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Source: rheolef
Maintainer: Debian Science Maintainers <debiansciencemaintainers@lists.alioth.debian.org>
Uploaders: Pierre Saramito <pierre.saramito@imag.fr>
Section: math
Priority: optional
BuildDepends: debhelper (>= 9~),
autoconf,
automake,
libtool,
flex,
bison,
opensshclient,
chrpath,
bsdmainutils,
libarmadillodev,
libboostdev,
libboostiostreamsdev,
libboostmpidev,
libcgaldev,
liblapackdev,
libscotchdev,
libptscotchdev,
libsuitesparsedev,
libmumpsscotchdev,
libmumpsptscotchdev,
texinfo,
texlivelatexrecommended,
texlivelatexextra,
texlivescience,
texlivefontsrecommended,
texlivefontutils,
cmsuper,
gnuplot (>= 5)  gnuplot5,
texliveextrautils,
ghostscript
# texlivelatexrecommended : for index, float, listings, etc
# texlivelatexextra : for a4wide
# texlivescience : for amstex, amsmath
# texlivefontsrecommended :
# texlivefontutils : metatype1 ; epstopdf
# cmsuper : for portable type1 fonts in pdf, usepackage[T1]{fontenc}
# gnuplot : for figures in documentation
# ghostscript : for ps2epsi, used for figures
# texliveextrautils : for pdfcrop, used for figures
StandardsVersion: 4.1.3
VcsBrowser: https://salsa.debian.org/scienceteam/rheolef
VcsGit: https://salsa.debian.org/scienceteam/rheolef.git
Homepage: http://ljk.imag.fr/membres/Pierre.Saramito/rheolef
Package: librheolef1
Architecture: any
Section: libs
Depends: ${shlibs:Depends},
${misc:Depends}
Suggests: rheolefdoc(= ${source:Version})
Description: efficient Finite Element environment  shared library
Rheolef is a computer environment that serves as a convenient laboratory for
computations in applied mathematics involving finite elementlike methods.
It provides a set of commands and C++ algorithms and containers.
.
Most basically, containers cover the classic graph data structure for sparse
matrix formats and finite element meshes. At a higher level of abstraction,
they can handle approximate finite element spaces, discrete fields.
Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
* elasticity, Stokes and NavierStokes problems in 2D and 3D;
* complex fluids applications: viscoplasticity, viscoelasticity, wall slip;
* nonlinear problems with fixedpoint, Newton and continuation methods;
* high order polynomials, mixed elements and discontinuous Galerkin methods;
* autoadaptive mesh approaches;
* axisymmetric problems;
* multiregions and variable coefficient problems.
.
This package provides the shared library.
Package: librheolefdev
Architecture: any
Section: libdevel
Depends: librheolef1(= ${binary:Version}),
g++,
make,
libarmadillodev,
libboostdev,
libboostiostreamsdev,
libboostmpidev,
libcgaldev,
liblapackdev,
libscotchdev,
libptscotchdev,
libsuitesparsedev,
libmumpsscotchdev,
libmumpsptscotchdev,
${misc:Depends}
Recommends: rheolefdoc(= ${source:Version})
Breaks: rheolef (<< 6.4)
Replaces: rheolef (<< 6.4)
Description: efficient Finite Element environment  development files
Rheolef is a computer environment that serves as a convenient laboratory for
computations in applied mathematics involving finite elementlike methods.
It provides a set of commands and C++ algorithms and containers.
.
Most basically, containers cover the classic graph data structure for sparse
matrix formats and finite element meshes. At a higher level of abstraction,
they can handle approximate finite element spaces, discrete fields.
Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
* elasticity, Stokes and NavierStokes problems in 2D and 3D;
* complex fluids applications: viscoplasticity, viscoelasticity, wall slip;
* nonlinear problems with fixedpoint, Newton and continuation methods;
* high order polynomials, mixed elements and discontinuous Galerkin methods;
* autoadaptive mesh approaches;
* axisymmetric problems;
* multiregions and variable coefficient problems.
.
This package provides the headers required for development.
Package: rheolefdoc
Architecture: all
Section: doc
Depends: ${misc:Depends},
installinfo
Conflicts: librheolefdoc
Replaces: librheolefdoc
Description: efficient Finite Element environment  documentation
Rheolef is a computer environment that serves as a convenient laboratory for
computations in applied mathematics involving finite elementlike methods.
It provides a set of commands and C++ algorithms and containers.
.
Most basically, containers cover the classic graph data structure for sparse
matrix formats and finite element meshes. At a higher level of abstraction,
they can handle approximate finite element spaces, discrete fields.
Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
* elasticity, Stokes and NavierStokes problems in 2D and 3D;
* complex fluids applications: viscoplasticity, viscoelasticity, wall slip;
* nonlinear problems with fixedpoint, Newton and continuation methods;
* high order polynomials, mixed elements and discontinuous Galerkin methods;
* autoadaptive mesh approaches;
* axisymmetric problems;
* multiregions and variable coefficient problems.
.
This package provides the documentation.
Package: rheolef
Architecture: any
Depends: ${shlibs:Depends},
${misc:Depends},
librheolefdev(= ${binary:Version}),
rheolefdoc(= ${source:Version})
Recommends: gmsh,
gnuplotx11 (>= 5)  gnuplot5x11,
paraview,
paraviewpython,
mayavi2
Breaks: rheolefdev (<< 6.4)
Replaces: rheolefdev (<< 6.4)
Description: efficient Finite Element environment
Rheolef is a computer environment that serves as a convenient laboratory for
computations in applied mathematics involving finite elementlike methods.
It provides a set of commands and C++ algorithms and containers.
.
Most basically, containers cover the classic graph data structure for sparse
matrix formats and finite element meshes. At a higher level of abstraction,
they can handle approximate finite element spaces, discrete fields.
Flexible and powerful expressions are used to specify bilinear forms.
.
Current applications include:
* massively distributed memory finite element environment, based on MPI;
* elasticity, Stokes and NavierStokes problems in 2D and 3D;
* complex fluids applications: viscoplasticity, viscoelasticity, wall slip;
* nonlinear problems with fixedpoint, Newton and continuation methods;
* high order polynomials, mixed elements and discontinuous Galerkin methods;
* autoadaptive mesh approaches;
* axisymmetric problems;
* multiregions and variable coefficient problems.
.
This package provides the rheolef commands. These support input and
output in various file formats for meshgenerators and numerical data
visualization systems such as paraview, and gnuplot.
