protected static void parseNested(
     String name, Map<String, Object> node, ObjectMapper.Builder builder) {
   boolean nested = false;
   boolean nestedIncludeInParent = false;
   boolean nestedIncludeInRoot = false;
   Object fieldNode = node.get("type");
   if (fieldNode != null) {
     String type = fieldNode.toString();
     if (type.equals(CONTENT_TYPE)) {
       builder.nested = Nested.NO;
     } else if (type.equals(NESTED_CONTENT_TYPE)) {
       nested = true;
     } else {
       throw new MapperParsingException(
           "Trying to parse an object but has a different type ["
               + type
               + "] for ["
               + name
               + "]");
     }
   }
   fieldNode = node.get("include_in_parent");
   if (fieldNode != null) {
     nestedIncludeInParent = nodeBooleanValue(fieldNode);
   }
   fieldNode = node.get("include_in_root");
   if (fieldNode != null) {
     nestedIncludeInRoot = nodeBooleanValue(fieldNode);
   }
   if (nested) {
     builder.nested = Nested.newNested(nestedIncludeInParent, nestedIncludeInRoot);
   }
 }
Esempio n. 2
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    @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;
    }
Esempio n. 3
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    @Override
    public Mapper.Builder parse(String name, Map<String, Object> node, ParserContext parserContext)
        throws MapperParsingException {
      Map<String, Object> objectNode = node;
      ObjectMapper.Builder builder = createBuilder(name);

      boolean nested = false;
      boolean nestedIncludeInParent = false;
      boolean nestedIncludeInRoot = false;
      for (Map.Entry<String, Object> entry : objectNode.entrySet()) {
        String fieldName = Strings.toUnderscoreCase(entry.getKey());
        Object fieldNode = entry.getValue();

        if (fieldName.equals("dynamic")) {
          String value = fieldNode.toString();
          if (value.equalsIgnoreCase("strict")) {
            builder.dynamic(Dynamic.STRICT);
          } else {
            builder.dynamic(nodeBooleanValue(fieldNode) ? Dynamic.TRUE : Dynamic.FALSE);
          }
        } else if (fieldName.equals("type")) {
          String type = fieldNode.toString();
          if (type.equals(CONTENT_TYPE)) {
            builder.nested = Nested.NO;
          } else if (type.equals(NESTED_CONTENT_TYPE)) {
            nested = true;
          } else {
            throw new MapperParsingException(
                "Trying to parse an object but has a different type ["
                    + type
                    + "] for ["
                    + name
                    + "]");
          }
        } else if (fieldName.equals("include_in_parent")) {
          nestedIncludeInParent = nodeBooleanValue(fieldNode);
        } else if (fieldName.equals("include_in_root")) {
          nestedIncludeInRoot = nodeBooleanValue(fieldNode);
        } else if (fieldName.equals("enabled")) {
          builder.enabled(nodeBooleanValue(fieldNode));
        } else if (fieldName.equals("path")) {
          builder.pathType(parsePathType(name, fieldNode.toString()));
        } else if (fieldName.equals("properties")) {
          parseProperties(builder, (Map<String, Object>) fieldNode, parserContext);
        } else if (fieldName.equals("include_in_all")) {
          builder.includeInAll(nodeBooleanValue(fieldNode));
        } else {
          processField(builder, fieldName, fieldNode);
        }
      }

      if (nested) {
        builder.nested = Nested.newNested(nestedIncludeInParent, nestedIncludeInRoot);
      }

      return builder;
    }
Esempio n. 4
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 @Override
 public void run() {
   OntologyHelper helper = helpers.get(threadKey);
   if (helper != null) {
     // Check if the last call time was longer ago than the maximum
     if (System.currentTimeMillis() - DELETE_CHECK_DELAY_MS > helper.getLastCallTime()) {
       // Assume helper is out of use - dispose of it to allow memory to be freed
       helper.dispose();
       helpers.remove(threadKey);
     }
   }
 }
 private Analyzer getAnalyzerAtField(
     String field, @Nullable Map<String, String> perFieldAnalyzer) {
   MapperService mapperService = indexShard.mapperService();
   Analyzer analyzer;
   if (perFieldAnalyzer != null && perFieldAnalyzer.containsKey(field)) {
     analyzer = mapperService.analysisService().analyzer(perFieldAnalyzer.get(field).toString());
   } else {
     analyzer = mapperService.smartNameFieldMapper(field).indexAnalyzer();
   }
   if (analyzer == null) {
     analyzer = mapperService.analysisService().defaultIndexAnalyzer();
   }
   return analyzer;
 }
Esempio n. 6
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 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;
 }
Esempio n. 7
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  public static OntologyHelper getHelper(OntologySettings settings, ThreadPool threadPool)
      throws OntologyHelperException {
    String helperKey = buildHelperKey(settings);
    OntologyHelper helper = helpers.get(helperKey);

    if (helper == null) {
      helper = new ElasticOntologyHelperFactory(settings).buildOntologyHelper();
      OntologyCheckRunnable checker = new OntologyCheckRunnable(helperKey);
      threadPool.scheduleWithFixedDelay(checker, TimeValue.timeValueMillis(DELETE_CHECK_DELAY_MS));
      helpers.put(helperKey, helper);
      helper.updateLastCallTime();
    }

    return helper;
  }
Esempio n. 8
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    @Override
    public OntologyMapper build(BuilderContext context) {
      ContentPath.Type origPathType = context.path().pathType();
      context.path().pathType(pathType);

      Map<String, FieldMapper<String>> fieldMappers = Maps.newHashMap();

      context.path().add(name);

      if (propertyBuilders != null) {
        for (String property : propertyBuilders.keySet()) {
          StringFieldMapper sfm = propertyBuilders.get(property).build(context);
          fieldMappers.put(sfm.names().indexName(), sfm);
        }
      }

      // Initialise field mappers for the pre-defined fields
      for (FieldMappings mapping : ontologySettings.getFieldMappings()) {
        if (!fieldMappers.containsKey(context.path().fullPathAsText(mapping.getFieldName()))) {
          StringFieldMapper mapper =
              MapperBuilders.stringField(mapping.getFieldName())
                  .store(true)
                  .index(true)
                  .tokenized(!mapping.isUriField())
                  .build(context);
          fieldMappers.put(mapper.names().indexName(), mapper);
        }
      }

      context.path().remove(); // remove name
      context.path().pathType(origPathType);

      return new OntologyMapper(
          buildNames(context),
          fieldType,
          docValues,
          indexAnalyzer,
          searchAnalyzer,
          postingsProvider,
          docValuesProvider,
          similarity,
          fieldDataSettings,
          context.indexSettings(),
          new MultiFields.Builder().build(this, context),
          ontologySettings,
          fieldMappers,
          threadPool);
    }
Esempio n. 9
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    private Map<String, StringFieldMapper.Builder> parseProperties(
        Map<String, Object> propertiesNode, ParserContext parserContext) {
      Map<String, StringFieldMapper.Builder> propertyMap = new HashMap<>();
      for (Iterator<Map.Entry<String, Object>> iterator = propertiesNode.entrySet().iterator();
          iterator.hasNext(); ) {
        Entry<String, Object> entry = iterator.next();
        String name = entry.getKey();

        @SuppressWarnings("unchecked")
        Mapper.Builder builder =
            new StringFieldMapper.TypeParser()
                .parse(entry.getKey(), (Map<String, Object>) entry.getValue(), parserContext);
        propertyMap.put(name, (StringFieldMapper.Builder) builder);
      }
      return propertyMap;
    }
 private Set<String> getFieldsToGenerate(
     Map<String, String> perAnalyzerField, Fields fieldsObject) {
   Set<String> selectedFields = new HashSet<>();
   for (String fieldName : fieldsObject) {
     if (perAnalyzerField.containsKey(fieldName)) {
       selectedFields.add(fieldName);
     }
   }
   return selectedFields;
 }
 @Override
 public Mapper.Builder parse(String name, Map<String, Object> node, ParserContext parserContext)
     throws MapperParsingException {
   ObjectMapper.Builder builder = createBuilder(name);
   for (Map.Entry<String, Object> entry : node.entrySet()) {
     String fieldName = Strings.toUnderscoreCase(entry.getKey());
     Object fieldNode = entry.getValue();
     parseObjectOrDocumentTypeProperties(fieldName, fieldNode, parserContext, builder);
     parseObjectProperties(name, fieldName, fieldNode, builder);
   }
   parseNested(name, node, builder);
   return builder;
 }
Esempio n. 12
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    private Mapper.Builder<?, ?> findMapperBuilder(
        Map<String, Object> propNode, String propName, ParserContext parserContext) {
      String type;
      Object typeNode = propNode.get("type");
      if (typeNode != null) {
        type = typeNode.toString();
      } else {
        type = "string";
      }
      Mapper.TypeParser typeParser = parserContext.typeParser(type);
      Mapper.Builder<?, ?> mapperBuilder =
          typeParser.parse(propName, (Map<String, Object>) propNode, parserContext);

      return mapperBuilder;
    }
Esempio n. 13
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    @Override
    public Mapper.Builder parse(String name, Map<String, Object> node, ParserContext parserContext)
        throws MapperParsingException {

      ObjectMapper.Builder builder = createBuilder(name);
      Iterator<Map.Entry<String, Object>> iterator = node.entrySet().iterator();
      while (iterator.hasNext()) {
        Map.Entry<String, Object> entry = iterator.next();
        String fieldName = Strings.toUnderscoreCase(entry.getKey());
        Object fieldNode = entry.getValue();
        if (parseObjectOrDocumentTypeProperties(fieldName, fieldNode, parserContext, builder)
            || processField(builder, fieldName, fieldNode)) {
          iterator.remove();
        }
      }
      return builder;
    }
    protected static void parseProperties(
        ObjectMapper.Builder objBuilder,
        Map<String, Object> propsNode,
        ParserContext parserContext) {
      for (Map.Entry<String, Object> entry : propsNode.entrySet()) {
        String propName = entry.getKey();
        // Should accept empty arrays, as a work around for when the user can't provide an empty
        // Map. (PHP for example)
        boolean isEmptyList =
            entry.getValue() instanceof List && ((List<?>) entry.getValue()).isEmpty();

        if (entry.getValue() instanceof Map) {
          @SuppressWarnings("unchecked")
          Map<String, Object> propNode = (Map<String, Object>) entry.getValue();
          String type;
          Object typeNode = propNode.get("type");
          if (typeNode != null) {
            type = typeNode.toString();
          } else {
            // lets see if we can derive this...
            if (propNode.get("properties") != null) {
              type = ObjectMapper.CONTENT_TYPE;
            } else if (propNode.size() == 1 && propNode.get("enabled") != null) {
              // if there is a single property with the enabled flag on it, make it an object
              // (usually, setting enabled to false to not index any type, including core values,
              // which
              // non enabled object type supports).
              type = ObjectMapper.CONTENT_TYPE;
            } else {
              throw new MapperParsingException("No type specified for property [" + propName + "]");
            }
          }

          Mapper.TypeParser typeParser = parserContext.typeParser(type);
          if (typeParser == null) {
            throw new MapperParsingException(
                "No handler for type [" + type + "] declared on field [" + propName + "]");
          }
          objBuilder.add(typeParser.parse(propName, propNode, parserContext));
        } else if (!isEmptyList) {
          throw new MapperParsingException(
              "Expected map for property [fields] on field ["
                  + propName
                  + "] but got a "
                  + propName.getClass());
        }
      }
    }
Esempio n. 15
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    /**
     * Parse the mapping definition for the ontology type.
     *
     * @param name the field name
     * @param node the JSON node holding the mapping definitions.
     * @param parserContext the parser context object.
     * @return a Builder for an OntologyMapper.
     */
    @SuppressWarnings("unchecked")
    @Override
    public Builder parse(String name, Map<String, Object> node, ParserContext parserContext)
        throws MapperParsingException {
      OntologySettings ontologySettings = null;

      Builder builder = new Builder(name, threadPool);

      for (Iterator<Map.Entry<String, Object>> iterator = node.entrySet().iterator();
          iterator.hasNext(); ) {
        Entry<String, Object> entry = iterator.next();
        if (entry.getKey().equals(OntologySettings.ONTOLOGY_SETTINGS_KEY)) {
          ontologySettings =
              new OntologySettingsBuilder()
                  .settingsNode((Map<String, Object>) entry.getValue())
                  .build();
          iterator.remove();
        } else if (entry.getKey().equals(ONTOLOGY_PROPERTIES)) {
          Map<String, StringFieldMapper.Builder> builders =
              parseProperties((Map<String, Object>) entry.getValue(), parserContext);
          builder.propertyBuilders(builders);
          iterator.remove();
        }
      }

      if (ontologySettings == null) {
        throw new MapperParsingException("No ontology settings supplied");
      } else if (StringUtils.isBlank(ontologySettings.getOntologyUri())
          && StringUtils.isBlank(ontologySettings.getOlsBaseUrl())) {
        throw new MapperParsingException("No ontology URI or OLS details supplied");
      } else {
        builder = builder.ontologySettings(ontologySettings);
      }

      return builder;
    }
Esempio n. 16
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    private void parseProperties(
        ObjectMapper.Builder objBuilder,
        Map<String, Object> propsNode,
        ParserContext parserContext) {
      for (Map.Entry<String, Object> entry : propsNode.entrySet()) {
        String propName = entry.getKey();
        Map<String, Object> propNode = (Map<String, Object>) entry.getValue();

        String type;
        Object typeNode = propNode.get("type");
        if (typeNode != null) {
          type = typeNode.toString();
        } else {
          // lets see if we can derive this...
          if (propNode.get("properties") != null) {
            type = ObjectMapper.CONTENT_TYPE;
          } else if (propNode.get("fields") != null) {
            type = MultiFieldMapper.CONTENT_TYPE;
          } else if (propNode.size() == 1 && propNode.get("enabled") != null) {
            // if there is a single property with the enabled flag on it, make it an object
            // (usually, setting enabled to false to not index any type, including core values,
            // which
            // non enabled object type supports).
            type = ObjectMapper.CONTENT_TYPE;
          } else {
            throw new MapperParsingException("No type specified for property [" + propName + "]");
          }
        }

        Mapper.TypeParser typeParser = parserContext.typeParser(type);
        if (typeParser == null) {
          throw new MapperParsingException(
              "No handler for type [" + type + "] declared on field [" + propName + "]");
        }
        objBuilder.add(typeParser.parse(propName, propNode, parserContext));
      }
    }
 @Override
 public Iterator<String> iterator() {
   return Collections.unmodifiableSet(fields.keySet()).iterator();
 }
 void addField(String fieldName, Terms terms) {
   fields.put(fieldName, terms);
 }
 @Override
 public Terms terms(String field) {
   return fields.get(field);
 }
Esempio n. 20
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    @SuppressWarnings({"unchecked"})
    @Override
    public Mapper.Builder parse(String name, Map<String, Object> node, ParserContext parserContext)
        throws MapperParsingException {
      AttachmentMapper.Builder builder = new AttachmentMapper.Builder(name);

      for (Iterator<Map.Entry<String, Object>> iterator = node.entrySet().iterator();
          iterator.hasNext(); ) {
        Map.Entry<String, Object> entry = iterator.next();
        String fieldName = entry.getKey();
        Object fieldNode = entry.getValue();
        if (fieldName.equals("path")
            && parserContext.indexVersionCreated().before(Version.V_2_0_0_beta1)) {
          builder.pathType(parsePathType(name, fieldNode.toString()));
          iterator.remove();
        } else if (fieldName.equals("fields")) {
          Map<String, Object> fieldsNode = (Map<String, Object>) fieldNode;
          for (Iterator<Map.Entry<String, Object>> fieldsIterator =
                  fieldsNode.entrySet().iterator();
              fieldsIterator.hasNext(); ) {
            Map.Entry<String, Object> entry1 = fieldsIterator.next();
            String propName = entry1.getKey();
            Map<String, Object> propNode = (Map<String, Object>) entry1.getValue();

            Mapper.Builder<?, ?> mapperBuilder =
                findMapperBuilder(propNode, propName, parserContext);
            if (parseMultiField(
                (FieldMapper.Builder) mapperBuilder,
                fieldName,
                parserContext,
                propName,
                propNode)) {
              fieldsIterator.remove();
            } else if (propName.equals(name)
                && parserContext.indexVersionCreated().before(Version.V_2_0_0_beta1)) {
              builder.content(mapperBuilder);
              fieldsIterator.remove();
            } else {
              switch (propName) {
                case FieldNames.CONTENT:
                  builder.content(mapperBuilder);
                  fieldsIterator.remove();
                  break;
                case FieldNames.DATE:
                  builder.date(mapperBuilder);
                  fieldsIterator.remove();
                  break;
                case FieldNames.AUTHOR:
                  builder.author(mapperBuilder);
                  fieldsIterator.remove();
                  break;
                case FieldNames.CONTENT_LENGTH:
                  builder.contentLength(mapperBuilder);
                  fieldsIterator.remove();
                  break;
                case FieldNames.CONTENT_TYPE:
                  builder.contentType(mapperBuilder);
                  fieldsIterator.remove();
                  break;
                case FieldNames.KEYWORDS:
                  builder.keywords(mapperBuilder);
                  fieldsIterator.remove();
                  break;
                case FieldNames.LANGUAGE:
                  builder.language(mapperBuilder);
                  fieldsIterator.remove();
                  break;
                case FieldNames.TITLE:
                  builder.title(mapperBuilder);
                  fieldsIterator.remove();
                  break;
                case FieldNames.NAME:
                  builder.name(mapperBuilder);
                  fieldsIterator.remove();
                  break;
              }
            }
          }
          DocumentMapperParser.checkNoRemainingFields(
              fieldName, fieldsNode, parserContext.indexVersionCreated());
          iterator.remove();
        }
      }

      return builder;
    }
 @Override
 public int size() {
   return fields.size();
 }