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Source: hkl
Standards-Version: 4.7.2
Maintainer: Debian PaN Maintainers <debian-pan-maintainers@alioth-lists.debian.net>
Uploaders:
Debian Science Maintainers <debian-science-maintainers@lists.alioth.debian.org>,
Picca Frédéric-Emmanuel <picca@debian.org>,
Roland Mas <lolando@debian.org>,
Section: science
Build-Depends:
autoconf-archive,
cabal-install,
debhelper-compat (= 13),
dh-sequence-gir,
ghc,
gnuplot-nox,
gir1.2-gobject-2.0-dev,
gobject-introspection (>= 1.80),
gtk-doc-tools,
libassimp-dev,
libbullet-dev,
libcglm-dev,
libdatatype99-dev,
libepoxy-dev,
libghc-aeson-dev,
libghc-async-dev,
libghc-attoparsec-dev,
libghc-base-dev,
libghc-bindings-dsl-dev,
libghc-bytestring-dev,
libghc-config-ini-dev,
libghc-containers-dev,
libghc-dimensional-dev,
libghc-directory-dev,
libghc-either-dev,
libghc-errors-dev,
libghc-exceptions-dev,
libghc-extra-dev,
libghc-filepath-dev,
libghc-generic-random-dev,
libghc-hashable-dev,
libghc-hdf5-dev,
libghc-hmatrix-dev,
libghc-hmatrix-gsl-dev,
libghc-hspec-attoparsec-dev,
libghc-hspec-dev,
libghc-ini-dev,
libghc-inspection-testing-dev,
libghc-intervals-dev,
libghc-lens-dev,
libghc-monad-logger-dev,
libghc-monad-loops-dev,
libghc-mtl-dev,
libghc-optparse-applicative-dev,
libghc-path-dev,
libghc-path-io-dev,
libghc-pipes-dev,
libghc-pipes-safe-dev,
libghc-quickcheck-text-dev,
libghc-quickcheck2-dev,
libghc-terminal-progress-bar-dev,
libghc-text-dev,
libghc-transformers-dev,
libghc-unordered-containers-dev,
libghc-vector-dev,
libgl-dev,
libglu-dev,
libgsl0-dev | libgsl-dev,
libgtk-4-dev,
libhdf5-dev,
libyaml-dev,
python3-gi,
python3-matplotlib,
python3-tk,
Build-Depends-Indep:
elpa-htmlize <!nodoc>,
emacs | org-mode <!nodoc>,
Vcs-Browser: https://salsa.debian.org/science-team/hkl
Vcs-Git: https://salsa.debian.org/science-team/hkl.git
Homepage: https://repo.or.cz/hkl.git
Package: ghkl
Architecture: any
Depends:
${misc:Depends},
${shlibs:Depends},
Description: diffractometer computation control application
The hkl library is a framework for diffraction computation and
diffractometer control, heavily used at the SOLEIL synchrotron. It
supports various types of diffractometer geometry: Eulerian 4-circle,
Eulerian 6-circle, kappa 4-circle, kappa 6-circle, and z-axis
geometry. For each of these it provides several numerically computed
modes, such as bisector and constant psi.
.
This package provides a gui on top of the hkl library.
Package: libhkl5
Architecture: any
Multi-Arch: same
Section: libs
Depends:
${misc:Depends},
${shlibs:Depends},
Suggests:
libhkl-doc,
Pre-Depends:
${misc:Pre-Depends},
Description: diffractometer computation control library
The hkl library is a framework for diffraction computation and
diffractometer control, heavily used at the SOLEIL synchrotron. It
supports various types of diffractometer geometry: Eulerian 4-circle,
Eulerian 6-circle, kappa 4-circle, kappa 6-circle, and z-axis
geometry. For each of these it provides several numerically computed
modes, such as bisector and constant psi.
.
This package provides the runtime hkl library.
Package: libhkl-dev
Architecture: any
Section: libdevel
Depends:
${gir:Depends},
${misc:Depends},
libglib2.0-dev,
libgsl-dev | libgsl0-dev,
libhkl5 (= ${binary:Version}),
Provides: ${gir:Provides}
Pre-Depends:
${misc:Pre-Depends},
Description: diffractometer computation control library - development files
The hkl library is a framework for diffraction computation and
diffractometer control, heavily used at the SOLEIL synchrotron. It
supports various types of diffractometer geometry: Eulerian 4-circle,
Eulerian 6-circle, kappa 4-circle, kappa 6-circle, and z-axis
geometry. For each of these it provides several numerically computed
modes, such as bisector and constant psi.
.
This package provides everything needed to link against hkl.
Package: libhkl-doc
Architecture: all
Multi-Arch: foreign
Section: doc
Depends:
${misc:Depends},
libjs-mathjax,
Description: diffractometer computation control library - documentation
The hkl library is a framework for diffraction computation and
diffractometer control, heavily used at the SOLEIL synchrotron. It
supports various types of diffractometer geometry: Eulerian 4-circle,
Eulerian 6-circle, kappa 4-circle, kappa 6-circle, and z-axis
geometry. For each of these it provides several numerically computed
modes, such as bisector and constant psi.
.
This package provides the documentation for hkl.
Package: gir1.2-hkl-5.0
Architecture: any
Multi-Arch: same
Section: introspection
Depends:
${gir:Depends},
${misc:Depends},
${shlibs:Depends},
Pre-Depends:
${misc:Pre-Depends},
Description: diffractometer computation control library - gir binding
The hkl library is a framework for diffraction computation and
diffractometer control, heavily used at the SOLEIL synchrotron. It
supports various types of diffractometer geometry: Eulerian 4-circle,
Eulerian 6-circle, kappa 4-circle, kappa 6-circle, and z-axis
geometry. For each of these it provides several numerically computed
modes, such as bisector and constant psi.
.
This package can be used by other packages using the GIRepository format to
generate dynamic bindings.
|
