EdisonCore-1.3.2.1: A library of efficient, purely-functional data structures (Core Implementations)

CopyrightCopyright (c) 2006 2008 Robert Dockins
LicenseMIT; see COPYRIGHT file for terms and conditions
Maintainerrobdockins AT fastmail DOT fm
Stabilitystable
PortabilityGHC, Hugs (MPTC and FD)
Safe HaskellNone
LanguageHaskell2010

Data.Edison.Assoc.StandardMap

Contents

Description

The standard library Data.Map repackaged as an Edison associative collection.

Synopsis

Type of standard finite maps

type FM = Map Source #

AssocX operations

empty :: 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 :: FM k a -> Bool Source #

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

strictWith :: Ord k => (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 #

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 #

OrdAssocX operations

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

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

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

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

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

maxElem :: Ord k => 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 #

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

foldl' :: Ord k => (b -> a -> 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 #

foldl1 :: Ord k => (a -> a -> a) -> FM k a -> a Source #

foldl1' :: Ord k => (a -> a -> a) -> FM k a -> a 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 #

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 #

OrdAssoc operations

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

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

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

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

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

foldrWithKey' :: (k -> a -> b -> b) -> b -> FM k a -> b Source #

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

foldlWithKey' :: (b -> k -> a -> b) -> b -> FM k a -> b Source #

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

Documentation

Orphan instances

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 #