Transforming Observables
本文的主题为转换 Observable 的操作符。
这里的 Observable 实质上是可观察的数据流。
RxJava操作符(二)Transforming Observables
公共代码
- RxNET
public static void Dump<T>(this IObservable<T> source, string name)
{
source.Subscribe(
i => Console.WriteLine("{0}-->{1}", name, i),
ex => Console.WriteLine("{0} failed-->{1}", name, ex.Message),
() => Console.WriteLine("{0} completed", name));
}
- RxJava
fun <T> Observable<T>.dump() =
this.subscribe({ println("onNext: $it") },
{ println("onError: $it: ${it.message}") },
{ println("onComplete") })
fun <T> Observable<T>.dump(name: String) =
this.subscribe({ println("$name: onNext: $it") },
{ println("$name: onError: $it: ${it.message}") },
{ println("$name: onComplete") })
Buffer
ReactiveX - Buffer operator
Reactive Extensions再入門 その25「値をまとめるBufferメソッド」
Buffer 转换数据流:间隔性地将数据流中邻近的数据打包,形成数据包的数据流。
这里的数据包即静态的数组。
- RxNET
var source = Observable.Interval(TimeSpan.FromSeconds(1)).Take(10);
source.Buffer(3, 1)
.Subscribe(
buffer =>
{
Console.WriteLine("--Buffered values");
foreach (var value in buffer)
Console.WriteLine(value);
}, () => Console.WriteLine("Completed"));
/*
--Buffered values
0
1
2
--Buffered values
1
2
3
..
--Buffered values
7
8
9
--Buffered values
8
9
--Buffered values
9
Completed
*/
- RxJava
Observable.range(0, 10)
.buffer(4)
.dump()
/*
onNext: [0, 1, 2, 3]
onNext: [4, 5, 6, 7]
onNext: [8, 9]
onComplete
*/
Observable.interval(100, TimeUnit.MILLISECONDS).take(10)
.buffer(250, TimeUnit.MILLISECONDS)
.dump()
/*
onNext: [0, 1]
onNext: [2, 3, 4]
onNext: [5, 6]
onNext: [7, 8, 9]
onNext: []
onComplete
*/
Observable.interval(100, TimeUnit.MILLISECONDS)
.take(10)
.buffer(250, TimeUnit.MILLISECONDS, 2)
.dump()
/*
onNext: [0, 1]
onNext: []
onNext: [2, 3]
onNext: []
onNext: [4, 5]
onNext: [6]
onNext: [7, 8]
onNext: [9]
onNext: []
onComplete
*/
Observable.interval(100, TimeUnit.MILLISECONDS).take(10)
.buffer(Observable.interval(250, TimeUnit.MILLISECONDS))
.dump()
/*
onNext: [0, 1]
onNext: [2, 3]
onNext: [4, 5, 6]
onNext: [7, 8, 9]
onNext: []
onComplete
*/
Observable.range(0, 10)
.buffer(4, 3)
.dump()
/*
onNext: [0, 1, 2, 3]
onNext: [3, 4, 5, 6]
onNext: [6, 7, 8, 9]
onNext: [9]
onComplete
*/
Observable.interval(100, TimeUnit.MILLISECONDS).take(10)
.buffer(350, 200, TimeUnit.MILLISECONDS)
.dump()
/*
onNext: [0, 1, 2]
onNext: [2, 3, 4]
onNext: [3, 4, 5, 6]
onNext: [6, 7, 8]
onNext: [7, 8, 9]
onNext: []
onComplete
*/
Observable.interval(100, TimeUnit.MILLISECONDS).take(10)
.buffer<Long, Long>(
Observable.interval(250, TimeUnit.MILLISECONDS),
Function { i -> Observable.timer(200, TimeUnit.MILLISECONDS) } )
.dump()
/*
onNext: [2, 3]
onNext: [5, 6]
onNext: [7, 8]
onNext: []
onComplete
*/
FlatMap / SelectMany
ReactiveX - FlatMap operator
Reactive Extensions再入門 その40「IObservableの合成はじめました」
FlatMap / SelectMany 转换数据流:将源数据流的每一项都转换成数据流,从而形成数据流的数据流,最后再平坦化将两维数据流合并成一个数据流。
- RxNET
Observable.Range(1, 3)
.SelectMany(i => Observable.Range(1, i))
.Dump("SelectMany");
/*
SelectMany-->1
SelectMany-->1
SelectMany-->2
SelectMany-->1
SelectMany-->2
SelectMany-->3
SelectMany completed
*/
- RxJava
val values = Observable.just(2)
values
.flatMap { i -> Observable.range(0, i) }
.dump()
/*
onNext: 0
onNext: 1
onComplete
*/
val values = Observable.range(1, 3)
values
.flatMap { i -> Observable.range(0, i) }
.dump()
/*
onNext: 0
onNext: 0
onNext: 1
onNext: 0
onNext: 1
onNext: 2
onComplete
*/
val values = Observable.just(1)
values
.flatMap { i ->
Observable.just(
Character.valueOf((i + 64).toChar())
)
}
.dump()
/*
onNext: A
onComplete
*/
val values = Observable.range(0, 30)
values
.flatMap<Char> { i ->
if (i in 1..26)
Observable.just(Character.valueOf((i + 64).toChar()))
else
Observable.empty()
}
.dump()
/*
onNext: A
onNext: B
...
onNext: Y
onNext: Z
onComplete
*/
Observable.just(100, 150)
.flatMap { i ->
Observable.interval(i.toLong(), TimeUnit.MILLISECONDS)
.map { v -> i }
}
.take(10)
.dump()
/*
onNext: 100
onNext: 150
onNext: 100
onNext: 150
onNext: 100
onNext: 100
onNext: 150
onNext: 100
onNext: 100
onNext: 150
onComplete
*/
Observable.just(100, 150)
.concatMap { i ->
Observable.interval(i.toLong(), TimeUnit.MILLISECONDS)
.map { v -> i }
.take(3)
}
.dump()
/*
onNext: 100
onNext: 100
onNext: 100
onNext: 150
onNext: 150
onNext: 150
onComplete
*/
Observable.interval(100, TimeUnit.MILLISECONDS)
.switchMap { i ->
Observable.interval(30, TimeUnit.MILLISECONDS)
.map { l -> i }
}
.take(9)
.dump()
/*
onNext: 0
onNext: 0
onNext: 0
onNext: 1
onNext: 1
onNext: 1
onNext: 2
onNext: 2
onNext: 2
onComplete
*/
concatMap / flatMap / switchMap
flatMapIterable
Observable.range(1, 3)
.flatMapIterable { i -> 1..i }
.dump()
/*
onNext: 1
onNext: 1
onNext: 2
onNext: 1
onNext: 2
onNext: 3
onComplete
*/
Observable.range(1, 3)
.flatMapIterable<Int, Int>(
{ i -> 1..i },
{ ori, rv -> ori * rv })
.dump()
/*
onNext: 1
onNext: 2
onNext: 4
onNext: 3
onNext: 6
onNext: 9
onComplete
*/
Observable.range(1, 3)
.flatMapIterable<Int, Int>(
{ i -> generateSequence(1) { (it + 1).takeIf { it <= i } }.asIterable() },
{ ori, rv -> ori * rv })
.dump()
/*
onNext: 1
onNext: 2
onNext: 4
onNext: 3
onNext: 6
onNext: 9
onComplete
*/
- RxSwift
let disposeBag = DisposeBag()
struct Player {
var score: Variable<Int>
}
let