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ee.Geometry.MultiPoint.distance

AI-generated Key Takeaways

The distance method returns the minimum distance between two geometries.
It takes the right geometry as a required argument, and optional arguments for maximum error, projection, and spherical calculation.
The method returns a float representing the distance.
Examples are provided in JavaScript and Python demonstrating how to use the distance method.

Returns the minimum distance between two geometries.

Usage	Returns
`MultiPoint. distance (right, maxError , proj , spherical )`	Float

Argument	Type	Details
this: `left`	Geometry	The geometry used as the left operand of the operation.
`right`	Geometry	The geometry used as the right operand of the operation.
`maxError`	ErrorMargin, default: null	The maximum amount of error tolerated when performing any necessary reprojection.
`proj`	Projection, default: null	The projection in which to perform the operation. If not specified, the operation will be performed in a spherical coordinate system, and linear distances will be in meters on the sphere.
`spherical`	Boolean, default: false	If true, the calculation will be done on the unit sphere. If false, the calculation will be elliptical, taking earth flattening into account. Ignored if proj is specified. Default is false.

Examples

Code Editor (JavaScript)

 // Define a MultiPoint object. 
 var 
  
 multiPoint 
  
 = 
  
 ee 
 . 
 Geometry 
 . 
 MultiPoint 
 ([[ 
 - 
 122.082 
 , 
  
 37.420 
 ], 
  
 [ 
 - 
 122.081 
 , 
  
 37.426 
 ]]); 
 // Define other inputs. 
 var 
  
 inputGeom 
  
 = 
  
 ee 
 . 
 Geometry 
 . 
 Point 
 ( 
 - 
 122.090 
 , 
  
 37.423 
 ); 
 // Apply the distance method to the MultiPoint object. 
 var 
  
 multiPointDistance 
  
 = 
  
 multiPoint 
 . 
 distance 
 ({ 
 'right' 
 : 
  
 inputGeom 
 , 
  
 'maxError' 
 : 
  
 1 
 }); 
 // Print the result to the console. 
 print 
 ( 
 'multiPoint.distance(...) =' 
 , 
  
 multiPointDistance 
 ); 
 // Display relevant geometries on the map. 
 Map 
 . 
 setCenter 
 ( 
 - 
 122.085 
 , 
  
 37.422 
 , 
  
 15 
 ); 
 Map 
 . 
 addLayer 
 ( 
 multiPoint 
 , 
  
 { 
 'color' 
 : 
  
 'black' 
 }, 
  
 'Geometry [black]: multiPoint' 
 ); 
 Map 
 . 
 addLayer 
 ( 
 inputGeom 
 , 
  
 { 
 'color' 
 : 
  
 'blue' 
 }, 
  
 'Parameter [blue]: inputGeom' 
 );

Python setup

See the Python Environment page for information on the Python API and using geemap for interactive development.

 import 
  
 ee 
 import 
  
 geemap.core 
  
 as 
  
 geemap

Colab (Python)

 # Define a MultiPoint object. 
 multipoint 
 = 
 ee 
 . 
 Geometry 
 . 
 MultiPoint 
 ([[ 
 - 
 122.082 
 , 
 37.420 
 ], 
 [ 
 - 
 122.081 
 , 
 37.426 
 ]]) 
 # Define other inputs. 
 input_geom 
 = 
 ee 
 . 
 Geometry 
 . 
 Point 
 ( 
 - 
 122.090 
 , 
 37.423 
 ) 
 # Apply the distance method to the MultiPoint object. 
 multipoint_distance 
 = 
 multipoint 
 . 
 distance 
 ( 
 right 
 = 
 input_geom 
 , 
 maxError 
 = 
 1 
 ) 
 # Print the result. 
 display 
 ( 
 'multipoint.distance(...) =' 
 , 
 multipoint_distance 
 ) 
 # Display relevant geometries on the map. 
 m 
 = 
 geemap 
 . 
 Map 
 () 
 m 
 . 
 set_center 
 ( 
 - 
 122.085 
 , 
 37.422 
 , 
 15 
 ) 
 m 
 . 
 add_layer 
 ( 
 multipoint 
 , 
 { 
 'color' 
 : 
 'black' 
 }, 
 'Geometry [black]: multipoint' 
 ) 
 m 
 . 
 add_layer 
 ( 
 input_geom 
 , 
 { 
 'color' 
 : 
 'blue' 
 }, 
 'Parameter [blue]: input_geom' 
 ) 
 m

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AI-generated Key Takeaways

Examples

Code Editor (JavaScript)

Colab (Python)

ee.Geometry.MultiPoint.distance