PostGIS with Java JPA and Hibernate
This page contains steps and code samples to get you started with PostgreSQL + the PostGIS Extension, and additionally, provides Java integration with Hibernate and JPA.
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PostGIS Docker Image: We have
postgis/postgis:15-master - Enable PostGIS extension: The extension is actually enabled once you get the postgis image. However, you may like to enable the pgcrypto extension on the database startup. For that (add on your Dockerfile):
RUN sed -i '/EXISTS postgis_tiger_geocoder;*/a CREATE EXTENSION IF NOT EXISTS pgcrypto;' \
/docker-entrypoint-initdb.d/10_postgis.sh- Full Dockerfile: You can see SPAR database Dockerfile here: SPAR DB Dockerfile
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Add Hibernate Spatial dependency: Update the project
pom.xmlfile:
<dependency>
<groupId>org.hibernate</groupId>
<artifactId>hibernate-spatial</artifactId>
<version>${hibernate.version}</version>
</dependency>-
PostreSQL JPA Dialect: Update the project
application.propertiesfile, if needed:
spring.jpa.database-platform=org.hibernate.dialect.PostgreSQLDialect
That's it! Now you should be able to work with Point, Geometry and other formats out-of-the-box easily with Java and PostGIS.
Entity Java class:
import org.locationtech.jts.geom.Geometry;
import org.locationtech.jts.geom.Point;
@Entity
@Table(name = "my_table")
public class MyClass {
/* 2D or 3D Points */
@Column(name = "mean_geom")
private Point meanGeom;
/* Geometry, polygon, areas */
@Column(name = "area_geom")
private Geometry myGeometry;
}Repository Java class:
- No changes required. Works just fine!
Creating a 2D or 3D point:
/* Imports */
import java.math.BigDecimal;
import org.locationtech.jts.geom.Coordinate;
import org.locationtech.jts.geom.GeometryFactory;
import org.locationtech.jts.geom.Point;
import org.locationtech.jts.geom.PrecisionModel;
/* The GeometryFactory class provides different PrecisionModels. You can make the SRID explicit if you want. */
GeometryFactory geometryFactory = new GeometryFactory(new PrecisionModel(PrecisionModel.FIXED), 4326);
/* Coordinate expects to receive a 'double' value. You can work with BigDecimal and then call the doubleValue() method. */
/* For a 2D point, just remove the third parameter */
Coordinate coordinate = new Coordinate(49.11941257871176, -122.83461402566606, 3.4D);
/* Create the Point instance */
Point point = geometryFactory.createPoint(coordinate);
/* Set on your entity object instance */
seedlot.setMeanGeom(point);
/* Then if you need to get the values later, here's how you can do */
Coordinate myPoint = seedlot.getCoordinate();
/* Then just call: */
double x = myPoint.getX();
double y = myPoint.getY();
double z = myPoint.getZ();
/* For BigDecimal */
BigDecimal x = new BigDecimal(String.valueOf(StringmyPoint.getX()));
BigDecimal y = new BigDecimal(String.valueOf(StringmyPoint.getY()));
BigDecimal z = new BigDecimal(String.valueOf(StringmyPoint.getZ()));Here's how a Point gets stored on the database:
- No
wraporunwrapmethods are needed (marshall and unmarshall). Hibernate dependency handles everything :) - Geometry types were not covered here, but you can explore methods by yourself. Just deep dive into the
GeometryFactoryJava class.
- Hibernate Spatial is currently NOT fully supported out of the box. You DO need to twik a bit.
- You need to register a RuntimeHint that will be initializing Spatial Logger classes.
- Here's SPAR configuration (feel free to copy): HibernateSpatialCloudNativeConfig
- GeometryFactory JavaDoc
- LocationTech JTS Java library
- Hibernate Spatial Types
- Map PostGIS with Hibernate - Old, but some relevant comments
Indirectly related: