ee.Geometry.LinearRing.containedIn

    • The containedIn method returns true if one geometry is contained within another.

    • It takes right , maxError , and optional proj arguments.

    • The method is applicable to Geometry types as both the left and right operands.

    • Examples are provided for both JavaScript and Python.

     Returns true if and only if one geometry is contained in the other.
    Usage Returns
    LinearRing. containedIn (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 containedIn method to the LinearRing object. 
 var 
  
 linearRingContainedIn 
  
 = 
  
 linearRing 
 . 
 containedIn 
 ({ 
 'right' 
 : 
  
 inputGeom 
 , 
  
 'maxError' 
 : 
  
 1 
 }); 
 // Print the result to the console. 
 print 
 ( 
 'linearRing.containedIn(...) =' 
 , 
  
 linearRingContainedIn 
 ); 
 // 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 containedIn method to the LinearRing object. 
 linearring_contained_in 
 = 
 linearring 
 . 
 containedIn 
 ( 
 right 
 = 
 input_geom 
 , 
 maxError 
 = 
 1 
 ) 
 # Print the result. 
 display 
 ( 
 'linearring.containedIn(...) =' 
 , 
 linearring_contained_in 
 ) 
 # 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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