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/*
* Copyright Elasticsearch B.V. and/or licensed to Elasticsearch B.V. under one
* or more contributor license agreements. Licensed under the Elastic License
* 2.0 and the Server Side Public License, v 1; you may not use this file except
* in compliance with, at your election, the Elastic License 2.0 or the Server
* Side Public License, v 1.
*/
package org.elasticsearch.index.query;
import org.apache.lucene.search.MatchNoDocsQuery;
import org.apache.lucene.search.Query;
import org.elasticsearch.TransportVersion;
import org.elasticsearch.TransportVersions;
import org.elasticsearch.common.ParsingException;
import org.elasticsearch.common.Strings;
import org.elasticsearch.common.geo.GeoDistance;
import org.elasticsearch.common.geo.GeoPoint;
import org.elasticsearch.common.geo.GeoUtils;
import org.elasticsearch.common.geo.ShapeRelation;
import org.elasticsearch.common.geo.SpatialStrategy;
import org.elasticsearch.common.io.stream.StreamInput;
import org.elasticsearch.common.io.stream.StreamOutput;
import org.elasticsearch.common.unit.DistanceUnit;
import org.elasticsearch.geometry.Circle;
import org.elasticsearch.index.mapper.GeoShapeQueryable;
import org.elasticsearch.index.mapper.MappedFieldType;
import org.elasticsearch.xcontent.ParseField;
import org.elasticsearch.xcontent.XContentBuilder;
import org.elasticsearch.xcontent.XContentParser;
import java.io.IOException;
import java.util.Locale;
import java.util.Objects;
/**
* Filter results of a query to include only those within a specific distance to some
* geo point.
*/
public class GeoDistanceQueryBuilder extends AbstractQueryBuilder {
public static final String NAME = "geo_distance";
/** Default for distance unit computation. */
public static final DistanceUnit DEFAULT_DISTANCE_UNIT = DistanceUnit.DEFAULT;
/** Default for geo distance computation. */
public static final GeoDistance DEFAULT_GEO_DISTANCE = GeoDistance.ARC;
/**
* The default value for ignore_unmapped.
*/
public static final boolean DEFAULT_IGNORE_UNMAPPED = false;
private static final ParseField VALIDATION_METHOD_FIELD = new ParseField("validation_method");
private static final ParseField DISTANCE_TYPE_FIELD = new ParseField("distance_type");
private static final ParseField UNIT_FIELD = new ParseField("unit");
private static final ParseField DISTANCE_FIELD = new ParseField("distance");
private static final ParseField IGNORE_UNMAPPED_FIELD = new ParseField("ignore_unmapped");
private final String fieldName;
/** Distance from center to cover. */
private double distance;
/** Point to use as center. */
private GeoPoint center = new GeoPoint(Double.NaN, Double.NaN);
/** Algorithm to use for distance computation. */
private GeoDistance geoDistance = GeoDistance.ARC;
/** How strict should geo coordinate validation be? */
private GeoValidationMethod validationMethod = GeoValidationMethod.DEFAULT;
private boolean ignoreUnmapped = DEFAULT_IGNORE_UNMAPPED;
/**
* Construct new GeoDistanceQueryBuilder.
* @param fieldName name of indexed geo field to operate distance computation on.
* */
public GeoDistanceQueryBuilder(String fieldName) {
if (Strings.isEmpty(fieldName)) {
throw new IllegalArgumentException("fieldName must not be null or empty");
}
this.fieldName = fieldName;
}
/**
* Read from a stream.
*/
public GeoDistanceQueryBuilder(StreamInput in) throws IOException {
super(in);
fieldName = in.readString();
distance = in.readDouble();
validationMethod = GeoValidationMethod.readFromStream(in);
center = in.readGeoPoint();
geoDistance = GeoDistance.readFromStream(in);
ignoreUnmapped = in.readBoolean();
}
@Override
protected void doWriteTo(StreamOutput out) throws IOException {
out.writeString(fieldName);
out.writeDouble(distance);
validationMethod.writeTo(out);
out.writeGeoPoint(center);
geoDistance.writeTo(out);
out.writeBoolean(ignoreUnmapped);
}
/** Name of the field this query is operating on. */
public String fieldName() {
return this.fieldName;
}
/** Sets the center point for the query.
* @param point the center of the query
**/
public GeoDistanceQueryBuilder point(GeoPoint point) {
if (point == null) {
throw new IllegalArgumentException("center point must not be null");
}
this.center = point;
return this;
}
/**
* Sets the center point of the query.
* @param lat latitude of center
* @param lon longitude of center
* */
public GeoDistanceQueryBuilder point(double lat, double lon) {
this.center = new GeoPoint(lat, lon);
return this;
}
/** Returns the center point of the distance query. */
public GeoPoint point() {
return this.center;
}
/** Sets the distance from the center using the default distance unit.*/
public GeoDistanceQueryBuilder distance(String distance) {
return distance(distance, DistanceUnit.DEFAULT);
}
/** Sets the distance from the center for this query. */
public GeoDistanceQueryBuilder distance(String distance, DistanceUnit unit) {
if (Strings.isEmpty(distance)) {
throw new IllegalArgumentException("distance must not be null or empty");
}
if (unit == null) {
throw new IllegalArgumentException("distance unit must not be null");
}
double newDistance = DistanceUnit.parse(distance, unit, DistanceUnit.DEFAULT);
if (newDistance <= 0.0) {
throw new IllegalArgumentException("distance must be greater than zero");
}
this.distance = newDistance;
return this;
}
/** Sets the distance from the center for this query. */
public GeoDistanceQueryBuilder distance(double distance, DistanceUnit unit) {
return distance(Double.toString(distance), unit);
}
/** Returns the distance configured as radius. */
public double distance() {
return distance;
}
/** Sets the center point for this query. */
public GeoDistanceQueryBuilder geohash(String geohash) {
if (Strings.isEmpty(geohash)) {
throw new IllegalArgumentException("geohash must not be null or empty");
}
this.center.resetFromGeoHash(geohash);
return this;
}
/** Which type of geo distance calculation method to use. */
public GeoDistanceQueryBuilder geoDistance(GeoDistance geoDistance) {
if (geoDistance == null) {
throw new IllegalArgumentException("geoDistance must not be null");
}
this.geoDistance = geoDistance;
return this;
}
/** Returns geo distance calculation type to use. */
public GeoDistance geoDistance() {
return this.geoDistance;
}
/** Set validation method for geo coordinates. */
public void setValidationMethod(GeoValidationMethod method) {
this.validationMethod = method;
}
/** Returns validation method for geo coordinates. */
public GeoValidationMethod getValidationMethod() {
return this.validationMethod;
}
/**
* Sets whether the query builder should ignore unmapped fields (and run a
* {@link MatchNoDocsQuery} in place of this query) or throw an exception if
* the field is unmapped.
*/
public GeoDistanceQueryBuilder ignoreUnmapped(boolean ignoreUnmapped) {
this.ignoreUnmapped = ignoreUnmapped;
return this;
}
/**
* Gets whether the query builder will ignore unmapped fields (and run a
* {@link MatchNoDocsQuery} in place of this query) or throw an exception if
* the field is unmapped.
*/
public boolean ignoreUnmapped() {
return ignoreUnmapped;
}
@Override
protected Query doToQuery(SearchExecutionContext context) throws IOException {
MappedFieldType fieldType = context.getFieldType(fieldName);
if (fieldType == null) {
if (ignoreUnmapped) {
return new MatchNoDocsQuery();
} else {
throw new QueryShardException(context, "failed to find geo field [" + fieldName + "]");
}
}
if ((fieldType instanceof GeoShapeQueryable) == false) {
throw new QueryShardException(
context,
"Field [" + fieldName + "] is of unsupported type [" + fieldType.typeName() + "] for [" + NAME + "] query"
);
}
QueryValidationException exception = checkLatLon();
if (exception != null) {
throw new QueryShardException(context, "couldn't validate latitude/ longitude values", exception);
}
if (GeoValidationMethod.isCoerce(validationMethod)) {
GeoUtils.normalizePoint(center, true, true);
}
final GeoShapeQueryable geoShapeQueryable = (GeoShapeQueryable) fieldType;
final Circle circle = new Circle(center.lon(), center.lat(), this.distance);
return geoShapeQueryable.geoShapeQuery(context, fieldType.name(), SpatialStrategy.RECURSIVE, ShapeRelation.INTERSECTS, circle);
}
@Override
protected void doXContent(XContentBuilder builder, Params params) throws IOException {
builder.startObject(NAME);
builder.startArray(fieldName).value(center.lon()).value(center.lat()).endArray();
builder.field(DISTANCE_FIELD.getPreferredName(), distance);
builder.field(DISTANCE_TYPE_FIELD.getPreferredName(), geoDistance.name().toLowerCase(Locale.ROOT));
builder.field(VALIDATION_METHOD_FIELD.getPreferredName(), validationMethod);
builder.field(IGNORE_UNMAPPED_FIELD.getPreferredName(), ignoreUnmapped);
printBoostAndQueryName(builder);
builder.endObject();
}
public static GeoDistanceQueryBuilder fromXContent(XContentParser parser) throws IOException {
XContentParser.Token token;
float boost = AbstractQueryBuilder.DEFAULT_BOOST;
String queryName = null;
String currentFieldName = null;
GeoPoint point = new GeoPoint(Double.NaN, Double.NaN);
String fieldName = null;
Object vDistance = null;
DistanceUnit unit = GeoDistanceQueryBuilder.DEFAULT_DISTANCE_UNIT;
GeoDistance geoDistance = GeoDistanceQueryBuilder.DEFAULT_GEO_DISTANCE;
GeoValidationMethod validationMethod = null;
boolean ignoreUnmapped = DEFAULT_IGNORE_UNMAPPED;
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token == XContentParser.Token.START_ARRAY) {
fieldName = currentFieldName;
point = GeoUtils.parseGeoPoint(parser);
} else if (token == XContentParser.Token.START_OBJECT) {
throwParsingExceptionOnMultipleFields(NAME, parser.getTokenLocation(), fieldName, currentFieldName);
// the json in the format of -> field : { lat : 30, lon : 12 }
String currentName = parser.currentName();
fieldName = currentFieldName;
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentName = parser.currentName();
} else if (token.isValue()) {
if (currentName.equals("lat")) {
point.resetLat(parser.doubleValue());
} else if (currentName.equals("lon")) {
point.resetLon(parser.doubleValue());
} else if (currentName.equals("geohash")) {
point.resetFromGeoHash(parser.text());
} else {
throw new ParsingException(
parser.getTokenLocation(),
"[geo_distance] query does not support [" + currentFieldName + "]"
);
}
}
}
} else if (token.isValue()) {
if (DISTANCE_FIELD.match(currentFieldName, parser.getDeprecationHandler())) {
if (token == XContentParser.Token.VALUE_STRING) {
vDistance = parser.text(); // a String
} else {
vDistance = parser.numberValue(); // a Number
}
} else if (UNIT_FIELD.match(currentFieldName, parser.getDeprecationHandler())) {
unit = DistanceUnit.fromString(parser.text());
} else if (DISTANCE_TYPE_FIELD.match(currentFieldName, parser.getDeprecationHandler())) {
geoDistance = GeoDistance.fromString(parser.text());
} else if (currentFieldName.endsWith(".lat")) {
point.resetLat(parser.doubleValue());
fieldName = currentFieldName.substring(0, currentFieldName.length() - ".lat".length());
} else if (currentFieldName.endsWith(".lon")) {
point.resetLon(parser.doubleValue());
fieldName = currentFieldName.substring(0, currentFieldName.length() - ".lon".length());
} else if (AbstractQueryBuilder.NAME_FIELD.match(currentFieldName, parser.getDeprecationHandler())) {
queryName = parser.text();
} else if (AbstractQueryBuilder.BOOST_FIELD.match(currentFieldName, parser.getDeprecationHandler())) {
boost = parser.floatValue();
} else if (IGNORE_UNMAPPED_FIELD.match(currentFieldName, parser.getDeprecationHandler())) {
ignoreUnmapped = parser.booleanValue();
} else if (VALIDATION_METHOD_FIELD.match(currentFieldName, parser.getDeprecationHandler())) {
validationMethod = GeoValidationMethod.fromString(parser.text());
} else {
if (fieldName == null) {
point.resetFromString(parser.text());
fieldName = currentFieldName;
} else {
throw new ParsingException(
parser.getTokenLocation(),
"failed to parse [{}] query. unexpected field [{}]",
NAME,
currentFieldName
);
}
}
}
}
if (vDistance == null) {
throw new ParsingException(parser.getTokenLocation(), "geo_distance requires 'distance' to be specified");
}
GeoDistanceQueryBuilder qb = new GeoDistanceQueryBuilder(fieldName);
if (vDistance instanceof Number) {
qb.distance(((Number) vDistance).doubleValue(), unit);
} else {
qb.distance((String) vDistance, unit);
}
qb.point(point);
if (validationMethod != null) {
qb.setValidationMethod(validationMethod);
}
qb.geoDistance(geoDistance);
qb.boost(boost);
qb.queryName(queryName);
qb.ignoreUnmapped(ignoreUnmapped);
return qb;
}
@Override
protected int doHashCode() {
return Objects.hash(center, geoDistance, distance, validationMethod, ignoreUnmapped);
}
@Override
protected boolean doEquals(GeoDistanceQueryBuilder other) {
return Objects.equals(fieldName, other.fieldName)
&& (distance == other.distance)
&& Objects.equals(validationMethod, other.validationMethod)
&& Objects.equals(center, other.center)
&& Objects.equals(geoDistance, other.geoDistance)
&& Objects.equals(ignoreUnmapped, other.ignoreUnmapped);
}
private QueryValidationException checkLatLon() {
if (GeoValidationMethod.isIgnoreMalformed(validationMethod)) {
return null;
}
QueryValidationException validationException = null;
// For everything post 2.0, validate latitude and longitude unless validation was explicitly turned off
if (GeoUtils.isValidLatitude(center.getLat()) == false) {
validationException = addValidationError("center point latitude is invalid: " + center.getLat(), validationException);
}
if (GeoUtils.isValidLongitude(center.getLon()) == false) {
validationException = addValidationError("center point longitude is invalid: " + center.getLon(), validationException);
}
return validationException;
}
@Override
public String getWriteableName() {
return NAME;
}
@Override
public TransportVersion getMinimalSupportedVersion() {
return TransportVersions.ZERO;
}
}