Source: purify Section: science Priority: optional Maintainer: Debian Astro Team Uploaders: Gijs Molenaar , Ole Streicher Build-Depends: casacore-dev, catch, cmake, debhelper-compat (= 13), libblas-dev, libboost-dev, libccfits-dev, libeigen3-dev, libfftw3-dev, libsopt-dev, libspdlog-dev, libtiff5-dev Standards-Version: 4.5.0 Vcs-Git: https://salsa.debian.org/debian-astro-team/purify.git Vcs-Browser: https://salsa.debian.org/debian-astro-team/purify Homepage: https://astro-informatics.github.io/purify/ Rules-Requires-Root: no Package: purify Architecture: any Depends: ${misc:Depends}, ${shlibs:Depends} Suggests: libpurify-dev Description: Collection of routines for radio interferometric imaging PURIFY is a collection of routines written in C that implements different tools for radio interferometric imaging including file handling (for both visibilities and fits files), implementation of the measurement operator and set-up of the different optimization problems used for image deconvolution. The code calls the generic Sparse OPTimization (SOPT) package to solve the imaging optimization problems. Package: libpurify2.0 Architecture: any Section: libs Depends: ${misc:Depends}, ${shlibs:Depends} Description: Routines for radio interferometric imaging (shared lib) PURIFY is a collection of routines written in C that implements different tools for radio interferometric imaging including file handling (for both visibilities and fits files), implementation of the measurement operator and set-up of the different optimization problems used for image deconvolution. The code calls the generic Sparse OPTimization (SOPT) package to solve the imaging optimization problems. . This package contains the shared library. Package: libpurify-dev Architecture: any Section: libdevel Depends: libpurify2.0 (= ${binary:Version}), ${misc:Depends}, ${shlibs:Depends} Recommends: purify Description: Routines for radio interferometric imaging (development files) PURIFY is a collection of routines written in C that implements different tools for radio interferometric imaging including file handling (for both visibilities and fits files), implementation of the measurement operator and set-up of the different optimization problems used for image deconvolution. The code calls the generic Sparse OPTimization (SOPT) package to solve the imaging optimization problems. . This package contains the development files.