -> m (a, FM k a) Source #

maxElem :: FM k a -> a Source #

deleteMax :: Ord k => FM k a -> FM k a Source #

unsafeInsertMax :: Ord k => [k] -> a -> FM k a -> FM k a Source #

foldr :: Ord k => (a -> b -> b) -> b -> FM k a -> b Source #

foldr' :: Ord k => (a -> b -> b) -> b -> FM k a -> b Source #

foldr1 :: Ord k => (a -> a -> a) -> FM k a -> a Source #

foldr1' :: Ord k => (a -> a -> a) -> FM k a -> a Source #

foldl :: (a -> b -> a) -> a -> FM t b -> a Source #

foldl' :: (a -> b -> a) -> a -> FM t b -> a Source #

foldl1 :: (b -> b -> b) -> FM k b -> b Source #

foldl1' :: (b -> b -> b) -> FM k b -> b Source #

unsafeFromOrdSeq :: (Ord k, Sequence seq) => seq ([k], a) -> FM k a Source #

unsafeAppend :: Ord k => FM k a -> FM k a -> FM k a Source #

filterLT :: Ord k => [k] -> FM k a -> FM k a Source #

filterLE :: Ord k => [k] -> FM k a -> FM k a Source #

filterGT :: Ord k => [k] -> FM k a -> FM k a Source #

filterGE :: Ord k => [k] -> FM k a -> FM k a Source #

partitionLT_GE :: Ord k => [k] -> FM k a -> (FM k a, FM k a) Source #

partitionLE_GT :: Ord k => [k] -> FM k a -> (FM k a, FM k a) Source #

partitionLT_GT :: Ord k => [k] -> FM k a -> (FM k a, FM k a) Source #

OrdAssoc operations

minViewWithKey :: Monad m => FM k a -> m (([k], a), FM k a) Source #

minElemWithKey :: FM k a -> ([k], a) Source #

maxViewWithKey :: Monad m => FM k a -> m (([k], a), FM k a) Source #

maxElemWithKey :: FM k a -> ([k], a) Source #

foldrWithKey :: Ord k => ([k] -> a -> b -> b) -> b -> FM k a -> b Source #

foldrWithKey' :: Ord k => ([k] -> a -> b -> b) -> b -> FM k a -> b Source #

foldlWithKey :: Ord k => (b -> [k] -> a -> b) -> b -> FM k a -> b Source #

foldlWithKey' :: Ord k => (b -> [k] -> a -> b) -> b -> FM k a -> b Source #

toOrdSeq :: (Ord k, Sequence seq) => FM k a -> seq ([k], a) Source #

Other supported operations

mergeVFM :: Ord k => (Maybe a -> Maybe b -> Maybe c) -> FM k a -> FM k b -> FM k c Source #

mergeKVFM :: Ord k => ([k] -> Maybe a -> Maybe b -> Maybe c) -> FM k a -> FM k b -> FM k c Source #

Documentation

moduleName :: String Source #