public static Filter newFilter(
QueryParseContext parseContext, String fieldPattern, String filterName) {
final FieldMappers fieldNamesMappers =
parseContext.mapperService().indexName(FieldNamesFieldMapper.NAME);
final FieldNamesFieldMapper fieldNamesMapper =
fieldNamesMappers == null ? null : (FieldNamesFieldMapper) fieldNamesMappers.mapper();
MapperService.SmartNameObjectMapper smartNameObjectMapper =
parseContext.smartObjectMapper(fieldPattern);
if (smartNameObjectMapper != null && smartNameObjectMapper.hasMapper()) {
// automatic make the object mapper pattern
fieldPattern = fieldPattern + ".*";
}
List<String> fields = parseContext.simpleMatchToIndexNames(fieldPattern);
if (fields.isEmpty()) {
// no fields exists, so we should not match anything
return Queries.MATCH_NO_FILTER;
}
MapperService.SmartNameFieldMappers nonNullFieldMappers = null;
XBooleanFilter boolFilter = new XBooleanFilter();
for (String field : fields) {
MapperService.SmartNameFieldMappers smartNameFieldMappers =
parseContext.smartFieldMappers(field);
if (smartNameFieldMappers != null) {
nonNullFieldMappers = smartNameFieldMappers;
}
Filter filter = null;
if (fieldNamesMapper != null && fieldNamesMapper.enabled()) {
final String f;
if (smartNameFieldMappers != null && smartNameFieldMappers.hasMapper()) {
f = smartNameFieldMappers.mapper().names().indexName();
} else {
f = field;
}
filter = fieldNamesMapper.termFilter(f, parseContext);
}
// if _field_names are not indexed, we need to go the slow way
if (filter == null && smartNameFieldMappers != null && smartNameFieldMappers.hasMapper()) {
filter = smartNameFieldMappers.mapper().rangeFilter(null, null, true, true, parseContext);
}
if (filter == null) {
filter = new TermRangeFilter(field, null, null, true, true);
}
boolFilter.add(filter, BooleanClause.Occur.SHOULD);
}
// we always cache this one, really does not change... (exists)
// its ok to cache under the fieldName cacheKey, since its per segment and the mapping applies
// to this data on this segment...
Filter filter =
parseContext.cacheFilter(boolFilter, new CacheKeyFilter.Key("$exists$" + fieldPattern));
filter = wrapSmartNameFilter(filter, nonNullFieldMappers, parseContext);
if (filterName != null) {
parseContext.addNamedFilter(filterName, filter);
}
return filter;
}
@Override
public Filter regexpFilter(
Object value, int flags, int maxDeterminizedStates, @Nullable QueryParseContext context) {
if (fieldType.indexOptions() != IndexOptions.NONE || context == null) {
return super.regexpFilter(value, flags, maxDeterminizedStates, context);
}
Collection<String> queryTypes = context.queryTypes();
if (queryTypes.size() == 1) {
return new RegexpFilter(
new Term(
UidFieldMapper.NAME,
Uid.createUidAsBytes(
Iterables.getFirst(queryTypes, null), BytesRefs.toBytesRef(value))),
flags,
maxDeterminizedStates);
}
XBooleanFilter filter = new XBooleanFilter();
for (String queryType : queryTypes) {
filter.add(
new RegexpFilter(
new Term(
UidFieldMapper.NAME,
Uid.createUidAsBytes(queryType, BytesRefs.toBytesRef(value))),
flags,
maxDeterminizedStates),
BooleanClause.Occur.SHOULD);
}
return filter;
}
/**
* A filter for search. If a filter is required, will return it, otherwise, will return
* <tt>null</tt>.
*/
public Filter searchFilter(String... types) {
if (types == null || types.length == 0) {
if (hasNested) {
return NonNestedDocsFilter.INSTANCE;
} else {
return null;
}
}
// if we filter by types, we don't need to filter by non nested docs
// since they have different types (starting with __)
if (types.length == 1) {
DocumentMapper docMapper = documentMapper(types[0]);
if (docMapper == null) {
return new TermFilter(new Term(types[0]));
}
return docMapper.typeFilter();
}
// see if we can use terms filter
boolean useTermsFilter = true;
for (String type : types) {
DocumentMapper docMapper = documentMapper(type);
if (docMapper == null) {
useTermsFilter = false;
break;
}
if (!docMapper.typeMapper().indexed()) {
useTermsFilter = false;
break;
}
}
if (useTermsFilter) {
Term[] typesTerms = new Term[types.length];
for (int i = 0; i < typesTerms.length; i++) {
typesTerms[i] = TypeFieldMapper.TERM_FACTORY.createTerm(types[i]);
}
return new XTermsFilter(typesTerms);
} else {
XBooleanFilter bool = new XBooleanFilter();
for (String type : types) {
DocumentMapper docMapper = documentMapper(type);
if (docMapper == null) {
bool.add(
new FilterClause(
new TermFilter(TypeFieldMapper.TERM_FACTORY.createTerm(type)),
BooleanClause.Occur.SHOULD));
} else {
bool.add(new FilterClause(docMapper.typeFilter(), BooleanClause.Occur.SHOULD));
}
}
return bool;
}
}
@Override
public Filter parse(QueryParseContext parseContext) throws IOException, QueryParsingException {
XContentParser parser = parseContext.parser();
String fieldName = null;
String filterName = null;
boolean nullValue = false;
boolean existence = true;
XContentParser.Token token;
String currentFieldName = null;
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token.isValue()) {
if ("field".equals(currentFieldName)) {
fieldName = parser.text();
} else if ("null_value".equals(currentFieldName)) {
nullValue = parser.booleanValue();
} else if ("existence".equals(currentFieldName)) {
existence = parser.booleanValue();
} else if ("_name".equals(currentFieldName)) {
filterName = parser.text();
} else {
throw new QueryParsingException(
parseContext.index(), "[missing] filter does not support [" + currentFieldName + "]");
}
}
}
if (fieldName == null) {
throw new QueryParsingException(
parseContext.index(), "missing must be provided with a [field]");
}
if (!existence && !nullValue) {
throw new QueryParsingException(
parseContext.index(),
"missing must have either existence, or null_value, or both set to true");
}
Filter existenceFilter = null;
Filter nullFilter = null;
MapperService.SmartNameFieldMappers smartNameFieldMappers =
parseContext.smartFieldMappers(fieldName);
if (existence) {
if (smartNameFieldMappers != null && smartNameFieldMappers.hasMapper()) {
existenceFilter =
smartNameFieldMappers.mapper().rangeFilter(null, null, true, true, parseContext);
}
if (existenceFilter == null) {
existenceFilter = new TermRangeFilter(fieldName, null, null, true, true);
}
// we always cache this one, really does not change... (exists)
existenceFilter = parseContext.cacheFilter(existenceFilter, null);
existenceFilter = new NotFilter(existenceFilter);
// cache the not filter as well, so it will be faster
existenceFilter = parseContext.cacheFilter(existenceFilter, null);
}
if (nullValue) {
if (smartNameFieldMappers != null && smartNameFieldMappers.hasMapper()) {
nullFilter = smartNameFieldMappers.mapper().nullValueFilter();
if (nullFilter != null) {
// cache the not filter as well, so it will be faster
nullFilter = parseContext.cacheFilter(nullFilter, null);
}
}
}
Filter filter;
if (nullFilter != null) {
if (existenceFilter != null) {
XBooleanFilter combined = new XBooleanFilter();
combined.addShould(existenceFilter);
combined.addShould(nullFilter);
// cache the not filter as well, so it will be faster
filter = parseContext.cacheFilter(combined, null);
} else {
filter = nullFilter;
}
} else {
filter = existenceFilter;
}
if (filter == null) {
return null;
}
filter = wrapSmartNameFilter(filter, smartNameFieldMappers, parseContext);
if (filterName != null) {
parseContext.addNamedFilter(filterName, existenceFilter);
}
return filter;
}
@Override
public Filter parse(QueryParseContext parseContext) throws IOException, QueryParsingException {
XContentParser parser = parseContext.parser();
String fieldName = null;
ShapeRelation shapeRelation = ShapeRelation.INTERSECTS;
String strategyName = null;
ShapeBuilder shape = null;
FilterCachingPolicy cache = parseContext.autoFilterCachePolicy();
HashedBytesRef cacheKey = null;
String filterName = null;
String id = null;
String type = null;
String index = DEFAULTS.INDEX_NAME;
String shapePath = DEFAULTS.SHAPE_FIELD_NAME;
XContentParser.Token token;
String currentFieldName = null;
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token == XContentParser.Token.START_OBJECT) {
fieldName = currentFieldName;
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
token = parser.nextToken();
if ("shape".equals(currentFieldName)) {
shape = ShapeBuilder.parse(parser);
} else if ("relation".equals(currentFieldName)) {
shapeRelation = ShapeRelation.getRelationByName(parser.text());
if (shapeRelation == null) {
throw new QueryParsingException(
parseContext.index(), "Unknown shape operation [" + parser.text() + "]");
}
} else if ("strategy".equals(currentFieldName)) {
strategyName = parser.text();
} else if ("indexed_shape".equals(currentFieldName)
|| "indexedShape".equals(currentFieldName)) {
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token.isValue()) {
if ("id".equals(currentFieldName)) {
id = parser.text();
} else if ("type".equals(currentFieldName)) {
type = parser.text();
} else if ("index".equals(currentFieldName)) {
index = parser.text();
} else if ("path".equals(currentFieldName)) {
shapePath = parser.text();
}
}
}
if (id == null) {
throw new QueryParsingException(
parseContext.index(), "ID for indexed shape not provided");
} else if (type == null) {
throw new QueryParsingException(
parseContext.index(), "Type for indexed shape not provided");
}
shape = fetchService.fetch(id, type, index, shapePath);
} else {
throw new QueryParsingException(
parseContext.index(),
"[geo_shape] filter does not support [" + currentFieldName + "]");
}
}
}
} else if (token.isValue()) {
if ("_name".equals(currentFieldName)) {
filterName = parser.text();
} else if ("_cache".equals(currentFieldName)) {
cache = parseContext.parseFilterCachePolicy();
} else if ("_cache_key".equals(currentFieldName)) {
cacheKey = new HashedBytesRef(parser.text());
} else {
throw new QueryParsingException(
parseContext.index(),
"[geo_shape] filter does not support [" + currentFieldName + "]");
}
}
}
if (shape == null) {
throw new QueryParsingException(parseContext.index(), "No Shape defined");
} else if (shapeRelation == null) {
throw new QueryParsingException(parseContext.index(), "No Shape Relation defined");
}
MapperService.SmartNameFieldMappers smartNameFieldMappers =
parseContext.smartFieldMappers(fieldName);
if (smartNameFieldMappers == null || !smartNameFieldMappers.hasMapper()) {
throw new QueryParsingException(
parseContext.index(), "Failed to find geo_shape field [" + fieldName + "]");
}
FieldMapper fieldMapper = smartNameFieldMappers.mapper();
// TODO: This isn't the nicest way to check this
if (!(fieldMapper instanceof GeoShapeFieldMapper)) {
throw new QueryParsingException(
parseContext.index(), "Field [" + fieldName + "] is not a geo_shape");
}
GeoShapeFieldMapper shapeFieldMapper = (GeoShapeFieldMapper) fieldMapper;
PrefixTreeStrategy strategy = shapeFieldMapper.defaultStrategy();
if (strategyName != null) {
strategy = shapeFieldMapper.resolveStrategy(strategyName);
}
Filter filter;
if (strategy instanceof RecursivePrefixTreeStrategy
&& shapeRelation == ShapeRelation.DISJOINT) {
// this strategy doesn't support disjoint anymore: but it did before, including creating
// lucene fieldcache (!)
// in this case, execute disjoint as exists && !intersects
XBooleanFilter bool = new XBooleanFilter();
Filter exists = ExistsFilterParser.newFilter(parseContext, fieldName, null);
Filter intersects =
strategy.makeFilter(GeoShapeQueryParser.getArgs(shape, ShapeRelation.INTERSECTS));
bool.add(exists, BooleanClause.Occur.MUST);
bool.add(intersects, BooleanClause.Occur.MUST_NOT);
filter = bool;
} else {
filter = strategy.makeFilter(GeoShapeQueryParser.getArgs(shape, shapeRelation));
}
if (cache != null) {
filter = parseContext.cacheFilter(filter, cacheKey, cache);
}
if (filterName != null) {
parseContext.addNamedFilter(filterName, filter);
}
return filter;
}
/**
* A filter for search. If a filter is required, will return it, otherwise, will return
* <tt>null</tt>.
*/
@Nullable
public Filter searchFilter(String... types) {
boolean filterPercolateType = hasMapping(PercolatorService.TYPE_NAME);
if (types != null && filterPercolateType) {
for (String type : types) {
if (PercolatorService.TYPE_NAME.equals(type)) {
filterPercolateType = false;
break;
}
}
}
Filter excludePercolatorType = null;
if (filterPercolateType) {
excludePercolatorType =
new NotFilter(documentMapper(PercolatorService.TYPE_NAME).typeFilter());
}
if (types == null || types.length == 0) {
if (hasNested && filterPercolateType) {
return new AndFilter(ImmutableList.of(excludePercolatorType, NonNestedDocsFilter.INSTANCE));
} else if (hasNested) {
return NonNestedDocsFilter.INSTANCE;
} else if (filterPercolateType) {
return excludePercolatorType;
} else {
return null;
}
}
// if we filter by types, we don't need to filter by non nested docs
// since they have different types (starting with __)
if (types.length == 1) {
DocumentMapper docMapper = documentMapper(types[0]);
if (docMapper == null) {
return new TermFilter(new Term(types[0]));
}
return docMapper.typeFilter();
}
// see if we can use terms filter
boolean useTermsFilter = true;
for (String type : types) {
DocumentMapper docMapper = documentMapper(type);
if (docMapper == null) {
useTermsFilter = false;
break;
}
if (!docMapper.typeMapper().fieldType().indexed()) {
useTermsFilter = false;
break;
}
}
if (useTermsFilter) {
BytesRef[] typesBytes = new BytesRef[types.length];
for (int i = 0; i < typesBytes.length; i++) {
typesBytes[i] = new BytesRef(types[i]);
}
TermsFilter termsFilter = new TermsFilter(TypeFieldMapper.NAME, typesBytes);
if (filterPercolateType) {
return new AndFilter(ImmutableList.of(excludePercolatorType, termsFilter));
} else {
return termsFilter;
}
} else {
// Current bool filter requires that at least one should clause matches, even with a must
// clause.
XBooleanFilter bool = new XBooleanFilter();
for (String type : types) {
DocumentMapper docMapper = documentMapper(type);
if (docMapper == null) {
bool.add(
new FilterClause(
new TermFilter(new Term(TypeFieldMapper.NAME, type)),
BooleanClause.Occur.SHOULD));
} else {
bool.add(new FilterClause(docMapper.typeFilter(), BooleanClause.Occur.SHOULD));
}
}
if (filterPercolateType) {
bool.add(excludePercolatorType, BooleanClause.Occur.MUST);
}
return bool;
}
}
@Override
public Query parse(QueryParseContext parseContext) throws IOException, QueryParsingException {
XContentParser parser = parseContext.parser();
boolean queryFound = false;
float boost = 1.0f;
String parentType = null;
boolean score = false;
String queryName = null;
String currentFieldName = null;
XContentParser.Token token;
XContentStructure.InnerQuery iq = null;
while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
if (token == XContentParser.Token.FIELD_NAME) {
currentFieldName = parser.currentName();
} else if (token == XContentParser.Token.START_OBJECT) {
// Usually, the query would be parsed here, but the child
// type may not have been extracted yet, so use the
// XContentStructure.<type> facade to parse if available,
// or delay parsing if not.
if ("query".equals(currentFieldName)) {
iq =
new XContentStructure.InnerQuery(
parseContext, parentType == null ? null : new String[] {parentType});
queryFound = true;
} else {
throw new QueryParsingException(
parseContext.index(),
"[has_parent] query does not support [" + currentFieldName + "]");
}
} else if (token.isValue()) {
if ("type".equals(currentFieldName)
|| "parent_type".equals(currentFieldName)
|| "parentType".equals(currentFieldName)) {
parentType = parser.text();
} else if ("_scope".equals(currentFieldName)) {
throw new QueryParsingException(
parseContext.index(),
"the [_scope] support in [has_parent] query has been removed, use a filter as a facet_filter in the relevant global facet");
} else if ("score_type".equals(currentFieldName) || "scoreType".equals(currentFieldName)) {
String scoreTypeValue = parser.text();
if ("score".equals(scoreTypeValue)) {
score = true;
} else if ("none".equals(scoreTypeValue)) {
score = false;
}
} else if ("score_mode".equals(currentFieldName) || "scoreMode".equals(currentFieldName)) {
String scoreModeValue = parser.text();
if ("score".equals(scoreModeValue)) {
score = true;
} else if ("none".equals(scoreModeValue)) {
score = false;
}
} else if ("boost".equals(currentFieldName)) {
boost = parser.floatValue();
} else if ("_name".equals(currentFieldName)) {
queryName = parser.text();
} else {
throw new QueryParsingException(
parseContext.index(),
"[has_parent] query does not support [" + currentFieldName + "]");
}
}
}
if (!queryFound) {
throw new QueryParsingException(
parseContext.index(), "[has_parent] query requires 'query' field");
}
if (parentType == null) {
throw new QueryParsingException(
parseContext.index(), "[has_parent] query requires 'parent_type' field");
}
Query innerQuery = iq.asQuery(parentType);
if (innerQuery == null) {
return null;
}
DocumentMapper parentDocMapper = parseContext.mapperService().documentMapper(parentType);
if (parentDocMapper == null) {
throw new QueryParsingException(
parseContext.index(),
"[has_parent] query configured 'parent_type' [" + parentType + "] is not a valid type");
}
innerQuery.setBoost(boost);
// wrap the query with type query
innerQuery =
new XFilteredQuery(
innerQuery, parseContext.cacheFilter(parentDocMapper.typeFilter(), null));
ParentChildIndexFieldData parentChildIndexFieldData = null;
Set<String> parentTypes = new HashSet<>(5);
parentTypes.add(parentType);
for (DocumentMapper documentMapper : parseContext.mapperService()) {
ParentFieldMapper parentFieldMapper = documentMapper.parentFieldMapper();
if (parentFieldMapper.active()) {
parentChildIndexFieldData = parseContext.fieldData().getForField(parentFieldMapper);
DocumentMapper parentTypeDocumentMapper =
parseContext.mapperService().documentMapper(parentFieldMapper.type());
if (parentTypeDocumentMapper == null) {
// Only add this, if this parentFieldMapper (also a parent) isn't a child of another
// parent.
parentTypes.add(parentFieldMapper.type());
}
}
}
if (parentChildIndexFieldData == null) {
throw new QueryParsingException(
parseContext.index(), "[has_parent] no _parent field configured");
}
Filter parentFilter;
if (parentTypes.size() == 1) {
DocumentMapper documentMapper =
parseContext.mapperService().documentMapper(parentTypes.iterator().next());
parentFilter = parseContext.cacheFilter(documentMapper.typeFilter(), null);
} else {
XBooleanFilter parentsFilter = new XBooleanFilter();
for (String parentTypeStr : parentTypes) {
DocumentMapper documentMapper = parseContext.mapperService().documentMapper(parentTypeStr);
Filter filter = parseContext.cacheFilter(documentMapper.typeFilter(), null);
parentsFilter.add(filter, BooleanClause.Occur.SHOULD);
}
parentFilter = parentsFilter;
}
Filter childrenFilter = parseContext.cacheFilter(new NotFilter(parentFilter), null);
boolean deleteByQuery = "delete_by_query".equals(SearchContext.current().source());
Query query;
if (!deleteByQuery && score) {
query = new ParentQuery(parentChildIndexFieldData, innerQuery, parentType, childrenFilter);
} else {
query =
new ParentConstantScoreQuery(
parentChildIndexFieldData, innerQuery, parentType, childrenFilter);
if (deleteByQuery) {
query = new XConstantScoreQuery(new DeleteByQueryWrappingFilter(query));
}
}
query.setBoost(boost);
if (queryName != null) {
parseContext.addNamedFilter(queryName, new CustomQueryWrappingFilter(query));
}
return query;
}
