private PrimitiveConverter getPrimitiveConverter(ColumnDescriptor path) { Type currentType = schema; Converter currentConverter = recordConverter; for (String fieldName : path.getPath()) { final GroupType groupType = currentType.asGroupType(); int fieldIndex = groupType.getFieldIndex(fieldName); currentType = groupType.getType(fieldName); currentConverter = currentConverter.asGroupConverter().getConverter(fieldIndex); } PrimitiveConverter converter = currentConverter.asPrimitiveConverter(); return converter; }
@Override public void setup(OperatorContext operatorContext, OutputMutator output) throws ExecutionSetupException { this.operatorContext = operatorContext; if (!isStarQuery()) { columnsFound = new boolean[getColumns().size()]; nullFilledVectors = new ArrayList<>(); } columnStatuses = new ArrayList<>(); // totalRecords = footer.getBlocks().get(rowGroupIndex).getRowCount(); List<ColumnDescriptor> columns = footer.getFileMetaData().getSchema().getColumns(); allFieldsFixedLength = true; ColumnDescriptor column; ColumnChunkMetaData columnChunkMetaData; int columnsToScan = 0; mockRecordsRead = 0; MaterializedField field; // ParquetMetadataConverter metaConverter = new ParquetMetadataConverter(); FileMetaData fileMetaData; logger.debug( "Reading row group({}) with {} records in file {}.", rowGroupIndex, footer.getBlocks().get(rowGroupIndex).getRowCount(), hadoopPath.toUri().getPath()); totalRecordsRead = 0; // TODO - figure out how to deal with this better once we add nested reading, note also look // where this map is used below // store a map from column name to converted types if they are non-null Map<String, SchemaElement> schemaElements = ParquetReaderUtility.getColNameToSchemaElementMapping(footer); // loop to add up the length of the fixed width columns and build the schema for (int i = 0; i < columns.size(); ++i) { column = columns.get(i); SchemaElement se = schemaElements.get(column.getPath()[0]); MajorType mt = ParquetToDrillTypeConverter.toMajorType( column.getType(), se.getType_length(), getDataMode(column), se, fragmentContext.getOptions()); field = MaterializedField.create(toFieldName(column.getPath()), mt); if (!fieldSelected(field)) { continue; } columnsToScan++; int dataTypeLength = getDataTypeLength(column, se); if (dataTypeLength == -1) { allFieldsFixedLength = false; } else { bitWidthAllFixedFields += dataTypeLength; } } // rowGroupOffset = // footer.getBlocks().get(rowGroupIndex).getColumns().get(0).getFirstDataPageOffset(); if (columnsToScan != 0 && allFieldsFixedLength) { recordsPerBatch = (int) Math.min( Math.min( batchSize / bitWidthAllFixedFields, footer.getBlocks().get(0).getColumns().get(0).getValueCount()), 65535); } else { recordsPerBatch = DEFAULT_RECORDS_TO_READ_IF_NOT_FIXED_WIDTH; } try { ValueVector vector; SchemaElement schemaElement; final ArrayList<VarLengthColumn<? extends ValueVector>> varLengthColumns = new ArrayList<>(); // initialize all of the column read status objects boolean fieldFixedLength; // the column chunk meta-data is not guaranteed to be in the same order as the columns in the // schema // a map is constructed for fast access to the correct columnChunkMetadata to correspond // to an element in the schema Map<String, Integer> columnChunkMetadataPositionsInList = new HashMap<>(); BlockMetaData rowGroupMetadata = footer.getBlocks().get(rowGroupIndex); int colChunkIndex = 0; for (ColumnChunkMetaData colChunk : rowGroupMetadata.getColumns()) { columnChunkMetadataPositionsInList.put( Arrays.toString(colChunk.getPath().toArray()), colChunkIndex); colChunkIndex++; } for (int i = 0; i < columns.size(); ++i) { column = columns.get(i); columnChunkMetaData = rowGroupMetadata .getColumns() .get(columnChunkMetadataPositionsInList.get(Arrays.toString(column.getPath()))); schemaElement = schemaElements.get(column.getPath()[0]); MajorType type = ParquetToDrillTypeConverter.toMajorType( column.getType(), schemaElement.getType_length(), getDataMode(column), schemaElement, fragmentContext.getOptions()); field = MaterializedField.create(toFieldName(column.getPath()), type); // the field was not requested to be read if (!fieldSelected(field)) { continue; } fieldFixedLength = column.getType() != PrimitiveType.PrimitiveTypeName.BINARY; vector = output.addField( field, (Class<? extends ValueVector>) TypeHelper.getValueVectorClass(type.getMinorType(), type.getMode())); if (column.getType() != PrimitiveType.PrimitiveTypeName.BINARY) { if (column.getMaxRepetitionLevel() > 0) { final RepeatedValueVector repeatedVector = RepeatedValueVector.class.cast(vector); ColumnReader<?> dataReader = ColumnReaderFactory.createFixedColumnReader( this, fieldFixedLength, column, columnChunkMetaData, recordsPerBatch, repeatedVector.getDataVector(), schemaElement); varLengthColumns.add( new FixedWidthRepeatedReader( this, dataReader, getTypeLengthInBits(column.getType()), -1, column, columnChunkMetaData, false, repeatedVector, schemaElement)); } else { columnStatuses.add( ColumnReaderFactory.createFixedColumnReader( this, fieldFixedLength, column, columnChunkMetaData, recordsPerBatch, vector, schemaElement)); } } else { // create a reader and add it to the appropriate list varLengthColumns.add( ColumnReaderFactory.getReader( this, -1, column, columnChunkMetaData, false, vector, schemaElement)); } } varLengthReader = new VarLenBinaryReader(this, varLengthColumns); if (!isStarQuery()) { List<SchemaPath> projectedColumns = Lists.newArrayList(getColumns()); SchemaPath col; for (int i = 0; i < columnsFound.length; i++) { col = projectedColumns.get(i); assert col != null; if (!columnsFound[i] && !col.equals(STAR_COLUMN)) { nullFilledVectors.add( (NullableIntVector) output.addField( MaterializedField.create( col.getAsUnescapedPath(), Types.optional(TypeProtos.MinorType.INT)), (Class<? extends ValueVector>) TypeHelper.getValueVectorClass( TypeProtos.MinorType.INT, DataMode.OPTIONAL))); } } } } catch (Exception e) { handleAndRaise("Failure in setting up reader", e); } }