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PointTypeIT.java
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PointTypeIT.java
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/*
* Copyright (c) 2002-2018 "Neo4j,"
* Neo4j Sweden AB [http://neo4j.com]
*
* This file is part of Neo4j.
*
* Neo4j is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
package org.neo4j.server.rest.transactional.integration;
import org.codehaus.jackson.JsonNode;
import org.junit.After;
import org.junit.Test;
import org.neo4j.graphdb.Node;
import org.neo4j.graphdb.Transaction;
import org.neo4j.graphdb.spatial.CRS;
import org.neo4j.graphdb.spatial.Point;
import org.neo4j.helpers.collection.Iterables;
import org.neo4j.kernel.impl.factory.GraphDatabaseFacade;
import org.neo4j.kernel.impl.store.GeometryType;
import org.neo4j.server.rest.AbstractRestFunctionalTestBase;
import org.neo4j.server.rest.domain.JsonParseException;
import org.neo4j.test.server.HTTP;
import org.neo4j.values.storable.CoordinateReferenceSystem;
import static java.util.Arrays.asList;
import static org.junit.Assert.assertArrayEquals;
import static org.junit.Assert.assertEquals;
import static org.neo4j.graphdb.Label.label;
import static org.neo4j.values.storable.CoordinateReferenceSystem.Cartesian;
import static org.neo4j.values.storable.CoordinateReferenceSystem.WGS84;
import static org.neo4j.values.storable.Values.pointValue;
public class PointTypeIT extends AbstractRestFunctionalTestBase
{
@After
public void tearDown()
{
// empty the database
graphdb().execute( "MATCH (n) DETACH DELETE n" );
}
@Test
public void shouldWorkWithPoint2DArrays() throws Exception
{
HTTP.Response response =
runQuery( "create (:Node {points: [point({x:1, y:1}), point({x:2, y:2}), point({x: 3.0, y: 3.0})]})" );
assertEquals( 200, response.status() );
assertNoErrors( response );
GraphDatabaseFacade db = server().getDatabase().getGraph();
try ( Transaction tx = db.beginTx() )
{
for ( Node node : db.getAllNodes() )
{
if ( node.hasLabel( label( "Node" ) ) && node.hasProperty( "points" ) )
{
Point[] points = (Point[]) node.getProperty( "points" );
verifyPoint( points[0], Cartesian, 1.0, 1.0 );
verifyPoint( points[1], Cartesian, 2.0, 2.0 );
verifyPoint( points[2], Cartesian, 3.0, 3.0 );
}
}
tx.success();
}
}
@Test
public void shouldReturnPoint2DWithXAndY() throws Exception
{
testPoint( "RETURN point({x: 42.05, y: 90.99})", new double[]{42.05, 90.99}, Cartesian, "point" );
}
@Test
public void shouldReturnPoint2DWithLatitudeAndLongitude() throws Exception
{
testPoint( "RETURN point({longitude: 56.7, latitude: 12.78})", new double[]{56.7, 12.78}, WGS84, "point" );
}
@Test
public void shouldHandlePointArrays() throws Exception
{
//Given
GraphDatabaseFacade db = server().getDatabase().getGraph();
try ( Transaction tx = db.beginTx() )
{
Node node = db.createNode( label( "N" ) );
node.setProperty( "coordinates", new Point[]{pointValue( WGS84, 30.655691, 104.081602 )} );
node.setProperty( "location", "Shanghai" );
node.setProperty( "type", "gps" );
tx.success();
}
//When
HTTP.Response response = runQuery( "MATCH (n:N) RETURN n" );
assertEquals( 200, response.status() );
assertNoErrors( response );
//Then
JsonNode row = response.get( "results" ).get( 0 ).get( "data" ).get( 0 ).get( "row" ).get( 0 )
.get( "coordinates" ).get( 0 );
assertGeometryTypeEqual( GeometryType.GEOMETRY_POINT, row );
assertCoordinatesEqual( new double[]{30.655691, 104.081602}, row );
assertCrsEqual( WGS84, row );
}
@Test
public void shouldHandlePointsUsingRestResultDataContent() throws Exception
{
//Given
GraphDatabaseFacade db = server().getDatabase().getGraph();
try ( Transaction tx = db.beginTx() )
{
Node node = db.createNode( label( "N" ) );
node.setProperty( "coordinates", pointValue( WGS84, 30.655691, 104.081602 ) );
node.setProperty( "location", "Shanghai" );
node.setProperty( "type", "gps" );
tx.success();
}
//When
HTTP.Response response = runQuery( "MATCH (n:N) RETURN n", "rest" );
assertEquals( 200, response.status() );
assertNoErrors( response );
//Then
JsonNode row = response.get( "results" ).get( 0 ).get( "data" ).get( 0 ).get( "rest" )
.get( 0 ).get( "data" ).get( "coordinates" );
assertGeometryTypeEqual( GeometryType.GEOMETRY_POINT, row );
assertCoordinatesEqual( new double[]{30.655691, 104.081602}, row );
assertCrsEqual( WGS84, row );
}
@Test
public void shouldHandlePointsUsingGraphResultDataContent() throws Exception
{
//Given
GraphDatabaseFacade db = server().getDatabase().getGraph();
try ( Transaction tx = db.beginTx() )
{
Node node = db.createNode( label( "N" ) );
node.setProperty( "coordinates", pointValue( WGS84, 30.655691, 104.081602 ) );
tx.success();
}
//When
HTTP.Response response = runQuery( "MATCH (n:N) RETURN n", "graph" );
assertEquals( 200, response.status() );
assertNoErrors( response );
//Then
JsonNode row = response.get( "results" ).get( 0 ).get( "data" ).get( 0 ).get( "graph" )
.get("nodes").get( 0 ).get( "properties" ).get( "coordinates" );
assertGeometryTypeEqual( GeometryType.GEOMETRY_POINT, row );
assertCoordinatesEqual( new double[]{30.655691, 104.081602}, row );
assertCrsEqual( WGS84, row );
}
@Test
public void shouldHandleArrayOfPointsUsingRestResultDataContent() throws Exception
{
//Given
GraphDatabaseFacade db = server().getDatabase().getGraph();
try ( Transaction tx = db.beginTx() )
{
Node node = db.createNode( label( "N" ) );
node.setProperty( "coordinates", new Point[]{pointValue( WGS84, 30.655691, 104.081602 )});
tx.success();
}
//When
HTTP.Response response = runQuery( "MATCH (n:N) RETURN n", "rest" );
assertEquals( 200, response.status() );
assertNoErrors( response );
//Then
JsonNode row = response.get( "results" ).get( 0 ).get( "data" ).get( 0 ).get( "rest" )
.get( 0 ).get( "data" ).get( "coordinates" ).get( 0 );
assertGeometryTypeEqual( GeometryType.GEOMETRY_POINT, row );
assertCoordinatesEqual( new double[]{30.655691, 104.081602}, row );
assertCrsEqual( WGS84, row );
}
@Test
public void shouldHandleArrayOfPointsUsingGraphResultDataContent() throws Exception
{
//Given
GraphDatabaseFacade db = server().getDatabase().getGraph();
try ( Transaction tx = db.beginTx() )
{
Node node = db.createNode( label( "N" ) );
node.setProperty( "coordinates", new Point[]{pointValue( WGS84, 30.655691, 104.081602 )});
tx.success();
}
//When
HTTP.Response response = runQuery( "MATCH (n:N) RETURN n", "graph" );
assertEquals( 200, response.status() );
assertNoErrors( response );
//Then
JsonNode row = response.get( "results" ).get( 0 ).get( "data" ).get( 0 ).get( "graph" )
.get("nodes").get( 0 ).get( "properties" ).get( "coordinates" ).get( 0 );
assertGeometryTypeEqual( GeometryType.GEOMETRY_POINT, row );
assertCoordinatesEqual( new double[]{30.655691, 104.081602}, row );
assertCrsEqual( WGS84, row );
}
private static void testPoint( String query, double[] expectedCoordinate, CoordinateReferenceSystem expectedCrs, String expectedType ) throws Exception
{
HTTP.Response response = runQuery( query );
assertEquals( 200, response.status() );
assertNoErrors( response );
JsonNode element = extractSingleElement( response );
assertGeometryTypeEqual( GeometryType.GEOMETRY_POINT, element );
assertCoordinatesEqual( expectedCoordinate, element );
assertCrsEqual( expectedCrs, element );
assertTypeEqual( expectedType, response );
}
private static void assertTypeEqual( String expectedType, HTTP.Response response ) throws JsonParseException
{
JsonNode data = response.get( "results" ).get( 0 ).get( "data" );
JsonNode meta = data.get( 0 ).get( "meta" );
assertEquals( 1, meta.size() );
assertEquals( expectedType, meta.get( 0 ).get( "type" ).asText() );
}
private static JsonNode extractSingleElement( HTTP.Response response ) throws JsonParseException
{
JsonNode data = response.get( "results" ).get( 0 ).get( "data" );
assertEquals( 1, data.size() );
JsonNode row = data.get( 0 ).get( "row" );
assertEquals( 1, row.size() );
return row.get( 0 );
}
private static void assertGeometryTypeEqual( GeometryType expected, JsonNode element )
{
assertEquals( expected.getName(), element.get( "type" ).asText() );
}
private static void assertCoordinatesEqual( double[] expected, JsonNode element )
{
assertArrayEquals( expected, coordinatesAsArray( element ), 0.000001 );
}
private static double[] coordinatesAsArray( JsonNode element )
{
return Iterables.stream( element.get( "coordinates" ) )
.mapToDouble( JsonNode::asDouble )
.toArray();
}
private static void assertCrsEqual( CoordinateReferenceSystem crs, JsonNode element )
{
assertEquals( crs.getName(), element.get( "crs" ).get( "name" ).asText() );
}
private static void verifyPoint( Point point, CRS expectedCRS, Double... expectedCoordinate )
{
assertEquals( expectedCRS.getCode(), point.getCRS().getCode() );
assertEquals( asList( expectedCoordinate ), point.getCoordinate().getCoordinate() );
}
}