public bool DoConnect(int TimeOut = 10000) { if (clientPipe != null) { return(false); } clientPipe = new PipeConnector(".", Name); if (!clientPipe.Connect(TimeOut)) { clientPipe = null; return(false); } clientPipe.PipeClosed += (sndr, args) => { clientPipe = null; }; clientPipe.PushNotification += (sndr, call) => { HandlePushNotification(call.Item1, call.Item2); }; return(true); }
public void GetModelItem_PipeConnector_Test() { PipeConnector pipeConnector = iwSvc.GetModelItem <PipeConnector>(1, "pipe_connectors", "pipe_connectors", 1); Assert.IsNotNull(pipeConnector, "null result, error happens."); Assert.AreEqual("1", pipeConnector.id); Assert.AreEqual(AiwGeometryType.Point, pipeConnector.geometry.Type); Assert.AreEqual(-96.68496151718864, (pipeConnector.geometry as AiwPoint).Coordinate.X, 0.000001); }
public void Close() { if (clientPipe == null) { return; } clientPipe.Close(); clientPipe = null; }
public void TestMethod3() { // Arrange var sequence = PipeConnector.CreateSequence <AirportInfoComponent, UnaryAbbreviationExtenderComponent>(); // Act var example = sequence.Execute("JFK"); // Assert Assert.True(example.ToString().Contains("John Fitzgerald Kennedy")); }
public void TestPipeConnectorSendsCallRequest() { Mock <IFormatter> formatterMock = new Mock <IFormatter>(); Mock <IWrapperProcessStarter> wrapperProcessStarterMock = new Mock <IWrapperProcessStarter>(); Mock <PipeStreamFactory> pipeStreamFactoryMock = GetPipeStreamFactoryMock(); PipeToken pipeToken = new PipeToken(Guid.NewGuid().ToString()); IPipeConnector pipeConnector = new PipeConnector(formatterMock.Object, wrapperProcessStarterMock.Object, pipeStreamFactoryMock.Object, pipeToken); CallData callDataToSend = new CallData(); pipeConnector.SendCallRequest(callDataToSend); formatterMock.Verify(mock => mock.Serialize(It.IsAny <PipeStream>(), It.Is <CallData>(actual => ReferenceEquals(actual, callDataToSend))), Times.AtLeast(1)); }
public void TestPipeConnectorOpensPipe() { Mock <IFormatter> formatterMock = new Mock <IFormatter>(); Mock <IWrapperProcessStarter> wrapperProcessStarterMock = new Mock <IWrapperProcessStarter>(); Mock <PipeStreamFactory> pipeStreamFactoryMock = GetPipeStreamFactoryMock(); PipeToken pipeToken = new PipeToken(Guid.NewGuid().ToString()); IPipeConnector pipeConnector = new PipeConnector(formatterMock.Object, wrapperProcessStarterMock.Object, pipeStreamFactoryMock.Object, pipeToken); CallData callDataToSend = new CallData(); pipeConnector.SendCallRequest(callDataToSend); pipeStreamFactoryMock.Verify(mock => mock.GetConnectedPipeStream(It.Is <PipeToken>(actual => Equals(actual, pipeToken))), Times.Once); }
public void TestMethod4() { // Arrange var sequence = PipeConnector.CreateSequence <AirportInfoComponent, UnaryAbbreviationExtenderComponent>(); var inverse = PipeConnector.CreateSequence <UnaryAbbreviationExtenderComponent, AirportInfoComponent>(); // Act var example = sequence.Execute("JFK") as List <object>; var inverseExample = inverse.Execute("JFK") as List <object>; // Assert Assert.NotNull(example); Assert.NotNull(inverseExample); Assert.True(example[0].ToString().Contains("John Fitzgerald Kennedy")); Assert.AreEqual("The computation finished with an error.", inverseExample[0]); }
public void TestPipeGetsClosed() { CallResult callResultToFetch = new CallResult(); Mock <IFormatter> formatterMock = new Mock <IFormatter>(); formatterMock .Setup(x => x.Deserialize(It.IsAny <Stream>())) .Returns(callResultToFetch); Mock <IWrapperProcessStarter> wrapperProcessStarterMock = new Mock <IWrapperProcessStarter>(); Mock <PipeStreamFactory> pipeStreamFactoryMock = GetPipeStreamFactoryMock(); PipeToken pipeToken = new PipeToken(Guid.NewGuid().ToString()); IPipeConnector pipeConnector = new PipeConnector(formatterMock.Object, wrapperProcessStarterMock.Object, pipeStreamFactoryMock.Object, pipeToken); pipeConnector.Dispose(); formatterMock.Verify(mock => mock.Serialize(It.IsAny <PipeStream>(), It.Is <CallData>(actual => actual.Status.Equals(KeepAliveStatus.Close))), Times.AtLeast(1)); }
public void TestPipeConnectorFetchesCallResponse() { CallResult callResultToFetch = new CallResult(); Mock <IFormatter> formatterMock = new Mock <IFormatter>(); formatterMock .Setup(x => x.Deserialize(It.IsAny <Stream>())) .Returns(callResultToFetch); Mock <IWrapperProcessStarter> wrapperProcessStarterMock = new Mock <IWrapperProcessStarter>(); Mock <PipeStreamFactory> pipeStreamFactoryMock = GetPipeStreamFactoryMock(); PipeToken pipeToken = new PipeToken(Guid.NewGuid().ToString()); IPipeConnector pipeConnector = new PipeConnector(formatterMock.Object, wrapperProcessStarterMock.Object, pipeStreamFactoryMock.Object, pipeToken); CallResult actualCallResult = pipeConnector.ReceiveCallResponse(); formatterMock.Verify(mock => mock.Deserialize(It.IsAny <PipeStream>()), Times.AtLeast(1)); Assert.AreEqual(callResultToFetch, actualCallResult); }
public void TestThrowsExceptionIfContainedInCallResult() { CallResult callResultToFetch = new CallResult(); callResultToFetch.Exception = new LegacyWrapperException(); Mock <IFormatter> formatterMock = new Mock <IFormatter>(); formatterMock .Setup(x => x.Deserialize(It.IsAny <Stream>())) .Returns(callResultToFetch); Mock <IWrapperProcessStarter> wrapperProcessStarterMock = new Mock <IWrapperProcessStarter>(); Mock <PipeStreamFactory> pipeStreamFactoryMock = GetPipeStreamFactoryMock(); PipeToken pipeToken = new PipeToken(Guid.NewGuid().ToString()); IPipeConnector pipeConnector = new PipeConnector(formatterMock.Object, wrapperProcessStarterMock.Object, pipeStreamFactoryMock.Object, pipeToken); pipeConnector.ReceiveCallResponse(); Assert.Fail("Exception should have been thrown by PipeConnector"); }
private static void Main(string[] args) { // receive raw airport data var info = AirportInfoComponent.Execute("JFK"); // {"delay":"true","IATA":"JFK"... // directly map results to your classes var delay = AirportInfoComponent.Execute <AirportInfo>("JFK").Delay; // true // string components together var sequence = PipeConnector.CreateSequence <AirportInfoComponent, UnaryAbbreviationExtenderComponent>(); var example = sequence.Execute("JFK"); // example = {"delay":"true","internationalAirTransportAssociation":"John Fitzgerald Kennedy... var username = "******"; var password = "******"; var sessionId = GeoNamesPostalCodesComponent.Login(username, password); var result = (string)GeoNamesPostalCodesComponent.PostalCode(username, sessionId, "8001"); var geo = result.ToInstance <GeoInfo>(); }
/// <summary> /// create the connectors on the extrusions /// </summary> private void CreateConnectors() { List <PlanarFace> m_planarFaces = null; Parameter param = null; #region Create the Supply Air duct connector // get the planar faces of extrusion1 m_planarFaces = GetPlanarFaces(extrusions[1]); // create the Supply Air duct connector DuctConnector connSupplyAir = f.NewDuctConnector(m_planarFaces[0].Reference, DuctSystemType.SupplyAir); param = connSupplyAir.get_Parameter(BuiltInParameter.CONNECTOR_HEIGHT); param.Set(connectorDimensions[0, 0]); param = connSupplyAir.get_Parameter(BuiltInParameter.CONNECTOR_WIDTH); param.Set(connectorDimensions[0, 1]); param = connSupplyAir.get_Parameter(BuiltInParameter.RBS_DUCT_FLOW_DIRECTION_PARAM); param.Set(2); param = connSupplyAir.get_Parameter(BuiltInParameter.RBS_DUCT_FLOW_CONFIGURATION_PARAM); param.Set(1); param = connSupplyAir.get_Parameter(BuiltInParameter.RBS_DUCT_FLOW_PARAM); param.Set(flow); #endregion #region Create the Return Air duct connector // get the planar faces of extrusion2 m_planarFaces = GetPlanarFaces(extrusions[2]); // create the Return Air duct connector DuctConnector connReturnAir = f.NewDuctConnector(m_planarFaces[0].Reference, DuctSystemType.ReturnAir); param = connReturnAir.get_Parameter(BuiltInParameter.CONNECTOR_HEIGHT); param.Set(connectorDimensions[1, 0]); param = connReturnAir.get_Parameter(BuiltInParameter.CONNECTOR_WIDTH); param.Set(connectorDimensions[1, 1]); param = connReturnAir.get_Parameter(BuiltInParameter.RBS_DUCT_FLOW_DIRECTION_PARAM); param.Set(1); param = connReturnAir.get_Parameter(BuiltInParameter.RBS_DUCT_FLOW_CONFIGURATION_PARAM); param.Set(1); param = connReturnAir.get_Parameter(BuiltInParameter.RBS_DUCT_FLOW_PARAM); param.Set(flow); #endregion #region Create the Supply Hydronic pipe connector // get the planar faces of extrusion3 m_planarFaces = GetPlanarFaces(extrusions[3]); // create the Hydronic Supply pipe connector PipeConnector connSupplyHydronic = f.NewPipeConnector(m_planarFaces[0].Reference, PipeSystemType.SupplyHydronic); param = connSupplyHydronic.get_Parameter(BuiltInParameter.CONNECTOR_RADIUS); param.Set(arcRadius); param = connSupplyHydronic.get_Parameter(BuiltInParameter.RBS_PIPE_FLOW_DIRECTION_PARAM); param.Set(2); #endregion #region Create the Return Hydronic pipe connector // get the planar faces of extrusion4 m_planarFaces = GetPlanarFaces(extrusions[4]); // create the Hydronic Return pipe connector PipeConnector connReturnHydronic = f.NewPipeConnector(m_planarFaces[0].Reference, PipeSystemType.ReturnHydronic); param = connReturnHydronic.get_Parameter(BuiltInParameter.CONNECTOR_RADIUS); param.Set(arcRadius); param = connReturnHydronic.get_Parameter(BuiltInParameter.RBS_PIPE_FLOW_DIRECTION_PARAM); param.Set(1); #endregion }
public PlayerSession() { m_pipeConnector = new PipeConnector(); m_pipeConnector.Run(); }