geo_intersects_line_with_polygon()
Applies to: ✅ Azure Data Explorer ✅ Azure Monitor ✅ Microsoft Sentinel
Calculates whether a line or multiline intersect with a polygon or a multipolygon.
Syntax
geo_intersects_line_with_polygon(
lineString,
polygon)
Learn more about syntax conventions.
Parameters
Name | Type | Required | Description |
---|---|---|---|
lineString | dynamic |
✔️ | A LineString or MultiLineString in the GeoJSON format. |
polygon | dynamic |
✔️ | A Polygon or MultiPolygon in the GeoJSON format. |
Returns
Indicates whether the line or multiline intersects with polygon or a multipolygon. If lineString or a multiLineString or a polygon or a multipolygon are invalid, the query will produce a null result.
Note
- The geospatial coordinates are interpreted as represented by the WGS-84 coordinate reference system.
- The geodetic datum used to measure distance on Earth is a sphere. Line edges are geodesics on the sphere.
- If input line or a polygon edges are straight cartesian lines, consider using geo_line_densify() or a geo_polygon_densify() in order to convert planar edges to geodesics.
LineString definition and constraints
dynamic({"type": "LineString","coordinates": [[lng_1,lat_1], [lng_2,lat_2], ..., [lng_N,lat_N]]})
dynamic({"type": "MultiLineString","coordinates": [[line_1, line_2, ..., line_N]]})
- LineString coordinates array must contain at least two entries.
- Coordinates [longitude, latitude] must be valid where longitude is a real number in the range [-180, +180] and latitude is a real number in the range [-90, +90].
- Edge length must be less than 180 degrees. The shortest edge between the two vertices will be chosen.
Polygon definition and constraints
dynamic({"type": "Polygon","coordinates": [ LinearRingShell, LinearRingHole_1, ..., LinearRingHole_N]})
dynamic({"type": "MultiPolygon","coordinates": [[LinearRingShell, LinearRingHole_1, ..., LinearRingHole_N], ..., [LinearRingShell, LinearRingHole_1, ..., LinearRingHole_M]]})
- LinearRingShell is required and defined as a
counterclockwise
ordered array of coordinates [[lng_1,lat_1], ...,[lng_i,lat_i], ...,[lng_j,lat_j], ...,[lng_1,lat_1]]. There can be only one shell. - LinearRingHole is optional and defined as a
clockwise
ordered array of coordinates [[lng_1,lat_1], ...,[lng_i,lat_i], ...,[lng_j,lat_j], ...,[lng_1,lat_1]]. There can be any number of interior rings and holes. - LinearRing vertices must be distinct with at least three coordinates. The first coordinate must be equal to the last. At least four entries are required.
- Coordinates [longitude, latitude] must be valid. Longitude must be a real number in the range [-180, +180] and latitude must be a real number in the range [-90, +90].
- LinearRingShell encloses at most half of the sphere. LinearRing divides the sphere into two regions. The smaller of the two regions will be chosen.
- LinearRing edge length must be less than 180 degrees. The shortest edge between the two vertices will be chosen.
- LinearRings must not cross and must not share edges. LinearRings may share vertices.
- Polygon doesn't necessarily contain its vertices.
Tip
Use literal LineString or MultiLineString for better performance.
Examples
The following example checks whether a literal LineString intersects with a Polygon.
let lineString = dynamic({"type":"LineString","coordinates":[[-73.985195,40.788275],[-73.974552,40.779761]]});
let polygon = dynamic({"type":"Polygon","coordinates":[[[-73.9712905883789,40.78580561168767],[-73.98004531860352,40.775276834803655],[-73.97000312805176,40.77852663535664],[-73.9712905883789,40.78580561168767]]]});
print intersects = geo_intersects_line_with_polygon(lineString, polygon)
Output
intersects |
---|
True |
The following example finds all roads in the NYC GeoJSON roads table that intersect with area of interest literal polygon.
let area_of_interest = dynamic({"type":"Polygon","coordinates":[[[-73.95768642425537,40.80065354924362],[-73.9582872390747,40.80089719667298],[-73.95869493484497,40.80050736035672],[-73.9580512046814,40.80019873831593],[-73.95768642425537,40.80065354924362]]]});
NY_Manhattan_Roads
| project name = features.properties.Label, road = features.geometry
| where geo_intersects_line_with_polygon(road, area_of_interest)
| project name
Output
name |
---|
Central Park W |
Frederick Douglass Cir |
W 110th St |
West Dr |
The following example finds all counties in the USA that intersect with area of interest literal LineString.
let area_of_interest = dynamic({"type":"LineString","coordinates":[[-73.97159099578857,40.794513338780895],[-73.96738529205322,40.792758888618756],[-73.96978855133057,40.789769718601505]]});
US_Counties
| project name = features.properties.NAME, county = features.geometry
| where geo_intersects_line_with_polygon(area_of_interest, county)
| project name
Output
name |
---|
New York |
The following example will return a null result because the LineString is invalid.
let lineString = dynamic({"type":"LineString","coordinates":[[-73.985195,40.788275]]});
let polygon = dynamic({"type":"Polygon","coordinates":[[[-73.95768642425537,40.80065354924362],[-73.9582872390747,40.80089719667298],[-73.95869493484497,40.80050736035672],[-73.9580512046814,40.80019873831593],[-73.95768642425537,40.80065354924362]]]});
print isnull(geo_intersects_2lines(lineString, polygon))
Output
print_0 |
---|
True |
The following example will return a null result because the polygon is invalid.
let lineString = dynamic({"type":"LineString","coordinates":[[-73.97159099578857,40.794513338780895],[-73.96738529205322,40.792758888618756],[-73.96978855133057,40.789769718601505]]});
let polygon = dynamic({"type":"Polygon","coordinates":[]});
print isnull(geo_intersects_2lines(lineString, polygon))
Output
print_0 |
---|
True |