Bug#471984: O: gerris -- Gerris Flow Solver

To: submit@bugs.debian.org
Subject: Bug#471984: O: gerris -- Gerris Flow Solver
From: Luk Claes <luk@debian.org>
Date: Fri, 21 Mar 2008 16:40:51 +0100
Message-id: <[🔎] 20080321154051.GA13217@station.luk.local>
Reply-to: Luk Claes <luk@debian.org>, 471984@bugs.debian.org

Package: wnpp
Severity: normal
 
The current maintainer of gerris, Marcelo E. Magallon <mmagallo@debian.org>,
is apparently not active anymore.  Therefore, I orphan this package now.

Maintaining a package requires time and skills. Please only adopt this
package if you are *sure* you will have enough time and attention to
work on it.

If you want to be the new maintainer, please see
http://www.debian.org/devel/wnpp/index.html#howto-o for detailed
instructions how to adopt a package properly.

Some information about this package:

Package: gerris
Binary: gerris
Version: 0.6.0-3.1
Priority: optional
Section: math
Maintainer: Marcelo E. Magallon <mmagallo@debian.org>
Build-Depends: debhelper (>> 4), libgts-dev (>> 0.7.3), libglib2.0-dev, autotools-dev
Architecture: any
Standards-Version: 3.6.1
Format: 1.0
Directory: pool/main/g/gerris
Files:
 b75f61142fbe25e52094d5a8a5bd975b 621 gerris_0.6.0-3.1.dsc
 c16d9d26bc4233eae416dea325ae3d36 4264414 gerris_0.6.0.orig.tar.gz
 2d61a838271dcfde05899892c6626c72 20169 gerris_0.6.0-3.1.diff.gz

Package: gerris
Priority: optional
Section: math
Installed-Size: 3600
Maintainer: Marcelo E. Magallon <mmagallo@debian.org>
Architecture: i386
Version: 0.6.0-3.1
Depends: libc6 (>= 2.3.6-6), libglib2.0-0 (>= 2.12.0), libgts-0.7-5 (>> 0.7.6)
Filename: pool/main/g/gerris/gerris_0.6.0-3.1_i386.deb
Size: 1650158
MD5sum: 8ec4a9a740a32780f77f6f874ec3f81f
SHA1: 8a966e9d84e97f6aa191ec07ff33229864d3192d
SHA256: aa323e243cbc0ba7d2bec62396236580d1b5bb3a24084dfbdc4d9b6098d592ee
Description: Gerris Flow Solver
 Gerris is a system for the solution of the partial differential
 equations describing fluid flow.
 .
 A brief summary of its main (current) features:
 .
    * Quadtree-based (Octree in 3D) spatial discretisation with
      automatic (and possibly dynamic) local refinement.
    * Multigrid Poisson solver.
    * Second-order Godunov type advection scheme.
    * Solves the time-dependent incompressible Euler equations.
    * Support for complex solid boundaries (automatic locally-refined
      mesh generation).
    * Flexible object-oriented specification of boundary conditions.
Tag: field::mathematics, field::physics

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