%global __brp_check_rpaths %{nil} %global __requires_exclude ^libmpi %global packname oceanic %global packver 0.1.7 %global rlibdir /usr/local/lib/R/library Name: R-CRAN-%{packname} Version: 0.1.7 Release: 1%{?dist}%{?buildtag} Summary: Location Identify Tool License: GPL (>= 2) URL: https://cran.r-project.org/package=%{packname} Source0: %{url}&version=%{packver}#/%{packname}_%{packver}.tar.gz BuildRequires: R-devel >= 3.5.0 Requires: R-core >= 3.5.0 BuildArch: noarch BuildRequires: R-CRAN-sf BuildRequires: R-CRAN-sp BuildRequires: R-CRAN-broom BuildRequires: R-CRAN-ggplot2 BuildRequires: R-CRAN-maps BuildRequires: R-CRAN-spData BuildRequires: R-methods Requires: R-CRAN-sf Requires: R-CRAN-sp Requires: R-CRAN-broom Requires: R-CRAN-ggplot2 Requires: R-CRAN-maps Requires: R-CRAN-spData Requires: R-methods %description Determine the sea area where the fishing boat operates. The latitude and longitude of geographic coordinates are used to match oceanic areas and economic sea areas. You can plot the distribution map with dotplot() function. Please refer to Flanders Marine Institute (2020) . %prep %setup -q -c -n %{packname} # fix end of executable files find -type f -executable -exec grep -Iq . {} \; -exec sed -i -e '$a\' {} \; # prevent binary stripping [ -d %{packname}/src ] && find %{packname}/src -type f -exec \ sed -i 's@/usr/bin/strip@/usr/bin/true@g' {} \; || true [ -d %{packname}/src ] && find %{packname}/src/Make* -type f -exec \ sed -i 's@-g0@@g' {} \; || true # don't allow local prefix in executable scripts find -type f -executable -exec sed -Ei 's@#!( )*/usr/local/bin@#!/usr/bin@g' {} \; %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 # remove buildroot from installed files find %{buildroot}%{rlibdir} -type f -exec sed -i "s@%{buildroot}@@g" {} \; %files %{rlibdir}/%{packname}