Exemplo n.º 1
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        public void Zip_must_complete_if_one_side_complete_before_requested_with_elements_pending_2()
        {
            this.AssertAllStagesStopped(() =>
            {
                var upstream1  = TestPublisher.CreateProbe <int>(this);
                var upstream2  = TestPublisher.CreateProbe <string>(this);
                var downstream = TestSubscriber.CreateProbe <Tuple <int, string> >(this);

                RunnableGraph.FromGraph(GraphDsl.Create(Sink.FromSubscriber(downstream), (b, sink) =>
                {
                    var zip     = b.Add(new Zip <int, string>());
                    var source1 = Source.FromPublisher(upstream1);
                    var source2 = Source.FromPublisher(upstream2);

                    b.From(source1).To(zip.In0);
                    b.From(source2).To(zip.In1);
                    b.From(zip.Out).To(sink);

                    return(ClosedShape.Instance);
                })).Run(Materializer);

                downstream.EnsureSubscription();

                upstream1.SendNext(1);
                upstream1.SendComplete();
                downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(500));

                upstream2.SendNext("A");
                upstream2.SendComplete();

                downstream.RequestNext(Tuple.Create(1, "A"));
                downstream.ExpectComplete();
            }, Materializer);
        }
Exemplo n.º 2
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        public void Batch_must_backpressure_subscriber_when_upstream_is_slower()
        {
            var publisher  = TestPublisher.CreateProbe <int>(this);
            var subscriber = TestSubscriber.CreateProbe <int>(this);

            Source.FromPublisher(publisher)
            .Batch(2, i => i, (sum, i) => sum + i)
            .To(Sink.FromSubscriber(subscriber))
            .Run(Materializer);
            var sub = subscriber.EnsureSubscription();

            sub.Request(1);
            publisher.SendNext(1);
            subscriber.ExpectNext(1);

            sub.Request(1);
            subscriber.ExpectNoMsg(TimeSpan.FromMilliseconds(500));
            publisher.SendNext(2);
            subscriber.ExpectNext(2);

            publisher.SendNext(3);
            publisher.SendNext(4);
            // The request can be in race with the above onNext(4) so the result would be either 3 or 7.
            subscriber.ExpectNoMsg(TimeSpan.FromMilliseconds(500));
            sub.Request(1);
            subscriber.ExpectNext(7);

            sub.Request(1);
            subscriber.ExpectNoMsg(TimeSpan.FromMilliseconds(500));
            sub.Cancel();
        }
Exemplo n.º 3
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        public void PrefixAndTail_must_signal_error_if_substream_has_been_not_subscribed_in_time()
        {
            this.AssertAllStagesStopped(() =>
            {
                var settings = ActorMaterializerSettings.Create(Sys)
                               .WithSubscriptionTimeoutSettings(
                    new StreamSubscriptionTimeoutSettings(
                        StreamSubscriptionTimeoutTerminationMode.CancelTermination,
                        TimeSpan.FromMilliseconds(500)));
                var tightTimeoutMaterializer = ActorMaterializer.Create(Sys, settings);

                var futureSink = NewHeadSink;
                var fut        = Source.From(Enumerable.Range(1, 2)).PrefixAndTail(1).RunWith(futureSink, tightTimeoutMaterializer);
                fut.Wait(TimeSpan.FromSeconds(3)).Should().BeTrue();
                fut.Result.Item1.ShouldAllBeEquivalentTo(Enumerable.Range(1, 1));
                var tail = fut.Result.Item2;

                var subscriber = TestSubscriber.CreateProbe <int>(this);
                Thread.Sleep(1000);
                tail.To(Sink.FromSubscriber(subscriber)).Run(tightTimeoutMaterializer);
                subscriber.ExpectSubscriptionAndError()
                .Message.Should()
                .Be("Substream Source has not been materialized in 00:00:00.5000000");
            }, Materializer);
        }
Exemplo n.º 4
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        public void Expand_musst_expand_elements_while_upstream_is_silent()
        {
            var publisher  = TestPublisher.CreateProbe <int>(this);
            var subscriber = TestSubscriber.CreateProbe <int>(this);

            // Simply repeat the last element as an extrapolation step
            Source.FromPublisher(publisher)
            .Expand(i => Enumerable.Repeat(i, 200).GetEnumerator())
            .To(Sink.FromSubscriber(subscriber))
            .Run(Materializer);

            publisher.SendNext(42);

            for (var i = 1; i <= 100; i++)
            {
                subscriber.RequestNext(42);
            }

            publisher.SendNext(-42);

            // The request below is otherwise in race with the above sendNext
            subscriber.ExpectNoMsg(TimeSpan.FromMilliseconds(500));
            subscriber.RequestNext(-42);

            subscriber.Cancel();
        }
Exemplo n.º 5
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        public void Zip_must_complete_even_if_no_pending_demand()
        {
            this.AssertAllStagesStopped(() =>
            {
                var upstream1  = TestPublisher.CreateProbe <int>(this);
                var upstream2  = TestPublisher.CreateProbe <string>(this);
                var downstream = TestSubscriber.CreateProbe <Tuple <int, string> >(this);

                RunnableGraph.FromGraph(GraphDsl.Create(Sink.FromSubscriber(downstream), (b, sink) =>
                {
                    var zip     = b.Add(new Zip <int, string>());
                    var source1 = Source.FromPublisher(upstream1);
                    var source2 = Source.FromPublisher(upstream2);

                    b.From(source1).To(zip.In0);
                    b.From(source2).To(zip.In1);
                    b.From(zip.Out).To(sink);

                    return(ClosedShape.Instance);
                })).Run(Materializer);

                downstream.Request(1);

                upstream1.SendNext(1);
                upstream2.SendNext("A");
                downstream.ExpectNext(Tuple.Create(1, "A"));

                upstream2.SendComplete();
                downstream.ExpectComplete();
                upstream1.ExpectCancellation();
            }, Materializer);
        }
Exemplo n.º 6
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        public void Throttle_for_various_cost_elements_must_burst_some_elements_if_have_enough_time()
        {
            this.AssertAllStagesStopped(() =>
            {
                var upstream   = TestPublisher.CreateProbe <int>(this);
                var downstream = TestSubscriber.CreateProbe <int>(this);

                Source.FromPublisher(upstream)
                .Throttle(2, TimeSpan.FromMilliseconds(400), 5, e => e < 4 ? 1 : 20, ThrottleMode.Shaping)
                .RunWith(Sink.FromSubscriber(downstream), Materializer);

                downstream.Request(1);
                upstream.SendNext(1);
                downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(100));
                downstream.ExpectNext(1);
                downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(500)); //wait to receive 2 in burst afterwards
                downstream.Request(5);
                var expected = new List <OnNext>();
                for (var i = 2; i < 5; i++)
                {
                    upstream.SendNext(i);
                    if (i < 4)
                    {
                        expected.Add(new OnNext(i));
                    }
                }
                downstream.ReceiveWhile(TimeSpan.FromMilliseconds(200), filter: x => x, msgs: 2)
                .ShouldAllBeEquivalentTo(expected);

                downstream.Cancel();
            }, Materializer);
        }
Exemplo n.º 7
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        public void BatchWeighted_must_not_aggregate_heavy_elements()
        {
            var publisher  = TestPublisher.CreateProbe <int>(this);
            var subscriber = TestSubscriber.CreateProbe <int>(this);

            Source.FromPublisher(publisher)
            .BatchWeighted(3, _ => 4, i => i, (sum, i) => sum + i)
            .To(Sink.FromSubscriber(subscriber))
            .Run(Materializer);
            var sub = subscriber.EnsureSubscription();

            publisher.SendNext(1);
            publisher.SendNext(2);

            sub.Request(1);
            subscriber.ExpectNext(1);

            publisher.SendNext(3);
            subscriber.ExpectNoMsg(TimeSpan.FromSeconds(1));

            sub.Request(2);
            subscriber.ExpectNext(2);
            subscriber.ExpectNext(3);

            sub.Cancel();
        }
Exemplo n.º 8
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        public void A_Partition_must_complete_stage_after_upstream_completes()
        {
            this.AssertAllStagesStopped(() =>
            {
                var c1 = TestSubscriber.CreateProbe <string>(this);
                var c2 = TestSubscriber.CreateProbe <string>(this);

                RunnableGraph.FromGraph(GraphDsl.Create(b =>
                {
                    var partition = b.Add(new Partition <string>(2, s => s.Length > 4 ? 0 : 1));
                    var source    = Source.From(new[] { "this", "is", "just", "another", "test" });

                    b.From(source).To(partition.In);
                    b.From(partition.Out(0)).To(Sink.FromSubscriber(c1));
                    b.From(partition.Out(1)).To(Sink.FromSubscriber(c2));

                    return(ClosedShape.Instance);
                })).Run(Materializer);

                c1.Request(1);
                c2.Request(4);
                c1.ExpectNext("another");
                c2.ExpectNext("this", "is", "just", "test");
                c1.ExpectComplete();
                c2.ExpectComplete();
            }, Materializer);
        }
Exemplo n.º 9
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        public void Throttle_for_various_cost_elements_must_burst_according_to_its_maximum_if_enough_time_passed()
        {
            this.AssertAllStagesStopped(() =>
            {
                var upstream   = TestPublisher.CreateProbe <int>(this);
                var downstream = TestSubscriber.CreateProbe <int>(this);

                Source.FromPublisher(upstream)
                .Throttle(2, TimeSpan.FromMilliseconds(400), 5, x => 1, ThrottleMode.Shaping)
                .RunWith(Sink.FromSubscriber(downstream), Materializer);

                downstream.Request(1);
                upstream.SendNext(1);
                downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(100));
                downstream.ExpectNext(1);
                downstream.Request(5);
                downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(1200));
                var expected = new List <OnNext>();
                for (var i = 2; i < 7; i++)
                {
                    upstream.SendNext(i);
                    expected.Add(new OnNext(i));
                }
                downstream.ReceiveWhile(TimeSpan.FromMilliseconds(300), filter: x => x, msgs: 5)
                .ShouldAllBeEquivalentTo(expected);

                downstream.Cancel();
            }, Materializer);
        }
Exemplo n.º 10
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        public void A_Partition_must_remeber_first_pull_even_thought_first_element_target_another_out()
        {
            this.AssertAllStagesStopped(() =>
            {
                var c1 = TestSubscriber.CreateProbe <int>(this);
                var c2 = TestSubscriber.CreateProbe <int>(this);

                RunnableGraph.FromGraph(GraphDsl.Create(b =>
                {
                    var partition = b.Add(new Partition <int>(2, i => i < 6 ? 0 : 1));
                    var source    = Source.From(new [] { 6, 3 });

                    b.From(source).To(partition.In);
                    b.From(partition.Out(0)).To(Sink.FromSubscriber(c1));
                    b.From(partition.Out(1)).To(Sink.FromSubscriber(c2));

                    return(ClosedShape.Instance);
                })).Run(Materializer);

                c1.Request(1);
                c1.ExpectNoMsg(TimeSpan.FromSeconds(1));
                c2.Request(1);
                c2.ExpectNext(6);
                c1.ExpectNext(3);
                c1.ExpectComplete();
                c2.ExpectComplete();
            }, Materializer);
        }
Exemplo n.º 11
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        public void A_Partition_must_fail_stage_if_partitioner_outcome_is_out_of_bound()
        {
            this.AssertAllStagesStopped(() =>
            {
                var c1 = TestSubscriber.CreateProbe <int>(this);

                RunnableGraph.FromGraph(GraphDsl.Create(b =>
                {
                    var partition = b.Add(new Partition <int>(2, i => i < 0 ? -1 : 0));
                    var source    = Source.From(new[] { -3 });

                    b.From(source).To(partition.In);
                    b.From(partition.Out(0)).To(Sink.FromSubscriber(c1));
                    b.From(partition.Out(1)).To(Sink.Ignore <int>().MapMaterializedValue(_ => NotUsed.Instance));

                    return(ClosedShape.Instance);
                })).Run(Materializer);


                c1.Request(1);
                var error = c1.ExpectError();
                error.Should().BeOfType <PartitionOutOfBoundsException>();
                error.Message.Should()
                .Be(
                    "partitioner must return an index in the range [0,1]. returned: [-1] for input [Int32].");
            }, Materializer);
        }
Exemplo n.º 12
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        public void A_Partition_must_stage_completion_is_waiting_for_pending_output()
        {
            this.AssertAllStagesStopped(() =>
            {
                var c1 = TestSubscriber.CreateProbe <int>(this);
                var c2 = TestSubscriber.CreateProbe <int>(this);

                RunnableGraph.FromGraph(GraphDsl.Create(b =>
                {
                    var partition = b.Add(new Partition <int>(2, i => i < 6 ? 0 : 1));
                    var source    = Source.From(new[] { 6 });

                    b.From(source).To(partition.In);
                    b.From(partition.Out(0)).To(Sink.FromSubscriber(c1));
                    b.From(partition.Out(1)).To(Sink.FromSubscriber(c2));

                    return(ClosedShape.Instance);
                })).Run(Materializer);

                c1.Request(1);
                c1.ExpectNoMsg(TimeSpan.FromSeconds(1));
                c2.Request(1);
                c2.ExpectNext(6);
                c1.ExpectComplete();
                c2.ExpectComplete();
            }, Materializer);
        }
Exemplo n.º 13
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        public void IdleTimeoutBidi_must_signal_error_to_all_outputs()
        {
            this.AssertAllStagesStopped(() =>
            {
                var upWrite = TestPublisher.CreateProbe <string>(this);
                var upRead  = TestSubscriber.CreateProbe <int>(this);

                var downWrite = TestPublisher.CreateProbe <int>(this);
                var downRead  = TestSubscriber.CreateProbe <string>(this);

                RunnableGraph.FromGraph(GraphDsl.Create(b =>
                {
                    var timeoutStage = b.Add(BidiFlow.BidirectionalIdleTimeout <string, int>(TimeSpan.FromSeconds(2)));

                    b.From(Source.FromPublisher <string>(upWrite)).To(timeoutStage.Inlet1);
                    b.From(timeoutStage.Outlet1).To(Sink.FromSubscriber(downRead));
                    b.From(timeoutStage.Outlet2).To(Sink.FromSubscriber(upRead));
                    b.From(Source.FromPublisher <int>(downWrite)).To(timeoutStage.Inlet2);

                    return(ClosedShape.Instance);
                })).Run(Materializer);

                var te = new TestException("test");

                upWrite.SendError(te);

                upRead.ExpectSubscriptionAndError().ShouldBeEquivalentTo(te);
                downRead.ExpectSubscriptionAndError().ShouldBeEquivalentTo(te);
                downWrite.ExpectCancellation();
            }, Materializer);
        }
Exemplo n.º 14
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        public void A_GroupedWithin_must_reset_time_window_when_max_elements_reached()
        {
            var input      = new Iterator <int>(Enumerable.Range(1, 10000));
            var upstream   = TestPublisher.CreateProbe <int>(this);
            var downstream = TestSubscriber.CreateProbe <IEnumerable <int> >(this);

            Source.FromPublisher(upstream)
            .GroupedWithin(3, TimeSpan.FromSeconds(2))
            .To(Sink.FromSubscriber(downstream))
            .Run(Materializer);

            downstream.Request(2);
            downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(1000));

            Enumerable.Range(1, 4).ForEach(_ => upstream.SendNext(input.Next()));
            downstream.Within(TimeSpan.FromMilliseconds(1000), () =>
            {
                downstream.ExpectNext().ShouldAllBeEquivalentTo(new[] { 1, 2, 3 });
                return(NotUsed.Instance);
            });

            downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(1500));

            downstream.Within(TimeSpan.FromMilliseconds(1000), () =>
            {
                downstream.ExpectNext().ShouldAllBeEquivalentTo(new[] { 4 });
                return(NotUsed.Instance);
            });

            upstream.SendComplete();
            downstream.ExpectComplete();
            downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(100));
        }
Exemplo n.º 15
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        protected override TestSubscriber.Probe <int> Setup(IPublisher <int> p1, IPublisher <int> p2)
        {
            var subscriber = TestSubscriber.CreateProbe <int>(this);

            Source.FromPublisher(p1)
            .Interleave(Source.FromPublisher(p2), 2)
            .RunWith(Sink.FromSubscriber(subscriber), Materializer);
            return(subscriber);
        }
Exemplo n.º 16
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        public void ActorGraphInterpreter_should_be_able_to_properly_handle_case_where_a_stage_fails_before_subscription_happens()
        {
            // Fuzzing needs to be off, so that the failure can propagate to the output boundary
            // before the ExposedPublisher message.
            var noFuzzMaterializer = ActorMaterializer.Create(Sys,
                                                              ActorMaterializerSettings.Create(Sys).WithFuzzingMode(false));

            this.AssertAllStagesStopped(() =>
            {
                var evilLatch = new CountdownEvent(1);

                // This is a somewhat tricky test setup. We need the following conditions to be met:
                //  - the stage should fail its output port before the ExposedPublisher message is processed
                //  - the enclosing actor (and therefore the stage) should be kept alive until a stray SubscribePending arrives
                //    that has been enqueued after ExposedPublisher message has been enqueued, but before it has been processed
                //
                // To achieve keeping alive the stage for long enough, we use an extra input and output port and instead
                // of failing the stage, we fail only the output port under test.
                //
                // To delay the startup long enough, so both ExposedPublisher and SubscribePending are enqueued, we use an evil
                // latch to delay the preStart() (which in turn delays the enclosing actor's preStart).
                var failyStage = new FailyInPreStartGraphStage(evilLatch);

                var downstream0 = TestSubscriber.CreateProbe <int>(this);
                var downstream1 = TestSubscriber.CreateProbe <int>(this);

                var upstream = TestPublisher.CreateProbe <int>(this);

                RunnableGraph.FromGraph(GraphDsl.Create(b =>
                {
                    var faily = b.Add(failyStage);

                    b.From(Source.FromPublisher(upstream)).To(faily.In);
                    b.From(faily.Out0).To(Sink.FromSubscriber(downstream0));
                    b.From(faily.Out1).To(Sink.FromSubscriber(downstream1));

                    return(ClosedShape.Instance);
                })).Run(noFuzzMaterializer);

                evilLatch.Signal();
                var ex = downstream0.ExpectSubscriptionAndError();
                ex.Should().BeOfType <TestException>();
                ex.Message.Should().Be("Test failure in PreStart");

                // if an NRE would happen due to unset exposedPublisher (see #19338), this would receive a failure instead
                // of the actual element
                downstream1.Request(1);
                upstream.SendNext(42);
                downstream1.ExpectNext(42);

                upstream.SendComplete();
                downstream1.ExpectComplete();
            }, noFuzzMaterializer);
        }
Exemplo n.º 17
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 public void Throttle_for_various_cost_elements_must_cancel_when_downstream_cancels()
 {
     this.AssertAllStagesStopped(() =>
     {
         var downstream = TestSubscriber.CreateProbe <int>(this);
         Source.From(Enumerable.Range(1, 10))
         .Throttle(2, TimeSpan.FromMilliseconds(200), 0, x => x, ThrottleMode.Shaping)
         .RunWith(Sink.FromSubscriber(downstream), Materializer);
         downstream.Cancel();
     }, Materializer);
 }
Exemplo n.º 18
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        public void A_SkipWithin_must_deliver_completion_even_before_the_duration()
        {
            var upstream   = TestPublisher.CreateProbe <int>(this);
            var downstream = TestSubscriber.CreateProbe <int>(this);

            Source.FromPublisher(upstream)
            .SkipWithin(TimeSpan.FromDays(1))
            .RunWith(Sink.FromSubscriber(downstream), Materializer);

            upstream.SendComplete();
            downstream.ExpectSubscriptionAndComplete();
        }
Exemplo n.º 19
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        public void IdleTimeoutBidi_must_be_able_to_signal_timeout_once_no_traffic_on_either_sides()
        {
            this.AssertAllStagesStopped(() =>
            {
                var upWrite = TestPublisher.CreateProbe <string>(this);
                var upRead  = TestSubscriber.CreateProbe <int>(this);

                var downWrite = TestPublisher.CreateProbe <int>(this);
                var downRead  = TestSubscriber.CreateProbe <string>(this);

                RunnableGraph.FromGraph(GraphDsl.Create(b =>
                {
                    var timeoutStage = b.Add(BidiFlow.BidirectionalIdleTimeout <string, int>(TimeSpan.FromSeconds(2)));

                    b.From(Source.FromPublisher <string>(upWrite)).To(timeoutStage.Inlet1);
                    b.From(timeoutStage.Outlet1).To(Sink.FromSubscriber(downRead));
                    b.From(timeoutStage.Outlet2).To(Sink.FromSubscriber(upRead));
                    b.From(Source.FromPublisher <int>(downWrite)).To(timeoutStage.Inlet2);

                    return(ClosedShape.Instance);
                })).Run(Materializer);

                // Request enough for the whole test
                upRead.Request(100);
                downRead.Request(100);

                upWrite.SendNext("DATA1");
                downRead.ExpectNext("DATA1");
                Thread.Sleep(1500);

                downWrite.SendNext(1);
                upRead.ExpectNext(1);
                Thread.Sleep(1500);

                upWrite.SendNext("DATA2");
                downRead.ExpectNext("DATA2");
                Thread.Sleep(1000);

                downWrite.SendNext(2);
                upRead.ExpectNext(2);

                upRead.ExpectNoMsg(TimeSpan.FromMilliseconds(500));
                var error1 = upRead.ExpectError();
                var error2 = downRead.ExpectError();

                error1.Should().BeOfType <TimeoutException>();
                error1.Message.Should().Be($"No elements passed in the last {TimeSpan.FromSeconds(2)}.");
                error2.ShouldBeEquivalentTo(error1);

                upWrite.ExpectCancellation();
                downWrite.ExpectCancellation();
            }, Materializer);
        }
Exemplo n.º 20
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        public void GraphStage_timer_support_must_propagate_error_if_OnTimer_throws_an_Exception()
        {
            this.AssertAllStagesStopped(() =>
            {
                var exception  = new TestException("Expected exception to the rule");
                var upstream   = TestPublisher.CreateProbe <int>(this);
                var downstream = TestSubscriber.CreateProbe <int>(this);

                Source.FromPublisher(upstream)
                .Via(new ThrowStage(exception))
                .RunWith(Sink.FromSubscriber(downstream), Materializer);

                downstream.Request(1);
                downstream.ExpectError().Should().Be(exception);
            }, Materializer);
        }
Exemplo n.º 21
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        public void KeepAlive_must_reset_deadline_properly_after_injected_element()
        {
            var upstream   = TestPublisher.CreateProbe <int>(this);
            var downstream = TestSubscriber.CreateProbe <int>(this);

            Source.FromPublisher(upstream)
            .KeepAlive(TimeSpan.FromSeconds(1), () => 0)
            .RunWith(Sink.FromSubscriber(downstream), Materializer);

            downstream.Request(2);
            downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(500));
            downstream.ExpectNext(0);

            downstream.ExpectNoMsg(TimeSpan.FromMilliseconds(500));
            downstream.ExpectNext(0);
        }
Exemplo n.º 22
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        public void KeepAlive_must_work_if_timer_fires_before_initial_request()
        {
            var upstream   = TestPublisher.CreateProbe <int>(this);
            var downstream = TestSubscriber.CreateProbe <int>(this);

            Source.FromPublisher(upstream)
            .KeepAlive(TimeSpan.FromSeconds(1), () => 0)
            .RunWith(Sink.FromSubscriber(downstream), Materializer);

            downstream.EnsureSubscription();
            downstream.ExpectNoMsg(TimeSpan.FromSeconds(1.5));
            downstream.Request(1);
            downstream.ExpectNext(0);

            upstream.SendComplete();
            downstream.ExpectComplete();
        }
Exemplo n.º 23
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        public void KeepAlive_must_immediately_pull_upstream()
        {
            var upstream   = TestPublisher.CreateProbe <int>(this);
            var downstream = TestSubscriber.CreateProbe <int>(this);

            Source.FromPublisher(upstream)
            .KeepAlive(TimeSpan.FromSeconds(1), () => 0)
            .RunWith(Sink.FromSubscriber(downstream), Materializer);

            downstream.Request(1);

            upstream.SendNext(1);
            downstream.ExpectNext(1);

            upstream.SendComplete();
            downstream.ExpectComplete();
        }
Exemplo n.º 24
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        public void Flow_InitialDelay_must_properly_ignore_timer_while_backpressured()
        {
            this.AssertAllStagesStopped(() =>
            {
                var probe = TestSubscriber.CreateProbe <int>(this);
                Source.From(Enumerable.Range(1, 10))
                .InitialDelay(TimeSpan.FromSeconds(0.5))
                .RunWith(Sink.FromSubscriber(probe), Materializer);

                probe.EnsureSubscription();
                probe.ExpectNoMsg(TimeSpan.FromSeconds(1.5));
                probe.Request(20);
                probe.ExpectNextN(Enumerable.Range(1, 10));

                probe.ExpectComplete();
            }, Materializer);
        }
Exemplo n.º 25
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        public void Expand_musst_backpressure_publisher_when_subscriber_is_slower()
        {
            var publisher  = TestPublisher.CreateProbe <int>(this);
            var subscriber = TestSubscriber.CreateProbe <int>(this);

            // Simply repeat the last element as an extrapolation step
            Source.FromPublisher(publisher)
            .Expand(i => Enumerable.Repeat(i, 200).GetEnumerator())
            .To(Sink.FromSubscriber(subscriber))
            .Run(Materializer);

            publisher.SendNext(1);
            subscriber.RequestNext(1);
            subscriber.RequestNext(1);

            var pending = publisher.Pending;

            // Deplete pending requests coming from input buffer
            while (pending > 0)
            {
                publisher.UnsafeSendNext(2);
                pending--;
            }

            // The above sends are absorbed in the input buffer, and will result in two one-sized batch requests
            pending += publisher.ExpectRequest();
            pending += publisher.ExpectRequest();
            while (pending > 0)
            {
                publisher.UnsafeSendNext(2);
                pending--;
            }

            publisher.ExpectNoMsg(TimeSpan.FromSeconds(1));

            subscriber.Request(2);
            subscriber.ExpectNext(2);
            subscriber.ExpectNext(2);

            //now production is resumed
            publisher.ExpectRequest();
        }
Exemplo n.º 26
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        public ChainSetup(
            Func <Flow <TIn, TIn, NotUsed>, Flow <TIn, TOut, TMat> > stream,
            ActorMaterializerSettings settings,
            ActorMaterializer materializer,
            Func <Source <TOut, NotUsed>, ActorMaterializer, IPublisher <TOut> > toPublisher,
            TestKitBase system)
        {
            Settings = settings;
            System   = system;

            Upstream   = TestPublisher.CreateManualProbe <TIn>(system);
            Downstream = TestSubscriber.CreateProbe <TOut>(system);

            var s = Source.FromPublisher(Upstream).Via(stream((Flow <TIn, TIn, NotUsed>)Flow.Identity <TIn>().Select(x => x).Named("buh")));

            Publisher            = toPublisher(s, materializer);
            UpstreamSubscription = Upstream.ExpectSubscription();
            Publisher.Subscribe(Downstream);
            DownstreamSubscription = Downstream.ExpectSubscription();
        }
Exemplo n.º 27
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        public void GraphStage_timer_support_must_produce_scheduled_ticks_as_expected()
        {
            this.AssertAllStagesStopped(() =>
            {
                var upstream   = TestPublisher.CreateProbe <int>(this);
                var downstream = TestSubscriber.CreateProbe <int>(this);

                Source.FromPublisher(upstream)
                .Via(new TestStage2())
                .RunWith(Sink.FromSubscriber(downstream), Materializer);

                downstream.Request(5);
                downstream.ExpectNext(1, 2, 3);

                downstream.ExpectNoMsg(TimeSpan.FromSeconds(1));

                upstream.SendComplete();
                downstream.ExpectComplete();
            }, Materializer);
        }
Exemplo n.º 28
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        public void KeepAlive_must_work_if_timer_fires_before_initial_request_after_busy_period()
        {
            var upstream   = TestPublisher.CreateProbe <int>(this);
            var downstream = TestSubscriber.CreateProbe <int>(this);

            Source.Combine(Source.From(Enumerable.Range(1, 10)), Source.FromPublisher(upstream),
                           i => new Merge <int, int>(i))
            .KeepAlive(TimeSpan.FromSeconds(1), () => 0)
            .RunWith(Sink.FromSubscriber(downstream), Materializer);

            downstream.Request(10);
            downstream.ExpectNextN(Enumerable.Range(1, 10));

            downstream.ExpectNoMsg(TimeSpan.FromSeconds(1.5));
            downstream.Request(1);
            downstream.ExpectNext(0);

            upstream.SendComplete();
            downstream.ExpectComplete();
        }
Exemplo n.º 29
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        public void ConcatAll_must_work_together_with_SplitWhen()
        {
            var subscriber = TestSubscriber.CreateProbe <int>(this);
            var source     = Source.From(Enumerable.Range(1, 10))
                             .SplitWhen(x => x % 2 == 0)
                             .PrefixAndTail(0)
                             .Select(x => x.Item2)
                             .ConcatSubstream()
                             .ConcatMany(x => x);

            ((Source <int, NotUsed>)source).RunWith(Sink.FromSubscriber(subscriber), Materializer);

            for (var i = 1; i <= 10; i++)
            {
                subscriber.RequestNext(i);
            }

            subscriber.Request(1);
            subscriber.ExpectComplete();
        }
Exemplo n.º 30
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        public void KeepAlive_must_prefer_upstream_element_over_injected()
        {
            var upstream   = TestPublisher.CreateProbe <int>(this);
            var downstream = TestSubscriber.CreateProbe <int>(this);

            Source.FromPublisher(upstream)
            .KeepAlive(TimeSpan.FromSeconds(1), () => 0)
            .RunWith(Sink.FromSubscriber(downstream), Materializer);

            downstream.EnsureSubscription();
            downstream.ExpectNoMsg(TimeSpan.FromSeconds(1.5));
            upstream.SendNext(1);
            downstream.ExpectNoMsg(TimeSpan.FromSeconds(0.5));

            downstream.Request(1);
            downstream.ExpectNext(1);

            upstream.SendComplete();
            downstream.ExpectComplete();
        }