T
- Data types of the elments stored in this Sequential data typepublic interface Sequential<T>
Modifier and Type | Method and Description |
---|---|
default ReactiveSeq<T> |
fixedDelay(long l,
java.util.concurrent.TimeUnit unit)
emit elements after a fixed delay
|
default ReactiveSeq<T> |
onePer(long time,
java.util.concurrent.TimeUnit t)
emit one element per time period
|
ReactiveSeq<T> |
stream() |
default ReactiveSeq<T> |
xPer(int x,
long time,
java.util.concurrent.TimeUnit t)
emit x elements per time period
|
ReactiveSeq<T> stream()
ReactiveSeq
default ReactiveSeq<T> xPer(int x, long time, java.util.concurrent.TimeUnit t)
SimpleTimer timer = new SimpleTimer();
ReactiveSeq.of(1, 2, 3, 4, 5, 6)
.xPer(6, 100000000, TimeUnit.NANOSECONDS)
.collect(CyclopsCollectors.toList())
.size()
//6
x
- number of elements to emittime
- periodt
- Time unitdefault ReactiveSeq<T> onePer(long time, java.util.concurrent.TimeUnit t)
ReactiveSeq.iterate("", last -> "next")
.limit(100)
.batchBySize(10)
.onePer(1, TimeUnit.MICROSECONDS)
.peek(batch -> System.out.println("batched : " + batch))
.flatMap(Collection::reactiveStream)
.peek(individual -> System.out.println("Flattened : "
+ individual))
.forEach(a->{});
time
- periodt
- Time unitdefault ReactiveSeq<T> fixedDelay(long l, java.util.concurrent.TimeUnit unit)
SimpleTimer timer = new SimpleTimer();
ReactiveSeq.of(1, 2, 3, 4, 5, 6)
.fixedDelay(10000, TimeUnit.NANOSECONDS)
.collect(CyclopsCollectors.toList())
.size()
//6
//timer.getElapsedNanoseconds() > greaterThan(60000l)
l
- time length in nanos of the delayunit
- for the delay