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Determines whether two geometries are disjoint, i.e. whether their intersection is empty.
oPolygone2D_1 is Polygon2D
Linestring2DAddPoint(oPolygone2D_1.Outline, -1.00, 3.00)
Linestring2DAddPoint(oPolygone2D_1.Outline, 0.00, 3.00)
Linestring2DAddPoint(oPolygone2D_1.Outline, -2.00, -1.00)
Linestring2DAddPoint(oPolygone2D_1.Outline, -3.00, -1.00)
Linestring2DAddPoint(oPolygone2D_1.Outline, -1.00, 3.00)
oPolygone2D_1 = GeometryCorrect(oPolygone2D_1)
oPolygone2D_2 is Polygon2D
Linestring2DAddPoint(oPolygone2D_2.Outline, 2.00, 4.00)
Linestring2DAddPoint(oPolygone2D_2.Outline, 3.00, 4.00)
Linestring2DAddPoint(oPolygone2D_2.Outline, 3.00, -2.00)
Linestring2DAddPoint(oPolygone2D_2.Outline, -2.00, -2.00)
Linestring2DAddPoint(oPolygone2D_2.Outline, 2.00, 4.00)
oPolygone2D_2 = GeometryCorrect(oPolygone2D_2)
Trace(GeometryDisjoint(oPolygone2D_1, oPolygone2D_2))
oPolygone2D_1 is Polygon2D
Linestring2DAddPoint(oPolygone2D_1.Outline, -1.00, 3.00)
Linestring2DAddPoint(oPolygone2D_1.Outline, 0.00, 3.00)
Linestring2DAddPoint(oPolygone2D_1.Outline, -2.00, -1.00)
Linestring2DAddPoint(oPolygone2D_1.Outline, -3.00, -1.00)
Linestring2DAddPoint(oPolygone2D_1.Outline, -1.00, 3.00)
oPolygone2D_1 = GeometryCorrect(oPolygone2D_1)
oPolygone2D_2 is Polygon2D
Linestring2DAddPoint(oPolygone2D_2.Outline, 1.00, 4.00)
Linestring2DAddPoint(oPolygone2D_2.Outline, 3.00, 4.00)
Linestring2DAddPoint(oPolygone2D_2.Outline, 3.00, 1.00)
Linestring2DAddPoint(oPolygone2D_2.Outline, -1.00, -1.00)
Linestring2DAddPoint(oPolygone2D_2.Outline, -3.00, 1.00)
oPolygone2D_2.Contour.AjoutePoint(1.00, 4.00)
oPolygone2D_2 = GeometryCorrect(oPolygone2D_2)
Add(GeometryDisjoint(oPolygone2D_1, oPolygone2D_2))
Sintaxis
<Result> = GeometryDisjoint(<Geometry A> , <Geometry B>)
<Result>: Boolean - if the intersection of Geometry A and Geometry B is empty.
- False otherwise.
If an error occurs, the ErrorOccurred variable is set to True. To get more details on the error, use ErrorInfo with the errMessage constant.
<Geometry A>: Variable Receiver for spatial data Name of the variable corresponding to the first Geometry handled. This Geometry can correspond to one of the following variable types: <Geometry B>: Variable Receiver for spatial data Name of the variable corresponding to the second Geometry handled. This Geometry can correspond to one of the following variable types: Clasificación Lógica de negocio / UI: Lógica de negocio
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