Zusammenfassung
Creates a raster object for contour lines by joining points with the same value from a raster dataset. The contours are isolines created as rasters for visualization.
Auswertung
For more information about how this function works, see the Contour raster function.
The referenced raster dataset for the raster object is temporary. To make it permanent, you can call the raster object's save method.
Syntax
Contour (raster, {adaptive_smoothing}, {contour_type}, {z_base}, {number_of_contours}, {contour_interval}, {nth_contour_line_in_bold}, {z_factor})
Parameter | Erklärung | Datentyp |
raster | The input raster. | Raster |
adaptive_smoothing | The amount of smoothing to apply to the contour line. A lower value produces a contour line with more granularity and less smoothing, while a higher value produces a contour line with more smoothing that appears less jagged. (Der Standardwert ist 2.5) | Double |
contour_type | The type of contour to be created.
(Der Standardwert ist contour lines) | String |
z_base | The base contour value. Contours are generated above and below this value as needed to cover the entire value range of the input raster. A value of 0 often represents mean sea level, depending on the source elevation dataset. (Der Standardwert ist 0) | Double |
number_of_contours | The number of contours to be generated. This dynamically adjusts the contour interval to fit the terrain in the display while maintaining standardized intervals such as 1, 5, 10, and so on. (Der Standardwert ist 0) | Integer |
contour_interval | The difference in altitude between contour lines. A small contour interval is used in relatively flat areas, while larger contour intervals are used in variable or mountainous terrain. (Der Standardwert ist 100) | Double |
nth_contour_line_in_bold | The index contour, which is represented as a bold line. (Der Standardwert ist 5) | Integer |
z_factor | The z-factor is a scaling factor used to convert the elevation values for two purposes:
If the x,y units and z units are in the same units of measure, the z-factor should be set to 1. The z-values of the input surface are multiplied by the z-factor when calculating the final output surface. (Der Standardwert ist 1) | Double |
Datentyp | Erklärung |
Raster | The output raster. |
Codebeispiel
This example creates the contours for a given dataset.
from arcpy.ia import *
out_contour_raster = Contour("contour_input.tif", "", "smooth surface only", "", "", 150, 10, 2)
out_contour_raster.save("C:/arcpyexamples/outputs/contour_surface.tif")
This example creates the contours for a given dataset.
# Import system modules
import arcpy
from arcpy.ia import *
# Set the analysis environments
arcpy.env.workspace = "C:/arcpyExamples/data"
# Set the local variables
in_raster = "contour_input.tif"
# Execute Contour function
out_contour_raster = Contour(in_raster, 3, "contour fill", 10, 20, 10, 3)
# Save the output
out_contour_raster.save("C:/arcpyExamples/outputs/contour_fill.tif")