public static async Task <WizardResult> GetResult( [OrchestrationTrigger] DurableOrchestrationContext context) { var criteria = context.GetInput <FoodInputCriteria>(); var items = await context.CallActivityAsync <IEnumerable <ResultModel> >("DataFunction", DataType.Food); items = items .Where(x => x.Details.En.LongDescription.Contains(criteria.Category)) .Where( x => x.Location != null && WithinDistance(x.Location.Latitude, x.Location.Longitude, criteria.VisitorCoordinates, criteria.Range)); var result = new WizardResult { Title = criteria.Key, Text = "Based on your interests we've found these results." }; result.Items = items.Select(x => WizardResultItem.From(x)); return(result); }
public static void Main(string[] args) { string projectFile; if (args.Length == 0) { projectFile = null; } else { projectFile = args[0]; } ProjectFileConfigurationStrategy strategy = new ProjectFileConfigurationStrategy(projectFile); Application.EnableVisualStyles(); Application.Run(new SoodaConfigurationWizard(strategy)); #if A using (SoodaConfigurationWizard wizard = new SoodaConfigurationWizard()) { if (DialogResult.OK == wizard.ShowDialog()) { WizardResult result = wizard.Result; using (ConfiguringSoodaForm csf = new ConfiguringSoodaForm()) { csf.ShowDialog(); } } } #endif }
/// <summary> /// Calls the OnNext() method of the current step and /// advances the wizard to the next step. If the current step /// is the last in the sequence, ends the wizard. /// </summary> /// <returns></returns> private bool Advance() { IStep departingComponent = steps[currentStepIndex] is ConditionalStep ? (steps[currentStepIndex] as ConditionalStep).UnderlyingStep : steps[currentStepIndex]; bool successful = departingComponent.OnNext(); if (successful) { if (steps.Count > currentStepIndex + 1) { ++currentStepIndex; IStep displayedComponent = steps[currentStepIndex]; while (displayedComponent is ConditionalStep) { ConditionalStep cc = steps[currentStepIndex] as ConditionalStep; if (cc.Condition()) { displayedComponent = cc.UnderlyingStep; cc.Displayed = true; } else { cc.Displayed = false; if (currentStepIndex == steps.Count - 1) { throw new Exception("Conditional step occurred last in step sequence" + " and was displayed."); } ++currentStepIndex; displayedComponent = steps[currentStepIndex]; } } runComponent(displayedComponent); } else { result = WizardResult.Finish; endWizard(); } } else { updateButtonState(); } return(successful); }
private void ShowPartner() { Cursor.Current = Cursors.WaitCursor; if (p == null) { p = new PartnerWizardForm(); } Cursor.Current = Cursors.WaitCursor; WizardResult rez = p.ShowWizard(); if (rez == WizardResult.Next) { ShowDokument(); } }
private void ShowDokument() { Cursor.Current = Cursors.WaitCursor; if (d == null) { d = new DokumentWizardForm(); } d.SetPartner(p.Partner); WizardResult rez = d.ShowWizard(); if (rez == WizardResult.Previous) { ShowPartner(); } }
public override void ExecuteCommand(IList <NavigationModelNodeBase> nodes, NavigationModelNodeTask task, ICollection <string> parameters) { try { EnterpriseManagementGroup emg = ConsoleContext.GetConsoleEMG(); if (parameters.Contains("Create")) { //do stuff ProjectConnectorHelpers helper = new ProjectConnectorHelpers(); ProjectConnectorData data = helper.CreateProjectConnector(); if (data.WizardResult == WizardResult.Success) { this.RequestViewRefresh(); } } else if (parameters.Contains("Edit")) { //do other stuff ProjectConnectorHelpers helper = new ProjectConnectorHelpers(); WizardResult result = helper.EditProjectConnector(nodes[0]); if (result == WizardResult.Success) { this.RequestViewRefresh(); } } else if (parameters.Contains("Delete")) { //delete stuff ProjectConnectorHelpers helper = new ProjectConnectorHelpers(); if (helper.DeleteProjectConnector(nodes[0])) { this.RequestViewRefresh(); } } } catch (Exception ex) { ConsoleContextHelper.Instance.ShowErrorDialog(ex, string.Empty, ConsoleJobExceptionSeverity.Error); } }
public WizardReturnEventArgs(WizardResult result, object data) { Result = result; Data = data; }
public WizardContext(WizardResult result, object data) { this.result = result; this.data = data; }
public WizardReturnEventArgs(WizardResult result, object data) { this.result = result; this.data = data; }
/// <summary> /// Calls the OnNext() method of the current step and /// advances the wizard to the next step. If the current step /// is the last in the sequence, ends the wizard. /// </summary> /// <returns></returns> private bool Advance() { IStep departingComponent = steps[currentStepIndex] is ConditionalStep ? (steps[currentStepIndex] as ConditionalStep).UnderlyingStep : steps[currentStepIndex]; bool successful = departingComponent.OnNext(); if (successful) { if (steps.Count > currentStepIndex + 1) { ++currentStepIndex; IStep displayedComponent = steps[currentStepIndex]; while (displayedComponent is ConditionalStep) { ConditionalStep cc = steps[currentStepIndex] as ConditionalStep; if (cc.Condition()) { displayedComponent = cc.UnderlyingStep; cc.Displayed = true; } else { cc.Displayed = false; if (currentStepIndex == steps.Count - 1) { throw new Exception("Conditional step occurred last in step sequence" + " and was displayed."); } ++currentStepIndex; displayedComponent = steps[currentStepIndex]; } } runComponent(displayedComponent); } else { result = WizardResult.Finish; endWizard(); } } else { updateButtonState(); } return successful; }
public static void Main(String[] args) { SampleWizard wiz = new SampleWizard(); WizardResult res = wiz.ShowWizard(); }
public static IFeatureClass CreateOPFeatureClass(WizardResult calcResult, IFeatureClass observatioPointsFeatureClass, IActiveView activeView, IRaster raster) { var calcObservPointsFeatureClass = VisibilityCalcResults.GetResultName(VisibilityCalculationResultsEnum.ObservationPoints, calcResult.TaskName); var observPointTemporaryFeatureClass = GdbAccess.Instance.GenerateTemporaryFeatureClassWithRequitedFields(observatioPointsFeatureClass.Fields, calcObservPointsFeatureClass); bool isCircle; double maxAzimuth = 0; double minAzimuth = 360; double maxDistance = 0; calcResult.ObservationStation.Project(activeView.FocusMap.SpatialReference); var observationStationPolygon = calcResult.ObservationStation as IPolygon; var observStationEnvelope = observationStationPolygon.Envelope; var observStationEnvelopePoints = new IPoint[] { observStationEnvelope.LowerLeft, observStationEnvelope.LowerRight, observStationEnvelope.UpperRight, observStationEnvelope.UpperLeft }; var observerPointGeometry = new PointClass { X = calcResult.ObservationPoint.X.Value, Y = calcResult.ObservationPoint.Y.Value, SpatialReference = EsriTools.Wgs84Spatialreference }; observerPointGeometry.Project(activeView.FocusMap.SpatialReference); observerPointGeometry.AddZCoordinate(raster); observerPointGeometry.ZAware = true; if (double.IsNaN(observerPointGeometry.Z)) { throw new MilSpacePointOutOfRatserException(calcResult.ObservationPoint.Objectid, calcResult.RasterLayerName); } var minDistance = FindMinDistance(observStationEnvelopePoints, observerPointGeometry); // ---- Get min and max azimuths ---- var points = EsriTools.GetPointsFromGeometries(new IGeometry[] { calcResult.ObservationStation }, observerPointGeometry.SpatialReference, out isCircle).ToArray(); bool isPointInside = EsriTools.IsPointOnExtent(observStationEnvelope, observerPointGeometry); // Set azimuth for circle polygon if (isCircle && !isPointInside) { for (int i = 0; i < observStationEnvelopePoints.Length; i++) { var line = new Line() { FromPoint = observerPointGeometry, ToPoint = observStationEnvelopePoints[i], SpatialReference = observerPointGeometry.SpatialReference }; if (i == 0) { maxDistance = line.Length; } else if (maxDistance < line.Length) { maxDistance = line.Length; } if (minAzimuth > line.PosAzimuth()) { minAzimuth = line.PosAzimuth(); } if (maxAzimuth < line.PosAzimuth()) { maxAzimuth = line.PosAzimuth(); } } } else { EsriTools.CreateDefaultPolylinesForFun(observerPointGeometry, points, new IGeometry[] { calcResult.ObservationStation }, isCircle, isPointInside, -1, out minAzimuth, out maxAzimuth, out maxDistance).ToList(); } // ---- End. Get min and max azimuths ---- // observerPointGeometry.Project(activeView.FocusMap.SpatialReference); var pointCopy = observerPointGeometry.CloneWithProjecting(); (pointCopy as PointClass).ZAware = true; int idObserPooint = 0; for (var currentHeight = calcResult.FromHeight; currentHeight <= calcResult.ToHeight; currentHeight += calcResult.Step) { double maxTiltAngle = -90; double minTiltAngle = 90; var height = currentHeight; // Set parameters for case if point located into the polygon if (isCircle && isPointInside) { minTiltAngle = -90; minDistance = 0; } for (int i = 0; i < observStationEnvelopePoints.Length; i++) { var currentTitleAngle = EsriTools.FindAngleByDistanceAndHeight(height, observerPointGeometry, observStationEnvelopePoints[i], raster); if (minTiltAngle > currentTitleAngle) { minTiltAngle = currentTitleAngle; } if (maxTiltAngle < currentTitleAngle) { maxTiltAngle = currentTitleAngle; } } // Create observation point copy with changing height, distance and angles values ObservationPoint currentObservationPoint = calcResult.ObservationPoint.ShallowCopy(); currentObservationPoint.RelativeHeight = currentHeight; currentObservationPoint.AngelMinH = minTiltAngle; currentObservationPoint.AngelMaxH = maxTiltAngle; currentObservationPoint.AzimuthStart = minAzimuth; currentObservationPoint.AzimuthEnd = maxAzimuth; currentObservationPoint.InnerRadius = minDistance; currentObservationPoint.OuterRadius = maxDistance; currentObservationPoint.AzimuthMainAxis = calcResult.ObservationPoint.AzimuthMainAxis; currentObservationPoint.Id = idObserPooint.ToString(); GdbAccess.Instance.AddObservPoint(pointCopy, currentObservationPoint, observPointTemporaryFeatureClass); idObserPooint++; } return(observPointTemporaryFeatureClass); }