I have this simple test Scala application, which a blocking http request:


name := "hello"

version := "1.0"

scalaVersion := "2.11.2"

libraryDependencies += "com.typesafe.play" %% "play-ws" % "2.4.0-M1"


import play.api.libs.json._
import play.api.libs.ws._
import scala.concurrent.duration.Duration
import scala.concurrent.{Await, Future}

object Test {
  def main(args: Array[String]) = {
    val wsClient = WS.client
    val body = getBody(wsClient.url("http://example.com/").get())
    println(s"body: $body")

  def getBody(future: Future[WSResponse]) = {
    val response = Await.result(future, Duration.Inf);
    if (response.status != 200)
      throw new Exception(response.statusText);

This application fails with:

Exception in thread "main" java.lang.RuntimeException: There is no started application

How to solve this issue?

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EDIT for Play 2.5:

import akka.actor.ActorSystem
import akka.stream.ActorMaterializer
import play.api.libs.ws._
import play.api.libs.ws.ahc.AhcWSClient

import scala.concurrent.Future

object Main {
  import scala.concurrent.ExecutionContext.Implicits._

  def main(args: Array[String]): Unit = {
    implicit val system = ActorSystem()
    implicit val materializer = ActorMaterializer()
    val wsClient = AhcWSClient()

      .andThen { case _ => wsClient.close() }
      .andThen { case _ => system.terminate() }

  def call(wsClient: WSClient): Future[Unit] = {
    wsClient.url("http://www.google.com").get().map { response =>
      val statusText: String = response.statusText
      println(s"Got a response $statusText")

Please see:

for more detailed examples of standalone WSClient usage. If you are migrating from earlier versions, see https://www.playframework.com/documentation/2.5.x/Migration25#Play-WS-upgrades-to-AsyncHttpClient-2

For Play 2.4:

Do not use raw AsyncHttpClientConfig.Builder for HTTPS -- it does not configure a secure SSLContext with hostname validation.

You can create a new WSClient instance using the following code:

import play.api.libs.ws.ning._
import play.api.libs.ws._

val config = new NingAsyncHttpClientConfigBuilder(DefaultWSClientConfig()).build()
val builder = new AsyncHttpClientConfig.Builder(config)
val wsClient:WSClient = new NingWSClient(builder.build())

Please note that this will start up threads which will not be closed until you close the client:


and you may run into memory leaks if you don't close it.

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Play 2.4 makes it very easy to utilize WS in a standalone app.

The following gist provides a nice working example and the following blog post provides a nice explanation.

Here are the highlights.

Configure build.sbt

libraryDependencies ++= Seq(
  "com.typesafe.play" %% "play-ws" % "2.4.0-M2"

Initialize the WS client

val config = new NingAsyncHttpClientConfigBuilder(DefaultWSClientConfig()).build
val builder = new AsyncHttpClientConfig.Builder(config)
val client = new NingWSClient(builder.build)

Use WS


Release WS resources

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A started PlayApplication contains a client instance, which WS.client simply points to it. Since you won't start a Play application, You have to create your own client, like this:

val client = {
  val builder = new com.ning.http.client.AsyncHttpClientConfig.Builder()
  new play.api.libs.ws.ning.NingWSClient(builder.build())

Have a look on my project for a similar usecase, I am using play-ws and play-json, without Play itself.

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