pqueue-1.3.1: Reliable, persistent, fast priority queues.

Copyright(c) Louis Wasserman 2010
LicenseBSD-style
Maintainerlibraries@haskell.org
Stabilityexperimental
Portabilityportable
Safe HaskellNone
LanguageHaskell98

Data.PQueue.Prio.Min

Contents

Description

General purpose priority queue. Each element is associated with a key, and the priority queue supports viewing and extracting the element with the minimum key.

A worst-case bound is given for each operation. In some cases, an amortized bound is also specified; these bounds do not hold in a persistent context.

This implementation is based on a binomial heap augmented with a global root. The spine of the heap is maintained lazily. To force the spine of the heap, use seqSpine.

We do not guarantee stable behavior. Ties are broken arbitrarily -- that is, if k1 <= k2 and k2 <= k1, then there are no guarantees about the relative order in which k1, k2, and their associated elements are returned. (Unlike Data.Map, we allow multiple elements with the same key.)

This implementation offers a number of methods of the form xxxU, where U stands for unordered. No guarantees whatsoever are made on the execution or traversal order of these functions.

Synopsis

Documentation

data MinPQueue k a Source

A priority queue where values of type a are annotated with keys of type k. The queue supports extracting the element with minimum key.

Instances

Functor (MinPQueue k) 
Ord k => Foldable (MinPQueue k) 
Ord k => Traversable (MinPQueue k) 
(Ord k, Eq a) => Eq (MinPQueue k a) 
(Data k, Data a, Ord k) => Data (MinPQueue k a) 
(Ord k, Ord a) => Ord (MinPQueue k a) 
(Read k, Read a) => Read (MinPQueue k a) 
(Ord k, Show k, Show a) => Show (MinPQueue k a) 
Ord k => Monoid (MinPQueue k a) 
(NFData k, NFData a) => NFData (MinPQueue k a) 
Typeable (* -> * -> *) MinPQueue 

Construction

empty :: MinPQueue k a Source

O(1). Returns the empty priority queue.

singleton :: k -> a -> MinPQueue k a Source

O(1). Constructs a singleton priority queue.

insert :: Ord k => k -> a -> MinPQueue k a -> MinPQueue k a Source

Amortized O(1), worst-case O(log n). Inserts an element with the specified key into the queue.

union :: Ord k => MinPQueue k a -> MinPQueue k a -> MinPQueue k a Source

Amortized O(log(min(n1, n2))), worst-case O(log(max(n1, n2))). Returns the union of the two specified queues.

unions :: Ord k => [MinPQueue k a] -> MinPQueue k a Source

The union of a list of queues: (unions == foldl union empty).

Query

null :: MinPQueue k a -> Bool Source

O(1). Checks if this priority queue is empty.

size :: MinPQueue k a -> Int Source

O(1). Returns the size of this priority queue.

Minimum view

findMin :: MinPQueue k a -> (k, a) Source

O(1). The minimal (key, element) in the queue. Calls error if empty.

getMin :: MinPQueue k a -> Maybe (k, a) Source

O(1). The minimal (key, element) in the queue, if the queue is nonempty.

deleteMin :: Ord k => MinPQueue k a -> MinPQueue k a Source

O(log n). Deletes the minimal (key, element) in the queue. Returns an empty queue if the queue is empty.

deleteFindMin :: Ord k => MinPQueue k a -> ((k, a), MinPQueue k a) Source

O(log n). Delete and find the element with the minimum key. Calls error if empty.

adjustMin :: (a -> a) -> MinPQueue k a -> MinPQueue k a Source

O(1). Alter the value at the minimum key. If the queue is empty, does nothing.

adjustMinWithKey :: (k -> a -> a) -> MinPQueue k a -> MinPQueue k a Source

O(1). Alter the value at the minimum key. If the queue is empty, does nothing.

updateMin :: Ord k => (a -> Maybe a) -> MinPQueue k a -> MinPQueue k a Source

O(log n). (Actually O(1) if there's no deletion.) Update the value at the minimum key. If the queue is empty, does nothing.

updateMinWithKey :: Ord k => (k -> a -> Maybe a) -> MinPQueue k a -> MinPQueue k a Source

O(log n). (Actually O(1) if there's no deletion.) Update the value at the minimum key. If the queue is empty, does nothing.

minView :: Ord k => MinPQueue k a -> Maybe (a, MinPQueue k a) Source

O(log n). Retrieves the value associated with the minimal key of the queue, and the queue stripped of that element, or Nothing if passed an empty queue.

minViewWithKey :: Ord k => MinPQueue k a -> Maybe ((k, a), MinPQueue k a) Source

O(log n). Retrieves the minimal (key, value) pair of the map, and the map stripped of that element, or Nothing if passed an empty map.

Traversal

Map

map :: (a -> b) -> MinPQueue k a -> MinPQueue k b Source

O(n). Map a function over all values in the queue.

mapWithKey :: (k -> a -> b) -> MinPQueue k a -> MinPQueue k b Source

O(n). Map a function over all values in the queue.

mapKeys :: Ord k' => (k -> k') -> MinPQueue k a -> MinPQueue k' a Source

O(n). mapKeys f q is the queue obtained by applying f to each key of q.

mapKeysMonotonic :: (k -> k') -> MinPQueue k a -> MinPQueue k' a Source

O(n). mapKeysMonotonic f q == mapKeys f q, but only works when f is strictly monotonic. The precondition is not checked. This function has better performance than mapKeys.

Fold

foldrWithKey :: Ord k => (k -> a -> b -> b) -> b -> MinPQueue k a -> b Source

O(n log n). Fold the keys and values in the map, such that foldrWithKey f z q == foldr (uncurry f) z (toAscList q).

If you do not care about the traversal order, consider using foldrWithKeyU.

foldlWithKey :: Ord k => (b -> k -> a -> b) -> b -> MinPQueue k a -> b Source

O(n log n). Fold the keys and values in the map, such that foldlWithKey f z q == foldl (uncurry . f) z (toAscList q).

If you do not care about the traversal order, consider using foldlWithKeyU.

Traverse

traverseWithKey :: (Ord k, Applicative f) => (k -> a -> f b) -> MinPQueue k a -> f (MinPQueue k b) Source

O(n log n). Traverses the elements of the queue in ascending order by key. (traverseWithKey f q == fromAscList $ traverse (uncurry f) (toAscList q))

If you do not care about the order of the traversal, consider using traverseWithKeyU.

Subsets

Indexed

take :: Ord k => Int -> MinPQueue k a -> [(k, a)] Source

O(k log n). Takes the first k (key, value) pairs in the queue, or the first n if k >= n. (take k q == take k (toAscList q))

drop :: Ord k => Int -> MinPQueue k a -> MinPQueue k a Source

O(k log n). Deletes the first k (key, value) pairs in the queue, or returns an empty queue if k >= n.

splitAt :: Ord k => Int -> MinPQueue k a -> ([(k, a)], MinPQueue k a) Source

O(k log n). Equivalent to (take k q, drop k q).

Predicates

takeWhile :: Ord k => (a -> Bool) -> MinPQueue k a -> [(k, a)] Source

Takes the longest possible prefix of elements satisfying the predicate. (takeWhile p q == takeWhile (p . snd) (toAscList q))

takeWhileWithKey :: Ord k => (k -> a -> Bool) -> MinPQueue k a -> [(k, a)] Source

Takes the longest possible prefix of elements satisfying the predicate. (takeWhile p q == takeWhile (uncurry p) (toAscList q))

dropWhile :: Ord k => (a -> Bool) -> MinPQueue k a -> MinPQueue k a Source

Removes the longest possible prefix of elements satisfying the predicate.

dropWhileWithKey :: Ord k => (k -> a -> Bool) -> MinPQueue k a -> MinPQueue k a Source

Removes the longest possible prefix of elements satisfying the predicate.

span :: Ord k => (a -> Bool) -> MinPQueue k a -> ([(k, a)], MinPQueue k a) Source

Equivalent to (takeWhile p q, dropWhile p q).

spanWithKey :: Ord k => (k -> a -> Bool) -> MinPQueue k a -> ([(k, a)], MinPQueue k a) Source

Equivalent to (takeWhileWithKey p q, dropWhileWithKey p q).

break :: Ord k => (a -> Bool) -> MinPQueue k a -> ([(k, a)], MinPQueue k a) Source

Equivalent to span (not . p).

breakWithKey :: Ord k => (k -> a -> Bool) -> MinPQueue k a -> ([(k, a)], MinPQueue k a) Source

Equivalent to spanWithKey ( k a -> not (p k a)) q.

Filter

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

O(n). Filter all values that satisfy the predicate.

filterWithKey :: Ord k => (k -> a -> Bool) -> MinPQueue k a -> MinPQueue k a Source

O(n). Filter all values that satisfy the predicate.

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

O(n). Partition the queue according to a predicate. The first queue contains all elements which satisfy the predicate, the second all elements that fail the predicate.

partitionWithKey :: Ord k => (k -> a -> Bool) -> MinPQueue k a -> (MinPQueue k a, MinPQueue k a) Source

O(n). Partition the queue according to a predicate. The first queue contains all elements which satisfy the predicate, the second all elements that fail the predicate.

mapMaybe :: Ord k => (a -> Maybe b) -> MinPQueue k a -> MinPQueue k b Source

O(n). Map values and collect the Just results.

mapMaybeWithKey :: Ord k => (k -> a -> Maybe b) -> MinPQueue k a -> MinPQueue k b Source

O(n). Map values and collect the Just results.

mapEither :: Ord k => (a -> Either b c) -> MinPQueue k a -> (MinPQueue k b, MinPQueue k c) Source

O(n). Map values and separate the Left and Right results.

mapEitherWithKey :: Ord k => (k -> a -> Either b c) -> MinPQueue k a -> (MinPQueue k b, MinPQueue k c) Source

O(n). Map values and separate the Left and Right results.

List operations

Conversion from lists

fromList :: Ord k => [(k, a)] -> MinPQueue k a Source

O(n). Build a priority queue from the list of (key, value) pairs.

fromAscList :: [(k, a)] -> MinPQueue k a Source

O(n). Build a priority queue from an ascending list of (key, value) pairs. The precondition is not checked.

fromDescList :: [(k, a)] -> MinPQueue k a Source

O(n). Build a priority queue from a descending list of (key, value) pairs. The precondition is not checked.

Conversion to lists

keys :: Ord k => MinPQueue k a -> [k] Source

O(n log n). Return all keys of the queue in ascending order.

elems :: Ord k => MinPQueue k a -> [a] Source

O(n log n). Return all elements of the queue in ascending order by key.

assocs :: Ord k => MinPQueue k a -> [(k, a)] Source

O(n log n). Equivalent to toAscList.

toAscList :: Ord k => MinPQueue k a -> [(k, a)] Source

O(n log n). Return all (key, value) pairs in ascending order by key.

toDescList :: Ord k => MinPQueue k a -> [(k, a)] Source

O(n log n). Return all (key, value) pairs in descending order by key.

toList :: Ord k => MinPQueue k a -> [(k, a)] Source

O(n log n). Equivalent to toAscList.

If the traversal order is irrelevant, consider using toListU.

Unordered operations

foldrU :: (a -> b -> b) -> b -> MinPQueue k a -> b Source

O(n). An unordered right fold over the elements of the queue, in no particular order.

foldrWithKeyU :: (k -> a -> b -> b) -> b -> MinPQueue k a -> b Source

O(n). An unordered right fold over the elements of the queue, in no particular order.

foldlU :: (b -> a -> b) -> b -> MinPQueue k a -> b Source

O(n). An unordered left fold over the elements of the queue, in no particular order.

foldlWithKeyU :: (b -> k -> a -> b) -> b -> MinPQueue k a -> b Source

O(n). An unordered left fold over the elements of the queue, in no particular order.

traverseU :: Applicative f => (a -> f b) -> MinPQueue k a -> f (MinPQueue k b) Source

O(n). An unordered traversal over a priority queue, in no particular order. While there is no guarantee in which order the elements are traversed, the resulting priority queue will be perfectly valid.

traverseWithKeyU :: Applicative f => (k -> a -> f b) -> MinPQueue k a -> f (MinPQueue k b) Source

keysU :: MinPQueue k a -> [k] Source

O(n). Return all keys of the queue in no particular order.

elemsU :: MinPQueue k a -> [a] Source

O(n). Return all elements of the queue in no particular order.

assocsU :: MinPQueue k a -> [(k, a)] Source

O(n). Equivalent to toListU.

toListU :: MinPQueue k a -> [(k, a)] Source

O(n). Returns all (key, value) pairs in the queue in no particular order.

Helper methods

seqSpine :: MinPQueue k a -> b -> b Source

O(log n). Analogous to deepseq in the deepseq package, but only forces the spine of the binomial heap.