Package one.microstream.collections

Class TableView<K,V>

java.lang.Object

one.microstream.collections.TableView<K,V>

All Implemented Interfaces:

Iterable<KeyValue<K,V>>, CapacityCarrying, ExtendedCollection<KeyValue<K,V>>, ExtendedMap<K,V>, ExtendedSequence<KeyValue<K,V>>, Sized, XGettingCollection<KeyValue<K,V>>, XGettingEnum<KeyValue<K,V>>, XGettingMap<K,V>, XGettingSequence<KeyValue<K,V>>, XGettingSet<KeyValue<K,V>>, XGettingTable<K,V>, XIndexIterable<KeyValue<K,V>>, XIterable<KeyValue<K,V>>, XJoinable<KeyValue<K,V>>, Copyable

public final class TableView<K,V>
extends Object
implements XGettingTable<K,V>

Nested Class Summary

Nested classes/interfaces inherited from interface one.microstream.typing.Copyable

Copyable.Static

Nested classes/interfaces inherited from interface one.microstream.collections.types.XGettingEnum

XGettingEnum.Creator<E>

Nested classes/interfaces inherited from interface one.microstream.collections.types.XGettingMap

XGettingMap.Creator<K,V>

Nested classes/interfaces inherited from interface one.microstream.collections.types.XGettingSequence

XGettingSequence.Factory<E>

Nested classes/interfaces inherited from interface one.microstream.collections.types.XGettingTable

XGettingTable.Bridge<K,V>, XGettingTable.EntriesBridge<K,V>, XGettingTable.Keys<K,V>, XGettingTable.Satellite<K,V>, XGettingTable.Values<K,V>

Nested classes/interfaces inherited from interface one.microstream.collections.types.XIterable

XIterable.Executor<E>

Constructor Summary

Constructors

Constructor	Description
TableView(XGettingTable<K,V> subject)

Method Summary

Modifier and Type	Method	Description
boolean	applies(Predicate<? super KeyValue<K,V>> predicate)	Tests each element of the collection on the given predicate.
KeyValue<K,V>	at(long index)
boolean	contains(KeyValue<K,V> element)	Checks if the given element is contained in the collection.
boolean	containsAll(XGettingCollection<? extends KeyValue<K,V>> elements)
boolean	containsId(KeyValue<K,V> element)	Special version of contains() that guarantees to use identity comparison (" == ") when searching for the given element regardless of the collection's internal logic. This method has the same behavior as XGettingCollection.containsSearched(Predicate) with a Predicate implementation that checks for object identity.
boolean	containsSearched(Predicate<? super KeyValue<K,V>> predicate)
XGettingTable<K,V>	copy()	Creates a true copy of this collection which references the same elements as this collection does at the time the method is called.
<T extends Consumer<? super KeyValue<K, V>>> T	copySelection(T target, long... indices)	Iterates through all the elements of the given indices and calls the Consumer.accept(Object) on the target Consumer.
<T extends Consumer<? super KeyValue<K, V>>> T	copyTo(T target)	Calls Consumer.accept(Object) on the target Consumer for all the elements of this collection.
long	count(KeyValue<K,V> element)	Count how many times this element matches another element in the collection using the Equalator.
long	countBy(Predicate<? super KeyValue<K,V>> predicate)	Count how many matches are found using the given predicate on each element of the collection.
<T extends Consumer<? super KeyValue<K, V>>> T	distinct(T target)	Calls Consumer.accept(Object) on the target Consumer for all the unique/distinct elements of this collection.
<T extends Consumer<? super KeyValue<K, V>>> T	distinct(T target, Equalator<? super KeyValue<K,V>> equalator)	Calls Consumer.accept(Object) on the target Consumer for all the unique/distinct elements of this collection.
Equalator<? super KeyValue<K,V>>	equality()
boolean	equals(Object o)	Deprecated.
boolean	equals(XGettingCollection<? extends KeyValue<K,V>> samples, Equalator<? super KeyValue<K,V>> equalator)
boolean	equalsContent(XGettingCollection<? extends KeyValue<K,V>> samples, Equalator<? super KeyValue<K,V>> equalator)	Returns true if all elements of this list and the passed list are sequentially equal as defined by the passed equalator.
<T extends Consumer<? super KeyValue<K, V>>> T	except(XGettingCollection<? extends KeyValue<K,V>> other, Equalator<? super KeyValue<K,V>> equalator, T target)	Calls Consumer.accept(Object) on the target Consumer for each element of this collection that is not contained in the other collection (through the given equalator).
<T extends Consumer<? super KeyValue<K, V>>> T	filterTo(T target, Predicate<? super KeyValue<K,V>> predicate)	Calls Consumer.accept(Object) on the target Consumer for all the elements of this collection which test true on the given predicate.
KeyValue<K,V>	first()	Gets first element or throws IndexOutOfBoundsException if the collection is empty.
KeyValue<K,V>	get()	Gets one element from the collection.
V	get(K key)
int	hashCode()	Deprecated.
boolean	hasVolatileElements()	Tells if this collection contains volatile elements. An element is volatile, if it can become no longer reachable by the collection without being removed from the collection.
XImmutableTable<K,V>	immure()	Provides an instance of an immutable collection type with equal behavior and data as this instance.
long	indexBy(Predicate<? super KeyValue<K,V>> predicate)	Iterates forwards through the collection and returns the index of the first element that the passed {link Predicate} applies to immediately. Stops iterating on the first element that the predicate applies to.
long	indexOf(KeyValue<K,V> element)
<T extends Consumer<? super KeyValue<K, V>>> T	intersect(XGettingCollection<? extends KeyValue<K,V>> other, Equalator<? super KeyValue<K,V>> equalator, T target)	Tests equality between each element of the two lists and calls Consumer.accept(Object) on the target Consumer for the equal elements. Therefore it effectively creates a mathematical intersection between the two collections.
boolean	isEmpty()
boolean	isFull()	Returns true if the current capacity cannot be increased any more.
boolean	isSorted(Comparator<? super KeyValue<K,V>> comparator)	Tests if the collection is sorted according to the given comparator.
<P extends Consumer<? super KeyValue<K, V>>> P	iterate(P procedure)	Executes the given procedure for each element of the XIterable until all elements have been processed or the action throws an exception.
<P extends IndexedAcceptor<? super KeyValue<K, V>>> P	iterateIndexed(P procedure)	Iterates over elements with the IndexedAcceptor to use not only the element itself but also its coherent index.
Iterator<KeyValue<K,V>>	iterator()
<A> A	join(BiConsumer<? super KeyValue<K,V>,? super A> joiner, A aggregate)	Iterates over all elements of the collections and calls the joiner with each element and the aggregate.
XGettingTable.Keys<K,V>	keys()
KeyValue<K,V>	last()	Gets last element or throws IndexOutOfBoundsException if the collection is empty.
long	lastIndexBy(Predicate<? super KeyValue<K,V>> predicate)	Iterates backwards through the collection and returns the index of the last element that the passed Predicate applies to immediately. Stops iterating on the first element that the predicate applies to.
long	lastIndexOf(KeyValue<K,V> element)
KeyValue<K,V>	lookup(K key)
KeyValue<K,V>	max(Comparator<? super KeyValue<K,V>> comparator)
long	maximumCapacity()	Returns the maximum amount of elements this carrier instance can contain. The actual value may be depend on the configuration of the concrete instance or may depend only on the implementation of the carrier (meaning it is constant for all instances of the implementation, e.g.
long	maxIndex(Comparator<? super KeyValue<K,V>> comparator)
KeyValue<K,V>	min(Comparator<? super KeyValue<K,V>> comparator)
long	minIndex(Comparator<? super KeyValue<K,V>> comparator)
boolean	nullAllowed()	Defines if null-elements are allowed inside the collection or not.
boolean	nullContained()
boolean	nullKeyAllowed()
boolean	nullValuesAllowed()
XGettingTable.EntriesBridge<K,V>	old()
XGettingTable.Bridge<K,V>	oldMap()
KeyValue<K,V>	peek()	Gets last element or null if the collection is empty.
KeyValue<K,V>	poll()	Gets first element or null if the collection is empty.
<C extends Consumer<? super V>> C	query(XIterable<? extends K> keys, C collector)
XGettingEnum<KeyValue<K,V>>	range(long lowIndex, long highIndex)
long	remainingCapacity()	Returns the amount of elements this carrier instance can collect before reaching its maximimum capacity.
long	scan(Predicate<? super KeyValue<K,V>> predicate)	Iterates through the collection and returns the index of the last element that the passed Predicate applied to ("scanning").
KeyValue<K,V>	search(Predicate<? super KeyValue<K,V>> predicate)	Returns the first contained element matching the passed predicate.
V	searchValue(Predicate<? super K> keyPredicate)
KeyValue<K,V>	seek(KeyValue<K,V> sample)	Returns the first contained element matching the passed sample as defined by the collection's equality logic or null, if no fitting element is contained.
long	size()
Object[]	toArray()	Returns an array containing all of the elements in this collection.
KeyValue<K,V>[]	toArray(Class<KeyValue<K,V>> type)	Returns a typed array containing all of the elements in this collection.
XGettingEnum<KeyValue<K,V>>	toReversed()	Creates a new XGettingSequence with the reversed order of elements.
String	toString()
<T extends Consumer<? super KeyValue<K, V>>> T	union(XGettingCollection<? extends KeyValue<K,V>> other, Equalator<? super KeyValue<K,V>> equalator, T target)	Calls Consumer.accept(Object) on the target Consumer for all the elements of this collection.
XGettingTable.Values<K,V>	values()
TableView<K,V>	view()	Creates a view of this collection and returns it.
XGettingEnum<KeyValue<K,V>>	view(long lowIndex, long highIndex)	Creates a sub-view of this collection and returns it.

Methods inherited from class java.lang.Object

clone, finalize, getClass, notify, notifyAll, wait, wait, wait

Methods inherited from interface java.lang.Iterable

forEach, spliterator

Methods inherited from interface one.microstream.collections.types.XGettingCollection

intSize

Methods inherited from interface one.microstream.collections.types.XGettingSequence

hasIndex

Constructor Details

TableView

public TableView(XGettingTable<K,V> subject)

Method Details

join

public <A> A join(BiConsumer<? super KeyValue<K,V>,? super A> joiner, A aggregate)

Description copied from interface: XJoinable

Iterates over all elements of the collections and calls the joiner with each element and the aggregate.

Specified by:

join in interface XGettingCollection<K>

Specified by:

join in interface XJoinable<K>

Type Parameters:

A - type of aggregate

Parameters:

joiner - is the actual function to do the joining

aggregate - where to join into

iterateIndexed

public <P extends IndexedAcceptor<? super KeyValue<K, V>>> P iterateIndexed(P procedure)

Description copied from interface: XIndexIterable

Iterates over elements with the IndexedAcceptor to use not only the element itself but also its coherent index.

Specified by:

iterateIndexed in interface XIndexIterable<K>

Type Parameters:

P - type of procedure

Parameters:

procedure - which is executed when iterating

Returns:

Given procedure

toReversed

public XGettingEnum<KeyValue<K,V>> toReversed()

Description copied from interface: XGettingSequence

Creates a new XGettingSequence with the reversed order of elements.

This method creates a new collection and does not change the existing collection.

Specified by:

toReversed in interface XGettingEnum<K>

Specified by:

toReversed in interface XGettingSequence<K>

Returns:

New copy of the collection

view

public XGettingEnum<KeyValue<K,V>> view(long lowIndex, long highIndex)

Description copied from interface: XGettingSequence

Creates a sub-view of this collection and returns it. It is a read-only collection, which wraps around this collection and only allows read methods.
The view is limited to a range from the lowIndex to the highIndex.

A view is different from immutable collection (XGettingCollection.immure()) in the way, that changes in this collection are still affecting the view. The immutable collection on the other hand has no reference to this collection and changes therefore do not affect the immutable collection.

Specified by:

view in interface XGettingEnum<K>

Specified by:

view in interface XGettingSequence<K>

Parameters:

lowIndex - defines lower boundary for the view of the collection.

highIndex - defines higher boundary for the view of the collection.

Returns:

new read-only collection to view a range of elements in this collection

range

public XGettingEnum<KeyValue<K,V>> range(long lowIndex, long highIndex)

Specified by:

range in interface XGettingEnum<K>

Specified by:

range in interface XGettingSequence<K>

get

public KeyValue<K,V> get()

Description copied from interface: XGettingCollection

Gets one element from the collection. If the collection is not ordered XGettingSequence, then it is undefined which element is returned. If the collection is ordered, the element at index 0 is returned.

Specified by:

get in interface XGettingCollection<K>

Specified by:

get in interface XGettingSequence<K>

Returns:

the first / any element.

See Also:

XGettingSequence.at(long), XGettingSequence.first(), XGettingSequence.last()

lookup

public KeyValue<K,V> lookup(K key)

Specified by:

lookup in interface XGettingMap<K,V>

equals

@Deprecated public boolean equals(Object o)

Deprecated.

Description copied from interface: XGettingCollection

Performs an equality comparison according to the specification in Collection.

Note that it is this interface's author opinion that the whole concept of equals() in standard Java, especially in the collection implementations, is flawed.
The reason is because all different kinds of comparison types that actually depend on the situation have to be mixed up in a harcoded fashion in one method, from identity comparison over data indentity comparison to content comparison.
In order to get the right behavior in every situation, one has to distinct between different types of equality

This means several things:
1.) You can't just say for example an ArrayList is the "same" as a LinkedList just because they contain the same content.
There are different implementations for a good reason, so you have to distinct them when comparing. There are simple code examples which create massive misbehavior that will catastrophically ruin the runtime behavior of a programm due to this error in Java / JDK / Sun / whatever.
2.) You can't always determine equality of two collections by determining equality of each element as Collection defines it.

As a conclusion: don't use this method!
Be clear what type of comparison you really need, then use one of the following methods and proper comparators:
XGettingCollection.equals(XGettingCollection, Equalator)
XGettingCollection.equalsContent(XGettingCollection, Equalator)

Specified by:

equals in interface XGettingCollection<K>

Overrides:

equals in class Object

at

public KeyValue<K,V> at(long index)

Specified by:

at in interface XGettingSequence<K>

first

public KeyValue<K,V> first()

Description copied from interface: XGettingSequence

Gets first element or throws IndexOutOfBoundsException if the collection is empty.

Is an alias for XGettingSequence.get().

Specified by:

first in interface XGettingSequence<K>

Returns:

First element

last

public KeyValue<K,V> last()

Description copied from interface: XGettingSequence

Gets last element or throws IndexOutOfBoundsException if the collection is empty.

Specified by:

last in interface XGettingSequence<K>

Returns:

Last element

poll

public KeyValue<K,V> poll()

Description copied from interface: XGettingSequence

Gets first element or null if the collection is empty.

Specified by:

poll in interface XGettingSequence<K>

Returns:

First element or null

peek

public KeyValue<K,V> peek()

Description copied from interface: XGettingSequence

Gets last element or null if the collection is empty.
This behaves like peeking on a stack without pop.

Specified by:

peek in interface XGettingSequence<K>

Returns:

Last element or null

maxIndex

public long maxIndex(Comparator<? super KeyValue<K,V>> comparator)

Specified by:

maxIndex in interface XGettingSequence<K>

minIndex

public long minIndex(Comparator<? super KeyValue<K,V>> comparator)

Specified by:

minIndex in interface XGettingSequence<K>

indexOf

public long indexOf(KeyValue<K,V> element)

Specified by:

indexOf in interface XGettingSequence<K>

indexBy

public long indexBy(Predicate<? super KeyValue<K,V>> predicate)

Description copied from interface: XGettingSequence

Iterates forwards through the collection and returns the index of the first element that the passed {link Predicate} applies to immediately.
Stops iterating on the first element that the predicate applies to.

Basically the opposite of XGettingSequence.lastIndexBy(Predicate)

Specified by:

indexBy in interface XGettingSequence<K>

Parameters:

predicate - to define a valid element

Returns:

The index of the first positively tested element.

lastIndexOf

public long lastIndexOf(KeyValue<K,V> element)

Specified by:

lastIndexOf in interface XGettingSequence<K>

lastIndexBy

public long lastIndexBy(Predicate<? super KeyValue<K,V>> predicate)

Description copied from interface: XGettingSequence

Iterates backwards through the collection and returns the index of the last element that the passed Predicate applies to immediately.
Stops iterating on the first element that the predicate applies to.

Basically the opposite of XGettingSequence.indexBy(Predicate).
Similar but not the same as XGettingSequence.scan(Predicate), since scan iterates through all elements.

Specified by:

lastIndexBy in interface XGettingSequence<K>

Parameters:

predicate - to define a valid element

Returns:

the index of the last positively tested element.

scan

public long scan(Predicate<? super KeyValue<K,V>> predicate)

Description copied from interface: XGettingSequence

Iterates through the collection and returns the index of the last element that the passed Predicate applied to ("scanning").

In order to find the last element, this method must iterate over all elements of the collection (opposed to XGettingSequence.indexBy(Predicate) and XGettingSequence.lastIndexBy(Predicate)).

Iteration can be safely canceled with a ThrowBreak (X.BREAK)

Specified by:

scan in interface XGettingSequence<K>

Parameters:

predicate - to define a valid element

Returns:

the index of the last positively tested element.

isSorted

public boolean isSorted(Comparator<? super KeyValue<K,V>> comparator)

Description copied from interface: XGettingSequence

Tests if the collection is sorted according to the given comparator.

Specified by:

isSorted in interface XGettingSequence<K>

Parameters:

comparator - defines if elements are sorted

Returns:

true if it sorted, false if not

copySelection

public <T extends Consumer<? super KeyValue<K, V>>> T copySelection(T target, long... indices)

Description copied from interface: XGettingSequence

Iterates through all the elements of the given indices and calls the Consumer.accept(Object) on the target Consumer.

Specified by:

copySelection in interface XGettingSequence<K>

Type Parameters:

T - type of the target

Parameters:

target - on which the Consumer.accept(Object) is called

indices - of the elements which are copied

Returns:

Given target

hashCode

@Deprecated public int hashCode()

Deprecated.

Specified by:

hashCode in interface XGettingCollection<K>

Overrides:

hashCode in class Object

iterator

public Iterator<KeyValue<K,V>> iterator()

Specified by:

iterator in interface Iterable<K>

Specified by:

iterator in interface XGettingCollection<K>

toArray

public Object[] toArray()

Description copied from interface: XGettingCollection

Returns an array containing all of the elements in this collection.

The returned array will be "safe" in that no references to it are maintained by this list. (In other words, this method must allocate a new array). The caller is thus free to modify the returned array.

This method acts as bridge between MicroStream-based collections and Java-native-based APIs.

Specified by:

toArray in interface XGettingCollection<K>

Returns:

an array containing all of the elements in this collection

toArray

public KeyValue<K,V>[] toArray(Class<KeyValue<K,V>> type)

Description copied from interface: XGettingCollection

Returns a typed array containing all of the elements in this collection.

The returned array will be "safe" in that no references to it are maintained by this list. (In other words, this method must allocate a new array). The caller is thus free to modify the returned array.

This method acts as bridge between MicroStream-based collections and Java-native-based APIs.

Specified by:

toArray in interface XGettingCollection<K>

Returns:

a typed array containing all of the elements in this collection

equality

public Equalator<? super KeyValue<K,V>> equality()

Specified by:

equality in interface XGettingCollection<K>

equals

public boolean equals(XGettingCollection<? extends KeyValue<K,V>> samples, Equalator<? super KeyValue<K,V>> equalator)

Specified by:

equals in interface XGettingCollection<K>

Parameters:

samples - is the collection which is checked for equality

equalator - is used to check the equality of the collections

Returns:

true if the passed collection is of the same type as this collection and this.equalsContent(list, equalator) yields true

equalsContent

public boolean equalsContent(XGettingCollection<? extends KeyValue<K,V>> samples, Equalator<? super KeyValue<K,V>> equalator)

Description copied from interface: XGettingCollection

Returns true if all elements of this list and the passed list are sequentially equal as defined by the passed equalator.

Note that for colletion types that don't have a defined order of elements, this method is hardly usable (as is XGettingCollection.equals(Object) for them as defined in Collection). The core problem of comparing collections that have no defined order is that they aren't really reliably comparable to any other collection.

Specified by:

equalsContent in interface XGettingCollection<K>

Parameters:

samples - is the collection which is checked for equality

equalator - the equalator to use to determine the equality of each element

Returns:

true if this list is equal to the passed list, false otherwise

nullContained

public boolean nullContained()

Specified by:

nullContained in interface XGettingCollection<K>

containsId

public boolean containsId(KeyValue<K,V> element)

Description copied from interface: XGettingCollection

Special version of contains() that guarantees to use identity comparison (" == ") when searching for the given element regardless of the collection's internal logic.
This method has the same behavior as XGettingCollection.containsSearched(Predicate) with a Predicate implementation that checks for object identity. The only difference is a performance and usability advantage

Specified by:

containsId in interface XGettingCollection<K>

Parameters:

element - the element to be searched in the collection by identity.

Returns:

whether this collection contains exactly the given element.

contains

public boolean contains(KeyValue<K,V> element)

Description copied from interface: XGettingCollection

Checks if the given element is contained in the collection.
In contrast to the XGettingCollection.containsId(Object) method, this method uses the internal Equalator defined by the collection itself.

Specified by:

contains in interface XGettingCollection<K>

Parameters:

element - to be searched in the collection

Returns:

Whether this collection contains the given element as specified by the Equalator.

containsSearched

public boolean containsSearched(Predicate<? super KeyValue<K,V>> predicate)

Specified by:

containsSearched in interface XGettingCollection<K>

containsAll

public boolean containsAll(XGettingCollection<? extends KeyValue<K,V>> elements)

Specified by:

containsAll in interface XGettingCollection<K>

Parameters:

elements - to be searched in the collection.

Returns:

Whether this collection contains all given elements as specified by the Equalator.

applies

public boolean applies(Predicate<? super KeyValue<K,V>> predicate)

Description copied from interface: XGettingCollection

Tests each element of the collection on the given predicate.

Specified by:

applies in interface XGettingCollection<K>

Parameters:

predicate - that's tested on each element.

Returns:

If all elements test successfully, true is returned. Otherwise (if at least one test has failed), false is returned.

count

public long count(KeyValue<K,V> element)

Description copied from interface: XGettingCollection

Count how many times this element matches another element in the collection using the Equalator.

Specified by:

count in interface XGettingCollection<K>

Parameters:

element - to count

Returns:

Amount of matches

countBy

public long countBy(Predicate<? super KeyValue<K,V>> predicate)

Description copied from interface: XGettingCollection

Count how many matches are found using the given predicate on each element of the collection.

Specified by:

countBy in interface XGettingCollection<K>

Parameters:

predicate - defines which elements are counted and which are not

Returns:

Amount of matches

search

public KeyValue<K,V> search(Predicate<? super KeyValue<K,V>> predicate)

Description copied from interface: XGettingCollection

Returns the first contained element matching the passed predicate.

Specified by:

search in interface XGettingCollection<K>

Parameters:

predicate - defines which element is searched

Returns:

Matching element

seek

public KeyValue<K,V> seek(KeyValue<K,V> sample)

Description copied from interface: XGettingCollection

Returns the first contained element matching the passed sample as defined by the collection's equality logic or null, if no fitting element is contained. (For collections using referential equality, this method is basically just a variation of XGettingCollection.contains(Object) with a different return type. For collections with data-dependant equality, the returned element might be the same as the passed one or a data-wise equal one, depending on the content of the collection)

Specified by:

seek in interface XGettingCollection<K>

Parameters:

sample - to seek in the collection

Returns:

the first contained element matching the passed sample

max

public KeyValue<K,V> max(Comparator<? super KeyValue<K,V>> comparator)

Specified by:

max in interface XGettingCollection<K>

min

public KeyValue<K,V> min(Comparator<? super KeyValue<K,V>> comparator)

Specified by:

min in interface XGettingCollection<K>

distinct

public <T extends Consumer<? super KeyValue<K, V>>> T distinct(T target)

Description copied from interface: XGettingCollection

Calls Consumer.accept(Object) on the target Consumer for all the unique/distinct elements of this collection. This means the elements are not equal to each other.
Uniqueness is defined by the collections internal Equalator.

Since all MicroStream Collections implement the Consumer interface, new collections can be used as target.

Example:
BulkList<Integer> collection1 = BulkList.New(1,2,2,3);
BulkList<Integer> distinctCollection = collection1.distinct(BulkList.New());
Results in distinctCollection containing 1, 2 and 3.

Specified by:

distinct in interface XGettingCollection<K>

Parameters:

target - on which the Consumer.accept(Object) is called for every distinct element of this collection.

Returns:

Given target

distinct

public <T extends Consumer<? super KeyValue<K, V>>> T distinct(T target, Equalator<? super KeyValue<K,V>> equalator)

Description copied from interface: XGettingCollection

Calls Consumer.accept(Object) on the target Consumer for all the unique/distinct elements of this collection. This means the elements are not equal to each other.
Uniqueness is defined by the given Equalator.

Since all MicroStream Collections implement the Consumer interface, new collections can be used as target.

Example:
BulkList<Integer> collection1 = BulkList.New(1,2,2,3);
BulkList<Integer> distinctCollection = collection1.distinct(BulkList.New(), Equalator.identity());
Results in distinctCollection containing 1, 2 and 3.

Specified by:

distinct in interface XGettingCollection<K>

Parameters:

target - on which the Consumer.accept(Object) is called for every distinct element of this collection.

equalator - defines what distinct means (which elements are equal to one another)

Returns:

Given target

copyTo

public <T extends Consumer<? super KeyValue<K, V>>> T copyTo(T target)

Description copied from interface: XGettingCollection

Calls Consumer.accept(Object) on the target Consumer for all the elements of this collection.

Since all MicroStream Collections implement the Consumer interface, new collections can be used as target.

Example:
BulkList<Integer> collection1 = BulkList.New(1,2,3);
BulkList<Integer> copiedCollection = collection1.copyTo(BulkList.New());
Results in copiedCollection containing 1, 2 and 3.

Specified by:

copyTo in interface XGettingCollection<K>

Parameters:

target - on which the Consumer.accept(Object) is called for all elements of this collection.

Returns:

Given target

filterTo

public <T extends Consumer<? super KeyValue<K, V>>> T filterTo(T target, Predicate<? super KeyValue<K,V>> predicate)

Description copied from interface: XGettingCollection

Calls Consumer.accept(Object) on the target Consumer for all the elements of this collection which test true on the given predicate.

Since all MicroStream Collections implement the Consumer interface, new collections can be used as target.

Example:
BulkList<Integer> collection1 = BulkList.New(1,2,3);
BulkList<Integer> filteredCollection = collection1.filterTo(BulkList.New(), e-> e % 2 == 0);
Results in filteredCollection containing 2.

Specified by:

filterTo in interface XGettingCollection<K>

Parameters:

target - on which the Consumer.accept(Object) is called for elements that test true.

predicate - on which to test all elements.

Returns:

Given target

union

public <T extends Consumer<? super KeyValue<K, V>>> T union(XGettingCollection<? extends KeyValue<K,V>> other, Equalator<? super KeyValue<K,V>> equalator, T target)

Description copied from interface: XGettingCollection

Calls Consumer.accept(Object) on the target Consumer for all the elements of this collection. And calls it for all elements of the other collection, that are not already in this collection (defined by the given Equalator)
Therefore it effectively creates a mathematical union between the two collections.

Since all MicroStream Collections implement the Consumer interface, new collections can be used as target.

Example:
BulkList<Integer> collection1 = BulkList.New(1,2,3);
BulkList<Integer> collection2 = BulkList.New(2,3,4);
BulkList<Integer> union = collection1.union(collection2, Equalator.identity(), BulkList.New());
Results in union containing 1, 2, 3 and 4.

Specified by:

union in interface XGettingCollection<K>

Parameters:

other - collection to build a union with.

equalator - which is used for the equal-tests.

target - on which the Consumer.accept(Object) is called for all unified elements.

Returns:

Given target

intersect

public <T extends Consumer<? super KeyValue<K, V>>> T intersect(XGettingCollection<? extends KeyValue<K,V>> other, Equalator<? super KeyValue<K,V>> equalator, T target)

Description copied from interface: XGettingCollection

Tests equality between each element of the two lists and calls Consumer.accept(Object) on the target Consumer for the equal elements.
Therefore it effectively creates a mathematical intersection between the two collections.

Since all MicroStream Collections implement the Consumer interface, new collections can be used as target.

Example:
BulkList<Integer> collection1 = BulkList.New(1,2,3);
BulkList<Integer> collection2 = BulkList.New(2,3,4);
BulkList<Integer> intersection = collection1.intersect(collection2, Equalator.identity(), BulkList.New());
Results in intersection containing 2 and 3.

Specified by:

intersect in interface XGettingCollection<K>

Parameters:

other - collection to intersect with.

equalator - which is used for the equal-tests.

target - on which the Consumer.accept(Object) is called for equal elements.

Returns:

Given target

except

public <T extends Consumer<? super KeyValue<K, V>>> T except(XGettingCollection<? extends KeyValue<K,V>> other, Equalator<? super KeyValue<K,V>> equalator, T target)

Description copied from interface: XGettingCollection

Calls Consumer.accept(Object) on the target Consumer for each element of this collection that is not contained in the other collection (through the given equalator).

Since all MicroStream Collections implement the Consumer interface, new collections can be used as target.

Example:
BulkList<Integer> collection1 = BulkList.New(1,2,3);
BulkList<Integer> collection2 = BulkList.New(2,3,4);
BulkList<Integer> exceptCollection = collection1.except(collection2, Equalator.identity(), BulkList.New());
Results in exceptCollection containing 1.

Specified by:

except in interface XGettingCollection<K>

Type Parameters:

T - type of the target

Parameters:

other - collection whose elements are excluded from the target.

equalator - which is used for the equal-tests.

target - on which the Consumer.accept(Object) is called for elements not contained in the other collection.

Returns:

Given target

maximumCapacity

public final long maximumCapacity()

Description copied from interface: CapacityCarrying

Returns the maximum amount of elements this carrier instance can contain.
The actual value may be depend on the configuration of the concrete instance or may depend only on the implementation of the carrier (meaning it is constant for all instances of the implementation, e.g. Integer.MAX_VALUE)

Specified by:

maximumCapacity in interface CapacityCarrying

Returns:

the maximum amount of elements this carrier instance can contain.

size

public final long size()

Specified by:

size in interface Sized

Specified by:

size in interface XGettingCollection<K>

hasVolatileElements

public final boolean hasVolatileElements()

Description copied from interface: ExtendedCollection

Tells if this collection contains volatile elements.
An element is volatile, if it can become no longer reachable by the collection without being removed from the collection. Examples are WeakReference of SoftReference or implementations of collection entries that remove the element contained in an entry by some means outside the collection.
Note that WeakReference instances that are added to a a simple (non-volatile) implementation of a collection do not make the collection volatile, as the elements themselves (the reference instances) are still strongly referenced.

Specified by:

hasVolatileElements in interface ExtendedCollection<K>

Specified by:

hasVolatileElements in interface XGettingCollection<K>

Returns:

true if the collection contains volatile elements.

nullAllowed

public final boolean nullAllowed()

Description copied from interface: ExtendedCollection

Defines if null-elements are allowed inside the collection or not.

Specified by:

nullAllowed in interface ExtendedCollection<K>

Returns:

true if null is allowed inside the collection; false if not

isEmpty

public final boolean isEmpty()

Specified by:

isEmpty in interface Sized

keys

public final XGettingTable.Keys<K,V> keys()

Specified by:

keys in interface XGettingMap<K,V>

Specified by:

keys in interface XGettingTable<K,V>

values

public final XGettingTable.Values<K,V> values()

Specified by:

values in interface XGettingMap<K,V>

Specified by:

values in interface XGettingTable<K,V>

remainingCapacity

public final long remainingCapacity()

Description copied from interface: CapacityCarrying

Returns the amount of elements this carrier instance can collect before reaching its maximimum capacity.

Specified by:

remainingCapacity in interface CapacityCarrying

isFull

public final boolean isFull()

Description copied from interface: CapacityCarrying

Returns true if the current capacity cannot be increased any more.

Specified by:

isFull in interface CapacityCarrying

get

public final V get(K key)

Specified by:

get in interface XGettingMap<K,V>

searchValue

public final V searchValue(Predicate<? super K> keyPredicate)

Specified by:

searchValue in interface XGettingMap<K,V>

query

public final <C extends Consumer<? super V>> C query(XIterable<? extends K> keys, C collector)

Specified by:

query in interface XGettingMap<K,V>

copy

public final XGettingTable<K,V> copy()

Description copied from interface: XGettingCollection

Creates a true copy of this collection which references the same elements as this collection does at the time the method is called. The elements themselves are NOT copied (no deep copying).
The type of the returned set is the same as of this list if possible.

Specified by:

copy in interface Copyable

Specified by:

copy in interface XGettingCollection<K>

Specified by:

copy in interface XGettingEnum<K>

Specified by:

copy in interface XGettingMap<K,V>

Specified by:

copy in interface XGettingSequence<K>

Specified by:

copy in interface XGettingSet<K>

Specified by:

copy in interface XGettingTable<K,V>

Returns:

a copy of this list

immure

public final XImmutableTable<K,V> immure()

Description copied from interface: XGettingMap

Provides an instance of an immutable collection type with equal behavior and data as this instance.

If this instance already is of an immutable collection type, it returns itself.

Specified by:

immure in interface XGettingCollection<K>

Specified by:

immure in interface XGettingEnum<K>

Specified by:

immure in interface XGettingMap<K,V>

Specified by:

immure in interface XGettingSequence<K>

Specified by:

immure in interface XGettingSet<K>

Specified by:

immure in interface XGettingTable<K,V>

Returns:

an immutable copy of this collection instance.

old

public final XGettingTable.EntriesBridge<K,V> old()

Specified by:

old in interface XGettingCollection<K>

Specified by:

old in interface XGettingMap<K,V>

Specified by:

old in interface XGettingTable<K,V>

oldMap

public XGettingTable.Bridge<K,V> oldMap()

Specified by:

oldMap in interface XGettingMap<K,V>

Specified by:

oldMap in interface XGettingTable<K,V>

nullKeyAllowed

public final boolean nullKeyAllowed()

Specified by:

nullKeyAllowed in interface XGettingMap<K,V>

nullValuesAllowed

public final boolean nullValuesAllowed()

Specified by:

nullValuesAllowed in interface XGettingMap<K,V>

view

public final TableView<K,V> view()

Description copied from interface: XGettingCollection

Creates a view of this collection and returns it. It is a read-only collection, which wraps around this collection and only allows read methods.

A view is different from immutable collection (XGettingCollection.immure()) in the way, that changes in this collection are still affecting the view. The immutable collection on the other hand has no reference to this collection and changes therefore do not affect the immutable collection.

Specified by:

view in interface XGettingCollection<K>

Specified by:

view in interface XGettingEnum<K>

Specified by:

view in interface XGettingMap<K,V>

Specified by:

view in interface XGettingSequence<K>

Specified by:

view in interface XGettingTable<K,V>

Returns:

new read-only collection to view this collection

iterate

public final <P extends Consumer<? super KeyValue<K, V>>> P iterate(P procedure)

Description copied from interface: XIterable

Executes the given procedure for each element of the XIterable until all elements have been processed or the action throws an exception. Unless otherwise specified by the implementing class, procedures are performed in the order of iteration (if an iteration order is specified). Exceptions thrown by the procedure are relayed to the caller.
Should be identical to Iterable.forEach(Consumer).

Specified by:

iterate in interface XGettingEnum<K>

Specified by:

iterate in interface XGettingSet<K>

Specified by:

iterate in interface XIterable<K>

Type Parameters:

P - type of procedure

Parameters:

procedure - The procedure to be performed for each element

Returns:

Given procedure

toString

public final String toString()

Overrides:

toString in class Object