@Override public Y build(BuilderContext context) { ContentPath.Type origPathType = context.path().pathType(); context.path().pathType(pathType); context.path().add(name); Map<String, Mapper> mappers = new HashMap<String, Mapper>(); for (Mapper.Builder builder : mappersBuilders) { Mapper mapper = builder.build(context); mappers.put(mapper.name(), mapper); } context.path().pathType(origPathType); context.path().remove(); ObjectMapper objectMapper = createMapper( name, context.path().fullPathAsText(name), enabled, nested, dynamic, pathType, mappers); objectMapper.includeInAllIfNotSet(includeInAll); return (Y) objectMapper; }
public ObjectMapper putMapper(Mapper mapper) { if (mapper instanceof AllFieldMapper.IncludeInAll) { ((AllFieldMapper.IncludeInAll) mapper).includeInAllIfNotSet(includeInAll); } synchronized (mutex) { mappers = newMapBuilder(mappers).put(mapper.name(), mapper).immutableMap(); } return this; }
public void toXContent( XContentBuilder builder, Params params, ToXContent custom, Mapper... additionalMappers) throws IOException { builder.startObject(name); if (nested.isNested()) { builder.field("type", NESTED_CONTENT_TYPE); if (nested.isIncludeInParent()) { builder.field("include_in_parent", true); } if (nested.isIncludeInRoot()) { builder.field("include_in_root", true); } } else if (mappers .isEmpty()) { // only write the object content type if there are no properties, otherwise, // it is automatically detected builder.field("type", CONTENT_TYPE); } // grr, ugly! on root, dynamic defaults to TRUE, on children, it defaults to null to // inherit the root behavior if (this instanceof RootObjectMapper) { if (dynamic != Dynamic.TRUE) { builder.field("dynamic", dynamic.name().toLowerCase()); } } else { if (dynamic != Defaults.DYNAMIC) { builder.field("dynamic", dynamic.name().toLowerCase()); } } if (enabled != Defaults.ENABLED) { builder.field("enabled", enabled); } if (pathType != Defaults.PATH_TYPE) { builder.field("path", pathType.name().toLowerCase()); } if (includeInAll != null) { builder.field("include_in_all", includeInAll); } if (custom != null) { custom.toXContent(builder, params); } doXContent(builder, params); // sort the mappers so we get consistent serialization format TreeMap<String, Mapper> sortedMappers = new TreeMap<String, Mapper>(mappers); // check internal mappers first (this is only relevant for root object) for (Mapper mapper : sortedMappers.values()) { if (mapper instanceof InternalMapper) { mapper.toXContent(builder, params); } } if (additionalMappers != null && additionalMappers.length > 0) { TreeMap<String, Mapper> additionalSortedMappers = new TreeMap<String, Mapper>(); for (Mapper mapper : additionalMappers) { additionalSortedMappers.put(mapper.name(), mapper); } for (Mapper mapper : additionalSortedMappers.values()) { mapper.toXContent(builder, params); } } if (!mappers.isEmpty()) { builder.startObject("properties"); for (Mapper mapper : sortedMappers.values()) { if (!(mapper instanceof InternalMapper)) { mapper.toXContent(builder, params); } } builder.endObject(); } builder.endObject(); }
@Override public void merge(final Mapper mergeWith, final MergeContext mergeContext) throws MergeMappingException { if (!(mergeWith instanceof ObjectMapper)) { mergeContext.addConflict( "Can't merge a non object mapping [" + mergeWith.name() + "] with an object mapping [" + name() + "]"); return; } ObjectMapper mergeWithObject = (ObjectMapper) mergeWith; doMerge(mergeWithObject, mergeContext); List<Mapper> mappersToTraverse = new ArrayList<Mapper>(); synchronized (mutex) { for (Mapper mergeWithMapper : mergeWithObject.mappers.values()) { Mapper mergeIntoMapper = mappers.get(mergeWithMapper.name()); if (mergeIntoMapper == null) { // no mapping, simply add it if not simulating if (!mergeContext.mergeFlags().simulate()) { putMapper(mergeWithMapper); mappersToTraverse.add(mergeWithMapper); } } else { if ((mergeWithMapper instanceof MultiFieldMapper) && !(mergeIntoMapper instanceof MultiFieldMapper)) { MultiFieldMapper mergeWithMultiField = (MultiFieldMapper) mergeWithMapper; mergeWithMultiField.merge(mergeIntoMapper, mergeContext); if (!mergeContext.mergeFlags().simulate()) { putMapper(mergeWithMultiField); // now, record mappers to traverse events for all mappers for (Mapper mapper : mergeWithMultiField.mappers().values()) { mappersToTraverse.add(mapper); } } } else { mergeIntoMapper.merge(mergeWithMapper, mergeContext); } } } } // call this outside of the mutex for (Mapper mapper : mappersToTraverse) { mapper.traverse( new FieldMapperListener() { @Override public void fieldMapper(FieldMapper fieldMapper) { mergeContext.docMapper().addFieldMapper(fieldMapper); } }); mapper.traverse( new ObjectMapperListener() { @Override public void objectMapper(ObjectMapper objectMapper) { mergeContext.docMapper().addObjectMapper(objectMapper); } }); } }