Esempio n. 1
0
 /** Collects all the StarTree leaves that match the provided dimension values */
 private void findMatchingLeaves(
     StarTreeIndexNode node, List<Integer> values, Set<StarTreeIndexNode> leaves) {
   if (node.isLeaf()) {
     leaves.add(node);
   } else {
     Integer value = values.get(node.getChildDimensionName());
     findMatchingLeaves(node.getChildren().get(value), values, leaves);
     findMatchingLeaves(node.getChildren().get(StarTreeIndexNode.all()), values, leaves);
   }
 }
Esempio n. 2
0
  /**
   * Returns the unique metric values for each column.
   *
   * <p>The original unique values cannot be used because after aggregation, we almost certainly
   * have new values to encode that were not present in the original data set.
   */
  private Map<String, Set<Object>> computeUniqueMetricValues() {
    Map<String, Set<Object>> uniqueMetricValues = new HashMap<String, Set<Object>>();

    Iterator<StarTreeTableRow> tableIterator = starTreeBuilder.getTable().getAllCombinations();
    while (tableIterator.hasNext()) {
      StarTreeTableRow row = tableIterator.next();

      for (int i = 0; i < schema.getMetricNames().size(); i++) {
        String metricName = schema.getMetricNames().get(i);
        Object metricValue = row.getMetrics().get(i);
        Set<Object> uniqueValues = uniqueMetricValues.get(metricName);
        if (uniqueValues == null) {
          uniqueValues = new HashSet<Object>();
          uniqueMetricValues.put(metricName, uniqueValues);
        }
        uniqueValues.add(metricValue);
      }
    }

    return uniqueMetricValues;
  }
Esempio n. 3
0
  @Override
  public void indexRow(GenericRow row) {
    // Find matching leaves in StarTree for row
    currentMatchingNodes.clear();
    StarTreeTableRow tableRow = extractValues(row);
    findMatchingLeaves(starTreeBuilder.getTree(), tableRow.getDimensions(), currentMatchingNodes);

    // Only write the raw value, maintaining sort order (we will write aggregates when sealing)
    for (StarTreeIndexNode node : currentMatchingNodes) {
      Map<Integer, Integer> pathValues = node.getPathValues();
      if (!pathValues.containsValue(StarTreeIndexNode.all())) {
        StarTreeTableRange range = starTreeBuilder.getDocumentIdRange(node.getNodeId());
        StarTreeTable subTable =
            starTreeBuilder.getTable().view(range.getStartDocumentId(), range.getDocumentCount());

        Integer nextMatchingDocumentId =
            starTreeBuilder.getNextDocumentId(tableRow.getDimensions());
        if (nextMatchingDocumentId == null) {
          throw new IllegalStateException("Could not assign document ID for row " + tableRow);
        }

        // Write using that document ID to all columns
        for (final String column : dictionaryCreatorMap.keySet()) {
          Object columnValueToIndex = row.getValue(column);
          if (schema.getFieldSpecFor(column).isSingleValueField()) {
            System.out.println(column + ": " + columnValueToIndex);
            int dictionaryIndex = dictionaryCreatorMap.get(column).indexOfSV(columnValueToIndex);
            ((SingleValueForwardIndexCreator) forwardIndexCreatorMap.get(column))
                .index(nextMatchingDocumentId, dictionaryIndex);
            if (config.createInvertedIndexEnabled()) {
              invertedIndexCreatorMap
                  .get(column)
                  .add(nextMatchingDocumentId, (Object) dictionaryIndex);
            }
          } else {
            int[] dictionaryIndex = dictionaryCreatorMap.get(column).indexOfMV(columnValueToIndex);
            ((MultiValueForwardIndexCreator) forwardIndexCreatorMap.get(column))
                .index(nextMatchingDocumentId, dictionaryIndex);
            if (config.createInvertedIndexEnabled()) {
              invertedIndexCreatorMap.get(column).add(nextMatchingDocumentId, dictionaryIndex);
            }
          }
        }
      }
    }
  }