Identify Contours (Topographic Production)

Zusammenfassung

Identifies types of contours and applies hypsographic codes to input features.

Verwendung

  • This tool processes each input contour and identifies the contour type. It uses the underlying raster and contour features to determine the type of contour. It then updates the contour code field with the appropriate domain code.

  • This tool identifies the following types of contours:

    • Index
    • Intermediate
    • Depression index
    • Depression intermediate

  • Vorsicht:

    Mit diesem Werkzeug werden die Eingabedaten geändert. Weitere Informationen und Strategien zur Vermeidung unerwünschter Datenänderungen finden Sie unter Werkzeuge, die Eingabedaten ändern oder aktualisieren.

  • If more than one input raster is used, all input rasters must have the same cell size, band count, and pixel type. All input rasters should also use the same elevation units (meters or feet).

Parameter

BeschriftungErläuterungDatentyp
Input Contours

The input contours that will be updated with the specified contour codes.

Feature Layer
Input Rasters

The rasters used to derive elevations of points inside contours to correctly identify the types of contours.

Raster Layer; Mosaic Layer
Contour Height field

The field in the input contour feature class that contains elevation values. This field type must be numeric.

Field
Contour Code field

The field in the input contour feature class that will be updated with the appropriate domain code.

Field
Contour Index Interval
(optional)

The interval or distance between index contour lines. The default is 100.

Long
Index Code
(optional)

The value used to populate the Contour Code field parameter when index contours are identified. The default is 1.

String
Intermediate Code
(optional)

The value used to populate the Contour Code field parameter when intermediate contours are identified. The default is 2.

String
Depression Code
(optional)

The value used to populate the Contour Code field parameter when depression contours are identified. The default is 5.

String
Depression Intermediate Code
(optional)

The value used to populate the Contour Code field parameter when depression intermediate contours are identified. The default is 6.

String

Abgeleitete Ausgabe

BeschriftungErläuterungDatentyp
Updated Contours

Contour feature class where contour codes were updated.

Feature Layer

arcpy.topographic.IdentifyContours(in_contour_features, in_rasters, contour_height_field, contour_code_field, {contour_index_interval}, {index_code}, {intermediate_code}, {depression_code}, {depression_intermediate_code})
NameErläuterungDatentyp
in_contour_features

The input contours that will be updated with the specified contour codes.

Feature Layer
in_rasters
[in_rasters,...]

The rasters used to derive elevations of points inside contours to correctly identify the types of contours.

Raster Layer; Mosaic Layer
contour_height_field

The field in the input contour feature class that contains elevation values. This field type must be numeric.

Field
contour_code_field

The field in the input contour feature class that will be updated with the appropriate domain code.

Field
contour_index_interval
(optional)

The interval or distance between index contour lines. The default is 100.

Long
index_code
(optional)

The value used to populate the contour_code_field parameter when index contours are identified. The default is 1.

String
intermediate_code
(optional)

The value used to populate the contour_code_field parameter when intermediate contours are identified. The default is 2.

String
depression_code
(optional)

The value used to populate the contour_code_field parameter when depression contours are identified. The default is 5.

String
depression_intermediate_code
(optional)

The value used to populate the contour_code_field parameter when depression intermediate contours are identified. The default is 6.

String

Abgeleitete Ausgabe

NameErläuterungDatentyp
updated_contour_features

Contour feature class where contour codes were updated.

Feature Layer

Codebeispiel

IdentifyContours example (stand-alone script)

This Python stand-alone sample codes contours with proper attribution for Index, Intermediate, and Depression contours.

# Name: IdentifyContours_sample.py
# Description: Coding contours with proper attribution for Index, Intermediate, and Depression contours

# Import System Modules
import arcpy

# Check Out Extensions
arcpy.CheckOutExtension('Foundation')

# Setting the environment
arcpy.env.overwriteOutput = True

# Setting Local Variables
contours = r'C:\Data\MGCP_TRD_4_4.gdb\MGCP_Delta\ContourL'
rasters = r'C:\Data\Rasters\Haiti.dt2'
height_field = 'ZVH'
code_field = 'HQC'
index = 100
index_code = 1
intermediate_code = 2
depression_code = 5
depression_intermediate_code = 6

# Calling the Identify Contours to properly attribute contours in ContourL feature class
arcpy.topographic.IdentifyContours(contours, rasters, height_field, code_field, index, index_code, intermediate_code, depression_code, depression_intermediate_code)

# Getting all messages, warnings, and errors from the tool run and printing the results back to the user
messages = arcpy.GetMessages(0)
warnings = arcpy.GetMessages(1)
errors = arcpy.GetMessages(2)
arcpy.AddMessage('Tool Messages: {}\nTool Warnings: {}\nTool Errors{}\n'.format(messages, warnings, errors))

# Check In Extensions
arcpy.CheckInExtension('Foundation')

Umgebungen

Dieses Werkzeug verwendet keine Geoverarbeitungsumgebungen.

Lizenzinformationen

  • Basic: Nein
  • Standard: Erfordert Production Mapping
  • Advanced: Erfordert Production Mapping

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