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Find Restaurants with Geospatial Queries

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  • Overview
  • Distortion
  • Searching for Restaurants

MongoDB's geospatial indexing allows you to efficiently execute spatial queries on a collection that contains geospatial shapes and points. To showcase the capabilities of geospatial features and compare different approaches, this tutorial will guide you through the process of writing queries for a simple geospatial application.

This tutorial will briefly introduce the concepts of geospatial indexes, and then demonstrate their use with $geoWithin, $geoIntersects, and $nearSphere.

Suppose you are designing a mobile application to help users find restaurants in New York City. The application must:

  • Determine the user's current neighborhood using $geoIntersects,

  • Show the number of restaurants in that neighborhood using $geoWithin, and

  • Find restaurants within a specified distance of the user using $nearSphere.

This tutorial will use a 2dsphere index to query for this data on spherical geometry.

For more information on spherical and flat geometries, see Geospatial Models.

Spherical geometry will appear distorted when visualized on a map due to the nature of projecting a three dimensional sphere, such as the earth, onto a flat plane.

For example, take the specification of the spherical square defined by the longitude latitude points (0,0), (80,0), (80,80), and (0,80). The following figure depicts the area covered by this region:

Diagram of a square projected onto a sphere.
click to enlarge

Download the example datasets from https://raw.githubusercontent.com/mongodb/docs-assets/geospatial/neighborhoods.json and https://raw.githubusercontent.com/mongodb/docs-assets/geospatial/restaurants.json. These contain the collections restaurants and neighborhoods respectively.

After downloading the datasets, import them into the database:

mongoimport <path to restaurants.json> -c=restaurants
mongoimport <path to neighborhoods.json> -c=neighborhoods

A geospatial index, and almost always improves performance of $geoWithin and $geoIntersects queries.

Because this data is geographical, create a 2dsphere index on each collection using mongosh:

db.restaurants.createIndex({ location: "2dsphere" })
db.neighborhoods.createIndex({ geometry: "2dsphere" })

Inspect an entry in the newly-created restaurants collection in mongosh:

db.restaurants.findOne()

This query returns a document like the following:

{
location: {
type: "Point",
coordinates: [-73.856077, 40.848447]
},
name: "Morris Park Bake Shop"
}

This restaurant document corresponds to the location shown in the following figure:

Map of a single geospatial point.

Because the tutorial uses a 2dsphere index, the geometry data in the location field must follow the GeoJSON format.

Now inspect an entry in the neighborhoods collection:

db.neighborhoods.findOne()

This query will return a document like the following:

{
geometry: {
type: "Polygon",
coordinates: [[
[ -73.99, 40.75 ],
...
[ -73.98, 40.76 ],
[ -73.99, 40.75 ]
]]
},
name: "Hell's Kitchen"
}

This geometry corresponds to the region depicted in the following figure:

Map of a geospatial polygon.
click to enlarge

Assuming the user’s mobile device can give a reasonably accurate location for the user, it is simple to find the user's current neighborhood with $geoIntersects.

Suppose the user is located at -73.93414657 longitude and 40.82302903 latitude. To find the current neighborhood, you will specify a point using the special $geometry field in GeoJSON format:

db.neighborhoods.findOne({ geometry: { $geoIntersects: { $geometry: { type: "Point", coordinates: [ -73.93414657, 40.82302903 ] } } } })

This query will return the following result:

{
"_id" : ObjectId("55cb9c666c522cafdb053a68"),
"geometry" : {
"type" : "Polygon",
"coordinates" : [
[
[
-73.93383000695911,
40.81949109558767
],
...
]
]
},
"name" : "Central Harlem North-Polo Grounds"
}

You can also query to find all restaurants contained in a given neighborhood. Run the following in mongosh to find the neighborhood containing the user, and then count the restaurants within that neighborhood:

var neighborhood = db.neighborhoods.findOne( { geometry: { $geoIntersects: { $geometry: { type: "Point", coordinates: [ -73.93414657, 40.82302903 ] } } } } )
db.restaurants.find( { location: { $geoWithin: { $geometry: neighborhood.geometry } } } ).count()

This query will tell you that there are 127 restaurants in the requested neighborhood, visualized in the following figure:

Map of all restaurants in a geospatial polygon.
click to enlarge

To find restaurants within a specified distance of a point, you can use either $geoWithin with $centerSphere to return results in unsorted order, or $nearSphere with $maxDistance if you need results sorted by distance.

To find restaurants within a circular region, use $geoWithin with $centerSphere. $centerSphere is a MongoDB-specific syntax to denote a circular region by specifying the center and the radius in radians.

$geoWithin does not return the documents in any specific order, so it may show the user the furthest documents first.

The following will find all restaurants within five miles of the user:

db.restaurants.find({ location:
{ $geoWithin:
{ $centerSphere: [ [ -73.93414657, 40.82302903 ], 5 / 3963.2 ] } } })

$centerSphere's second argument accepts the radius in radians, so you must divide it by the radius of the earth in miles. See Calculate Distance Using Spherical Geometry for more information on converting between distance units.

You may also use $nearSphere and specify a $maxDistance term in meters. This will return all restaurants within five miles of the user in sorted order from nearest to farthest:

var METERS_PER_MILE = 1609.34
db.restaurants.find({ location: { $nearSphere: { $geometry: { type: "Point", coordinates: [ -73.93414657, 40.82302903 ] }, $maxDistance: 5 * METERS_PER_MILE } } })
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