A Python toolkit for reproducible information retrieval research with sparse and dense representations
Project description
Pyserini is a Python toolkit for reproducible information retrieval research with sparse and dense representations. Retrieval using sparse representations is provided via integration with our group's Anserini IR toolkit, which is built on Lucene. Retrieval using dense representations is provided via integration with Facebook's Faiss library.
Pyserini is primarily designed to provide effective, reproducible, and easy-to-use first-stage retrieval in a multi-stage ranking architecture. Our toolkit is self-contained as a standard Python package and comes with queries, relevance judgments, pre-built indexes, and evaluation scripts for many commonly used IR test collections
Installation
Install via PyPI:
pip install pyserini
Pyserini requires Python 3.10+ and Java 11 (due to its dependency on Anserini).
Since dense retrieval depends on neural networks, Pyserini requires a more complex set of dependencies to use this feature.
A pip installation will automatically pull in the 🤗 Transformers library to satisfy the package requirements.
Pyserini also depends on PyTorch and Faiss, but since these packages may require platform-specific custom configuration, they are not explicitly listed in the package requirements.
We leave the installation of these packages to you.
Refer to documentation in our repo for additional details.
Usage
The LuceneSearcher class provides the entry point for sparse retrieval using bag-of-words representations.
Anserini supports a number of pre-built indexes for common collections that it'll automatically download for you and store in ~/.cache/pyserini/indexes/.
Here's how to use a pre-built index for the MS MARCO passage ranking task and issue a query interactively (using BM25 ranking):
from pyserini.search.lucene import LuceneSearcher
lucene_searcher = LuceneSearcher.from_prebuilt_index('msmarco-v1-passage')
hits = lucene_searcher.search('what is a lobster roll?')
for i in range(0, 10):
print(f'{i+1:2} {hits[i].docid:7} {hits[i].score:.5f}')
The results should be as follows:
1 7157707 11.00830
2 6034357 10.94310
3 5837606 10.81740
4 7157715 10.59820
5 6034350 10.48360
6 2900045 10.31190
7 7157713 10.12300
8 1584344 10.05290
9 533614 9.96350
10 6234461 9.92200
You can examine the actual text of the first hit, as follows:
hits[0].raw
Which is:
Cookbook: Lobster roll Media: Lobster roll A lobster-salad style roll from The Lobster Roll in Amagansett, New York on the Eastern End of Long Island A lobster roll is a fast-food sandwich native to New England made of lobster meat served on a grilled hot dog-style bun with the opening on the top rather than the side. The filling may also contain butter, lemon juice, salt and black pepper, with variants made in other parts of New England replacing the butter with mayonnaise. Others contain diced celery or scallion. Potato chips or french fries are the typical sides.
The FaissSearcher class provides the entry point for dense retrieval, and its usage is quite similar to LuceneSearcher.
The only additional thing we need to specify for dense retrieval is the query encoder.
from pyserini.search.faiss import FaissSearcher, TctColBertQueryEncoder
encoder = TctColBertQueryEncoder('castorini/tct_colbert-v2-hnp-msmarco')
faiss_searcher = FaissSearcher.from_prebuilt_index(
'msmarco-v1-passage.tct_colbert-v2-hnp',
encoder
)
hits = faiss_searcher.search('what is a lobster roll')
for i in range(0, 10):
print(f'{i+1:2} {hits[i].docid:7} {hits[i].score:.5f}')
The results should be as follows:
1 7157715 80.14327
2 7157710 80.09985
3 7157707 79.70108
4 6321969 79.37906
5 6034350 79.14087
6 7157708 79.08399
7 4112862 79.03954
8 7157713 78.71204
9 4112861 78.67692
10 5515474 78.54551
The Faiss index does not store the original passages, so let's use the lucene_searcher to fetch the actual text:
lucene_searcher.doc(hits[0].docid).raw()
Which is:
A Lobster Roll is a bread roll filled with bite-sized chunks of lobster meat. Lobster Rolls are made on the Atlantic coast of North America, from the New England area of the United States on up into the Maritimes areas of Canada.
For complete documentation, please refer to our repo.
Release history Release notifications | RSS feed
Download files
Download the file for your platform. If you're not sure which to choose, learn more about installing packages.
Source Distribution
Built Distribution
File details
Details for the file pyserini-0.23.0.tar.gz.
File metadata
- Download URL: pyserini-0.23.0.tar.gz
- Upload date:
- Size: 140.5 MB
- Tags: Source
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/4.0.2 CPython/3.10.13
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | a68664849e0395d07ea8826be8a76dfaec7e50113fe44b7032cd65cad0eba570 |
|
| MD5 | bed3668b4d27b318be509f9e05364d2f |
|
| BLAKE2b-256 | 354c53475623cbd315a02302b4af80ca8b11f3ba6732899289b003dfc8f9bcaa |
Provenance
File details
Details for the file pyserini-0.23.0-py3-none-any.whl.
File metadata
- Download URL: pyserini-0.23.0-py3-none-any.whl
- Upload date:
- Size: 140.5 MB
- Tags: Python 3
- Uploaded using Trusted Publishing? No
- Uploaded via: twine/4.0.2 CPython/3.10.13
File hashes
| Algorithm | Hash digest | |
|---|---|---|
| SHA256 | 311e303d69440044b3b1248a930add1d9ac5fdd08d442a5644701e63fa3cbde7 |
|
| MD5 | d1dffb9b46ff3230d916954fb402e7f0 |
|
| BLAKE2b-256 | bb594a15b5da6f88bc1541598844d0a9982b8b04704a8083898c78a7eb8f1111 |
