discrimination-0.3: Fast generic linear-time sorting, joins and container construction.

Safe HaskellSafe
LanguageHaskell2010

Data.Discrimination.Sorting

Contents

Synopsis

Documentation

newtype Sort a Source #

Stable Ordered Discriminator

Constructors

Sort 

Fields

  • runSort :: forall b. [(a, b)] -> [[b]]
     

Instances

Divisible Sort Source # 

Methods

divide :: (a -> (b, c)) -> Sort b -> Sort c -> Sort a #

conquer :: Sort a #

Decidable Sort Source # 

Methods

lose :: (a -> Void) -> Sort a #

choose :: (a -> Either b c) -> Sort b -> Sort c -> Sort a #

Contravariant Sort Source # 

Methods

contramap :: (a -> b) -> Sort b -> Sort a #

(>$) :: b -> Sort b -> Sort a #

Discriminating Sort Source # 

Methods

disc :: Sort a -> [(a, b)] -> [[b]] Source #

Semigroup (Sort a) Source # 

Methods

(<>) :: Sort a -> Sort a -> Sort a #

sconcat :: NonEmpty (Sort a) -> Sort a #

stimes :: Integral b => b -> Sort a -> Sort a #

Monoid (Sort a) Source # 

Methods

mempty :: Sort a #

mappend :: Sort a -> Sort a -> Sort a #

mconcat :: [Sort a] -> Sort a #

Sorting

class Grouping a => Sorting a where Source #

Ord equipped with a compatible stable, ordered discriminator.

Methods

sorting :: Sort a Source #

For every strictly monotone-increasing function f:

contramap f sortingsorting

sorting :: Deciding Sorting a => Sort a Source #

For every strictly monotone-increasing function f:

contramap f sortingsorting

Instances

Sorting Bool Source # 
Sorting Char Source # 
Sorting Int Source # 

Methods

sorting :: Sort Int Source #

Sorting Int8 Source # 
Sorting Int16 Source # 
Sorting Int32 Source # 
Sorting Int64 Source # 
Sorting Word Source # 
Sorting Word8 Source # 
Sorting Word16 Source # 
Sorting Word32 Source # 
Sorting Word64 Source # 
Sorting Void Source # 
Sorting a => Sorting [a] Source # 

Methods

sorting :: Sort [a] Source #

Sorting a => Sorting (Maybe a) Source # 

Methods

sorting :: Sort (Maybe a) Source #

(Sorting a, Sorting b) => Sorting (Either a b) Source # 

Methods

sorting :: Sort (Either a b) Source #

(Sorting a, Sorting b) => Sorting (a, b) Source # 

Methods

sorting :: Sort (a, b) Source #

(Sorting a, Sorting b, Sorting c) => Sorting (a, b, c) Source # 

Methods

sorting :: Sort (a, b, c) Source #

(Sorting a, Sorting b, Sorting c, Sorting d) => Sorting (a, b, c, d) Source # 

Methods

sorting :: Sort (a, b, c, d) Source #

(Sorting1 f, Sorting1 g, Sorting a) => Sorting (Compose * * f g a) Source # 

Methods

sorting :: Sort (Compose * * f g a) Source #

class Grouping1 f => Sorting1 f where Source #

Methods

sorting1 :: Sort a -> Sort (f a) Source #

sorting1 :: Deciding1 Sorting f => Sort a -> Sort (f a) Source #

Instances

Sorting1 [] Source # 

Methods

sorting1 :: Sort a -> Sort [a] Source #

Sorting1 Maybe Source # 

Methods

sorting1 :: Sort a -> Sort (Maybe a) Source #

Sorting a => Sorting1 (Either a) Source # 

Methods

sorting1 :: Sort a -> Sort (Either a a) Source #

(Sorting1 f, Sorting1 g) => Sorting1 (Compose * * f g) Source # 

Methods

sorting1 :: Sort a -> Sort (Compose * * f g a) Source #

Combinators

Useful combinators.

sort :: Sorting a => [a] -> [a] Source #

O(n). Sort a list using discrimination.

sort = sortWith id

sortWith :: Sorting b => (a -> b) -> [a] -> [a] Source #

O(n). Sort a list with a Schwartzian transformation by using discrimination.

This linear time replacement for sortWith and sortOn uses discrimination.

desc :: Sort a -> Sort a Source #

sortingCompare :: Sorting a => a -> a -> Ordering Source #

Valid definition for compare in terms of Sorting.

Container Construction

toMap :: Sorting k => [(k, v)] -> Map k v Source #

O(n). Construct a Map.

This is an asymptotically faster version of fromList, which exploits ordered discrimination.

>>> toMap [] == empty
True
>>> toMap [(5,"a"), (3 :: Int,"b"), (5, "c")]
fromList [(5,"c"), (3,"b")]
>>> toMap [(5,"c"), (3,"b"), (5 :: Int, "a")]
fromList [(5,"a"), (3,"b")]

toMapWith :: Sorting k => (v -> v -> v) -> [(k, v)] -> Map k v Source #

O(n). Construct a Map, combining values.

This is an asymptotically faster version of fromListWith, which exploits ordered discrimination.

(Note: values combine in anti-stable order for compatibility with fromListWith)

>>> toMapWith (++) [(5,"a"), (5,"b"), (3,"b"), (3,"a"), (5 :: Int,"c")]
fromList [(3, "ab"), (5, "cba")]
>>> toMapWith (++) [] == empty
True

toMapWithKey :: Sorting k => (k -> v -> v -> v) -> [(k, v)] -> Map k v Source #

O(n). Construct a Map, combining values with access to the key.

This is an asymptotically faster version of fromListWithKey, which exploits ordered discrimination.

(Note: the values combine in anti-stable order for compatibility with fromListWithKey)

>>> let f key new_value old_value = show key ++ ":" ++ new_value ++ "|" ++ old_value
>>> toMapWithKey f [(5,"a"), (5,"b"), (3,"b"), (3,"a"), (5 :: Int,"c")]
fromList [(3, "3:a|b"), (5, "5:c|5:b|a")]
>>> toMapWithKey f [] == empty
True

toIntMap :: [(Int, v)] -> IntMap v Source #

O(n). Construct an IntMap.

>>> toIntMap [] == empty
True
>>> toIntMap [(5,"a"), (3,"b"), (5, "c")]
fromList [(5,"c"), (3,"b")]
>>> toIntMap [(5,"c"), (3,"b"), (5, "a")]
fromList [(5,"a"), (3,"b")]

toIntMapWith :: (v -> v -> v) -> [(Int, v)] -> IntMap v Source #

O(n). Construct an IntMap, combining values.

This is an asymptotically faster version of fromListWith, which exploits ordered discrimination.

(Note: values combine in anti-stable order for compatibility with fromListWith)

>>> toIntMapWith (++) [(5,"a"), (5,"b"), (3,"b"), (3,"a"), (5,"c")]
fromList [(3, "ab"), (5, "cba")]
>>> toIntMapWith (++) [] == empty
True

toIntMapWithKey :: (Int -> v -> v -> v) -> [(Int, v)] -> IntMap v Source #

O(n). Construct a Map, combining values with access to the key.

This is an asymptotically faster version of fromListWithKey, which exploits ordered discrimination.

(Note: the values combine in anti-stable order for compatibility with fromListWithKey)

>>> let f key new_value old_value = show key ++ ":" ++ new_value ++ "|" ++ old_value
>>> toIntMapWithKey f [(5,"a"), (5,"b"), (3,"b"), (3,"a"), (5,"c")]
fromList [(3, "3:a|b"), (5, "5:c|5:b|a")]
>>> toIntMapWithKey f [] == empty
True

toSet :: Sorting k => [k] -> Set k Source #

O(n). Construct a Set in linear time.

This is an asymptotically faster version of fromList, which exploits ordered discrimination.

toIntSet :: [Int] -> IntSet Source #

O(n). Construct an IntSet in linear time.

This is an asymptotically faster version of fromList, which exploits ordered discrimination.

Internals

sortingBag :: Foldable f => Sort k -> Sort (f k) Source #

Construct a stable ordered discriminator that sorts a list as multisets of elements from another stable ordered discriminator.

The resulting discriminator only cares about the set of keys and their multiplicity, and is sorted as if we'd sorted each key in turn before comparing.

sortingSet :: Foldable f => Sort k -> Sort (f k) Source #

Construct a stable ordered discriminator that sorts a list as sets of elements from another stable ordered discriminator.

The resulting discriminator only cares about the set of keys, and is sorted as if we'd sorted each key in turn before comparing.