Portability | GHC, Hugs (MPTC and FD) |
---|---|

Stability | stable |

Maintainer | robdockins AT fastmail DOT fm |

Safe Haskell | None |

An efficient implementation of sets over small enumerations.
The implementation of `EnumSet`

is based on bit-wise operations.

For this implementation to work as expected at type `A`

, there are a number
of preconditions on the `Eq`

, `Enum`

and `Ord`

instances.

The `Enum A`

instance must create a bijection between the elements of type `A`

and
a finite subset of the naturals [0,1,2,3....]. As a corollary we must have:

forall x y::A, fromEnum x == fromEnum y <==> x is indistinguishable from y

Also, the number of distinct elements of `A`

must be less than or equal
to the number of bits in `Word`

.

The `Enum A`

instance must be consistent with the `Eq A`

instance.
That is, we must have:

forall x y::A, x == y <==> toEnum x == toEnum y

Additionally, for operations that require an `Ord A`

context, we require that
toEnum be monotonic with respect to comparison. That is, we must have:

forall x y::A, x < y <==> toEnum x < toEnum y

Derived `Eq`

, `Ord`

and `Enum`

instances will fulfill these conditions, if
the enumerated type has sufficently few constructors.

- data Set a
- empty :: Set a
- singleton :: (Eq a, Enum a) => a -> Set a
- fromSeq :: (Eq a, Enum a, Sequence s) => s a -> Set a
- insert :: (Eq a, Enum a) => a -> Set a -> Set a
- insertSeq :: (Eq a, Enum a, Sequence s) => s a -> Set a -> Set a
- union :: Set a -> Set a -> Set a
- unionSeq :: (Eq a, Enum a, Sequence s) => s (Set a) -> Set a
- delete :: (Eq a, Enum a) => a -> Set a -> Set a
- deleteAll :: (Eq a, Enum a) => a -> Set a -> Set a
- deleteSeq :: (Eq a, Enum a, Sequence s) => s a -> Set a -> Set a
- null :: Set a -> Bool
- size :: Set a -> Int
- member :: (Eq a, Enum a) => a -> Set a -> Bool
- count :: (Eq a, Enum a) => a -> Set a -> Int
- strict :: Set a -> Set a
- deleteMin :: Enum a => Set a -> Set a
- deleteMax :: Enum a => Set a -> Set a
- unsafeInsertMin :: (Ord a, Enum a) => a -> Set a -> Set a
- unsafeInsertMax :: (Ord a, Enum a) => a -> Set a -> Set a
- unsafeFromOrdSeq :: (Ord a, Enum a, Sequence s) => s a -> Set a
- unsafeAppend :: (Ord a, Enum a) => Set a -> Set a -> Set a
- filterLT :: (Ord a, Enum a) => a -> Set a -> Set a
- filterLE :: (Ord a, Enum a) => a -> Set a -> Set a
- filterGT :: (Ord a, Enum a) => a -> Set a -> Set a
- filterGE :: (Ord a, Enum a) => a -> Set a -> Set a
- partitionLT_GE :: (Ord a, Enum a) => a -> Set a -> (Set a, Set a)
- partitionLE_GT :: (Ord a, Enum a) => a -> Set a -> (Set a, Set a)
- partitionLT_GT :: (Ord a, Enum a) => a -> Set a -> (Set a, Set a)
- intersection :: Set a -> Set a -> Set a
- difference :: Set a -> Set a -> Set a
- symmetricDifference :: Set a -> Set a -> Set a
- properSubset :: Set a -> Set a -> Bool
- subset :: Set a -> Set a -> Bool
- toSeq :: (Eq a, Enum a, Sequence s) => Set a -> s a
- lookup :: (Eq a, Enum a) => a -> Set a -> a
- lookupM :: (Eq a, Enum a, Monad m) => a -> Set a -> m a
- lookupAll :: (Eq a, Enum a, Sequence s) => a -> Set a -> s a
- lookupWithDefault :: (Eq a, Enum a) => a -> a -> Set a -> a
- fold :: (Eq a, Enum a) => (a -> c -> c) -> c -> Set a -> c
- fold' :: (Eq a, Enum a) => (a -> c -> c) -> c -> Set a -> c
- fold1 :: (Eq a, Enum a) => (a -> a -> a) -> Set a -> a
- fold1' :: (Eq a, Enum a) => (a -> a -> a) -> Set a -> a
- filter :: (Eq a, Enum a) => (a -> Bool) -> Set a -> Set a
- partition :: (Eq a, Enum a) => (a -> Bool) -> Set a -> (Set a, Set a)
- strictWith :: (a -> b) -> Set a -> Set a
- minView :: (Enum a, Monad m) => Set a -> m (a, Set a)
- minElem :: Enum a => Set a -> a
- maxView :: (Enum a, Monad m) => Set a -> m (a, Set a)
- maxElem :: Enum a => Set a -> a
- foldr :: (Ord a, Enum a) => (a -> b -> b) -> b -> Set a -> b
- foldr' :: (Ord a, Enum a) => (a -> b -> b) -> b -> Set a -> b
- foldl :: (Ord a, Enum a) => (c -> a -> c) -> c -> Set a -> c
- foldl' :: (Ord a, Enum a) => (c -> a -> c) -> c -> Set a -> c
- foldr1 :: (Ord a, Enum a) => (a -> a -> a) -> Set a -> a
- foldr1' :: (Ord a, Enum a) => (a -> a -> a) -> Set a -> a
- foldl1 :: (Ord a, Enum a) => (a -> a -> a) -> Set a -> a
- foldl1' :: (Ord a, Enum a) => (a -> a -> a) -> Set a -> a
- toOrdSeq :: (Ord a, Enum a, Sequence s) => Set a -> s a
- unsafeMapMonotonic :: Enum a => (a -> a) -> Set a -> Set a
- fromSeqWith :: (Eq a, Enum a, Sequence s) => (a -> a -> a) -> s a -> Set a
- fromOrdSeq :: (Ord a, Enum a, Sequence s) => s a -> Set a
- insertWith :: (Eq a, Enum a) => (a -> a -> a) -> a -> Set a -> Set a
- insertSeqWith :: (Eq a, Enum a, Sequence s) => (a -> a -> a) -> s a -> Set a -> Set a
- unionl :: Set a -> Set a -> Set a
- unionr :: Set a -> Set a -> Set a
- unionWith :: (a -> a -> a) -> Set a -> Set a -> Set a
- unionSeqWith :: (Eq a, Enum a, Sequence s) => (a -> a -> a) -> s (Set a) -> Set a
- intersectionWith :: (a -> a -> a) -> Set a -> Set a -> Set a
- map :: (Enum a, Enum b) => (a -> b) -> Set a -> Set b
- setCoerce :: (Enum a, Enum b) => Set a -> Set b
- complement :: (Eq a, Bounded a, Enum a) => Set a -> Set a
- toBits :: Set a -> Word
- fromBits :: Word -> Set a
- moduleName :: String

# Set type

A set of values `a`

implemented as bitwise operations. Useful
for members of class Enum with no more elements than there are bits
in `Word`

.

Eq (Set a) | |

(Ord a, Enum a) => Ord (Set a) | |

(Eq a, Enum a, Read a) => Read (Set a) | |

(Eq a, Enum a, Show a) => Show (Set a) | |

(Eq a, Enum a, Arbitrary a) => Arbitrary (Set a) | |

(Eq a, Enum a, CoArbitrary a) => CoArbitrary (Set a) | |

(Eq a, Enum a) => Monoid (Set a) | |

(Eq a, Enum a) => CollX (Set a) a | |

(Ord a, Enum a) => OrdCollX (Set a) a | |

(Eq a, Enum a) => SetX (Set a) a | |

(Ord a, Enum a) => OrdSetX (Set a) a | |

(Eq a, Enum a) => Coll (Set a) a | |

(Ord a, Enum a) => OrdColl (Set a) a | |

(Eq a, Enum a) => Set (Set a) a | |

(Ord a, Enum a) => OrdSet (Set a) a |

# CollX operations

insert :: (Eq a, Enum a) => a -> Set a -> Set aSource

*O(1)*. Insert an element in a set.
If the set already contains an element equal to the given value,
it is replaced with the new value.

# OrdCollX operations

# SetX operations

intersection :: Set a -> Set a -> Set aSource

*O(1)*. The intersection of two sets.

difference :: Set a -> Set a -> Set aSource

*O(1)*. Difference of two sets.

symmetricDifference :: Set a -> Set a -> Set aSource

properSubset :: Set a -> Set a -> BoolSource

*O(1)*. Is this a proper subset? (ie. a subset but not equal).

subset :: Set a -> Set a -> BoolSource

*O(1)*. Is this a subset?
`(s1 `

tells whether `subset`

s2)`s1`

is a subset of `s2`

.

# Coll operations

lookupWithDefault :: (Eq a, Enum a) => a -> a -> Set a -> aSource

filter :: (Eq a, Enum a) => (a -> Bool) -> Set a -> Set aSource

*O(n)*. Filter all elements that satisfy the predicate.

partition :: (Eq a, Enum a) => (a -> Bool) -> Set a -> (Set a, Set a)Source

*O(n)*. Partition the set into two sets, one with all elements that satisfy
the predicate and one with all elements that don't satisfy the predicate.
See also `split`

.

strictWith :: (a -> b) -> Set a -> Set aSource

# OrdColl operations

unsafeMapMonotonic :: Enum a => (a -> a) -> Set a -> Set aSource

# Set operations

intersectionWith :: (a -> a -> a) -> Set a -> Set a -> Set aSource

# Bonus operations

map :: (Enum a, Enum b) => (a -> b) -> Set a -> Set bSource

*O(n)*.

is the set obtained by applying `map`

f s`f`

to each element of `s`

.

It's worth noting that the size of the result may be smaller if,
for some `(x,y)`

, `x /= y && f x == f y`

setCoerce :: (Enum a, Enum b) => Set a -> Set bSource

*O(1)* Changes the type of the elements in the set without changing
the representation. Equivalant to `map (toEnum . fromEnum)`

, and
to `(fromBits . toBits)`

. This method is operationally a no-op.

complement :: (Eq a, Bounded a, Enum a) => Set a -> Set aSource

*O(1)*. The complement of a set with its universe set. `complement`

can be used
with bounded types for which the universe set
will be automatically created.

*O(1)* Get the underlying bit-encoded representation.
This method is operationally a no-op.

fromBits :: Word -> Set aSource

*O(1)* Create an EnumSet from a bit-encoded representation.
This method is operationally a no-op.