ee.Geometry.LinearRing.intersects

    • The intersects method returns true if and only if the geometries intersect.

    • The intersects method is used with a LinearRing object and requires a right geometry and optional maxError and proj arguments.

    • The right argument is the geometry used as the right operand, and maxError is the maximum error tolerated during reprojection, while proj specifies the projection for the operation.

     Returns true if and only if the geometries intersect.
    Usage Returns
    LinearRing. intersects (right, maxError , proj ) Boolean
    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.

    Examples

    Code Editor (JavaScript) 

     // Define a LinearRing object. 
 var 
  
 linearRing 
  
 = 
  
 ee 
 . 
 Geometry 
 . 
 LinearRing 
 ( 
  
 [[ 
 - 
 122.091 
 , 
  
 37.420 
 ], 
  
 [ 
 - 
 122.085 
 , 
  
 37.422 
 ], 
  
 [ 
 - 
 122.080 
 , 
  
 37.430 
 ]]); 
 // Define other inputs. 
 var 
  
 inputGeom 
  
 = 
  
 ee 
 . 
 Geometry 
 . 
 BBox 
 ( 
 - 
 122.085 
 , 
  
 37.415 
 , 
  
 - 
 122.075 
 , 
  
 37.425 
 ); 
 // Apply the intersects method to the LinearRing object. 
 var 
  
 linearRingIntersects 
  
 = 
  
 linearRing 
 . 
 intersects 
 ({ 
 'right' 
 : 
  
 inputGeom 
 , 
  
 'maxError' 
 : 
  
 1 
 }); 
 // Print the result to the console. 
 print 
 ( 
 'linearRing.intersects(...) =' 
 , 
  
 linearRingIntersects 
 ); 
 // Display relevant geometries on the map. 
 Map 
 . 
 setCenter 
 ( 
 - 
 122.085 
 , 
  
 37.422 
 , 
  
 15 
 ); 
 Map 
 . 
 addLayer 
 ( 
 linearRing 
 , 
  
 { 
 'color' 
 : 
  
 'black' 
 }, 
  
 'Geometry [black]: linearRing' 
 ); 
 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 LinearRing object. 
 linearring 
 = 
 ee 
 . 
 Geometry 
 . 
 LinearRing 
 ( 
 [[ 
 - 
 122.091 
 , 
 37.420 
 ], 
 [ 
 - 
 122.085 
 , 
 37.422 
 ], 
 [ 
 - 
 122.080 
 , 
 37.430 
 ]] 
 ) 
 # Define other inputs. 
 input_geom 
 = 
 ee 
 . 
 Geometry 
 . 
 BBox 
 ( 
 - 
 122.085 
 , 
 37.415 
 , 
 - 
 122.075 
 , 
 37.425 
 ) 
 # Apply the intersects method to the LinearRing object. 
 linearring_intersects 
 = 
 linearring 
 . 
 intersects 
 ( 
 right 
 = 
 input_geom 
 , 
 maxError 
 = 
 1 
 ) 
 # Print the result. 
 display 
 ( 
 'linearring.intersects(...) =' 
 , 
 linearring_intersects 
 ) 
 # Display relevant geometries on the map. 
 m 
 = 
 geemap 
 . 
 Map 
 () 
 m 
 . 
 set_center 
 ( 
 - 
 122.085 
 , 
 37.422 
 , 
 15 
 ) 
 m 
 . 
 add_layer 
 ( 
 linearring 
 , 
 { 
 'color' 
 : 
 'black' 
 }, 
 'Geometry [black]: linearring' 
 ) 
 m 
 . 
 add_layer 
 ( 
 input_geom 
 , 
 { 
 'color' 
 : 
 'blue' 
 }, 
 'Parameter [blue]: input_geom' 
 ) 
 m
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