Set Subnetwork Definition (Utility Network)

Summary

Sets the domain network tier's properties for a subnetwork in a utility network.

The types of features that participate in a tier can be restricted by defining valid asset types from the device, line, junction, edge object, and junction object classes. Defining valid asset types helps enforce data correctness by limiting the types of features that can participate in a subnetwork for a specific tier.

Configuration parameters are used to set properties when a trace is executed on the subnetwork.

Learn more about setting the subnetwork definition

Learn more about subnetwork management

Learn more about tracing utility networks

Usage

  • This tool also allows you to set and alter the tier's subnetwork definition. To alter the values of the tier's subnetwork definition, modify the parameter values and execute the tool again.

  • The network topology must be disabled.

  • The following requirements must be met when working with an enterprise geodatabase:

Syntax

SetSubnetworkDefinition(in_utility_network, domain_network, tier_name, support_disjoint_subnetwork, valid_devices, valid_subnetwork_controller, {valid_lines}, {aggregated_line}, {diagram_template}, {summaries}, {condition_barriers}, {function_barriers}, {include_barriers}, {traversability_scope}, {propagators}, {update_structure_features}, {update_container_features}, {edit_mode_for_default_version}, {edit_mode_for_named_version}, {valid_junctions}, {valid_junction_objects}, {valid_junction_object_subnetwork_controller}, {valid_edge_objects})
ParameterExplanationData Type
in_utility_network

The input utility network that contains the tier's subnetwork.

Utility Network; Utility Network Layer
domain_network

The domain network that contains the tier.

String
tier_name

The name of the tier that contains the subnetwork.

String
support_disjoint_subnetwork

Specifies whether the input tier supports disjoint subnetworks. Disjoint subnetworks are two or more subnetworks that belong to the same tier and have the same subnetwork name but are not traversable. This option is only available for tiers within domain networks with a partitioned tier definition. Tiers in a domain network with a hierarchical tier definition always have this tier property set as true to support disjoint subnetworks.

  • SUPPORT_DISJOINT The input tier supports disjoint subnetworks.
  • NO_DISJOINTThe input tier does not support disjoint subnetworks. This is the default.
Boolean
valid_devices
[valid_devices,...]

The asset group/asset type pairs identified as valid devices for the subnetwork.

String
valid_subnetwork_controller
[valid_subnetwork_controller,...]

The asset group/asset type pairs identified as valid device subnetwork controllers in the subnetwork.

String
valid_lines
[valid_lines,...]
(Optional)

The asset group/asset type pairs identified as valid lines for the subnetwork.

String
aggregated_line
[aggregated_line,...]
(Optional)

The valid lines with geometry that will be aggregated to generate the SubnetLine features. This list is a subset of the values specified in the valid_lines parameter.

String
diagram_template
[diagram_template,...]
(Optional)

The templates that will be used to generate subnetwork system diagrams for each subnetwork.

String
summaries
[[Function, Attribute, Filter Name, Filter Operator, Filter Type, Filter Value, Summary Attribute],...]
(Optional)

Sets the summary field to store function results when inserting or updating SubnetLine features.

Summaries components are as follows:

  • Function—Choose from a number of calculation functions.
  • Attribute—Filter by any network attribute defined in the system.
  • Filter Name—Filter the function results by attribute name.
  • Filter Operator—Choose from a number of operators.
  • Filter Type—Choose from a number of filter types.
  • Filter Value—Provide a specific value for the input filter attribute.
  • Summary Attribute—The field in the SubnetLine feature class that will persist the function result. Depending on the selected function and network attribute type, only the applicable type of user-added subnetwork attributes will be valid for this parameter. If a field to store the summary result does not exist in the SubnetLine feature class, the Add Field tool can be used to create one. A field can only support the result of one summary; therefore, each summary requires its own field in the SubnetLine feature class. See the following matrix of valid field types for the various functions: Matrix of valid field types for the summary attribute field, based on the function chosen

The summaries Function value options are as follows:

  • AVERAGEThe average of the input values.
  • COUNTThe number of features.
  • MAXThe maximum of the input values.
  • MINThe minimum of the input values.
  • ADDThe sum of the input values.
  • SUBTRACTThe difference of the input values. Subnetwork controllers and loops trace types do not support the subtract function.

The summariesFilter Operator value options are as follows:

  • IS_EQUAL_TOThe attribute is equal to the value.
  • DOES_NOT_EQUALThe attribute is not equal to the value.
  • IS_GREATER_THANThe attribute is greater than the value.
  • IS_GREATER_THAN_OR_EQUAL_TOThe attribute is greater than or equal to the value.
  • IS_LESS_THANThe attribute is less than the value.
  • IS_LESS_THAN_OR_EQUAL_TOThe attribute is less than or equal to the value.
  • INCLUDES_THE_VALUESA bitwise AND operation where all bits in the value are present in the attribute (bitwise AND == value).
  • DOES_NOT_INCLUDE_THE_VALUESA bitwise AND operation where not all of the bits in the value are present in the attribute (bitwise AND != value).
  • INCLUDES_ANYA bitwise AND operation where at least one bit in the value is present in the attribute (bitwise AND == True).
  • DOES_NOT_INCLUDE_ANYA bitwise AND operation where none of the bits in the value are present in the attribute (bitwise AND == False).

The summaries Filter Type value options are as follows:

  • SPECIFIC_VALUEFilter by a specific value.
  • NETWORK_ATTRIBUTEFilter by a network attribute.

Learn more about bitwise operators

Value Table
condition_barriers
[[Name, Operator, Type, Value, Combine Using],...]
(Optional)

Sets a traversability barrier condition on features based on a comparison to a network attribute or check for a category string. A condition barrier uses a network attribute, an operator and a type, and an attribute value. For example, stop a trace when a feature has the attribute Device Status equal to the specific value of Open. When a feature meets this condition, the trace stops. If you're using more than one attribute, you can use the Combine using parameter to define an And or an Or condition.

Condition barrier components are as follows:

  • Name—Filter by any network attribute defined in the system.
  • Operator—Choose from a number of operators.
  • Type—Choose a specific value or network attribute from the value that is specified in the name parameter.
  • Value—Provide a specific value of the input attribute type that would cause termination based on the operator value.
  • Combine Using—Set this value if you have multiple attributes to add. You can combine them using an And or an Or condition.

The condition barriers operator values are as follows:

  • IS_EQUAL_TOThe attribute is equal to the value.
  • DOES_NOT_EQUALThe attribute is not equal to the value.
  • IS_GREATER_THANThe attribute is greater than the value.
  • IS_GREATER_THAN_OR_EQUAL_TOThe attribute is greater than or equal to the value.
  • IS_LESS_THANThe attribute is less than the value.
  • IS_LESS_THAN_OR_EQUAL_TOThe attribute is less than or equal to the value.
  • INCLUDES_THE_VALUESA bitwise AND operation where all bits in the value are present in the attribute (bitwise AND == value).
  • DOES NOT INCLUDE_THE_VALUESA bitwise AND operation where not all of the bits in the value are present in the attribute (bitwise AND != value).
  • INCLUDES_ANYA bitwise AND operation where at least one bit in the value is present in the attribute (bitwise AND == True).
  • DOES_NOT_INLCUDE_ANYA bitwise AND operation where none of the bits in the value are present in the attribute (bitwise AND == False).

Learn more about bitwise operators

The condition barriers Type value options are as follows:

  • SPECIFIC_VALUEFilter by a specific value.
  • NETWORK_ATTRIBUTEFilter by a network attribute.

The Combine Using values are as follows:

  • ANDCombine the condition barriers.
  • ORUse if either condition barrier is met.

Learn more about using multiple conditional expressions

Value Table
function_barriers
[[Function, Attribute, Operator, Value, Use Local Values],...]
(Optional)

Sets a traversability barrier on features based on a function. Function barriers can be used to do such things as restrict how far the trace travels from the starting point, or set a maximum value to stop a trace. For example, the length of each line traveled is added to the total distance traveled so far. When the total length traveled reaches the value specified, the trace stops.

Function barrier components are as follows:

  • Function—Choose from a number of calculation functions.
  • Attribute—Filter by any network attribute defined in the system.
  • Operator—Choose from a number of operators.
  • Value—Provide a specific value of the input attribute type that, if discovered, will cause the termination.
  • Use Local Values—Calculate values in each direction as opposed to an overall global value, for example, for a function barrier that is calculating the sum of Shape length in which the trace terminates if the value is greater than or equal to 4. In the global case, after you have traversed two edges with a value of 2, you have already reached a shape length sum of 4, so the trace stops. If local values are used, the local values along each path change, and the trace continues.

The function barrier function value options are as follows:

  • AVERAGEThe average of the input values.
  • COUNTThe number of features.
  • MAXThe maximum of the input values.
  • MINThe minimum of the input values.
  • ADDThe sum of the input values.
  • SUBTRACTThe difference in the input values.Subnetwork controllers and loops trace types do not support the subtract function.

The function barrier operator value options are as follows:

  • IS_EQUAL_TOThe attribute is equal to the value.
  • DOES_NOT_EQUALThe attribute is not equal to the value.
  • IS_GREATER_THANThe attribute is greater than the value.
  • IS_GREATER_THAN_OR_EQUAL_TOThe attribute is greater than or equal to the value.
  • IS_LESS_THANThe attribute is less than the value.
  • IS_LESS_THAN_OR_EQUAL_TOThe attribute is less than or equal to the value.
  • INCLUDES_THE_VALUESA bitwise AND operation where all bits in the value are present in the attribute (bitwise AND == value).
  • DOES_NOT_INCLUDE_THE_VALUESA bitwise AND operation where not all of the bits in the value are present in the attribute (bitwise AND != value).
  • INCLUDES_ANYA bitwise AND operation where at least one bit in the value is present in the attribute (bitwise AND == True).
  • DOES_NOT_INCLUDE_ANYA bitwise AND operation where none of the bits in the value are present in the attribute (bitwise AND == False).

Learn more about bitwise operators

The function barrier Use Local Values value options are as follows:

  • TRUEUse local values.
  • FALSEUse global values. This is the default.
Value Table
include_barriers
(Optional)

Specifies whether the traversability barrier features will be included in the trace results. Traversability barriers are optional even if they have been preset in the subnetwork definition.

  • INCLUDE_BARRIERSTraversability barriers will be included in the trace results. This is the default.
  • EXCLUDE_BARRIERSTraversability barriers will not be included in the trace results.
Boolean
traversability_scope
(Optional)

The type of traversability to enforce. Traversability scope dictates whether traversability is enforced at junctions, edges, or both. For example, if a condition barrier is defined to stop the trace if Device Status is equal to Open and traversability scope is set to edges only, the trace will not stop—even if it encounters an open device—because Device Status is only applicable to junctions. In other words, this parameter indicates to the trace whether to ignore junctions, edges, or both.

  • BOTH_JUNCTIONS_AND_EDGESTraversability will be applied to both junctions and edges. This is the default.
  • JUNCTIONS_ONLYTraversability will be applied to junctions only.
  • EDGES_ONLYTraversability will be applied to edges only.
String
propagators
[[Attribute, Substitution Attribute, Function, Operator, Value, Propagated Attribute],...]
(Optional)

Specifies the network attributes to propagate as well as how that propagation should occur during a trace. Propagated class attributes denote the key values on subnetwork controllers that are disseminated to the rest of the features in the subnetwork. For example, in an electric distribution model, you can propagate the phase value.

Propagators components are as follows:

  • Attribute—Filter by any network attribute defined in the system.
  • Substitution Attribute—Use a substituted value instead of bitset network attribute values. Substitutions are encoded based on the number of bits in the network attribute being propagated. A substitution is a mapping of each bit in phase to another bit. For example, for Phase AC, one substitution could map bit A to B and bit C to null. In this example the substitution for 1010 (Phase AC) is 0000-0010-0000-0000 (512). The substitution captures the mapping so you know that Phase A was mapped to B and Phase C was mapped to null and not the other way around (that is, Phase A was not mapped to null and Phase C was not mapped to B).
  • Function—Choose from a number of calculation functions.
  • Operator—Choose from a number of operators.
  • Value—Provide a specific value for the input attribute type that would cause termination based on the operator value.
  • Propagated Attribute—The name of the field in your network class that is used to store the calculated propagated values. The field type should be the same as the field type of the network attribute chosen for the Attribute value.

The propagators function value options are as follows:

  • PROPAGATED_BITWISE_ANDCompare the values from one feature to the next.
  • PROPAGATED_MINGet the minimum value.
  • PROPAGATED_MAXGet the maximum value.

The propagators operator value options are as follows:

  • IS_EQUAL_TOThe attribute is equal to the value.
  • DOES_NOT_EQUALThe attribute is not equal to the value.
  • IS_GREATER_THANThe attribute is greater than the value.
  • IS_GREATER_THAN_OR_EQUAL_TOThe attribute is greater than or equal to the value.
  • IS_LESS_THANThe attribute is less than the value.
  • IS_LESS_THAN_OR_EQUAL_TOThe attribute is less than or equal to the value.
  • INCLUDES_THE_VALUESA bitwise AND operation where all bits in the value are present in the attribute (bitwise AND == value).
  • DOES_NOT_INCLUDE_THE_VALUESA bitwise AND operation where not all of the bits in the value are present in the attribute (bitwise AND != value).
  • INCLUDES_ANYA bitwise AND operation where at least one bit in the value is present in the attribute (bitwise AND == True).
  • DOES_NOT_INCLUDE_ANYA bitwise AND operation where none of the bits in the value are present in the attribute (bitwise AND == False).

Learn more about bitwise operators

Note:

This parameter is only available via Python.

Value Table
update_structure_features
(Optional)

Specifies whether the update subnetwork process will update the supported subnetwork name attribute for structures.

  • UPDATEThe structure features will be updated. This is the default.
  • NOT_UPDATEThe structure features will not be updated.
Note:

This parameter requires a Utility Network Release of 4 or higher.

Boolean
update_container_features
(Optional)

Specifies whether the update subnetwork process will update the supported subnetwork name for containers.

  • UPDATEThe container features will be updated. This is the default.
  • NOT_UPDATEThe container features will not be updated.
Note:

This parameter requires a Utility Network Release of 4 or higher.

Boolean
edit_mode_for_default_version
(Optional)

Specifies the edit mode for subnetwork updates on the default version.

  • WITHOUT_EVENTINGEventing will not be used for subnetwork updates on the default version. This edit mode updates the subnetwork name and propagated values in place. This is the default.
  • WITH_EVENTINGEventing will be used for subnetwork updates on the default version. This edit mode will execute geodatabase behavior (for example, attribute rules, editor tracking, and so on) when the subnetwork is updated.
Note:

This parameter requires a Utility Network Release of 4 or higher and is only applicable to enterprise geodatabases.

String
edit_mode_for_named_version
(Optional)

Specifies the edit mode for subnetwork updates on a named version.

  • WITHOUT_EVENTINGEventing will not be used for subnetwork updates on named versions. This edit mode updates the subnetwork name and propagated values in place. This is the default.
  • WITH_EVENTINGEventing will be used for subnetwork updates on named versions. This edit mode will execute geodatabase behavior (for example, attribute rules, editor tracking, and so on) when the subnetwork is updated.
Note:

This parameter requires a Utility Network Release of 4 or higher and is only applicable to enterprise geodatabases.

String
valid_junctions
[valid_junctions,...]
(Optional)

The asset group/asset type pairs identified as valid junctions for the subnetwork.

Note:

This parameter requires a Utility Network Release of 4 or higher.

String
valid_junction_objects
[valid_junction_objects,...]
(Optional)

The asset group/asset type pairs identified as valid junction objects for the subnetwork.

Note:

This parameter requires a Utility Network Release of 4 or higher.

String
valid_junction_object_subnetwork_controller
[valid_junction_object_subnetwork_controller,...]
(Optional)

The asset group/asset type pairs identified as valid junction object subnetwork controllers for the subnetwork.

Note:

This parameter requires a Utility Network Release of 4 or higher.

String
valid_edge_objects
[valid_edge_objects,...]
(Optional)

The asset group/asset type pairs identified as valid edge objects for the subnetwork.

Note:

This parameter requires a Utility Network Release of 4 or higher.

String

Derived Output

NameExplanationData Type
out_utility_network

The updated input utility network.

Utility Network

Code sample

SetSubnetworkDefinition example (stand-alone script)

This example sets the subnetwork definition in a domain named ElectricDistribution.

'''****************************************************************************
Name:        SetSubnetworkDefinition.py
Description: This script sets the subnetwork definition for a tier in a Utility Network
Created by:  Esri
****************************************************************************'''

# Import required modules        
import arcpy

# Set local variables
in_utility_network = "ElectricDistribution"
domain_network = "ElecDist"
tier_name = "Medium Voltage"
support_disjoint_subnetwork = "SUPPORT_DISJOINT"
valid_devices = "'CircuitBreaker/Unknown';'CircuitBreaker/Air powered';'NetworkProtector/Unknown';'NetworkProtector/NetworkProtector';'Transformer/Unknown';'Transformer/Buck boost';'Transformer/Single-phase overhead';'Transformer/Single-phase padmounted';'Transformer/Three-phase padmounted';'Transformer/Power';'Transformer/Step';'Transformer/Vault'"
valid_subnetwork_controller = "'CircuitBreaker/Unknown';'CircuitBreaker/Air powered'"
valid_lines = "'Busbar/Unknown';'Busbar/Busbar';'Connector/Unknown';'Connector/Connector';'LowVoltage/Unknown';'LowVoltage/Overhead';'LowVoltage/Underground';'MediumVoltage/Unknown';'MediumVoltage/Single-phase overhead';'MediumVoltage/Two-phase overhead';'MediumVoltage/Three-phase overhead';'MediumVoltage/Single-phase underground';'MediumVoltage/Two-phase underground';'MediumVoltage/Three-phase underground';'IsolatedNeutral/Unknown';'IsolatedNeutral/Concentric neutral';'IsolatedNeutral/Neutral';'SubTransmission/Unknown';'SubTransmission/Overhead';'SubTransmission/Underground'"
aggregated_line = "'Busbar/Unknown';'Busbar/Busbar';'MediumVoltage/Unknown';'MediumVoltage/Single-phase overhead';'MediumVoltage/Two-phase overhead';'MediumVoltage/Three-phase overhead';'MediumVoltage/Single-phase underground';'MediumVoltage/Two-phase underground';'MediumVoltage/Three-phase underground'"
diagram_template = "Basic"
summaries = ""
condition_barriers = "'Device Status' IS_EQUAL_TO SPECIFIC_VALUE 'Opened' #"
function_barriers = ""
include_barriers = "INCLUDE_BARRIERS"
traversability_scope = "BOTH_JUNCTIONS_AND_EDGES"
propagators = ""

# Run the SetSubnetworkDefinition tool
arcpy.SetSubnetworkDefinition_un(in_utility_network, 
                                 domain_network, 
                                 tier_name, 
                                 support_disjoint_subnetwork, 
                                 valid_devices, 
                                 valid_subnetwork_controller, 
                                 valid_lines, 
                                 aggregated_line, 
                                 diagram_template, 
                                 summaries, 
                                 condition_barriers, 
                                 function_barriers, 
                                 include_barriers, 
                                 traversability_scope, 
                                 propagators)

Environments

This tool does not use any geoprocessing environments.

Licensing information

  • Basic: No
  • Standard: Yes
  • Advanced: Yes

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