/pyopal

Cython bindings and Python interface to Opal, a SIMD-accelerated database search aligner.

Primary LanguagePythonMIT LicenseMIT

🐍🌈🪨 PyOpal Stars

Cython bindings and Python interface to Opal, a SIMD-accelerated database search aligner.

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🗺️ Overview

Opal is a sequence aligner enabling fast sequence similarity search using either of the Smith-Waterman, semi-global or Needleman-Wunsch algorithms. It is used part of the SW#db method[1] to align a query sequence to multiple database sequences on CPU, using the multi-sequence vectorization method described in SWIPE[2]

PyOpal is a Python module that provides bindings to Opal using Cython. It implements a user-friendly, Pythonic interface to query a database of sequences and access the search results. It interacts with the Opal interface rather than with the CLI, which has the following advantages:

  • no binary dependency: PyOpal is distributed as a Python package, so you can add it as a dependency to your project, and stop worrying about the Opal binary being present on the end-user machine.
  • no intermediate files: Everything happens in memory, in a Python object you control, so you don't have to invoke the Opal CLI using a sub-process and temporary files.
  • better portability: Opal uses SIMD to accelerate alignment scoring, but doesn't support dynamic dispatch, so it has to be compiled on the local machine to be able to use the full capabilities of the local CPU. PyOpal ships several versions of Opal instead, each compiled with different target features, and selects the best one for the local platform at runtime.
  • wider platform support: The Opal code has been backported to work on SSE2 rather than SSE4.1, allowing PyOpal to run on older x86 CPUs (all x86 CPUs support it since 2003). In addition, Armv7 and Aarch64 CPUs are also supported if they implement NEON extensions. Finally, the C++ code of Opal has been modified to compile on Windows.

🔧 Installing

PyOpal is available for all modern versions (3.6+), optionally depending on the lightweight Python package archspec for runtime CPU feature detection.

It can be installed directly from PyPI, which hosts some pre-built x86-64 wheels for Linux, MacOS, and Windows, Aarch64 wheels for Linux and MacOS, as well as the code required to compile from source with Cython:

$ pip install pyopal

Otherwise, PyOpal is also available as a Bioconda package:

$ conda install -c bioconda pyopal

Check the install page of the documentation for other ways to install PyOpal on your machine.

💡 Example

All classes are imported in the main namespace pyopal:

import pyopal

pyopal can work with sequences passed as Python strings, as well as with ASCII strings in bytes objects:

query = "MAGFLKVVQLLAKYGSKAVQWAWANKGKILDWLNAGQAIDWVVSKIKQILGIK"
database = [
    "MESILDLQELETSEEESALMAASTVSNNC",
    "MKKAVIVENKGCATCSIGAACLVDGPIPDFEIAGATGLFGLWG",
    "MAGFLKVVQILAKYGSKAVQWAWANKGKILDWINAGQAIDWVVEKIKQILGIK",
    "MTQIKVPTALIASVHGEGQHLFEPMAARCTCTTIISSSSTF",
]

If you plan to reuse the database across several queries, you can store it in a Database, which will keep sequences encoded according to an Alphabet:

database = pyopal.Database(database)

The top-level function pyopal.align can be used to align a query sequence against a database, using multithreading to process chunks of the database in parallel:

for result in pyopal.align(query, database):
    print(result.score, result.target_index, database[result.target_index])

See the API documentation for more examples, including how to use the internal API, and detailed reference of the parameters and result types.

🧶 Thread-safety

Database objects are thread safe through a C++17 read/write lock that prevents modification while the database is searched. In addition, the Aligner.align method is re-entrant and can be safely used to query the same database in parallel with different queries across different threads:

import multiprocessing.pool
import pyopal
import Bio.SeqIO

queries = [
    "MEQQIELDVLEISDLIAGAGENDDLAQVMAASCTTSSVSTSSSSSSS",
    "MTQIKVPTALIASVHGEGQHLFEPMAARCTCTTIISSSSTF",
    "MGAIAKLVAKFGWPIVKKYYKQIMQFIGEGWAINKIIDWIKKHI",
    "MGPVVVFDCMTADFLNDDPNNAELSALEMEELESWGAWDGEATS",
]

database = pyopal.Database([
    str(record.seq)
    for record in Bio.SeqIO.parse("vendor/opal/test_data/db/uniprot_sprot12071.fasta", "fasta")
])

aligner = pyopal.Aligner()
with multiprocessing.pool.ThreadPool() as pool:
    hits = dict(pool.map(lambda q: (q, aligner.align(q, database)), queries))

💭 Feedback

⚠️ Issue Tracker

Found a bug ? Have an enhancement request ? Head over to the GitHub issue tracker if you need to report or ask something. If you are filing in on a bug, please include as much information as you can about the issue, and try to recreate the same bug in a simple, easily reproducible situation.

🏗️ Contributing

Contributions are more than welcome! See CONTRIBUTING.md for more details.

📋 Changelog

This project adheres to Semantic Versioning and provides a changelog in the Keep a Changelog format.

⚖️ License

This library is provided under the MIT License. Opal is developed by Martin Šošić and is distributed under the terms of the MIT License as well. See vendor/opal/LICENSE for more information.

This project is in no way not affiliated, sponsored, or otherwise endorsed by the Opal authors. It was developed by Martin Larralde during his PhD project at the European Molecular Biology Laboratory in the Zeller team.

📚 References