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| author |   David Seifert <soap@gentoo.org> | 2017-11-25 17:50:18 +0100 |
|---|---|---|
| committer | David Seifert <soap@gentoo.org> | 2017-11-25 18:36:48 +0100 |
| commit | fe9b311266ed63db035a230a15e7073a33535aeb (patch) | |
| tree | f4ecfb70df91213841b9c3b340bdbca68ab976d4 /sci-libs/coinor-flopcpp | |
| parent | sci-libs/coinor-dylp: [QA] Consistent whitespace in metadata.xml (diff) | |
| download | gentoo-fe9b311266ed63db035a230a15e7073a33535aeb.tar.gz gentoo-fe9b311266ed63db035a230a15e7073a33535aeb.tar.bz2 gentoo-fe9b311266ed63db035a230a15e7073a33535aeb.zip | |
sci-libs/coinor-flopcpp: [QA] Consistent whitespace in metadata.xml
Diffstat (limited to 'sci-libs/coinor-flopcpp')
| -rw-r--r-- | sci-libs/coinor-flopcpp/metadata.xml | 26 |
1 files changed, 13 insertions, 13 deletions
diff --git a/sci-libs/coinor-flopcpp/metadata.xml b/sci-libs/coinor-flopcpp/metadata.xml index fd5d53dfd884..696dc5c9016a 100644 --- a/sci-libs/coinor-flopcpp/metadata.xml +++ b/sci-libs/coinor-flopcpp/metadata.xml @@ -1,17 +1,17 @@ <?xml version="1.0" encoding="UTF-8"?> <!DOCTYPE pkgmetadata SYSTEM "http://www.gentoo.org/dtd/metadata.dtd"> <pkgmetadata> -<maintainer type="project"> - <email>sci@gentoo.org</email> - <name>Gentoo Science Project</name> -</maintainer> -<longdescription lang="en"> - The COIN-OR Formulation of Linear Optimization Problems in C++ - (FLOPC++) is a linear optimization modelling language that can be - specified in a declarative style, similar to algebraic modelling - languages such as GAMS and AMPL, within a C++ program. As a result - the traditional strengths of algebraic modelling languages are - preserved, while embedding linear optimization models in software - applications is facilitated. -</longdescription> + <maintainer type="project"> + <email>sci@gentoo.org</email> + <name>Gentoo Science Project</name> + </maintainer> + <longdescription lang="en"> + The COIN-OR Formulation of Linear Optimization Problems in C++ + (FLOPC++) is a linear optimization modelling language that can be + specified in a declarative style, similar to algebraic modelling + languages such as GAMS and AMPL, within a C++ program. As a result + the traditional strengths of algebraic modelling languages are + preserved, while embedding linear optimization models in software + applications is facilitated. + </longdescription> </pkgmetadata> |