Zusammenfassung
Populates metrics for features in a geodatabase. Metrics include length, width, area, and elevation attributes.
Verwendung
Supported feature attribute metrics include the following:
- Angle of Orientation—The default attributes are AOO, DOF, and FEO.
- Area—The default attributes are ARA, ARE, and ARE_.
- Elevation—The default attributes are ZV2 and ZVH (must be z-enabled data).
- Length—The default attributes are LEG, LEN, LEN_, LGN, and LZN.
- Width—The default attributes are WID, WID_, and WGP.
Input metric types are processed based on the geometry of the feature class:
- Points—Elevation
- Lines—Length and Elevation
- Polygons—Length, Width, Area, Angle of Orientation, and Elevation
The Input Length Attributes, Input Width Attributes, Input Area Attributes, Input Angle of Orientation Attributes, and Input Elevation Attributes parameters reference a comma-delimited list of field names in your data model. If one or more fields exist in Input Features, the field will be calculated according to the metrics chosen in the Input Metric Types parameter.
You can add your own field names to the list of options in the Input Length Attributes, Input Width Attributes, Input Area Attributes, Input Angle of Orientation Attributes, and Input Elevation Attributes parameters. This tool will attempt to compute metrics in your custom field.
Syntax
arcpy.topographic.CalculateMetrics(in_features, in_metric_types, {in_length_attributes}, {in_width_attributes}, {in_area_attributes}, {in_angle_attributes}, {in_elevation_attributes}, {in_precision})
Parameter | Erklärung | Datentyp |
in_features [in_features,...] | The features on which metrics will be calculated. | Feature Layer |
in_metric_types [in_metric_types,...] | Specifies the types of metrics to calculate, including angle of orientation, area, elevation, length, and width.
| String |
in_length_attributes (optional) | A comma-delimited string of field names from which the length metrics will be calculated. The default is LEG,LEN,LEN_,LGN,LZN. You can add the names of other length metric fields; if the fields exist in Input Features, they will be computed. | String |
in_width_attributes (optional) | A comma-delimited string of field names from which the width metrics will be calculated. The default is WID,WID_,WGP. You can add the names of other width metric fields; if the fields exist in Input Features, they will be computed. | String |
in_area_attributes (optional) | A comma-delimited string of field names from which the area metrics will be calculated. The default is ARA,ARE,ARE_. You can add the names of other area metric fields; if the fields exist in Input Features, they will be computed. | String |
in_angle_attributes (optional) | A comma-delimited string of field names from which the angle of orientation metrics will be calculated. The default is AOO,DOF,FEO. You can add the names of other angle of orientation metric fields; if the fields exist in Input Features, they will be computed. | String |
in_elevation_attributes (optional) | A comma-delimited string of field names from which the elevation metrics will be calculated. The default is ZV2,ZVH. You can add the names of other elevation metric fields; if the fields exist in Input Features, they will be computed. | String |
in_precision (optional) | The precision of the metrics written to the target attributes. | Long |
Abgeleitete Ausgabe
Name | Erklärung | Datentyp |
out_features | The features on which metrics were calculated. | Feature Layer |
Codebeispiel
The following code sample calculates the width fields for polyline features in the attribute table.
# Name: CalculateMetrics_sample1.py
# Description: Calculating the width field for features in a polyline feature class
# Import System Modules
import arcpy
# Check Out Extensions
arcpy.CheckOutExtension('Foundation')
# Setting Local Variables
input_features = r'C:\Temp\Test.gdb\RiverLines'
field_name = 'WID'
# Creating feature layer
river_lines = arcpy.management.MakeFeatureLayer(input_features, 'RiverLines').getOutput(0)
# Calculating WIDTH of input features on the WID field
arcpy.topographic.CalculateMetrics(river_lines, "WIDTH", "#", field_name, "#", "#", "#", "#")
# Check In Extensions
arcpy.CheckInExtension('Foundation')
The following code sample iterates through the features in a database and calculates metric attributes.
# Name: CalculateMetrics_sample2.py
# Description: Iterates through the features in a database and calculates metric attributes
# Import System Modules
import arcpy
import string
import os
# Check Out Extensions
arcpy.CheckOutExtension('Foundation')
# Setting Local Variables
input_database = r'C:\Data\Sample.gdb'
metric_type = 'LENGTH;WIDTH;AREA;ANGLE_OF_ORIENTATION;ELEVATION'
# Getting feature classes from database
arcpy.env.workspace = input_database
feature_classes = []
feature_datasets = arcpy.ListDatasets('*', 'Feature')
for dataset in feature_datasets:
fclass = arcpy.ListFeatureClasses('*', '', dataset)
for fc in fclass:
feature_classes.append(os.path.join(input_database, dataset, fc))
# Converting feature classes into layers
layer_list = []
for feat_class in feature_classes:
class_name = string.split(os.path.split(feat_class)[1], '.')[-1]
arcpy.management.MakeFeatureLayer(feat_class, class_name)
layer_list.append(class_name)
# Creating string for input to Calculate Metrics Fields tool
feature_string = ''
for layer in layer_list:
feature_string += '{};'.format(layer)
# Calculating Metric fields on all features classes in the in[ut database
arcpy.topographic.CalculateMetrics(feature_string, metric_type, '#', '#', '#', '#', '#', '#')
# Check In Extensions
arcpy.CheckInExtension('Foundation')
Umgebungen
Lizenzinformationen
- Basic: Nein
- Standard: Erfordert Production Mapping
- Advanced: Erfordert Production Mapping