AI-generated Key Takeaways
-
The
geometries()method returns a list of geometries from aGeometryCollectionor a singleton list for single geometries. -
The
geometries()method is used on a geometry object and returns a list. -
Examples are provided in JavaScript and Python demonstrating how to use the
geometries()method on aMultiLineString.
| Usage | Returns |
|---|---|
MultiLineString.
geometries
()
|
List |
| Argument | Type | Details |
|---|---|---|
|
this:
geometry
|
Geometry |
Examples
Code Editor (JavaScript)
// Define a MultiLineString object. var multiLineString = ee . Geometry . MultiLineString ( [[[ - 122.088 , 37.418 ], [ - 122.086 , 37.422 ], [ - 122.082 , 37.418 ]], [[ - 122.087 , 37.416 ], [ - 122.083 , 37.416 ], [ - 122.082 , 37.419 ]]]); // Apply the geometries method to the MultiLineString object. var multiLineStringGeometries = multiLineString . geometries (); // Print the result to the console. print ( 'multiLineString.geometries(...) =' , multiLineStringGeometries ); // Display relevant geometries on the map. Map . setCenter ( - 122.085 , 37.422 , 15 ); Map . addLayer ( multiLineString , { 'color' : 'black' }, 'Geometry [black]: multiLineString' );
import ee import geemap.core as geemap
Colab (Python)
# Define a MultiLineString object. multilinestring = ee . Geometry . MultiLineString ([ [[ - 122.088 , 37.418 ], [ - 122.086 , 37.422 ], [ - 122.082 , 37.418 ]], [[ - 122.087 , 37.416 ], [ - 122.083 , 37.416 ], [ - 122.082 , 37.419 ]], ]) # Apply the geometries method to the MultiLineString object. multilinestring_geometries = multilinestring . geometries () # Print the result. display ( 'multilinestring.geometries(...) =' , multilinestring_geometries ) # Display relevant geometries on the map. m = geemap . Map () m . set_center ( - 122.085 , 37.422 , 15 ) m . add_layer ( multilinestring , { 'color' : 'black' }, 'Geometry [black]: multilinestring' ) m
