Source: libseqlib Maintainer: Debian Med Packaging Team Uploaders: Andreas Tille Section: science Priority: optional Build-Depends: debhelper-compat (= 13), d-shlibs, pkg-config, pkg-kde-tools, libhts-dev, libcurl4-gnutls-dev | libcurl4-dev, zlib1g-dev, libfml-dev (>= 0.1+git20190320.b499514), libbwa-dev (>= 0.7.15-3), libjsoncpp-dev, libssw-dev, libbz2-dev Standards-Version: 4.5.1 Vcs-Browser: https://salsa.debian.org/med-team/libseqlib Vcs-Git: https://salsa.debian.org/med-team/libseqlib.git Homepage: https://github.com/walaj/SeqLib Rules-Requires-Root: no Package: libseqlib2 Architecture: any Multi-Arch: same Section: libs Depends: ${shlibs:Depends}, ${misc:Depends} Description: C++ htslib/bwa-mem/fermi interface for interrogating sequence data C++ API and command line tool that provides a rapid and user-friendly interface to BAM/SAM/CRAM files, global sequence alignment operations and sequence assembly. Four C libraries perform core operations in SeqLib: HTSlib for BAM access, BWA-MEM and BLAT for sequence alignment and Fermi for error correction and sequence assembly. Benchmarking indicates that SeqLib has lower CPU and memory requirements than leading C++ sequence analysis APIs. Minimal SeqLib code can extract, error-correct and assemble reads from a CRAM file and then align with BWA-MEM. SeqLib also provides additional capabilities, including chromosome-aware interval queries and read plotting. Command line tools are available for performing integrated error correction, micro-assemblies and alignment. Package: libseqlib-dev Architecture: any Multi-Arch: same Section: libdevel Depends: libseqlib2 (= ${binary:Version}), ${devlibs:Depends}, ${misc:Depends}, libbwa-dev, Description: C++ htslib/bwa-mem/fermi interface for interrogating sequence data (dev) C++ API and command line tool that provides a rapid and user-friendly interface to BAM/SAM/CRAM files, global sequence alignment operations and sequence assembly. Four C libraries perform core operations in SeqLib: HTSlib for BAM access, BWA-MEM and BLAT for sequence alignment and Fermi for error correction and sequence assembly. Benchmarking indicates that SeqLib has lower CPU and memory requirements than leading C++ sequence analysis APIs. Minimal SeqLib code can extract, error-correct and assemble reads from a CRAM file and then align with BWA-MEM. SeqLib also provides additional capabilities, including chromosome-aware interval queries and read plotting. Command line tools are available for performing integrated error correction, micro-assemblies and alignment. . This package contains the header files and static library.