Spec-Zone .ru
спецификации, руководства, описания, API
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JavaTM 2 Platform Standard Edition |
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SUMMARY: INNER | FIELD | CONSTR | METHOD | DETAIL: FIELD | CONSTR | METHOD |
java.lang.Object | +--java.util.AbstractCollection | +--java.util.AbstractSet | +--java.util.TreeSet
This class implements the Set interface, backed by a TreeMap instance. This class guarantees that the sorted set will be in ascending element order, sorted according to the natural order of the elements (see Comparable), or by the comparator provided at set creation time, depending on which constructor is used.
This implementation provides guaranteed log(n) time cost for the basic operations (add, remove and contains).
Note that the ordering maintained by a set (whether or not an explicit comparator is provided) must be consistent with equals if it is to correctly implement the Set interface. (See Comparable or Comparator for a precise definition of consistent with equals.) This is so because the Set interface is defined in terms of the equals operation, but a TreeSet instance performs all key comparisons using its compareTo (or compare) method, so two keys that are deemed equal by this method are, from the standpoint of the set, equal. The behavior of a set is well-defined even if its ordering is inconsistent with equals; it just fails to obey the general contract of the Set interface.
Note that this implementation is not synchronized. If multiple threads access a set concurrently, and at least one of the threads modifies the set, it must be synchronized externally. This is typically accomplished by synchronizing on some object that naturally encapsulates the set. If no such object exists, the set should be "wrapped" using the Collections.synchronizedSet method. This is best done at creation time, to prevent accidental unsynchronized access to the set:
SortedSet s = Collections.synchronizedSortedSet(new TreeSet(...));
The Iterators returned by this class's iterator method are fail-fast: if the set is modified at any time after the iterator is created, in any way except through the iterator's own remove method, the iterator will throw a ConcurrentModificationException. Thus, in the face of concurrent modification, the iterator fails quickly and cleanly, rather than risking arbitrary, non-deterministic behavior at an undetermined time in the future.
Collection
,
Set
,
HashSet
,
Comparable
,
Comparator
,
Collections.synchronizedSortedSet(SortedSet)
,
TreeMap
, Serialized FormConstructor Summary | |
TreeSet()
Constructs a new, empty set, sorted according to the elements' natural order. |
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TreeSet(Collection c)
Constructs a new set containing the elements in the specified collection, sorted according to the elements' natural order. |
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TreeSet(Comparator c)
Constructs a new, empty set, sorted according to the given comparator. |
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TreeSet(SortedSet s)
Constructs a new set containing the same elements as the given sorted set, sorted according to the same ordering. |
Method Summary | |
boolean |
add(Object o)
Adds the specified element to this set if it is not already present. |
boolean |
addAll(Collection c)
Adds all of the elements in the specified collection to this set. |
void |
clear()
Removes all of the elements from this set. |
Object |
clone()
Returns a shallow copy of this TreeSet instance. |
Comparator |
comparator()
Returns the comparator used to order this sorted set, or null if this tree map uses its keys natural ordering. |
boolean |
contains(Object o)
Returns true if this set contains the specified element. |
Object |
first()
Returns the first (lowest) element currently in this sorted set. |
SortedSet |
headSet(Object toElement)
Returns a view of the portion of this set whose elements are strictly less than toElement. |
boolean |
isEmpty()
Returns true if this set contains no elements. |
Iterator |
iterator()
Returns an iterator over the elements in this set. |
Object |
last()
Returns the last (highest) element currently in this sorted set. |
boolean |
remove(Object o)
Removes the given element from this set if it is present. |
int |
size()
Returns the number of elements in this set (its cardinality). |
SortedSet |
subSet(Object fromElement,
Object toElement)
Returns a view of the portion of this set whose elements range from fromElement, inclusive, to toElement, exclusive. |
SortedSet |
tailSet(Object fromElement)
Returns a view of the portion of this set whose elements are greater than or equal to fromElement. |
Methods inherited from class java.util.AbstractSet |
equals,
hashCode |
Methods inherited from class java.util.AbstractCollection |
containsAll,
removeAll,
retainAll,
toArray,
toArray,
toString |
Methods inherited from class java.lang.Object |
finalize,
getClass,
notify,
notifyAll,
wait,
wait,
wait |
Constructor Detail |
public TreeSet()
Comparable
public TreeSet(Comparator c)
public TreeSet(Collection c)
c
- The elements that will comprise the new set.public TreeSet(SortedSet s)
s
- sorted set whose elements will comprise the new set.Method Detail |
public Iterator iterator()
public int size()
public boolean isEmpty()
public boolean contains(Object o)
o
- the object to be checked for containment in this set.public boolean add(Object o)
o
- element to be added to this set.public boolean remove(Object o)
o
- object to be removed from this set, if present.public void clear()
public boolean addAll(Collection c)
c
- elements to be addedpublic SortedSet subSet(Object fromElement, Object toElement)
The sorted set returned by this method will throw an IllegalArgumentException if the user attempts to insert an element outside the specified range.
Note: this method always returns a half-open range (which includes its low endpoint but not its high endpoint). If you need a closed range (which includes both endpoints), and the element type allows for calculation of the successor a given value, merely request the subrange from lowEndpoint to successor(highEndpoint). For example, suppose that s is a sorted set of strings. The following idiom obtains a view containing all of the strings in s from low to high, inclusive:
SortedSet sub = s.subSet(low, high+"\0");A similar technique can be used to generate an open range (which contains neither endpoint). The following idiom obtains a view containing all of the strings in s from low to high, exclusive:
SortedSet sub = s.subSet(low+"\0", high);
fromElement
- low endpoint (inclusive) of the subSet.toElement
- high endpoint (exclusive) of the subSet.public SortedSet headSet(Object toElement)
The sorted set returned by this method will throw an IllegalArgumentException if the user attempts to insert an element greater than or equal to toElement.
Note: this method always returns a view that does not contain its (high) endpoint. If you need a view that does contain this endpoint, and the element type allows for calculation of the successor a given value, merely request a headSet bounded by successor(highEndpoint). For example, suppose that s is a sorted set of strings. The following idiom obtains a view containing all of the strings in s that are less than or equal to high:
SortedSet head = s.headSet(high+"\0");
toElement
- high endpoint (exclusive) of the headSet.public SortedSet tailSet(Object fromElement)
The sorted set returned by this method will throw an IllegalArgumentException if the user attempts to insert an element less than fromElement. Note: this method always returns a view that contains its (low) endpoint. If you need a view that does not contain this endpoint, and the element type allows for calculation of the successor a given value, merely request a tailSet bounded by successor(lowEndpoint). For example, suppose that s is a sorted set of strings. The following idiom obtains a view containing all of the strings in s that are strictly greater than low:
SortedSet tail = s.tailSet(low+"\0");
fromElement
- low endpoint (inclusive) of the tailSet.public Comparator comparator()
public Object first()
public Object last()
public Object clone()
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JavaTM 2 Platform Standard Edition |
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SUMMARY: INNER | FIELD | CONSTR | METHOD | DETAIL: FIELD | CONSTR | METHOD |