我正在使用Scala 2.10期货创建一个异步库。库的构造函数采用一系列实现特定特征的用户定义对象,然后库类上的方法将一些数据逐个发送到用户定义的对象中。我希望用户在设置主实例时为异步操作提供ExecutionContext,然后根据需要将该上下文传递给用户定义的对象。简化(伪?)代码:
case class Response(thing: String)
class LibraryObject(stack: Seq[Processor])(implicit context: ExecutionContext) {
def entryPoint(data: String): Future[Response] = {
val response = Future(Response(""))
stack.foldLeft(response) { (resp, proc) => proc.process(data, resp) }
}
}
trait Processor {
def process(data: String, resp: Future[Response]): Future[Response]
}
可能会使用以下内容:
class ThingProcessor extends Processor {
override def process(data: String, response: Future[Response]) = {
response map { _.copy(thing = "THE THING") }
}
}
class PassThroughProcessor extends Processor {
override def process(request: Request, response: Future[Response]) = {
response
}
}
object TheApp extends App {
import ExecutionContext.Implicits.global
val stack = List(
new ThingProcessor,
new PassThroughProcessor
)
val libObj = new LibraryObject(stack)
val futureResponse = libObj.entryPoint("http://some/url")
// ...
}
我收到ThingProcessor的编译错误:
找不到隐式ExecutionContext,要么自己需要,要么导入
ExecutionContext.Implicits.global
我的问题是,如何隐式提供ExecutionContext LibraryObject对用户定义的对象(ThingProcessor和PassThroughProcessor)或其方法的class MyFirstProcessor(implicit context: ExecutionContext)
用户(谁将编写类)担心它 - 也就是说,我希望用户不必须键入:
override def process(...)(implicit context: ExecutionContext) = { ... }
或
{{1}}
答案 0 :(得分:5)
隐式范围包括伴随对象和基类的类型参数。
或者,library.submit(new library.Processor {def process()...})。
这是有效的,但这不是我的第一个想法,这更加聪明:
import concurrent._
import concurrent.duration._
class Library(implicit xc: ExecutionContext = ExecutionContext.global) {
trait Processor {
implicit val myxc: ExecutionContext = xc
def process(i: Future[Int]): Future[Int]
}
def submit(p: Processor) = p process future(7)
}
object Test extends App {
val library = new Library
val p = new library.Processor {
def process(i: Future[Int]) = for (x <- i) yield 2 * x
}
val res = library submit p
val z = Await result (res, 10.seconds)
Console println z
}
更新
import concurrent._
import concurrent.duration._
import java.util.concurrent.Executors
class Library()(implicit xc: ExecutionContext = ExecutionContext.global) {
trait Processor {
implicit val myxc: ExecutionContext = xc
def process(i: Future[Int]): Future[Int]
}
def submit(p: Processor) = p process future(7)
}
object ctx {
val xc = ExecutionContext fromExecutorService Executors.newSingleThreadExecutor
}
object library1 extends Library
object library2 extends Library()(ctx.xc)
object p extends library1.Processor {
def process(i: Future[Int]) = for (x <- i) yield 2 * x
}
object q extends library2.Processor {
def process(i: Future[Int]) = for (x <- i) yield 3 * x
}
object Test extends App {
val res = library1 submit p
//val oops = library2 submit p
//val oops = library1 submit q
val z = Await result (res, 10.seconds)
Console println z
Console println (Await result (library2 submit q, 10.seconds))
ctx.xc.shutdownNow()
}
这不是一件容易的事:
class Library(implicit xc: ExecutionContext = ExecutionContext.global) {
def submit(p: Processor): Future[Int] = p dueProcess future(7)
}
trait Processor {
implicit var myxc: ExecutionContext = _
def dueProcess(i: Future[Int])(implicit xc: ExecutionContext) = {
myxc = xc
process(i)
}
protected def process(i: Future[Int]): Future[Int]
}
object ctx {
val xc = ExecutionContext fromExecutorService Executors.newSingleThreadExecutor
}
object Test extends App {
def db() = Console println (new Throwable().getStackTrace mkString ("TRACE [\n ", "\n ", "\n]"))
val library = new Library()(ctx.xc)
val p = new Processor {
protected def process(i: Future[Int]) = for (x <- i) yield { db(); 2 * x }
}
val res = library submit p
val z = Await result (res, 10.seconds)
Console println z
ctx.xc.shutdownNow()
}