Parquet2
This is a re-write of the official parquet
crate with performance, parallelism and safety in mind.
Checkout the guide for details on how to use this crate to read parquet.
The five main differentiators in comparison with parquet
are:
- it uses
#![forbid(unsafe_code)]
- delegates parallelism downstream
- decouples reading (IO intensive) from computing (CPU intensive)
- it is faster (10-20x when reading to arrow format)
- supports
async
read and write. - It is integration-tested against pyarrow and (py)spark 3
The overall idea is to offer the ability to read compressed parquet pages and a toolkit to decompress them to their favourite in-memory format.
This allows this crate's iterators to perform minimal CPU work, thereby maximizing throughput. It is up to the consumers to decide whether they want to take advantage of this through parallelism at the expense of memory usage (e.g. decompress and deserialize pages in threads) or not.
This crate cannot be used directly to read parquet (except metadata). To read data from parquet, checkout arrow2.
Functionality implemented
- Read dictionary pages
- Read and write V1 pages
- Read and write V2 pages
- Compression and de-compression (all)
Functionality not (yet) implemented
The parquet format has multiple encoding strategies for the different physical types. This crate currently reads from almost all of them, and supports encoding to a subset of them. They are:
Supported decoding
Delta-encodings are still experimental, as I have been unable to generate large pages encoded with them from spark, thereby hindering robust integration tests.
Encoding
Organization
read
: read metadata and pageswrite
: write metadata and pagesencoding
: encoders and decoders of the different parquet encodingspage
: page declarationsmetadata
: parquet files metadata (e.g.FileMetaData
)schema
: types metadata declaration (e.g.ConvertedType
)types.rs
: physical type declaration (i.e. how things are represented in memory).statistics
: deserialized representation of a parquet pagecompression
: compressors and decompressors compression (e.g. Gzip)error
: errors declaration
Run integration tests
There are integration tests against parquet files generated by pyarrow. To run then, you will need to run
before. This is only needed once (per change in the integration-tests/integration/write_pyarrow.py
).
How to implement page readers
The in-memory format used to consume parquet pages strongly influences how the pages should be deserialized. As such, this crate does not commit to a particular in-memory format. Consumers are responsible for converting pages to their target in-memory format.
This git repository contains a serialization to a simple in-memory
format in integration
, that is
used to validate integration with other implementations.
There is also an implementation for the arrow format here.
Higher Parallelism
Typically, converting a page into memory is expensive and thus consider how to distribute work across threads. E.g.
let handles = vec!;
for column in columns
let columns_from_all_groups = handles.join_all;
this will read the file as quickly as possible in the main thread and send CPU-intensive work to other threads, thereby maximizing IO reads (at the cost of storing multiple compressed pages in memory; buffering is also an option here).
Decoding flow
Generally, a parquet file is read as follows:
- Read metadata
- Seek a row group and column
- iterate over (compressed) pages within that (group, column)
This is IO-intensive, requires parsing thrift, and seeking within a file.
Once a compressed page is loaded into memory, it can be decompressed, decoded and deserialized into a specific in-memory format. All of these operations are CPU-intensive and are thus left to consumers to perform, as they may want to send this work to threads.
read -> compressed page -> decompressed page -> decoded bytes -> deserialized
License
Licensed under either of
- Apache License, Version 2.0 (LICENSE-APACHE or http://www.apache.org/licenses/LICENSE-2.0)
- MIT license (LICENSE-MIT or http://opensource.org/licenses/MIT)
at your option.
Contribution
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.