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FuturesB.java Example of using Futures for nested calls showing how it blocks inefficiently.
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| import java.util.ArrayList; | |
| import java.util.Iterator; | |
| import java.util.List; | |
| import java.util.concurrent.Callable; | |
| import java.util.concurrent.ExecutorService; | |
| import java.util.concurrent.Future; | |
| import java.util.concurrent.LinkedBlockingQueue; | |
| import java.util.concurrent.ThreadPoolExecutor; | |
| import java.util.concurrent.TimeUnit; | |
| public class FuturesB { | |
| /** | |
| * Demonstrate how futures can easily become blocking and prevent other work | |
| * from being performed asynchronously. | |
| */ | |
| public static void run() throws Exception { | |
| ExecutorService executor = new ThreadPoolExecutor(4, 4, 1, TimeUnit.MINUTES, new LinkedBlockingQueue<Runnable>()); | |
| try { | |
| // get f3 with dependent result from f1 | |
| Future<String> f1 = executor.submit(new CallToRemoteServiceA()); | |
| Future<String> f3 = executor.submit(new CallToRemoteServiceC(f1.get())); | |
| /* The work below can not proceed until f1.get() completes even though there is no dependency */ | |
| // also get f4/f5 after dependency f2 completes | |
| Future<Integer> f2 = executor.submit(new CallToRemoteServiceB()); | |
| Future<Integer> f4 = executor.submit(new CallToRemoteServiceD(f2.get())); | |
| Future<Integer> f5 = executor.submit(new CallToRemoteServiceE(f2.get())); | |
| System.out.println(f3.get() + " => " + (f4.get() * f5.get())); | |
| } finally { | |
| executor.shutdownNow(); | |
| } | |
| } | |
| /** | |
| * Demonstrates how reordering of Future.get() can improve the situation | |
| * but that it still doesn't address differing response latencies of f1 and f2. | |
| */ | |
| public static void run2() throws Exception { | |
| ExecutorService executor = new ThreadPoolExecutor(4, 4, 1, TimeUnit.MINUTES, new LinkedBlockingQueue<Runnable>()); | |
| try { | |
| // kick of f1/f2 in parallel | |
| Future<String> f1 = executor.submit(new CallToRemoteServiceA()); | |
| Future<Integer> f2 = executor.submit(new CallToRemoteServiceB()); | |
| // get f3 with dependent result from f1 (blocks) | |
| Future<String> f3 = executor.submit(new CallToRemoteServiceC(f1.get())); | |
| /* The work below can not proceed until f1.get() completes even if f2.get() is done. */ | |
| // get f4/f5 after dependency f2 completes (blocks) | |
| Future<Integer> f4 = executor.submit(new CallToRemoteServiceD(f2.get())); | |
| Future<Integer> f5 = executor.submit(new CallToRemoteServiceE(f2.get())); | |
| System.out.println(f3.get() + " => " + (f4.get() * f5.get())); | |
| } finally { | |
| executor.shutdownNow(); | |
| } | |
| } | |
| /** | |
| * Demonstrate how changing where threads are injected can solve the issue of run2() | |
| * at the cost of incidental complexity being added to the code. | |
| * <p> | |
| * This same example could be accomplished by refactoring CallToRemoteServiceC | |
| * to accept a Future<String> instead of String but the principle is the same. | |
| */ | |
| public static void run3() throws Exception { | |
| ExecutorService executor = new ThreadPoolExecutor(4, 4, 1, TimeUnit.MINUTES, new LinkedBlockingQueue<Runnable>()); | |
| try { | |
| // kick of f1/f2 in parallel | |
| final Future<String> f1 = executor.submit(new CallToRemoteServiceA()); | |
| Future<Integer> f2 = executor.submit(new CallToRemoteServiceB()); | |
| // spawn in another thread so waiting on f1 for f3 doesn't block f4/f5 | |
| Future<String> f3 = executor.submit(new Callable<String>() { | |
| @Override | |
| public String call() throws Exception { | |
| // get f3 with dependent result from f1 (blocks) | |
| return new CallToRemoteServiceC(f1.get()).call(); | |
| } | |
| }); | |
| /* The following can now proceed as soon as f2.get() completes even if f1.get() isn't done yet */ | |
| // get f4/f5 after dependency f2 completes (blocks) | |
| Future<Integer> f4 = executor.submit(new CallToRemoteServiceD(f2.get())); | |
| Future<Integer> f5 = executor.submit(new CallToRemoteServiceE(f2.get())); | |
| System.out.println(f3.get() + " => " + (f4.get() * f5.get())); | |
| } finally { | |
| executor.shutdownNow(); | |
| } | |
| } | |
| /** | |
| * Demonstrate typical handling of responding to Futures as they complete. | |
| * <p> | |
| * This successfully executes multiple calls in parallel but then synchronously handles | |
| * each response in the order they were put in the list rather than the order they complete. | |
| */ | |
| public static void run4() throws Exception { | |
| ExecutorService executor = new ThreadPoolExecutor(4, 4, 1, TimeUnit.MINUTES, new LinkedBlockingQueue<Runnable>()); | |
| try { | |
| List<Future<?>> futures = new ArrayList<Future<?>>(); | |
| // kick off several async tasks | |
| futures.add(executor.submit(new CallToRemoteServiceA())); | |
| futures.add(executor.submit(new CallToRemoteServiceB())); | |
| futures.add(executor.submit(new CallToRemoteServiceC("A"))); | |
| futures.add(executor.submit(new CallToRemoteServiceC("B"))); | |
| futures.add(executor.submit(new CallToRemoteServiceC("C"))); | |
| futures.add(executor.submit(new CallToRemoteServiceD(1))); | |
| futures.add(executor.submit(new CallToRemoteServiceE(2))); | |
| futures.add(executor.submit(new CallToRemoteServiceE(3))); | |
| futures.add(executor.submit(new CallToRemoteServiceE(4))); | |
| futures.add(executor.submit(new CallToRemoteServiceE(5))); | |
| // as each completes do further work | |
| for (Future<?> f : futures) { | |
| /* this blocks so even if other futures in the list complete earlier they will wait until this one is done */ | |
| doMoreWork(f.get()); | |
| } | |
| } finally { | |
| executor.shutdownNow(); | |
| } | |
| } | |
| private static void doMoreWork(Object s) { | |
| // do work | |
| System.out.println("do more work => " + s); | |
| } | |
| /** | |
| * Demonstrate polling approach to handling Futures as they complete. | |
| * <p> | |
| * This becomes unwieldy and error prone quickly. | |
| */ | |
| public static void run5() throws Exception { | |
| ExecutorService executor = new ThreadPoolExecutor(4, 4, 1, TimeUnit.MINUTES, new LinkedBlockingQueue<Runnable>()); | |
| try { | |
| List<Future<?>> futures = new ArrayList<Future<?>>(); | |
| // kick off several async tasks | |
| futures.add(executor.submit(new CallToRemoteServiceA())); | |
| futures.add(executor.submit(new CallToRemoteServiceB())); | |
| futures.add(executor.submit(new CallToRemoteServiceC("A"))); | |
| futures.add(executor.submit(new CallToRemoteServiceC("B"))); | |
| futures.add(executor.submit(new CallToRemoteServiceC("C"))); | |
| futures.add(executor.submit(new CallToRemoteServiceD(1))); | |
| futures.add(executor.submit(new CallToRemoteServiceE(2))); | |
| futures.add(executor.submit(new CallToRemoteServiceE(3))); | |
| futures.add(executor.submit(new CallToRemoteServiceE(4))); | |
| futures.add(executor.submit(new CallToRemoteServiceE(5))); | |
| // as each completes do further work | |
| // keep polling until all work is done | |
| while (futures.size() > 0) { | |
| // use an iterator so we can remove from it | |
| Iterator<Future<?>> i = futures.iterator(); | |
| while (i.hasNext()) { | |
| Future<?> f = i.next(); | |
| if (f.isDone()) { | |
| // only do work if the Future is done | |
| doMoreWork(f.get()); | |
| i.remove(); | |
| } | |
| // otherwise we continue to the next Future | |
| } | |
| } | |
| } finally { | |
| executor.shutdownNow(); | |
| } | |
| } | |
| public static void main(String args[]) { | |
| try { | |
| long start = System.currentTimeMillis(); | |
| run(); | |
| System.out.println("Finished in: " + (System.currentTimeMillis() - start) + "ms"); | |
| run2(); | |
| run3(); | |
| run4(); | |
| run5(); | |
| } catch (Exception e) { | |
| e.printStackTrace(); | |
| } | |
| } | |
| private static final class CallToRemoteServiceA implements Callable<String> { | |
| @Override | |
| public String call() throws Exception { | |
| // simulate fetching data from remote service | |
| Thread.sleep(100); | |
| return "responseA"; | |
| } | |
| } | |
| private static final class CallToRemoteServiceB implements Callable<Integer> { | |
| @Override | |
| public Integer call() throws Exception { | |
| // simulate fetching data from remote service | |
| Thread.sleep(40); | |
| return 100; | |
| } | |
| } | |
| private static final class CallToRemoteServiceC implements Callable<String> { | |
| private final String dependencyFromA; | |
| public CallToRemoteServiceC(String dependencyFromA) { | |
| this.dependencyFromA = dependencyFromA; | |
| } | |
| @Override | |
| public String call() throws Exception { | |
| // simulate fetching data from remote service | |
| Thread.sleep(60); | |
| return "responseB_" + dependencyFromA; | |
| } | |
| } | |
| private static final class CallToRemoteServiceD implements Callable<Integer> { | |
| private final Integer dependencyFromB; | |
| public CallToRemoteServiceD(Integer dependencyFromB) { | |
| this.dependencyFromB = dependencyFromB; | |
| } | |
| @Override | |
| public Integer call() throws Exception { | |
| // simulate fetching data from remote service | |
| Thread.sleep(140); | |
| return 40 + dependencyFromB; | |
| } | |
| } | |
| private static final class CallToRemoteServiceE implements Callable<Integer> { | |
| private final Integer dependencyFromB; | |
| public CallToRemoteServiceE(Integer dependencyFromB) { | |
| this.dependencyFromB = dependencyFromB; | |
| } | |
| @Override | |
| public Integer call() throws Exception { | |
| // simulate fetching data from remote service | |
| Thread.sleep(55); | |
| return 5000 + dependencyFromB; | |
| } | |
| } | |
| } |
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