Abstract
Background Since the original publication of the VCF and SAM formats, an explosion of software tools have been created to process these data files. To facilitate this a library was produced out of the original SAMtools implementation, with a focus on performance and robustness. The file formats themselves have become international standards under the jurisdiction of the Global Alliance for Genomics and Health.
Findings We present a software library for providing programmatic access to sequencing alignment and variant formats. It was born out of the widely used SAMtools and BCFtools applications. Considerable improvements have been made to the original code plus many new features including newer access protocols, the addition of the CRAM file format, better indexing and iterators, and better use of threading.
Conclusion Since the original Samtools release, performance has been considerably improved, with a BAM read-write loop running 5 times faster and BAM to SAM conversion 13 times faster (both using 16 threads, compared to Samtools 0.1.19).
Widespread adoption has seen HTSlib downloaded over a million times from GitHub and conda. The C library has been used directly by an estimated 900 GitHub projects and has been incorporated into Perl, Python, Rust and R, significantly expanding the number of uses via other languages. HTSlib is open source and is freely available from htslib.org under MIT / BSD license.
Contact samtools{at}sanger.ac.uk
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
Updated graphs and references. Some minor text corrections.
Abbreviations
- API
- Application Programming Interface
- BAM
- Binary sequence Alignment/MAP
- BAQ
- Base Alignment Quality
- BCF
- Binary variant Call Format
- BGZF
- Blocked GNU Zip Format
- SAM
- Sequence Alignment/Map
- VCF
- Variant Call Format.