Available with Production Mapping license.
Summary
Performs the selected Simplify and Smooth operations on a line or polygon feature class. When used with spatially related features, this tool helps to maintain coincidence between shared edges.
Usage
A warning is raised if the input features are not in a projected coordinate system. This tool relies on linear distance units, which will create unexpected results in an unprojected coordinate system. It is strongly suggested that you run this tool on data in a projected coordinate system to ensure valid results. An error is raised and the tool will not process if the coordinate system is missing or unknown.
If feature classes are selected as topology feature classes, features from these feature classes that share a boundary with the main feature class will also be generalized to maintain coincidence.
The integrity of the results of this tool relies on the topological integrity of the inputs. Proper coincidence must exist between the edges of the input and topology feature classes. Features may visually look coincident but may not be coincident in the database. Running the Integrate geoprocessing tool to integrate all the input and topology feature classes can help to ensure database coincidence.
Extremely large features, especially lines with thousands of vertices, can cause performance issues. Running the Dice geoprocessing tool can subdivide large features into smaller features based on a specified vertex limit.
The input features must consist of valid geometries. Running the Repair Bad Geometry geoprocessing tool on each of the inputs removes invalid geometry in the data that could prevent the tool from successfully running.
When the Simplify operation is selected, the Simplify Line geoprocessing tool simplifies the feature using one of these algorithms:
- The POINT_REMOVE method is the faster of the two algorithms; it removes redundant vertices. Use this method for data compression or more coarse simplification. The angularity (sharp corners) of the resulting line increases significantly as the tolerance increases, so the result may be less aesthetically pleasing than the input.
- The BEND_SIMPLIFY method is slower but typically produces results that are more faithful to the original features; it operates by eliminating insignificant bends along lines. Use this method for more refined simplification.
When the Smooth operation is selected, the Smooth Line geoprocessing tool smooths the feature.
The tool sets a tolerance used by the Polynomial Approximation with Exponential Kernel (PAEK) algorithm. A tolerance must be specified and it must be greater than zero. You can choose a preferred unit; the default is the feature unit.
When using the BEZIER_INTERPOLATION smoothing algorithm, you must enter a zero (0) as the placeholder.
This tool cannot be run against data in an edit session. If you attempt to run the tool against data during an edit session, you will get ERROR 000496: table is being edited. When you get this error, stop editing and run the script again.
Syntax
GeneralizeSharedFeatures(Input_Features, Generalize_Operation, Simplify_Tolerance, Smooth_Tolerance, {Topology_Feature_Classes}, {Simplification_Algorithm}, {Smoothing_Algorithm})
Parameter | Explanation | Data Type |
Input_Features | The features that will be generalized and smoothed. This must be a line or polygon feature class. | Feature Layer |
Generalize_Operation | The type of operation to perform on the line or polygon features. The Simplify and Smooth operations will be run as listed in the selected operation.
| String |
Simplify_Tolerance | The tolerance used by the simplification algorithm. When a Simplify operation is used, the tolerance must be greater than zero (0). | Linear unit |
Smooth_Tolerance | The tolerance used by the smoothing algorithm. When a Smoothing operation is used, the tolerance must be greater than zero (0). | Linear unit |
Topology_Feature_Classes [Topology_Feature_Classes,...] (Optional) | One or more feature layers that are spatially related to the input features. Features that are coincident with the input features will maintain coincidence after generalization. Only the edges of the features that share a boundary with the input features will be modified. These must be line or polygon features. | Feature Layer |
Simplification_Algorithm (Optional) | Specifies the line simplification algorithm.
| String |
Smoothing_Algorithm (Optional) | Specifies the smoothing algorithm.
| String |
Code sample
GeneralizeSharedFeatures example (stand-alone script)
The following stand-alone sample script demonstrates how to use GeneralizedSharedFeatures.
# Name: GeneralizeSharedFeatures.py
# Description: Simplifies and smooths line or polygon features based on the selected
# operation.
# Author: Esri
# Date: May 2014
# Import arcpy module
import arcpy
# Check out Production Mapping license
arcpy.CheckOutExtension("Foundation")
# set environment
arcpy.env.workspace="c:/data/Edit_Sample.gdb"
# Define variables
inFeatures="Features/CoastA"
inFeaturesLyr="CoastA_Lyr"
compareFeatures="Features/CoastL"
# Aggregate the polygon features
arcpy.GeneralizeSharedFeatures_production(inFeatures,"SIMPLIFY_SMOOTH","10 Meters","10 Meters",compareFeatures)
Environments
Licensing information
- ArcGIS Desktop Basic: No
- ArcGIS Desktop Standard: No
- ArcGIS Desktop Advanced: Requires Production Mapping