public abstract static class ShortBigSpliterators.AbstractIndexBasedSpliterator extends AbstractShortSpliterator
As the abstract methods in this class are used in inner loops, it is generally a
good idea to override the class as final
as to encourage the JVM to inline
them (or alternatively, override the abstract methods as final).
Modifier and Type | Method and Description |
---|---|
int |
characteristics() |
long |
estimateSize() |
void |
forEachRemaining(ShortConsumer action) |
long |
skip(long n)
Skips the given number of elements.
|
boolean |
tryAdvance(ShortConsumer action) |
ShortSpliterator |
trySplit() |
equals, getClass, hashCode, notify, notifyAll, toString, wait, wait, wait
forEachRemaining, getComparator, tryAdvance
public int characteristics()
public long estimateSize()
public boolean tryAdvance(ShortConsumer action)
public void forEachRemaining(ShortConsumer action)
public long skip(long n)
ShortSpliterator
The effect of this call is exactly the same as that of calling ShortSpliterator.tryAdvance(java.util.function.Consumer<? super java.lang.Short>)
for
n
times (possibly stopping if ShortSpliterator.tryAdvance(java.util.function.Consumer<? super java.lang.Short>)
returns false).
The action called will do nothing; elements will be discarded.
n
- the number of elements to skip.Spliterator.tryAdvance(java.util.function.Consumer<? super T>)
public ShortSpliterator trySplit()
java.lang.IndexOutOfBoundsException
- if the return of computeSplitPoint()
was
< pos
or > {@link #getMaxPos()}
.Spliterator.ORDERED
property. This means this current iterator does not need to
to update what getMaxPos()
returns in response to this method (but it may do
"book-keeping" on it based on binding strategy).
The split point is computed by computeSplitPoint()
; see that method for details.