File R-rootSolve.spec of Package R-rootSolve

#
# spec file for package rootSolve
# This file is (mostly) auto-generated using information
# in the package source, esp. Description and Summary.
# Improvements in that area should be discussed with upstream.
#
# Copyright (c) 2018 SUSE LINUX GmbH, Nuernberg, Germany.
#
# All modifications and additions to the file contributed by third parties
# remain the property of their copyright owners, unless otherwise agreed
# upon. The license for this file, and modifications and additions to the
# file, is the same license as for the pristine package itself (unless the
# license for the pristine package is not an Open Source License, in which
# case the license is the MIT License). An "Open Source License" is a
# license that conforms to the Open Source Definition (Version 1.9)
# published by the Open Source Initiative.

# Please submit bugfixes or comments via http://bugs.opensuse.org/
#

%global packname  rootSolve
%global rlibdir   %{_libdir}/R/library

Name:           R-%{packname}
Version:        1.7
Release:        0
Summary:        Nonlinear Root Finding, Equilibrium and Steady-State Analysis of Ordinary Differential Equations
Group:          Development/Libraries/Other
License:        GPL (>= 2)
URL:            http://cran.r-project.org/web/packages/%{packname}
Source:         http://cran.r-project.org/src/contrib/%{packname}_%{version}.tar.gz
BuildRoot:      %{_tmppath}/%{name}-%{version}-build
Requires:       R-base

Requires:       R-stats R-graphics R-grDevices 

BuildRequires:  texlive
BuildRequires:  texinfo
BuildRequires:  fdupes
BuildRequires:  R-base-devel

BuildRequires:       R-stats R-graphics R-grDevices 
BuildRequires:       gcc gcc-c++ gcc-fortran 

%description
Routines to find the root of nonlinear functions, and to perform
steady-state and equilibrium analysis of ordinary differential equations
(ODE). Includes routines that: (1) generate gradient and jacobian matrices
(full and banded), (2) find roots of non-linear equations by the
'Newton-Raphson' method, (3) estimate steady-state conditions of a system
of (differential) equations in full, banded or sparse form, using the
'Newton-Raphson' method, or by dynamically running, (4) solve the
steady-state conditions for uni-and multicomponent 1-D, 2-D, and 3-D
partial differential equations, that have been converted to ordinary
differential equations by numerical differencing (using the
method-of-lines approach). Includes fortran code.

%prep
%setup -q -c -n %{packname}

%build

%install
mkdir -p %{buildroot}%{rlibdir}
%{_bindir}/R CMD INSTALL -l %{buildroot}%{rlibdir} %{packname}
test -d %{packname}/src && (cd %{packname}/src; rm -f *.o *.so)
rm -f %{buildroot}%{rlibdir}/R.css


%files
%defattr(-, root, root, -)
%dir %{rlibdir}/%{packname}
%doc %{rlibdir}/rootSolve/doc
%doc %{rlibdir}/rootSolve/CITATION
%doc %{rlibdir}/rootSolve/html
%{rlibdir}/rootSolve/libs
%{rlibdir}/rootSolve/DESCRIPTION
%{rlibdir}/rootSolve/R
%{rlibdir}/rootSolve/Meta
%{rlibdir}/rootSolve/help
%{rlibdir}/rootSolve/INDEX
%{rlibdir}/rootSolve/demo
%{rlibdir}/rootSolve/dynload
%{rlibdir}/rootSolve/NAMESPACE

%changelog