Update(TraceConfiguration,ServiceSynchronizationType) Method
Updates the subnetwork.
This method must be called on the MCT. Use QueuedTask.Run.
Parameters
- traceConfiguration
- The argument to override the default trace configuration stored on the Tier.
- serviceSynchronizationType
-
Specifies which implementation of the service endpoint to call. This parameter is ignored for non-services based utility networks.
Life cycle for a simple radial subnetwork with one controller
// Create a subnetwork named "Radial1" with a single controller
// elementR1 represents the device that serves as the subnetwork controller (e.g., circuit breaker)
Subnetwork subnetworkRadial1 = subnetworkManager.EnableControllerInEditOperation(mediumVoltageTier, elementR1, "Radial1", "R1", "my description", "my notes");
// ...
// Update the subnetwork and refresh the map
subnetworkRadial1.Update();
MapView.Active.Redraw(true);
// ...
// At some point, a subnetwork will need to be deleted.
// First step is to disable the controller
subnetworkManager.DisableControllerInEditOperation(elementR1);
// At this point, the subnetwork is deleted, but all of the rows that have been labeled with the subnetwork ID need to be updated
subnetworkRadial1.Update();
MapView.Active.Redraw(true);
// The final step is to notify external systems (if any) by exporting the subnetwork
SubnetworkExportOptions subnetworkExportOptions = new SubnetworkExportOptions()
{
SetAcknowledged = true,
IncludeDomainDescriptions = true,
IncludeGeometry = true,
ServiceSynchronizationType = ServiceSynchronizationType.Asynchronous,
SubnetworkExportResultTypes = new List<SubnetworkExportResultType>()
{
SubnetworkExportResultType.Features
}
// Set networks attributes and attribute fields to export
//ResultNetworkAttributes = new List<NetworkAttribute>(networkAttributes),
//ResultFieldsByNetworkSourceID = new Dictionary<int, List<string>>()
// { { electricDevice.ID, new List<string>() { "AssetID" } } }
};
subnetworkRadial1.Export(new Uri($"{Path.GetTempPath()}SubnetworkExportResult.json"), subnetworkExportOptions);
Life cycle for a mesh subnetwork with multiple controllers
// Create a subnetwork named "Mesh1" from three controllers
// elementM1, elementM2, and elementM3 represent the devices that serve as subnetwork controllers (e.g., network protectors)
subnetworkManager.EnableController(lowVoltageMeshTier, elementM1, "Mesh1", "M1", "my description", "my notes");
subnetworkManager.EnableController(lowVoltageMeshTier, elementM2, "Mesh1", "M2", "my description", "my notes");
Subnetwork subnetworkMesh1 = subnetworkManager.EnableController(lowVoltageMeshTier, elementM3, "Mesh1", "M3", "my description", "my notes");
subnetworkMesh1.Update();
MapView.Active.Redraw(true);
// ...
// When deleting the subnetwork, each controller must be disabled before the subnetwork itself is deleted
subnetworkManager.DisableControllerInEditOperation(elementM1);
subnetworkManager.DisableControllerInEditOperation(elementM2);
subnetworkManager.DisableControllerInEditOperation(elementM3);
// After the subnetwork is deleted, all of the rows that have been labeled with the subnetwork ID need to be updated
subnetworkMesh1.Update();
MapView.Active.Redraw(true);
// The final step is to notify external systems (if any) by exporting the subnetwork
SubnetworkExportOptions subnetworkExportOptions = new SubnetworkExportOptions()
{
SetAcknowledged = true,
IncludeDomainDescriptions = true,
IncludeGeometry = true,
ServiceSynchronizationType = ServiceSynchronizationType.Asynchronous,
SubnetworkExportResultTypes = new List<SubnetworkExportResultType>()
{
SubnetworkExportResultType.Features
}
// Set networks attributes and attribute fields to export
//ResultNetworkAttributes = new List<NetworkAttribute>(networkAttributes),
//ResultFieldsByNetworkSourceID = new Dictionary<int, List<string>>()
// { { electricDevice.ID, new List<string>() { "AssetID" } } }
};
subnetworkMesh1.Export(new Uri($"{Path.GetTempPath()}SubnetworkExportResult.json"), subnetworkExportOptions);
Life cycle for a multifeed radial subnetwork with two controllers
// Create a subnetwork named "R2, R3" from two controllers
// elementR2 and elementR3 represent the devices that serve as subnetwork controllers (e.g., circuit breakers)
subnetworkManager.EnableControllerInEditOperation(mediumVoltageTier, elementR2, "R2, R3", "R2", "my description", "my notes");
subnetworkManager.EnableControllerInEditOperation(mediumVoltageTier, elementR3, "R2, R3", "R3", "my description", "my notes");
// If the tie switch between them is opened, the original subnetwork controllers must be disabled and re-enabled with different names
// This will create two new subnetworks, named "R2" and "R3"
subnetworkManager.DisableControllerInEditOperation(elementR2);
subnetworkManager.DisableControllerInEditOperation(elementR3);
Subnetwork subnetworkR2 = subnetworkManager.EnableControllerInEditOperation(mediumVoltageTier, elementR2, "R2", "R2", "my description", "my notes");
Subnetwork subnetworkR3 = subnetworkManager.EnableControllerInEditOperation(mediumVoltageTier, elementR3, "R3", "R3", "my description", "my notes");
subnetworkR2.Update();
subnetworkR3.Update();
MapView.Active.Redraw(true);
Target Platforms: Windows 11, Windows 10
ArcGIS Pro version: 3.2 or higher.