import { assembleObjects } from './assemble.js' import { convert } from './convert.js' import { readDataPage, readDictionaryPage } from './datapage.js' import { readDataPageV2 } from './datapageV2.js' import { parquetHeader } from './header.js' import { getMaxDefinitionLevel, getMaxRepetitionLevel, isRequired } from './schema.js' import { snappyUncompress } from './snappy.js' import { concat } from './utils.js' /** * @typedef {import('./types.js').SchemaTree} SchemaTree * @typedef {import('./types.js').ColumnMetaData} ColumnMetaData * @typedef {import('./types.js').Compressors} Compressors * @typedef {import('./types.js').RowGroup} RowGroup */ /** * Parse column data from a buffer. * * @param {ArrayBuffer} arrayBuffer parquet file contents * @param {number} columnOffset offset to start reading from * @param {RowGroup} rowGroup row group metadata * @param {ColumnMetaData} columnMetadata column metadata * @param {SchemaTree[]} schemaPath schema path for the column * @param {Compressors} [compressors] custom decompressors * @returns {any[]} array of values */ export function readColumn(arrayBuffer, columnOffset, rowGroup, columnMetadata, schemaPath, compressors) { /** @type {ArrayLike | undefined} */ let dictionary = undefined let valuesSeen = 0 /** @type {any[]} */ const rowData = [] const { element } = schemaPath[schemaPath.length - 1] // column reader: const reader = { view: new DataView(arrayBuffer, columnOffset), offset: 0 } while (valuesSeen < rowGroup.num_rows) { // parse column header const header = parquetHeader(reader) if (header.compressed_page_size === undefined) { throw new Error(`parquet compressed page size is undefined in column '${columnMetadata.path_in_schema}'`) } // read compressed_page_size bytes starting at offset const compressedBytes = new Uint8Array( arrayBuffer, columnOffset + reader.offset, header.compressed_page_size ) // parse page data by type /** @type {DecodedArray} */ let values if (header.type === 'DATA_PAGE') { const daph = header.data_page_header if (!daph) throw new Error('parquet data page header is undefined') const page = decompressPage( compressedBytes, Number(header.uncompressed_page_size), columnMetadata.codec, compressors ) const { definitionLevels, repetitionLevels, dataPage } = readDataPage(page, daph, schemaPath, columnMetadata) valuesSeen += daph.num_values // assert(!daph.statistics || daph.statistics.null_count === BigInt(daph.num_values - dataPage.length)) // construct output values: skip nulls and construct lists if (repetitionLevels.length) { dereferenceDictionary(dictionary, dataPage) // Use repetition levels to construct lists const isNullable = columnMetadata && !isRequired(schemaPath.slice(0, 2)) const maxDefinitionLevel = getMaxDefinitionLevel(schemaPath) const maxRepetitionLevel = getMaxRepetitionLevel(schemaPath) // convert primitive types to rich types values = convert(dataPage, element) values = assembleObjects( definitionLevels, repetitionLevels, values, isNullable, maxDefinitionLevel, maxRepetitionLevel ) } else if (definitionLevels?.length) { const maxDefinitionLevel = getMaxDefinitionLevel(schemaPath) // Use definition levels to skip nulls values = [] skipNulls(definitionLevels, maxDefinitionLevel, dataPage, dictionary, values) values = convert(values, element) } else { dereferenceDictionary(dictionary, dataPage) values = convert(dataPage, element) } // assert(BigInt(values.length) === rowGroup.num_rows) concat(rowData, values) } else if (header.type === 'DICTIONARY_PAGE') { const diph = header.dictionary_page_header if (!diph) throw new Error('parquet dictionary page header is undefined') const page = decompressPage( compressedBytes, Number(header.uncompressed_page_size), columnMetadata.codec, compressors ) dictionary = readDictionaryPage(page, diph, columnMetadata, element.type_length) } else if (header.type === 'DATA_PAGE_V2') { const daph2 = header.data_page_header_v2 if (!daph2) throw new Error('parquet data page header v2 is undefined') const { definitionLevels, repetitionLevels, dataPage } = readDataPageV2( compressedBytes, header, schemaPath, columnMetadata, compressors ) valuesSeen += daph2.num_values const maxDefinitionLevel = getMaxDefinitionLevel(schemaPath) const maxRepetitionLevel = getMaxRepetitionLevel(schemaPath) if (repetitionLevels.length) { dereferenceDictionary(dictionary, dataPage) values = convert(dataPage, element) // Use repetition levels to construct lists values = assembleObjects( definitionLevels, repetitionLevels, values, true, maxDefinitionLevel, maxRepetitionLevel ) } else if (daph2.num_nulls) { // skip nulls if (!definitionLevels) throw new Error('parquet data page v2 nulls missing definition levels') values = [] // TODO: copy straight into rowData, combine convert into skipNulls skipNulls(definitionLevels, maxDefinitionLevel, dataPage, dictionary, values) values = convert(values, element) } else { dereferenceDictionary(dictionary, dataPage) values = convert(dataPage, element) } concat(rowData, values) } else { throw new Error(`parquet unsupported page type: ${header.type}`) } reader.offset += header.compressed_page_size } if (rowData.length !== Number(rowGroup.num_rows)) { throw new Error(`parquet row data length ${rowData.length} does not match row group length ${rowGroup.num_rows}}`) } return rowData } /** * Map data to dictionary values in place. * * @typedef {import('./types.js').DecodedArray} DecodedArray * @param {ArrayLike | undefined} dictionary * @param {DecodedArray} dataPage */ function dereferenceDictionary(dictionary, dataPage) { if (dictionary) { for (let i = 0; i < dataPage.length; i++) { dataPage[i] = dictionary[dataPage[i]] } } } /** * Find the start byte offset for a column chunk. * * @param {ColumnMetaData} columnMetadata * @returns {number} byte offset */ export function getColumnOffset(columnMetadata) { const { dictionary_page_offset, data_page_offset } = columnMetadata let columnOffset = dictionary_page_offset if (dictionary_page_offset === undefined || data_page_offset < dictionary_page_offset) { columnOffset = data_page_offset } return Number(columnOffset) } /** * @param {Uint8Array} compressedBytes * @param {number} uncompressed_page_size * @param {import('./types.js').CompressionCodec} codec * @param {Compressors | undefined} compressors * @returns {Uint8Array} */ export function decompressPage(compressedBytes, uncompressed_page_size, codec, compressors) { /** @type {Uint8Array | undefined} */ let page const customDecompressor = compressors?.[codec] if (codec === 'UNCOMPRESSED') { page = compressedBytes } else if (customDecompressor) { page = customDecompressor(compressedBytes, uncompressed_page_size) } else if (codec === 'SNAPPY') { page = new Uint8Array(uncompressed_page_size) snappyUncompress(compressedBytes, page) } else { throw new Error(`parquet unsupported compression codec: ${codec}`) } if (page?.length !== uncompressed_page_size) { throw new Error(`parquet decompressed page length ${page?.length} does not match header ${uncompressed_page_size}`) } return page } /** * Expand data page list with nulls. * * @param {number[]} definitionLevels * @param {number} maxDefinitionLevel * @param {ArrayLike} dataPage * @param {any} dictionary * @param {any[]} output */ function skipNulls(definitionLevels, maxDefinitionLevel, dataPage, dictionary, output) { if (output.length) throw new Error('parquet output array is not empty') // Use definition levels to skip nulls let index = 0 for (let i = 0; i < definitionLevels.length; i++) { if (definitionLevels[i] === maxDefinitionLevel) { if (index > dataPage.length) { throw new Error(`parquet index ${index} exceeds data page length ${dataPage.length}`) } let v = dataPage[index++] // map to dictionary value if (dictionary) { v = dictionary[v] } output[i] = v } else { output[i] = undefined } } }