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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.search;
import org.elasticsearch.ElasticsearchParseException;
import org.elasticsearch.common.regex.Regex;
import org.elasticsearch.index.mapper.MappedFieldType;
import org.elasticsearch.index.query.QueryShardContext;
import org.elasticsearch.index.query.QueryShardException;
import org.elasticsearch.search.SearchModule;
import java.util.Collection;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.Set;
/**
* Helpers to extract and expand field names and boosts
*/
public final class QueryParserHelper {
private QueryParserHelper() {}
/**
* Convert a list of field names encoded with optional boosts to a map that associates
* the field name and its boost.
* @param fields The list of fields encoded with optional boosts (e.g. ^0.35).
* @return The converted map with field names and associated boosts.
*/
public static Map parseFieldsAndWeights(List fields) {
final Map fieldsAndWeights = new HashMap<>();
for (String field : fields) {
int boostIndex = field.indexOf('^');
String fieldName;
float boost = 1.0f;
if (boostIndex != -1) {
fieldName = field.substring(0, boostIndex);
boost = Float.parseFloat(field.substring(boostIndex+1));
} else {
fieldName = field;
}
// handle duplicates
if (fieldsAndWeights.containsKey(field)) {
boost *= fieldsAndWeights.get(field);
}
fieldsAndWeights.put(fieldName, boost);
}
return fieldsAndWeights;
}
public static Map resolveMappingFields(QueryShardContext context,
Map fieldsAndWeights) {
return resolveMappingFields(context, fieldsAndWeights, null);
}
/**
* Resolve all the field names and patterns present in the provided map with the
* {@link QueryShardContext} and returns a new map containing all the expanded fields with their original boost.
* @param context The context of the query.
* @param fieldsAndWeights The map of fields and weights to expand.
* @param fieldSuffix The suffix name to add to the expanded field names if a mapping exists for that name.
* The original name of the field is kept if adding the suffix to the field name does not point to a valid field
* in the mapping.
*/
public static Map resolveMappingFields(QueryShardContext context,
Map fieldsAndWeights,
String fieldSuffix) {
Map resolvedFields = new HashMap<>();
for (Map.Entry fieldEntry : fieldsAndWeights.entrySet()) {
boolean allField = Regex.isMatchAllPattern(fieldEntry.getKey());
boolean multiField = Regex.isSimpleMatchPattern(fieldEntry.getKey());
float weight = fieldEntry.getValue() == null ? 1.0f : fieldEntry.getValue();
Map fieldMap = resolveMappingField(context, fieldEntry.getKey(), weight,
!multiField, !allField, fieldSuffix);
for (Map.Entry field : fieldMap.entrySet()) {
float boost = field.getValue();
if (resolvedFields.containsKey(field.getKey())) {
boost *= resolvedFields.get(field.getKey());
}
resolvedFields.put(field.getKey(), boost);
}
}
checkForTooManyFields(resolvedFields, context);
return resolvedFields;
}
/**
* Resolves the provided pattern or field name from the {@link QueryShardContext} and return a map of
* the expanded fields with their original boost.
* @param context The context of the query
* @param fieldOrPattern The field name or the pattern to resolve
* @param weight The weight for the field
* @param acceptAllTypes Whether all field type should be added when a pattern is expanded.
* If false, only searchable field types are added.
* @param acceptMetadataField Whether metadata fields should be added when a pattern is expanded.
*/
public static Map resolveMappingField(QueryShardContext context, String fieldOrPattern, float weight,
boolean acceptAllTypes, boolean acceptMetadataField) {
return resolveMappingField(context, fieldOrPattern, weight, acceptAllTypes, acceptMetadataField, null);
}
/**
* Resolves the provided pattern or field name from the {@link QueryShardContext} and return a map of
* the expanded fields with their original boost.
* @param context The context of the query
* @param fieldOrPattern The field name or the pattern to resolve
* @param weight The weight for the field
* @param acceptAllTypes Whether all field type should be added when a pattern is expanded.
* If false, only searchable field types are added.
* @param acceptMetadataField Whether metadata fields should be added when a pattern is expanded.
* @param fieldSuffix The suffix name to add to the expanded field names if a mapping exists for that name.
* The original name of the field is kept if adding the suffix to the field name does not point to a valid field
* in the mapping.
*/
public static Map resolveMappingField(QueryShardContext context, String fieldOrPattern, float weight,
boolean acceptAllTypes, boolean acceptMetadataField, String fieldSuffix) {
Set allFields = context.simpleMatchToIndexNames(fieldOrPattern);
Map fields = new HashMap<>();
for (String fieldName : allFields) {
if (fieldSuffix != null && context.fieldMapper(fieldName + fieldSuffix) != null) {
fieldName = fieldName + fieldSuffix;
}
MappedFieldType fieldType = context.getMapperService().fieldType(fieldName);
if (fieldType == null) {
// Note that we don't ignore unmapped fields.
fields.put(fieldName, weight);
continue;
}
if (acceptMetadataField == false && fieldType.name().startsWith("_")) {
// Ignore metadata fields
continue;
}
if (acceptAllTypes == false) {
try {
fieldType.termQuery("", context);
} catch (QueryShardException | UnsupportedOperationException e) {
// field type is never searchable with term queries (eg. geo point): ignore
continue;
} catch (IllegalArgumentException | ElasticsearchParseException e) {
// other exceptions are parsing errors or not indexed fields: keep
}
}
// Deduplicate aliases and their concrete fields.
String resolvedFieldName = fieldType.name();
if (allFields.contains(resolvedFieldName)) {
fieldName = resolvedFieldName;
}
float w = fields.getOrDefault(fieldName, 1.0F);
fields.put(fieldName, w * weight);
}
checkForTooManyFields(fields, context);
return fields;
}
private static void checkForTooManyFields(Map fields, QueryShardContext context) {
Integer limit = SearchModule.INDICES_MAX_CLAUSE_COUNT_SETTING.get(context.getIndexSettings().getSettings());
if (fields.size() > limit) {
throw new IllegalArgumentException("field expansion matches too many fields, limit: " + limit + ", got: " + fields.size());
}
}
/**
* Returns true if any of the fields is the wildcard {@code *}, false otherwise.
* @param fields A collection of field names
*/
public static boolean hasAllFieldsWildcard(Collection fields) {
return fields.stream().anyMatch(Regex::isMatchAllPattern);
}
}