WebAssembly bindings to read and write the Apache Parquet format to and from Apache Arrow using the Rust parquet and arrow crates.

This is designed to be used alongside a JavaScript Arrow implementation, such as the canonical JS Arrow library.

Including read and write support and all compression codecs, the brotli-compressed WASM bundle is 1.2 MB. Refer to custom builds for how to build a smaller bundle. A minimal read-only bundle without compression support can be as small as 456 KB brotli-compressed.

parquet-wasm is published to NPM. Install with

yarn add parquet-wasm

or

npm install parquet-wasm

Parquet-wasm has both a synchronous and asynchronous API. The sync API is simpler but requires fetching the entire Parquet buffer in advance, which is often prohibitive.

Refer to these functions:

• readParquet: Read a Parquet file synchronously.
• readSchema: Read an Arrow schema from a Parquet file synchronously.
• writeParquet: Write a Parquet file synchronously.

• readParquetStream: Create a ReadableStream that emits Arrow RecordBatches from a Parquet file.
• ParquetFile: A class for reading portions of a remote Parquet file. Use fromUrl to construct from a remote URL or fromFile to construct from a File handle. Note that when you're done using this class, you'll need to call free to release any memory held by the ParquetFile instance itself.

Both sync and async functions return or accept a Table class, an Arrow table in WebAssembly memory. Refer to its documentation for moving data into/out of WebAssembly.

The esm entry point is the primary entry point. It is the default export from parquet-wasm, and is also accessible at parquet-wasm/esm and parquet-wasm/esm/parquet_wasm.js (for symmetric imports directly from a browser).

Note that when using the esm bundles, you must manually initialize the WebAssembly module before using any APIs. Otherwise, you'll get an error TypeError: Cannot read properties of undefined. There are multiple ways to initialize the WebAssembly code:

The primary way to initialize is by awaiting the default export.

import wasmInit, {readParquet} from "parquet-wasm";

await wasmInit();

Without any parameter, this will try to fetch a file named 'parquet_wasm_bg.wasm' at the same location as parquet-wasm. (E.g. this snippet input = new URL('parquet_wasm_bg.wasm', import.meta.url);).

Note that you can also pass in a custom URL if you want to host the .wasm file on your own servers.

import wasmInit, {readParquet} from "parquet-wasm";

// Update this version to match the version you're using.
const wasmUrl = "https://cdn.jsdelivr.net/npm/parquet-wasm@0.6.0/esm/parquet_wasm_bg.wasm";
await wasmInit(wasmUrl);

The initSync named export allows for

import {initSync, readParquet} from "parquet-wasm";

// The contents of esm/parquet_wasm_bg.wasm in an ArrayBuffer
const wasmBuffer = new ArrayBuffer(...);

// Initialize the Wasm synchronously
initSync(wasmBuffer)

Async initialization should be preferred over downloading the Wasm buffer and then initializing it synchronously, as WebAssembly.instantiateStreaming is the most efficient way to both download and initialize Wasm code.

The bundler entry point doesn't require manual initialization of the WebAssembly blob, but needs setup with whatever bundler you're using. Refer to the Rust Wasm documentation for more info.

The node entry point can be loaded synchronously from Node.

const {readParquet} = require("parquet-wasm");

const wasmTable = readParquet(...);

You can load the esm/parquet_wasm.js file directly from a CDN

const parquet = await import(
  "https://cdn.jsdelivr.net/npm/parquet-wasm@0.6.0/esm/parquet_wasm.js"
)
await parquet.default();

const wasmTable = parquet.readParquet(...);

These functions are not present in normal builds to cut down on bundle size. To create a custom build, see Custom Builds below.

setPanicHook(): void

Sets console_error_panic_hook in Rust, which provides better debugging of panics by having more informative console.error messages. Initialize this first if you're getting errors such as RuntimeError: Unreachable executed.

The WASM bundle must be compiled with the console_error_panic_hook feature for this function to exist.

import * as arrow from "apache-arrow";
import initWasm, {
  Compression,
  readParquet,
  Table,
  writeParquet,
  WriterPropertiesBuilder,
} from "parquet-wasm";

// Instantiate the WebAssembly context
await initWasm();

// Create Arrow Table in JS
const LENGTH = 2000;
const rainAmounts = Float32Array.from({ length: LENGTH }, () =>
  Number((Math.random() * 20).toFixed(1))
);

const rainDates = Array.from(
  { length: LENGTH },
  (_, i) => new Date(Date.now() - 1000 * 60 * 60 * 24 * i)
);

const rainfall = arrow.tableFromArrays({
  precipitation: rainAmounts,
  date: rainDates,
});

// Write Arrow Table to Parquet

// wasmTable is an Arrow table in WebAssembly memory
const wasmTable = Table.fromIPCStream(arrow.tableToIPC(rainfall, "stream"));
const writerProperties = new WriterPropertiesBuilder()
  .setCompression(Compression.ZSTD)
  .build();
const parquetUint8Array = writeParquet(wasmTable, writerProperties);

// Read Parquet buffer back to Arrow Table
// arrowWasmTable is an Arrow table in WebAssembly memory
const arrowWasmTable = readParquet(parquetUint8Array);

// table is now an Arrow table in JS memory
const table = arrow.tableFromIPC(arrowWasmTable.intoIPCStream());
console.log(table.schema.toString());
// Schema<{ 0: precipitation: Float32, 1: date: Date64<MILLISECOND> }>

(These may use older versions of the library with a different API).

• GeoParquet on the Web (Observable)
• Hello, Parquet-WASM (Observable)

Tl;dr: When you have a Table object (resulting from readParquet), try the new Table.intoFFI API to move it to JavaScript memory. This API is less well tested than the Table.intoIPCStream API, but should be faster and have much less memory overhead (by a factor of 2). If you hit any bugs, please create a reproducible issue.

Under the hood, parquet-wasm first decodes a Parquet file into Arrow in WebAssembly memory. But then that WebAssembly memory needs to be copied into JavaScript for use by Arrow JS. The "normal" conversion APIs (e.g. Table.intoIPCStream) use the Arrow IPC format to get the data back to JavaScript. But this requires another memory copy inside WebAssembly to assemble the various arrays into a single buffer to be copied back to JS.

Instead, the new Table.intoFFI API uses Arrow's C Data Interface to be able to copy or view Arrow arrays from within WebAssembly memory without any serialization.

Note that this approach uses the arrow-js-ffi library to parse the Arrow C Data Interface definitions. This library has not yet been tested in production, so it may have bugs!

I wrote an interactive blog post on this approach and the Arrow C Data Interface if you want to read more!

import * as arrow from "apache-arrow";
import { parseTable } from "arrow-js-ffi";
import initWasm, { wasmMemory, readParquet } from "parquet-wasm";

// Instantiate the WebAssembly context
await initWasm();

// A reference to the WebAssembly memory object.
const WASM_MEMORY = wasmMemory();

const resp = await fetch("https://example.com/file.parquet");
const parquetUint8Array = new Uint8Array(await resp.arrayBuffer());
const wasmArrowTable = readParquet(parquetUint8Array).intoFFI();

// Arrow JS table that was directly copied from Wasm memory
const table: arrow.Table = parseTable(
  WASM_MEMORY.buffer,
  wasmArrowTable.arrayAddrs(),
  wasmArrowTable.schemaAddr()
);

// VERY IMPORTANT! You must call `drop` on the Wasm table object when you're done using it
// to release the Wasm memory.
// Note that any access to the pointers in this table is undefined behavior after this call.
// Calling any `wasmArrowTable` method will error.
wasmArrowTable.drop();

The Parquet specification permits several compression codecs. This library currently supports:

• [x] Uncompressed
• [x] Snappy
• [x] Gzip
• [x] Brotli
• [x] ZSTD
• [x] LZ4_RAW
• [ ] LZ4 (deprecated)

LZ4 support in Parquet is a bit messy. As described here, there are two LZ4 compression options in Parquet (as of version 2.9.0). The original version LZ4 is now deprecated; it used an undocumented framing scheme which made interoperability difficult. The specification now reads:

It is strongly suggested that implementors of Parquet writers deprecate this compression codec in their user-facing APIs, and advise users to switch to the newer, interoperable LZ4_RAW codec.

It's currently unknown how widespread the ecosystem support is for LZ4_RAW. As of pyarrow v7, it now writes LZ4_RAW by default and presumably has read support for it as well.

In some cases, you may know ahead of time that your Parquet files will only include a single compression codec, say Snappy, or even no compression at all. In these cases, you may want to create a custom build of parquet-wasm to keep bundle size at a minimum. If you install the Rust toolchain and wasm-pack (see Development), you can create a custom build with only the compression codecs you require.

The minimum supported Rust version in this project is 1.60. To upgrade your toolchain, use rustup update stable.

Reader-only bundle with Snappy compression:

wasm-pack build --no-default-features --features snappy --features reader

Writer-only bundle with no compression support, targeting Node:

wasm-pack build --target nodejs --no-default-features --features writer

Bundle with reader and writer support, targeting Node, using arrow and parquet crates with all their supported compressions, with console_error_panic_hook enabled:

wasm-pack build \
  --target nodejs \
  --no-default-features \
  --features reader \
  --features writer \
  --features all_compressions \
  --features debug
# Or, given the fact that the default feature includes several of these features, a shorter version:
wasm-pack build --target nodejs --features debug

Refer to the wasm-pack documentation for more info on flags such as --release, --dev, target, and to the Cargo documentation for more info on how to use features.

By default, all_compressions, reader, writer, and async features are enabled. Use --no-default-features to remove these defaults.

• reader: Activate read support.
• writer: Activate write support.
• async: Activate asynchronous read support.
• all_compressions: Activate all supported compressions.
• brotli: Activate Brotli compression.
• gzip: Activate Gzip compression.
• snappy: Activate Snappy compression.
• zstd: Activate ZSTD compression.
• lz4: Activate LZ4_RAW compression.
• debug: Expose the setPanicHook function for better error messages for Rust panics.

On Node versions before 20, you'll have to polyfill the Web Cryptography API.

• [ ] Example of pushdown predicate filtering, to download only chunks that match a specific condition
• [ ] Column filtering, to download only certain columns
• [ ] More tests

A starting point of my work came from @my-liminal-space's read-parquet-browser (which is also dual licensed MIT and Apache 2).

@domoritz's arrow-wasm was a very helpful reference for bootstrapping Rust-WASM bindings.