private class TreeRangeMap.SubRangeMap extends java.lang.Object implements RangeMap<K,V>
| Modifier and Type | Class and Description |
|---|---|
(package private) class |
TreeRangeMap.SubRangeMap.SubRangeMapAsMap |
| Constructor and Description |
|---|
SubRangeMap(Range<K> subRange) |
| Modifier and Type | Method and Description |
|---|---|
java.util.Map<Range<K>,V> |
asDescendingMapOfRanges()
Returns a view of this range map as an unmodifiable
Map<Range<K>, V>. |
java.util.Map<Range<K>,V> |
asMapOfRanges()
Returns a view of this range map as an unmodifiable
Map<Range<K>, V>. |
void |
clear()
Removes all associations from this range map (optional operation).
|
boolean |
equals(java.lang.Object o)
|
V |
get(K key)
Returns the value associated with the specified key, or
null if there is no such value. |
java.util.Map.Entry<Range<K>,V> |
getEntry(K key)
Returns the range containing this key and its associated value, if such a range is present in
the range map, or
null otherwise. |
int |
hashCode()
Returns
asMapOfRanges().hashCode(). |
void |
merge(Range<K> range,
V value,
java.util.function.BiFunction<? super V,? super V,? extends V> remappingFunction)
Merges a value into a part of the map by applying a remapping function.
|
void |
put(Range<K> range,
V value)
Maps a range to a specified value (optional operation).
|
void |
putAll(RangeMap<K,V> rangeMap)
Puts all the associations from
rangeMap into this range map (optional operation). |
void |
putCoalescing(Range<K> range,
V value)
Maps a range to a specified value, coalescing this range with any existing ranges with the same
value that are connected to this range.
|
void |
remove(Range<K> range)
Removes all associations from this range map in the specified range (optional operation).
|
Range<K> |
span()
Returns the minimal range enclosing the ranges in this
RangeMap. |
RangeMap<K,V> |
subRangeMap(Range<K> range)
Returns a view of the part of this range map that intersects with
range. |
java.lang.String |
toString()
Returns a readable string representation of this range map.
|
@CheckForNull public V get(K key)
RangeMapnull if there is no such value.
Specifically, if any range in this range map contains the specified key, the value associated with that range is returned.
@CheckForNull public java.util.Map.Entry<Range<K>,V> getEntry(K key)
RangeMapnull otherwise.public Range<K> span()
RangeMapRangeMap.public void put(Range<K> range, V value)
RangeMapSpecifically, after a call to put(range, value), if range.contains(k), then get(k) will return
value.
If range is empty, then this is a no-op.
public void putCoalescing(Range<K> range, V value)
RangeMapThe behavior of get(k) after calling this method is identical to
the behavior described in put(range, value), however the ranges
returned from RangeMap.asMapOfRanges() will be different if there were existing entries which
connect to the given range and value.
Even if the input range is empty, if it is connected on both sides by ranges mapped to the same value those two ranges will be coalesced.
Note: coalescing requires calling .equals() on any connected values, which
may be expensive depending on the value type. Using this method on range maps with large values
such as Collection types is discouraged.
putCoalescing in interface RangeMap<K extends java.lang.Comparable,V>public void putAll(RangeMap<K,V> rangeMap)
RangeMaprangeMap into this range map (optional operation).public void clear()
RangeMappublic void remove(Range<K> range)
RangeMapIf !range.contains(k), get(k) will return the same result
before and after a call to remove(range). If range.contains(k), then after a
call to remove(range), get(k) will return null.
public void merge(Range<K> range, @CheckForNull V value, java.util.function.BiFunction<? super V,? super V,? extends V> remappingFunction)
RangeMapIf any parts of the range are already present in this map, those parts are mapped to new
values by applying the remapping function. The remapping function accepts the map's existing
value for that part of the range and the given value. It returns the value to be associated
with that part of the map, or it returns null to clear that part of the map.
Any parts of the range not already present in this map are mapped to the specified value,
unless the value is null.
Any existing entry spanning either range boundary may be split at the boundary, even if the
merge does not affect its value. For example, if rangeMap had one entry [1, 5]
=> 3 then rangeMap.merge(Range.closed(0,2), 3, Math::max) could yield a map with the
entries [0, 1) => 3, [1, 2] => 3, (2, 5] => 3.
public RangeMap<K,V> subRangeMap(Range<K> range)
RangeMaprange.
For example, if rangeMap had the entries [1, 5] => "foo", (6, 8) => "bar",
(10, ∞) => "baz" then rangeMap.subRangeMap(Range.open(3, 12)) would return a range map
with the entries (3, 5] => "foo", (6, 8) => "bar", (10, 12) => "baz".
The returned range map supports all optional operations that this range map supports, except
for asMapOfRanges().iterator().remove().
The returned range map will throw an IllegalArgumentException on an attempt to
insert a range not enclosed by range.
subRangeMap in interface RangeMap<K extends java.lang.Comparable,V>public java.util.Map<Range<K>,V> asMapOfRanges()
RangeMapMap<Range<K>, V>. Modifications to
this range map are guaranteed to read through to the returned Map.
The returned Map iterates over entries in ascending order of the bounds of the
Range entries.
It is guaranteed that no empty ranges will be in the returned Map.
asMapOfRanges in interface RangeMap<K extends java.lang.Comparable,V>public java.util.Map<Range<K>,V> asDescendingMapOfRanges()
RangeMapMap<Range<K>, V>. Modifications to
this range map are guaranteed to read through to the returned Map.
The returned Map iterates over entries in descending order of the bounds of the
Range entries.
It is guaranteed that no empty ranges will be in the returned Map.
asDescendingMapOfRanges in interface RangeMap<K extends java.lang.Comparable,V>public boolean equals(@CheckForNull
java.lang.Object o)
RangeMappublic int hashCode()
RangeMapasMapOfRanges().hashCode().