属性
| 属性 | 说明 | 数据类型 |
| associationSource (只读) | associationSource 对象。 此对象可用于检索关联源的属性。 | Object |
| createDirtyAreaForAnyAttributeUpdate (只读) | 在启用了网络拓扑的情况下,是否针对任何属性更新创建脏区。
| Boolean |
| creationTime (只读) | 追踪网络的创建日期和时间。 | DateTime |
| globalID (只读) | 追踪网络的全局 ID。 | String |
| minimalDirtyAreaSize (只读) | 网络拓扑中脏区的最小大小。 | Integer |
| networkAttributes (只读) | networkAttributes 对象。 此对象可用于检索网络特性的属性。 | Object |
| proVersion (只读) | 用于构建追踪网络的 ArcGIS Pro 版本。 | String |
| schemaGeneration (只读) | 输入追踪网络的方案生成值。 | Integer |
| sources (只读) | sources 对象。 此对象可用于检索追踪网络源的属性。 | Object |
| systemJunctionSource (只读) | systemJunctionSource 对象。 此对象可用于检索系统交汇点源的属性。 | Object |
代码示例
此独立 Python 脚本可打印某些追踪网络属性的报告。
'''****************************************************************************
Name: DescribeTraceNetworkProperties.py
Description: This script reports the properties of a trace network
Created by: Esri
****************************************************************************'''
# Import required modules
import arcpy
# Describe function on a Trace Network
TN = (r"C:\MyProject\MyNetworkData.gdb\FDS\HydroNetwork")
d = arcpy.Describe(TN)
# Top level TN properties
print("Creation Time: {0}".format(d.creationTime))
print("Pro Version: {0}".format(d.proVersion))
print("Global ID: {0}".format(d.globalId))
print("Schema generation: {0}".format(d.schemaGeneration))
print("Minimal dirty area size: {0}".format(d.minimalDirtyAreaSize))
print("Create Dirty Area For Any Attribute Update: {0}\n".format(d.createDirtyAreaForAnyAttributeUpdate))
# Association source properties
asources = d.associationSource
print("*** - Assocation Sources properties - ***")
print("Name: {0}".format(asources.name))
print("ID: {0}".format(asources.sourceID))
print("Type: {0} \n".format(asources.sourceType))
# System junction source properties
sjsources = d.systemJunctionSource
print("*** - System Junction Source properties - ***")
print("Name: {0}".format(sjsources.name))
print("ID: {0}".format(sjsources.sourceID))
print("Type: {0} \n".format(sjsources.sourceType))
# Source properties
sources = d.sources
for s in sources:
print("*** - Sources properties - ***")
print("Name: {0}".format(s.name))
print("ID: {0}".format(s.sourceID))
print("Source Type: {0} \n".format(s.sourceType))
print("Element Type: {0} \n".format(s.elementType))
cp = s.connectivityPolicies
print("Connectivity Policy: {0} \n".format(cp.classConnectivity))
# Network Attribute properties
netattrs = d.networkAttributes
for na in netattrs:
print("*** - Network Attribute properties - ***")
print("ID: {0}".format(na.Id))
print("Name: {0}".format(na.name))
print("Data Type: {0}".format(na.dataType))
print("Usage Type: {0}".format(na.usageType))
print("isEmbedded: {0}".format(na.isEmbedded))
print("isApportionable: {0}".format(na.isApportionable))
print("bitPosition: {0}".format(na.bitPosition))
print("bitSize: {0}".format(na.bitSize))
print("Junction Weight ID: {0}".format(na.junctionWeightId))
print("Edge Weight ID: {0} \n".format(na.edgeWeightId))
# For each attribute assignment in the attribute assignments object:
try:
tnas = na.assignments
for tna in tnas:
print(" -- Attribute Assignment Properties -- ")
print("Trace Network Assignment Attribute ID: {0}".format(tna.attributeId))
print("Trace Network Assignment Attribute Source Name: {0} \n".format(tna.networkSourceName))
# For each field evaluator in the attribute evaluator object:
print(" - Field Evaluator Properties - ")
fe = tna.evaluator
print("Field Evaluator Type: {0}".format(fe.evaluatorType))
print("Field Evaluator Name: {0} \n".format(fe.fieldName))
except:
print("{0} does not have any attribute assignments \n".format(na.name))