Source: starlink-ast Maintainer: Debian Astro Team Uploaders: Ole Streicher Section: science Priority: optional Build-Depends: debhelper-compat (= 13), libcminpack-dev, liberfa-dev, libstarlink-pal-dev Build-Depends-Indep: ghostscript, latex2html, perl, texlive, texlive-font-utils, texlive-latex-extra, texlive-science Standards-Version: 4.5.0 Vcs-Browser: https://salsa.debian.org/debian-astro-team/starlink-ast Vcs-Git: https://salsa.debian.org/debian-astro-team/starlink-ast.git Homepage: http://starlink.eao.hawaii.edu/starlink/AST Rules-Requires-Root: no Package: libstarlink-ast-dev Architecture: any Section: libdevel Depends: libstarlink-ast-err9(= ${binary:Version}), libstarlink-ast-grf3d9(= ${binary:Version}), libstarlink-ast9 (= ${binary:Version}), libstarlink-pal-dev, ${misc:Depends} Suggests: libstarlink-ast-doc Description: Handle World Coordinate Systems in Astronomy (development package) AST implements an object oriented model for describing physical coordinate systems, and the transformations that exist between them. . It provides a comprehensive range of facilities for attaching world coordinate systems (WCS) to astronomical data and for retrieving and manipulating that information. . It has built-in intelligence for identifying types of celestial, spectral, time and other coordinate systems (including compound systems that combine axes of different types) and determining how to transform between them. This allows general purpose code to be written that makes no assumptions about the nature of the coordinate systems. . This package contains the files needed for development. Package: libstarlink-ast9 Architecture: any Multi-Arch: same Section: libs Depends: ${misc:Depends}, ${shlibs:Depends} Pre-Depends: ${misc:Pre-Depends} Description: Handle World Coordinate Systems in Astronomy (main shared lib) AST implements an object oriented model for describing physical coordinate systems, and the transformations that exist between them. . It provides a comprehensive range of facilities for attaching world coordinate systems (WCS) to astronomical data and for retrieving and manipulating that information. . It has built-in intelligence for identifying types of celestial, spectral, time and other coordinate systems (including compound systems that combine axes of different types) and determining how to transform between them. This allows general purpose code to be written that makes no assumptions about the nature of the coordinate systems. . This package contains the main shared library. Package: libstarlink-ast-grf3d9 Architecture: any Multi-Arch: same Section: libs Depends: ${misc:Depends}, ${shlibs:Depends} Pre-Depends: ${misc:Pre-Depends} Description: Handle World Coordinate Systems in Astronomy (dummy 3d routines) AST implements an object oriented model for describing physical coordinate systems, and the transformations that exist between them. . This package contains the default (dummy) 3d graphics shared library. This library resolves all 3d graphics calls and reports an error if they are called. Package: libstarlink-ast-err9 Architecture: any Multi-Arch: same Section: libs Depends: ${misc:Depends}, ${shlibs:Depends} Pre-Depends: ${misc:Pre-Depends} Description: Handle World Coordinate Systems in Astronomy (error reporting) AST implements an object oriented model for describing physical coordinate systems, and the transformations that exist between them. . This package contains the default error reporting shared library. All error messages are printed to stderr. Package: libstarlink-ast-doc Architecture: all Multi-Arch: foreign Section: doc Depends: ${misc:Depends} Pre-Depends: ${misc:Pre-Depends} Description: Handle World Coordinate Systems in Astronomy (documentation) AST implements an object oriented model for describing physical coordinate systems, and the transformations that exist between them. . It provides a comprehensive range of facilities for attaching world coordinate systems (WCS) to astronomical data and for retrieving and manipulating that information. . It has built-in intelligence for identifying types of celestial, spectral, time and other coordinate systems (including compound systems that combine axes of different types) and determining how to transform between them. This allows general purpose code to be written that makes no assumptions about the nature of the coordinate systems. . This package contains the HTML and PDF documentation.