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/*
* Licensed to Elasticsearch under one or more contributor
* license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright
* ownership. Elasticsearch licenses this file to you under
* the Apache License, Version 2.0 (the "License"); you may
* not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
*/
package org.elasticsearch.index.query;
import org.apache.lucene.search.Filter;
import org.elasticsearch.common.geo.GeoDistance;
import org.elasticsearch.common.geo.GeoHashUtils;
import org.elasticsearch.common.geo.GeoPoint;
import org.elasticsearch.common.geo.GeoUtils;
import org.elasticsearch.common.inject.Inject;
import org.elasticsearch.common.unit.DistanceUnit;
import org.elasticsearch.common.xcontent.XContentParser;
import org.elasticsearch.index.cache.filter.support.CacheKeyFilter;
import org.elasticsearch.index.fielddata.IndexGeoPointFieldData;
import org.elasticsearch.index.mapper.FieldMapper;
import org.elasticsearch.index.mapper.MapperService;
import org.elasticsearch.index.mapper.geo.GeoPointFieldMapper;
import org.elasticsearch.index.search.geo.GeoDistanceRangeFilter;
import java.io.IOException;
import static org.elasticsearch.index.query.support.QueryParsers.wrapSmartNameFilter;
/**
*
* {
* "name.lat" : 1.1,
* "name.lon" : 1.2,
* }
*
*/
public class GeoDistanceRangeFilterParser implements FilterParser {
public static final String NAME = "geo_distance_range";
@Inject
public GeoDistanceRangeFilterParser() {
}
@Override
public String[] names() {
return new String[]{NAME, "geoDistanceRange"};
}
@Override
public Filter parse(QueryParseContext parseContext) throws IOException, QueryParsingException {
XContentParser parser = parseContext.parser();
XContentParser.Token token;
boolean cache = false;
CacheKeyFilter.Key cacheKey = null;
String filterName = null;
String currentFieldName = null;
GeoPoint point = new GeoPoint();
String fieldName = null;
Object vFrom = null;
Object vTo = null;
boolean includeLower = true;
boolean includeUpper = true;
DistanceUnit unit = DistanceUnit.DEFAULT;
GeoDistance geoDistance = GeoDistance.DEFAULT;
String optimizeBbox = "memory";
boolean normalizeLon = true;
boolean normalizeLat = true;
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token == XContentParser.Token.START_ARRAY) {
GeoPoint.parse(parser, point);
fieldName = currentFieldName;
} else if (token == XContentParser.Token.START_OBJECT) {
// the json in the format of -> field : { lat : 30, lon : 12 }
fieldName = currentFieldName;
GeoPoint.parse(parser, point);
} else if (token.isValue()) {
if (currentFieldName.equals("from")) {
if (token == XContentParser.Token.VALUE_NULL) {
} else if (token == XContentParser.Token.VALUE_STRING) {
vFrom = parser.text(); // a String
} else {
vFrom = parser.numberValue(); // a Number
}
} else if (currentFieldName.equals("to")) {
if (token == XContentParser.Token.VALUE_NULL) {
} else if (token == XContentParser.Token.VALUE_STRING) {
vTo = parser.text(); // a String
} else {
vTo = parser.numberValue(); // a Number
}
} else if ("include_lower".equals(currentFieldName) || "includeLower".equals(currentFieldName)) {
includeLower = parser.booleanValue();
} else if ("include_upper".equals(currentFieldName) || "includeUpper".equals(currentFieldName)) {
includeUpper = parser.booleanValue();
} else if ("gt".equals(currentFieldName)) {
if (token == XContentParser.Token.VALUE_NULL) {
} else if (token == XContentParser.Token.VALUE_STRING) {
vFrom = parser.text(); // a String
} else {
vFrom = parser.numberValue(); // a Number
}
includeLower = false;
} else if ("gte".equals(currentFieldName) || "ge".equals(currentFieldName)) {
if (token == XContentParser.Token.VALUE_NULL) {
} else if (token == XContentParser.Token.VALUE_STRING) {
vFrom = parser.text(); // a String
} else {
vFrom = parser.numberValue(); // a Number
}
includeLower = true;
} else if ("lt".equals(currentFieldName)) {
if (token == XContentParser.Token.VALUE_NULL) {
} else if (token == XContentParser.Token.VALUE_STRING) {
vTo = parser.text(); // a String
} else {
vTo = parser.numberValue(); // a Number
}
includeUpper = false;
} else if ("lte".equals(currentFieldName) || "le".equals(currentFieldName)) {
if (token == XContentParser.Token.VALUE_NULL) {
} else if (token == XContentParser.Token.VALUE_STRING) {
vTo = parser.text(); // a String
} else {
vTo = parser.numberValue(); // a Number
}
includeUpper = true;
} else if (currentFieldName.equals("unit")) {
unit = DistanceUnit.fromString(parser.text());
} else if (currentFieldName.equals("distance_type") || currentFieldName.equals("distanceType")) {
geoDistance = GeoDistance.fromString(parser.text());
} else if (currentFieldName.endsWith(GeoPointFieldMapper.Names.LAT_SUFFIX)) {
point.resetLat(parser.doubleValue());
fieldName = currentFieldName.substring(0, currentFieldName.length() - GeoPointFieldMapper.Names.LAT_SUFFIX.length());
} else if (currentFieldName.endsWith(GeoPointFieldMapper.Names.LON_SUFFIX)) {
point.resetLon(parser.doubleValue());
fieldName = currentFieldName.substring(0, currentFieldName.length() - GeoPointFieldMapper.Names.LON_SUFFIX.length());
} else if (currentFieldName.endsWith(GeoPointFieldMapper.Names.GEOHASH_SUFFIX)) {
GeoHashUtils.decode(parser.text(), point);
fieldName = currentFieldName.substring(0, currentFieldName.length() - GeoPointFieldMapper.Names.GEOHASH_SUFFIX.length());
} else if ("_name".equals(currentFieldName)) {
filterName = parser.text();
} else if ("_cache".equals(currentFieldName)) {
cache = parser.booleanValue();
} else if ("_cache_key".equals(currentFieldName) || "_cacheKey".equals(currentFieldName)) {
cacheKey = new CacheKeyFilter.Key(parser.text());
} else if ("optimize_bbox".equals(currentFieldName) || "optimizeBbox".equals(currentFieldName)) {
optimizeBbox = parser.textOrNull();
} else if ("normalize".equals(currentFieldName)) {
normalizeLat = parser.booleanValue();
normalizeLon = parser.booleanValue();
} else {
point.resetFromString(parser.text());
fieldName = currentFieldName;
}
}
}
Double from = null;
Double to = null;
if (vFrom != null) {
if (vFrom instanceof Number) {
from = unit.toMeters(((Number) vFrom).doubleValue());
} else {
from = DistanceUnit.parse((String) vFrom, unit, DistanceUnit.DEFAULT);
}
from = geoDistance.normalize(from, DistanceUnit.DEFAULT);
}
if (vTo != null) {
if (vTo instanceof Number) {
to = unit.toMeters(((Number) vTo).doubleValue());
} else {
to = DistanceUnit.parse((String) vTo, unit, DistanceUnit.DEFAULT);
}
to = geoDistance.normalize(to, DistanceUnit.DEFAULT);
}
if (normalizeLat || normalizeLon) {
GeoUtils.normalizePoint(point, normalizeLat, normalizeLon);
}
MapperService.SmartNameFieldMappers smartMappers = parseContext.smartFieldMappers(fieldName);
if (smartMappers == null || !smartMappers.hasMapper()) {
throw new QueryParsingException(parseContext.index(), "failed to find geo_point field [" + fieldName + "]");
}
FieldMapper mapper = smartMappers.mapper();
if (!(mapper instanceof GeoPointFieldMapper)) {
throw new QueryParsingException(parseContext.index(), "field [" + fieldName + "] is not a geo_point field");
}
GeoPointFieldMapper geoMapper = ((GeoPointFieldMapper) mapper);
IndexGeoPointFieldData indexFieldData = parseContext.fieldData().getForField(mapper);
Filter filter = new GeoDistanceRangeFilter(point, from, to, includeLower, includeUpper, geoDistance, geoMapper, indexFieldData, optimizeBbox);
if (cache) {
filter = parseContext.cacheFilter(filter, cacheKey);
}
filter = wrapSmartNameFilter(filter, smartMappers, parseContext);
if (filterName != null) {
parseContext.addNamedFilter(filterName, filter);
}
return filter;
}
}