$geoWithin
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Definition
$geoWithin
Selects documents with geospatial data that exists entirely within a specified shape.
The specified shape can be either a GeoJSON
Polygon
(either single-ringed or multi-ringed), a GeoJSONMultiPolygon
, or a shape defined by legacy coordinate pairs. The$geoWithin
operator uses the$geometry
operator to specify the GeoJSON object.To specify a GeoJSON polygons or multipolygons using the default coordinate reference system (CRS), use the following syntax:
{ <location field>: { $geoWithin: { $geometry: { type: <"Polygon" or "MultiPolygon"> , coordinates: [ <coordinates> ] } } } } For
$geoWithin
queries that specify GeoJSON geometries with areas greater than a single hemisphere, the use of the default CRS results in queries for the complementary geometries.To specify a single-ringed GeoJSON polygon with a custom MongoDB CRS, use the following prototype that specifies the custom MongoDB CRS in the
$geometry
expression:{ <location field>: { $geoWithin: { $geometry: { type: "Polygon" , coordinates: [ <coordinates> ], crs: { type: "name", properties: { name: "urn:x-mongodb:crs:strictwinding:EPSG:4326" } } } } } } The custom MongoDB CRS uses a counter-clockwise winding order and allows
$geoWithin
to support queries with a single-ringed GeoJSON polygon whose area is greater than or equal to a single hemisphere. If the specified polygon is smaller than a single hemisphere, the behavior of$geoWithin
with the MongoDB CRS is the same as with the default CRS. See also "Big" Polygons.If querying for inclusion in a shape defined by legacy coordinate pairs on a plane, use the following syntax:
{ <location field>: { $geoWithin: { <shape operator>: <coordinates> } } } The available shape operators are:
$center
(defines a circle), and$centerSphere
(defines a circle on a sphere).
Important
If you use longitude and latitude, specify coordinates in order of
longitude, latitude
.
Behavior
Geospatial Indexes
$geoWithin
does not require a geospatial index. However, a
geospatial index will improve query performance. Both 2dsphere and 2d geospatial indexes support
$geoWithin
.
Unsorted Results
The $geoWithin
operator does not return sorted results. As
such, MongoDB can return $geoWithin
queries more quickly than
geospatial $near
or $nearSphere
queries, which sort
results.
Degenerate Geometry
$geoWithin
does not guarantee that it will consider a piece of
geometry to contain its component geometry, or another polygon sharing
its component geometry.
"Big" Polygons
For $geoWithin
, if you specify a single-ringed polygon that
has an area greater than a single hemisphere, include the custom MongoDB
coordinate reference system in the $geometry
expression. Otherwise, $geoWithin
queries for the
complementary geometry. For all other GeoJSON polygons with areas
greater than a hemisphere, $geoWithin
queries for the
complementary geometry.
Examples
Within a Polygon
The following example selects all loc
data that exist entirely
within a GeoJSON Polygon
. The area of the polygon is
less than the area of a single hemisphere:
db.places.find( { loc: { $geoWithin: { $geometry: { type : "Polygon" , coordinates: [ [ [ 0, 0 ], [ 3, 6 ], [ 6, 1 ], [ 0, 0 ] ] ] } } } } )
For single-ringed polygons with areas greater than a single hemisphere, see Within a "Big" Polygon.
Within a "Big" Polygon
To query with a single-ringed GeoJSON polygon whose area is greater
than a single hemisphere, the $geometry
expression must
specify the custom MongoDB coordinate reference system. For example:
db.places.find( { loc: { $geoWithin: { $geometry: { type : "Polygon" , coordinates: [ [ [ -100, 60 ], [ -100, 0 ], [ -100, -60 ], [ 100, -60 ], [ 100, 60 ], [ -100, 60 ] ] ], crs: { type: "name", properties: { name: "urn:x-mongodb:crs:strictwinding:EPSG:4326" } } } } } } )