Include parallelism in mapAsyncUnordered docs #21556

akka-stream/src/main/scala/akka/stream/javadsl/Flow.scala

@@ -334,8 +334,9 @@ final class Flow[-In, +Out, +Mat](delegate: scaladsl.Flow[In, Out, Mat]) extends
   /**
    * Transform this stream by applying the given function to each of the elements
    * as they pass through this processing step. The function returns a `CompletionStage` and the
-   * value of that future will be emitted downstream. As many futures as requested elements by
-   * downstream may run in parallel and may complete in any order, but the elements that
+   * value of that future will be emitted downstream. The number of CompletionStages
+   * that shall run in parallel is given as the first argument to ``mapAsync``.
+   * These CompletionStages may complete in any order, but the elements that
    * are emitted downstream are in the same order as received from upstream.
    *
    * If the function `f` throws an exception or if the `CompletionStage` is completed
@@ -365,10 +366,10 @@ final class Flow[-In, +Out, +Mat](delegate: scaladsl.Flow[In, Out, Mat]) extends
   /**
    * Transform this stream by applying the given function to each of the elements
    * as they pass through this processing step. The function returns a `CompletionStage` and the
-   * value of that future will be emitted downstream. As many futures as requested elements by
-   * downstream may run in parallel and each processed element will be emitted downstream
-   * as soon as it is ready, i.e. it is possible that the elements are not emitted downstream
-   * in the same order as received from upstream.
+   * value of that future will be emitted downstream. The number of CompletionStages
+   * that shall run in parallel is given as the first argument to ``mapAsyncUnordered``.
+   * Each processed element will be emitted downstream as soon as it is ready, i.e. it is possible
+   * that the elements are not emitted downstream in the same order as received from upstream.
    *
    * If the function `f` throws an exception or if the `CompletionStage` is completed
    * with failure and the supervision decision is [[akka.stream.Supervision#stop]]
@@ -1811,8 +1812,8 @@ final class Flow[-In, +Out, +Mat](delegate: scaladsl.Flow[In, Out, Mat]) extends
   def detach: javadsl.Flow[In, Out, Mat] = new Flow(delegate.detach)
 
   /**
-   * Materializes to `Future[Done]` that completes on getting termination message.
-   * The Future completes with success when received complete message from upstream or cancel
+   * Materializes to `CompletionStage<Done>` that completes on getting termination message.
+   * The future completes with success when received complete message from upstream or cancel
    * from downstream. It fails with the same error when received error message from
    * downstream.
    */

akka-stream/src/main/scala/akka/stream/javadsl/Source.scala

@@ -1030,8 +1030,9 @@ final class Source[+Out, +Mat](delegate: scaladsl.Source[Out, Mat]) extends Grap
   /**
    * Transform this stream by applying the given function to each of the elements
    * as they pass through this processing step. The function returns a `CompletionStage` and the
-   * value of that future will be emitted downstream. As many CompletionStages as requested elements by
-   * downstream may run in parallel and may complete in any order, but the elements that
+   * value of that future will be emitted downstream. The number of CompletionStages
+   * that shall run in parallel is given as the first argument to ``mapAsync``.
+   * These CompletionStages may complete in any order, but the elements that
    * are emitted downstream are in the same order as received from upstream.
    *
    * If the function `f` throws an exception or if the `CompletionStage` is completed
@@ -1061,10 +1062,10 @@ final class Source[+Out, +Mat](delegate: scaladsl.Source[Out, Mat]) extends Grap
   /**
    * Transform this stream by applying the given function to each of the elements
    * as they pass through this processing step. The function returns a `CompletionStage` and the
-   * value of that future will be emitted downstream. As many CompletionStages as requested elements by
-   * downstream may run in parallel and each processed element will be emitted downstream
-   * as soon as it is ready, i.e. it is possible that the elements are not emitted downstream
-   * in the same order as received from upstream.
+   * value of that future will be emitted downstream. The number of CompletionStages
+   * that shall run in parallel is given as the first argument to ``mapAsyncUnordered``.
+   * Each processed element will be emitted downstream as soon as it is ready, i.e. it is possible
+   * that the elements are not emitted downstream in the same order as received from upstream.
    *
    * If the function `f` throws an exception or if the `CompletionStage` is completed
    * with failure and the supervision decision is [[akka.stream.Supervision#stop]]

akka-stream/src/main/scala/akka/stream/javadsl/SubFlow.scala

@@ -173,8 +173,9 @@ class SubFlow[-In, +Out, +Mat](delegate: scaladsl.SubFlow[Out, Mat, scaladsl.Flo
   /**
    * Transform this stream by applying the given function to each of the elements
    * as they pass through this processing step. The function returns a `CompletionStage` and the
-   * value of that future will be emitted downstream. As many CompletionStages as requested elements by
-   * downstream may run in parallel and may complete in any order, but the elements that
+   * value of that future will be emitted downstream. The number of CompletionStages
+   * that shall run in parallel is given as the first argument to ``mapAsync``.
+   * These CompletionStages may complete in any order, but the elements that
    * are emitted downstream are in the same order as received from upstream.
    *
    * If the function `f` throws an exception or if the `CompletionStage` is completed
@@ -204,10 +205,10 @@ class SubFlow[-In, +Out, +Mat](delegate: scaladsl.SubFlow[Out, Mat, scaladsl.Flo
   /**
    * Transform this stream by applying the given function to each of the elements
    * as they pass through this processing step. The function returns a `CompletionStage` and the
-   * value of that future will be emitted downstream. As many CompletionStages as requested elements by
-   * downstream may run in parallel and each processed element will be emitted downstream
-   * as soon as it is ready, i.e. it is possible that the elements are not emitted downstream
-   * in the same order as received from upstream.
+   * value of that future will be emitted downstream. The number of CompletionStages
+   * that shall run in parallel is given as the first argument to ``mapAsyncUnordered``.
+   * Each processed element will be emitted downstream as soon as it is ready, i.e. it is possible
+   * that the elements are not emitted downstream in the same order as received from upstream.
    *
    * If the function `f` throws an exception or if the `CompletionStage` is completed
    * with failure and the supervision decision is [[akka.stream.Supervision#stop]]

akka-stream/src/main/scala/akka/stream/javadsl/SubSource.scala

@@ -171,8 +171,9 @@ class SubSource[+Out, +Mat](delegate: scaladsl.SubFlow[Out, Mat, scaladsl.Source
   /**
    * Transform this stream by applying the given function to each of the elements
    * as they pass through this processing step. The function returns a `CompletionStage` and the
-   * value of that future will be emitted downstream. As many CompletionStages as requested elements by
-   * downstream may run in parallel and may complete in any order, but the elements that
+   * value of that future will be emitted downstream. The number of CompletionStages
+   * that shall run in parallel is given as the first argument to ``mapAsync``.
+   * These CompletionStages may complete in any order, but the elements that
    * are emitted downstream are in the same order as received from upstream.
    *
    * If the function `f` throws an exception or if the `CompletionStage` is completed
@@ -202,10 +203,10 @@ class SubSource[+Out, +Mat](delegate: scaladsl.SubFlow[Out, Mat, scaladsl.Source
   /**
    * Transform this stream by applying the given function to each of the elements
    * as they pass through this processing step. The function returns a `CompletionStage` and the
-   * value of that future will be emitted downstream. As many CompletionStages as requested elements by
-   * downstream may run in parallel and each processed element will be emitted downstream
-   * as soon as it is ready, i.e. it is possible that the elements are not emitted downstream
-   * in the same order as received from upstream.
+   * value of that future will be emitted downstream. The number of CompletionStages
+   * that shall run in parallel is given as the first argument to ``mapAsyncUnordered``.
+   * Each processed element will be emitted downstream as soon as it is ready, i.e. it is possible
+   * that the elements are not emitted downstream in the same order as received from upstream.
    *
    * If the function `f` throws an exception or if the `CompletionStage` is completed
    * with failure and the supervision decision is [[akka.stream.Supervision#stop]]

akka-stream/src/main/scala/akka/stream/scaladsl/Flow.scala

@@ -559,10 +559,10 @@ trait FlowOps[+Out, +Mat] {
   /**
    * Transform this stream by applying the given function to each of the elements
    * as they pass through this processing step. The function returns a `Future` and the
-   * value of that future will be emitted downstream. As many futures as requested elements by
-   * downstream may run in parallel and each processed element will be emitted downstream
-   * as soon as it is ready, i.e. it is possible that the elements are not emitted downstream
-   * in the same order as received from upstream.
+   * value of that future will be emitted downstream. The number of Futures
+   * that shall run in parallel is given as the first argument to ``mapAsyncUnordered``.
+   * Each processed element will be emitted downstream as soon as it is ready, i.e. it is possible
+   * that the elements are not emitted downstream in the same order as received from upstream.
    *
    * If the function `f` throws an exception or if the `Future` is completed
    * with failure and the supervision decision is [[akka.stream.Supervision.Stop]]