Lucene Spatial
(Versions 2.2 and after only, otherwise look at Legacy section)
Since v 3.0, this module is provided in-bundle with the main distribution (Community and Enterprise Editions).
Install
In versions prior to v 3.0 the spatial plugin was a separate component and needed to be installed manually. This is not the case in v 3.0, where the spatial plugin is included in the main distribution, so there is no need to install it.
Geometry Data
OrientDB supports the following Geometry objects :
- Point (OPoint)
- Line (OLine)
- Polygon (OPolygon)
- MultiPoint (OMultiPoint)
- MultiLine (OMultiline)
- MultiPolygon (OMultiPlygon)
- Geometry Collections
OrientDB stores those objects like embedded documents with special classes. The module creates abstract classes that represent each Geometry object type, and those classes can be embedded in user defined classes to provide geospatial information.
Each spatial classes (Geometry Collection excluded) comes with field coordinates that will be used to store the geometry structure. The "coordinates" field of a geometry object is composed of one position (Point), an array of positions (LineString or MultiPoint), an array of arrays of positions (Polygons, MultiLineStrings) or a multidimensional array of positions (MultiPolygon).
Geometry data Example
Restaurants Domain
CREATE class Restaurant
CREATE PROPERTY Restaurant.name STRING
CREATE PROPERTY Restaurant.location EMBEDDED OPoint
To insert restaurants with location
From SQL
INSERT INTO Restaurant SET name = 'Dar Poeta', location = {"@class": "OPoint","coordinates" : [12.4684635,41.8914114]}
or as an alternative, if you use WKT format you can use the function ST_GeomFromText
to create the OrientDB geometry object.
INSERT INTO Restaurant SET name = 'Dar Poeta', location = St_GeomFromText("POINT (12.4684635 41.8914114)")
From JAVA
ODocument location = new ODocument("OPoint");
location.field("coordinates", Arrays.asList(12.4684635, 41.8914114));
ODocument doc = new ODocument("Restaurant");
doc.field("name","Dar Poeta");
doc.field("location",location);
doc.save();
A spatial index on the location field s defined by
CREATE INDEX Restaurant.location ON Restaurant(location) SPATIAL ENGINE LUCENE"
Functions
OrientDB follows The Open Geospatial Consortium OGC for extending SQL to support spatial data. OrientDB implements a subset of SQL-MM functions with ST prefix (Spatial Type)
ST_AsText
Syntax : ST_AsText(geom)
Example
SELECT ST_AsText({"@class": "OPoint","coordinates" : [12.4684635,41.8914114]})
Result
----------
POINT (12.4684635 41.8914114)
ST_GeomFromText
Syntax : ST_GeomFromText(text)
Example
select ST_GeomFromText("POINT (12.4684635 41.8914114)")
Result
----------------------------------------------------------------------------------
{"@type":"d","@version":0,"@class":"OPoint","coordinates":[12.4684635,41.8914114]}
ST_AsGeoJSON
Syntax : ST_AsGeoJSON(geom)
Example
select ST_AsGeoJSON(ST_GeomFromText("POINT (12.4684635 41.8914114)"))
Result
----------
{"type":"Point","coordinates":[12.468464,41.891411]}
ST_GeomFromGeoJSON
Syntax : ST_GeomFromGeoJSON(getJsonText)
Example
select ST_GeomFromGeoJSON('{"type":"Point","coordinates":[12.4684635,41.8914114]}')
Result
----------------------------------------------------------------------------------
{"@type":"d","@version":0,"@class":"OPoint","coordinates":[12.4684635,41.8914114]}
### ST_Equals
Returns true if geom1 is spatially equal to geom2
Syntax : ST_Equals(geom1,geom2)
Example
```SQL
SELECT ST_Equals(ST_GeomFromText('LINESTRING(0 0, 10 10)'), ST_GeomFromText('LINESTRING(0 0, 5 5, 10 10)'))
Result
-----------
true
ST_Within
Returns true if geom1 is inside geom2
Syntax : ST_Within(geom1,geom2)
This function will use an index if available.
Example
select * from City where ST_WITHIN(location,'POLYGON ((12.314015 41.8262816, 12.314015 41.963125, 12.6605063 41.963125, 12.6605063 41.8262816, 12.314015 41.8262816))') = true
ST_DWithin
Returns true if the geometries are within the specified distance of one another
Syntax : ST_DWithin(geom1,geom2,distance)
Example
SELECT ST_DWithin(ST_GeomFromText('POLYGON((0 0, 10 0, 10 5, 0 5, 0 0))'), ST_GeomFromText('POLYGON((12 0, 14 0, 14 6, 12 6, 12 0))'), 2.0d) as distance
SELECT from Polygon where ST_DWithin(geometry, ST_GeomFromText('POLYGON((12 0, 14 0, 14 6, 12 6, 12 0))'), 2.0) = true
ST_Contains
Returns true if geom1 contains geom2
Syntax : ST_Contains(geom1,geom2)
This function will use an index if available.
Example
SELECT ST_Contains(ST_Buffer(ST_GeomFromText('POINT(0 0)'),10),ST_GeomFromText('POINT(0 0)'))
Result
----------
true
SELECT ST_Contains(ST_Buffer(ST_GeomFromText('POINT(0 0)'),10),ST_Buffer(ST_GeomFromText('POINT(0 0)'),20))
Result
----------
false
ST_Disjoint
Returns true if geom1 does not spatially intersects geom2
Syntax: St_Disjoint(geom1,geom2)
This function does not use indexes
Example
SELECT ST_Disjoint(ST_GeomFromText('POINT(0 0)'), ST_GeomFromText('LINESTRING ( 2 0, 0 2 )'));
Result
-----------------
true
SELECT ST_Disjoint(ST_GeomFromText('POINT(0 0)'), ST_GeomFromText('LINESTRING ( 0 0, 0 2 )'));
Result
-----------------
false
ST_Intersects
Returns true if geom1 spatially intersects geom2
Syntax: ST_Intersects(geom1,geom2)
Example
SELECT ST_Intersects(ST_GeomFromText('POINT(0 0)'), ST_GeomFromText('LINESTRING ( 2 0, 0 2 )'));
Result
-------------
false
SELECT ST_Intersects(ST_GeomFromText('POINT(0 0)'), ST_GeomFromText('LINESTRING ( 0 0, 0 2 )'));
Result
-------------
true
ST_AsBinary
Returns the Well-Known Binary (WKB) representation of the geometry
Syntax : ST_AsBinary(geometry)
Example
SELECT ST_AsBinary(ST_GeomFromText('POINT(0 0)'))
ST_Envelope
Returns a geometry representing the bounding box of the supplied geometry
Syntax : ST_Envelope(geometry)
Example
SELECT ST_AsText(ST_Envelope(ST_GeomFromText('POINT(1 3)')));
Result
----------
POINT (1 3)
SELECT ST_AsText(ST_Envelope(ST_GeomFromText('LINESTRING(0 0, 1 3)')))
Result
-----------------------------------
POLYGON ((0 0, 0 3, 1 3, 1 0, 0 0))
ST_Buffer
Returns a geometry that represents all points whose distance from this Geometry is less than or equal to distance.
Syntax: ST_Buffer(geometry,distance [,config])
where config is an additional parameter (JSON) that can be use to set:
quadSegs: int -> number of segments used to approximate a quarter circle (defaults to 8).
{
quadSegs : 1
}
endCap : round|flat|square -> endcap style (defaults to "round").
{
endCap : 'square'
}
join : round|mitre|bevel -> join style (defaults to "round")
{
join : 'bevel'
}
mitre : double -> mitre ratio limit (only affects mitered join style).
{
join : 'mitre',
mitre : 5.0
}
Example
SELECT ST_AsText(ST_Buffer(ST_GeomFromText('POINT(100 90)'),50))
SELECT ST_AsText(ST_Buffer(ST_GeomFromText('POINT(100 90)'), 50, { quadSegs : 2 }));
Operators
A && B
Overlaps operator. Returns true if bounding box of A overlaps bounding box of B. This operator will use an index if available.
Example
CREATE CLASS TestLineString
CREATE PROPERTY TestLineString.location EMBEDDED OLineString
INSERT INTO TestLineSTring SET name = 'Test1' , location = St_GeomFromText("LINESTRING(0 0, 3 3)")
INSERT INTO TestLineSTring SET name = 'Test2' , location = St_GeomFromText("LINESTRING(0 1, 0 5)")
SELECT FROM TestLineString WHERE location && "LINESTRING(1 2, 4 6)"
Spatial Indexes
To speed up spatial search and match condition, spatial operators and functions can use a spatial index if defined to avoid sequential full scan of every records.
The current spatial index implementation is built upon lucene-spatial.
The syntax for creating a spatial index on a geometry field is :
CREATE INDEX <name> ON <class-name> (geometry-field) SPATIAL ENGINE LUCENE
Legacy
Before v2.2, OrientDB was able to only index Points. Other Shapes like rectangles and polygons are managed starting from v2.2 (look above). This is the legacy section for databases created before v2.2.
How to create a Spatial Index
The index can be created on a class that has two fields declared as DOUBLE
(latitude
,longitude
) that are the coordinates of the Point.
For example we have a class Place
with 2 double fields latitude
and longitude
. To create the spatial index on Place
use this syntax.
CREATE INDEX Place.l_lon ON Place(latitude,longitude) SPATIAL ENGINE LUCENE
The Index can also be created with the Java Api. Example:
OSchema schema = databaseDocumentTx.getMetadata().getSchema();
OClass oClass = schema.createClass("Place");
oClass.createProperty("latitude", OType.DOUBLE);
oClass.createProperty("longitude", OType.DOUBLE);
oClass.createProperty("name", OType.STRING);
oClass.createIndex("Place.latitude_longitude", "SPATIAL", null, null, "LUCENE", new String[] { "latitude", "longitude" });
How to query the Spatial Index
Two custom operators has been added to query the Spatial Index:
NEAR
: to find all Points near a given location (latitude
,longitude
)WITHIN
: to find all Points that are within a given Shape
NEAR operator
Finds all Points near a given location (latitude
, longitude
).
Syntax
SELECT FROM Class WHERE [<lat-field>,<long-field>] NEAR [lat,lon]
To specify maxDistance
we have to pass a special variable in the context:
SELECT FROM Class WHERE [<lat-field>,<long-field>,$spatial] NEAR [lat,lon,{"maxDistance": distance}]
The maxDistance
field has to be in kilometers, not radians. Results are sorted from nearest to farthest.
To know the exact distance between your Point and the Points matched, use the special variable in the context $distance.
SELECT *, $distance FROM Class WHERE [<lat-field>,<long-field>,$spatial] NEAR [lat,lon,{"maxDistance": distance}]
Examples
Let's take the example we have written before. We have a Spatial Index on Class Place
on properties latitude
and longitude
.
Example: How to find the nearest Place of a given point:
SELECT *,$distance FROM Place WHERE [latitude,longitude,$spatial] NEAR [51.507222,-0.1275,{"maxDistance":1}]
WITHIN operator
Finds all Points that are within a given Shape.
The current release supports only Bounding Box shape |
Syntax
SELECT FROM Class WHERE [<lat field>,<long field>] WITHIN [ [ <lat1>, <lon1> ] , [ <lat2>, <lon2> ] ... ]
Examples
Example with previous configuration:
SELECT * FROM Places WHERE [latitude,longitude] WITHIN [[51.507222,-0.1275],[55.507222,-0.1275]]
This query will return all Places within the given Bounding Box.