@Override
  public FacetExecutor parse(String facetName, XContentParser parser, SearchContext context)
      throws IOException {
    String field = null;
    int size = 10;
    int shardSize = -1;

    String[] fieldsNames = null;
    ImmutableSet<BytesRef> excluded = ImmutableSet.of();
    String regex = null;
    String regexFlags = null;
    TermsFacet.ComparatorType comparatorType = TermsFacet.ComparatorType.COUNT;
    String scriptLang = null;
    String script = null;
    ScriptService.ScriptType scriptType = null;
    Map<String, Object> params = null;
    boolean allTerms = false;
    String executionHint = null;

    String currentFieldName = null;
    XContentParser.Token token;
    while ((token = parser.nextToken()) != XContentParser.Token.END_OBJECT) {
      if (token == XContentParser.Token.FIELD_NAME) {
        currentFieldName = parser.currentName();
      } else if (token == XContentParser.Token.START_OBJECT) {
        if ("params".equals(currentFieldName)) {
          params = parser.map();
        } else {
          throw new ElasticsearchParseException(
              "unknown parameter ["
                  + currentFieldName
                  + "] while parsing terms facet ["
                  + facetName
                  + "]");
        }
      } else if (token == XContentParser.Token.START_ARRAY) {
        if ("exclude".equals(currentFieldName)) {
          ImmutableSet.Builder<BytesRef> builder = ImmutableSet.builder();
          while ((token = parser.nextToken()) != XContentParser.Token.END_ARRAY) {
            builder.add(parser.bytes());
          }
          excluded = builder.build();
        } else if ("fields".equals(currentFieldName)) {
          List<String> fields = Lists.newArrayListWithCapacity(4);
          while ((token = parser.nextToken()) != XContentParser.Token.END_ARRAY) {
            fields.add(parser.text());
          }
          fieldsNames = fields.toArray(new String[fields.size()]);
        } else {
          throw new ElasticsearchParseException(
              "unknown parameter ["
                  + currentFieldName
                  + "] while parsing terms facet ["
                  + facetName
                  + "]");
        }
      } else if (token.isValue()) {
        if ("field".equals(currentFieldName)) {
          field = parser.text();
        } else if (ScriptService.SCRIPT_INLINE.match(currentFieldName)) {
          script = parser.text();
          scriptType = ScriptService.ScriptType.INLINE;
        } else if (ScriptService.SCRIPT_ID.match(currentFieldName)) {
          script = parser.text();
          scriptType = ScriptService.ScriptType.INDEXED;
        } else if (ScriptService.SCRIPT_FILE.match(currentFieldName)) {
          script = parser.text();
          scriptType = ScriptService.ScriptType.FILE;
        } else if (ScriptService.SCRIPT_LANG.match(currentFieldName)) {
          scriptLang = parser.text();
        } else if ("size".equals(currentFieldName)) {
          size = parser.intValue();
        } else if ("shard_size".equals(currentFieldName) || "shardSize".equals(currentFieldName)) {
          shardSize = parser.intValue();
        } else if ("all_terms".equals(currentFieldName) || "allTerms".equals(currentFieldName)) {
          allTerms = parser.booleanValue();
        } else if ("regex".equals(currentFieldName)) {
          regex = parser.text();
        } else if ("regex_flags".equals(currentFieldName)
            || "regexFlags".equals(currentFieldName)) {
          regexFlags = parser.text();
        } else if ("order".equals(currentFieldName) || "comparator".equals(currentFieldName)) {
          comparatorType = TermsFacet.ComparatorType.fromString(parser.text());
        } else if ("execution_hint".equals(currentFieldName)
            || "executionHint".equals(currentFieldName)) {
          executionHint = parser.textOrNull();
        } else {
          throw new ElasticsearchParseException(
              "unknown parameter ["
                  + currentFieldName
                  + "] while parsing terms facet ["
                  + facetName
                  + "]");
        }
      }
    }

    if (fieldsNames != null && fieldsNames.length == 1) {
      field = fieldsNames[0];
      fieldsNames = null;
    }

    Pattern pattern = null;
    if (regex != null) {
      pattern = Regex.compile(regex, regexFlags);
    }

    SearchScript searchScript = null;
    if (script != null) {
      searchScript =
          context.scriptService().search(context.lookup(), scriptLang, script, scriptType, params);
    }

    // shard_size cannot be smaller than size as we need to at least fetch <size> entries from every
    // shards in order to return <size>
    if (shardSize < size) {
      shardSize = size;
    }

    if (fieldsNames != null) {

      // in case of multi files, we only collect the fields that are mapped and facet on them.
      ArrayList<FieldMapper> mappers = new ArrayList<>(fieldsNames.length);
      for (int i = 0; i < fieldsNames.length; i++) {
        FieldMapper mapper = context.smartNameFieldMapper(fieldsNames[i]);
        if (mapper != null) {
          mappers.add(mapper);
        }
      }
      if (mappers.isEmpty()) {
        // non of the fields is mapped
        return new UnmappedFieldExecutor(size, comparatorType);
      }
      return new FieldsTermsStringFacetExecutor(
          mappers.toArray(new FieldMapper[mappers.size()]),
          size,
          shardSize,
          comparatorType,
          allTerms,
          context,
          excluded,
          pattern,
          searchScript);
    }
    if (field == null && script != null) {
      return new ScriptTermsStringFieldFacetExecutor(
          size,
          shardSize,
          comparatorType,
          context,
          excluded,
          pattern,
          scriptLang,
          script,
          scriptType,
          params,
          context.cacheRecycler());
    }

    if (field == null) {
      throw new ElasticsearchParseException(
          "terms facet [" + facetName + "] must have a field, fields or script parameter");
    }

    FieldMapper fieldMapper = context.smartNameFieldMapper(field);
    if (fieldMapper == null) {
      return new UnmappedFieldExecutor(size, comparatorType);
    }

    IndexFieldData indexFieldData = context.fieldData().getForField(fieldMapper);
    if (indexFieldData instanceof IndexNumericFieldData) {
      IndexNumericFieldData indexNumericFieldData = (IndexNumericFieldData) indexFieldData;
      if (indexNumericFieldData.getNumericType().isFloatingPoint()) {
        return new TermsDoubleFacetExecutor(
            indexNumericFieldData,
            size,
            shardSize,
            comparatorType,
            allTerms,
            context,
            excluded,
            searchScript,
            context.cacheRecycler());
      } else {
        return new TermsLongFacetExecutor(
            indexNumericFieldData,
            size,
            shardSize,
            comparatorType,
            allTerms,
            context,
            excluded,
            searchScript,
            context.cacheRecycler());
      }
    } else {
      if (script != null || "map".equals(executionHint)) {
        return new TermsStringFacetExecutor(
            indexFieldData,
            size,
            shardSize,
            comparatorType,
            allTerms,
            context,
            excluded,
            pattern,
            searchScript);
      } else if (indexFieldData instanceof IndexOrdinalsFieldData) {
        return new TermsStringOrdinalsFacetExecutor(
            (IndexOrdinalsFieldData) indexFieldData,
            size,
            shardSize,
            comparatorType,
            allTerms,
            context,
            excluded,
            pattern,
            ordinalsCacheAbove);
      } else {
        return new TermsStringFacetExecutor(
            indexFieldData,
            size,
            shardSize,
            comparatorType,
            allTerms,
            context,
            excluded,
            pattern,
            searchScript);
      }
    }
  }
 public FloatValuesComparator(
     IndexNumericFieldData<?> indexFieldData, float missingValue, int numHits, SortMode sortMode) {
   super(indexFieldData, missingValue, sortMode);
   assert indexFieldData.getNumericType().requiredBits() <= 32;
   this.values = new float[numHits];
 }