Java util collection методы

Interface Collection

The root interface in the collection hierarchy. A collection represents a group of objects, known as its elements. Some collections allow duplicate elements and others do not. Some are ordered and others unordered. The JDK does not provide any direct implementations of this interface: it provides implementations of more specific subinterfaces like Set and List . This interface is typically used to pass collections around and manipulate them where maximum generality is desired.

Bags or multisets (unordered collections that may contain duplicate elements) should implement this interface directly.

All general-purpose Collection implementation classes (which typically implement Collection indirectly through one of its subinterfaces) should provide two «standard» constructors: a void (no arguments) constructor, which creates an empty collection, and a constructor with a single argument of type Collection , which creates a new collection with the same elements as its argument. In effect, the latter constructor allows the user to copy any collection, producing an equivalent collection of the desired implementation type. There is no way to enforce this convention (as interfaces cannot contain constructors) but all of the general-purpose Collection implementations in the Java platform libraries comply.

Certain methods are specified to be optional. If a collection implementation doesn’t implement a particular operation, it should define the corresponding method to throw UnsupportedOperationException . Such methods are marked «optional operation» in method specifications of the collections interfaces.

Some collection implementations have restrictions on the elements that they may contain. For example, some implementations prohibit null elements, and some have restrictions on the types of their elements. Attempting to add an ineligible element throws an unchecked exception, typically NullPointerException or ClassCastException . Attempting to query the presence of an ineligible element may throw an exception, or it may simply return false; some implementations will exhibit the former behavior and some will exhibit the latter. More generally, attempting an operation on an ineligible element whose completion would not result in the insertion of an ineligible element into the collection may throw an exception or it may succeed, at the option of the implementation. Such exceptions are marked as «optional» in the specification for this interface.

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It is up to each collection to determine its own synchronization policy. In the absence of a stronger guarantee by the implementation, undefined behavior may result from the invocation of any method on a collection that is being mutated by another thread; this includes direct invocations, passing the collection to a method that might perform invocations, and using an existing iterator to examine the collection.

Many methods in Collections Framework interfaces are defined in terms of the equals method. For example, the specification for the contains(Object o) method says: «returns true if and only if this collection contains at least one element e such that (o==null ? e==null : o.equals(e)) .» This specification should not be construed to imply that invoking Collection.contains with a non-null argument o will cause o.equals(e) to be invoked for any element e . Implementations are free to implement optimizations whereby the equals invocation is avoided, for example, by first comparing the hash codes of the two elements. (The Object.hashCode() specification guarantees that two objects with unequal hash codes cannot be equal.) More generally, implementations of the various Collections Framework interfaces are free to take advantage of the specified behavior of underlying Object methods wherever the implementor deems it appropriate.

Some collection operations which perform recursive traversal of the collection may fail with an exception for self-referential instances where the collection directly or indirectly contains itself. This includes the clone() , equals() , hashCode() and toString() methods. Implementations may optionally handle the self-referential scenario, however most current implementations do not do so.

View Collections

Most collections manage storage for elements they contain. By contrast, view collections themselves do not store elements, but instead they rely on a backing collection to store the actual elements. Operations that are not handled by the view collection itself are delegated to the backing collection. Examples of view collections include the wrapper collections returned by methods such as Collections.checkedCollection , Collections.synchronizedCollection , and Collections.unmodifiableCollection . Other examples of view collections include collections that provide a different representation of the same elements, for example, as provided by List.subList , NavigableSet.subSet , or Map.entrySet . Any changes made to the backing collection are visible in the view collection. Correspondingly, any changes made to the view collection — if changes are permitted — are written through to the backing collection. Although they technically aren’t collections, instances of Iterator and ListIterator can also allow modifications to be written through to the backing collection, and in some cases, modifications to the backing collection will be visible to the Iterator during iteration.

Unmodifiable Collections

Certain methods of this interface are considered «destructive» and are called «mutator» methods in that they modify the group of objects contained within the collection on which they operate. They can be specified to throw UnsupportedOperationException if this collection implementation does not support the operation. Such methods should (but are not required to) throw an UnsupportedOperationException if the invocation would have no effect on the collection. For example, consider a collection that does not support the add operation. What will happen if the addAll method is invoked on this collection, with an empty collection as the argument? The addition of zero elements has no effect, so it is permissible for this collection simply to do nothing and not to throw an exception. However, it is recommended that such cases throw an exception unconditionally, as throwing only in certain cases can lead to programming errors.

An unmodifiable collection is a collection, all of whose mutator methods (as defined above) are specified to throw UnsupportedOperationException . Such a collection thus cannot be modified by calling any methods on it. For a collection to be properly unmodifiable, any view collections derived from it must also be unmodifiable. For example, if a List is unmodifiable, the List returned by List.subList is also unmodifiable.

An unmodifiable collection is not necessarily immutable. If the contained elements are mutable, the entire collection is clearly mutable, even though it might be unmodifiable. For example, consider two unmodifiable lists containing mutable elements. The result of calling list1.equals(list2) might differ from one call to the next if the elements had been mutated, even though both lists are unmodifiable. However, if an unmodifiable collection contains all immutable elements, it can be considered effectively immutable.

Unmodifiable View Collections

An unmodifiable view collection is a collection that is unmodifiable and that is also a view onto a backing collection. Its mutator methods throw UnsupportedOperationException , as described above, while reading and querying methods are delegated to the backing collection. The effect is to provide read-only access to the backing collection. This is useful for a component to provide users with read access to an internal collection, while preventing them from modifying such collections unexpectedly. Examples of unmodifiable view collections are those returned by the Collections.unmodifiableCollection , Collections.unmodifiableList , and related methods.

Note that changes to the backing collection might still be possible, and if they occur, they are visible through the unmodifiable view. Thus, an unmodifiable view collection is not necessarily immutable. However, if the backing collection of an unmodifiable view is effectively immutable, or if the only reference to the backing collection is through an unmodifiable view, the view can be considered effectively immutable.

Serializability of Collections

Serializability of collections is optional. As such, none of the collections interfaces are declared to implement the Serializable interface. However, serializability is regarded as being generally useful, so most collection implementations are serializable.

The collection implementations that are public classes (such as ArrayList or HashMap ) are declared to implement the Serializable interface if they are in fact serializable. Some collections implementations are not public classes, such as the unmodifiable collections. In such cases, the serializability of such collections is described in the specification of the method that creates them, or in some other suitable place. In cases where the serializability of a collection is not specified, there is no guarantee about the serializability of such collections. In particular, many view collections are not serializable.

A collection implementation that implements the Serializable interface cannot be guaranteed to be serializable. The reason is that in general, collections contain elements of other types, and it is not possible to determine statically whether instances of some element type are actually serializable. For example, consider a serializable Collection , where E does not implement the Serializable interface. The collection may be serializable, if it contains only elements of some serializable subtype of E , or if it is empty. Collections are thus said to be conditionally serializable, as the serializability of the collection as a whole depends on whether the collection itself is serializable and on whether all contained elements are also serializable.

An additional case occurs with instances of SortedSet and SortedMap . These collections can be created with a Comparator that imposes an ordering on the set elements or map keys. Such a collection is serializable only if the provided Comparator is also serializable.

This interface is a member of the Java Collections Framework.

  • Set
  • List
  • Map
  • SortedSet
  • SortedMap
  • HashSet
  • TreeSet
  • ArrayList
  • LinkedList
  • Vector
  • Collections
  • Arrays
  • AbstractCollection

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