protected boolean processField( ObjectMapper.Builder builder, String fieldName, Object fieldNode) { if (fieldName.equals("date_formats") || fieldName.equals("dynamic_date_formats")) { List<FormatDateTimeFormatter> dateTimeFormatters = newArrayList(); if (fieldNode instanceof List) { for (Object node1 : (List) fieldNode) { dateTimeFormatters.add(parseDateTimeFormatter(fieldName, node1)); } } else if ("none".equals(fieldNode.toString())) { dateTimeFormatters = null; } else { dateTimeFormatters.add(parseDateTimeFormatter(fieldName, fieldNode)); } if (dateTimeFormatters == null) { ((Builder) builder).noDynamicDateTimeFormatter(); } else { ((Builder) builder).dynamicDateTimeFormatter(dateTimeFormatters); } return true; } else if (fieldName.equals("dynamic_templates")) { // "dynamic_templates" : [ // { // "template_1" : { // "match" : "*_test", // "match_mapping_type" : "string", // "mapping" : { "type" : "string", "store" : "yes" } // } // } // ] List tmplNodes = (List) fieldNode; for (Object tmplNode : tmplNodes) { Map<String, Object> tmpl = (Map<String, Object>) tmplNode; if (tmpl.size() != 1) { throw new MapperParsingException("A dynamic template must be defined with a name"); } Map.Entry<String, Object> entry = tmpl.entrySet().iterator().next(); ((Builder) builder) .add(DynamicTemplate.parse(entry.getKey(), (Map<String, Object>) entry.getValue())); } return true; } else if (fieldName.equals("date_detection")) { ((Builder) builder).dateDetection = nodeBooleanValue(fieldNode); return true; } else if (fieldName.equals("numeric_detection")) { ((Builder) builder).numericDetection = nodeBooleanValue(fieldNode); return true; } return false; }
@Override protected void doMerge(ObjectMapper mergeWith, MergeContext mergeContext) { RootObjectMapper mergeWithObject = (RootObjectMapper) mergeWith; if (!mergeContext.mergeFlags().simulate()) { // merge them List<DynamicTemplate> mergedTemplates = Lists.newArrayList(Arrays.asList(this.dynamicTemplates)); for (DynamicTemplate template : mergeWithObject.dynamicTemplates) { boolean replaced = false; for (int i = 0; i < mergedTemplates.size(); i++) { if (mergedTemplates.get(i).name().equals(template.name())) { mergedTemplates.set(i, template); replaced = true; } } if (!replaced) { mergedTemplates.add(template); } } this.dynamicTemplates = mergedTemplates.toArray(new DynamicTemplate[mergedTemplates.size()]); } }
@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; if (nested().isNested()) { if (!mergeWithObject.nested().isNested()) { mergeContext.addConflict( "object mapping [" + name() + "] can't be changed from nested to non-nested"); return; } } else { if (mergeWithObject.nested().isNested()) { mergeContext.addConflict( "object mapping [" + name() + "] can't be changed from non-nested to nested"); return; } } 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(mergeContext.newFieldMappers()); mapper.traverse(mergeContext.newObjectMappers()); } }
public T add(Mapper.Builder builder) { mappersBuilders.add(builder); return this.builder; }
@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; if (nested().isNested()) { if (!mergeWithObject.nested().isNested()) { mergeContext.addConflict( "object mapping [" + name() + "] can't be changed from nested to non-nested"); return; } } else { if (mergeWithObject.nested().isNested()) { mergeContext.addConflict( "object mapping [" + name() + "] can't be changed from non-nested to nested"); return; } } if (!mergeContext.mergeFlags().simulate()) { if (mergeWithObject.dynamic != null) { this.dynamic = mergeWithObject.dynamic; } } doMerge(mergeWithObject, mergeContext); List<Mapper> mappersToPut = new ArrayList<>(); FieldMapperListener.Aggregator newFieldMappers = new FieldMapperListener.Aggregator(); ObjectMapperListener.Aggregator newObjectMappers = new ObjectMapperListener.Aggregator(); synchronized (mutex) { for (Mapper mapper : mergeWithObject.mappers.values()) { Mapper mergeWithMapper = mapper; Mapper mergeIntoMapper = mappers.get(mergeWithMapper.name()); if (mergeIntoMapper == null) { // no mapping, simply add it if not simulating if (!mergeContext.mergeFlags().simulate()) { mappersToPut.add(mergeWithMapper); mergeWithMapper.traverse(newFieldMappers); mergeWithMapper.traverse(newObjectMappers); } } else { mergeIntoMapper.merge(mergeWithMapper, mergeContext); } } if (!newFieldMappers.mappers.isEmpty()) { mergeContext.docMapper().addFieldMappers(newFieldMappers.mappers); } if (!newObjectMappers.mappers.isEmpty()) { mergeContext.docMapper().addObjectMappers(newObjectMappers.mappers); } // and the mappers only after the administration have been done, so it will not be visible to // parser (which first try to read with no lock) for (Mapper mapper : mappersToPut) { putMapper(mapper); } } }