%global __brp_check_rpaths %{nil} %global __requires_exclude ^libmpi %global packname EFAtools %global packver 0.4.4 %global rlibdir /usr/local/lib/R/library Name: R-CRAN-%{packname} Version: 0.4.4 Release: 1%{?dist}%{?buildtag} Summary: Fast and Flexible Implementations of Exploratory Factor Analysis Tools License: GPL-3 URL: https://cran.r-project.org/package=%{packname} Source0: %{url}&version=%{packver}#/%{packname}_%{packver}.tar.gz BuildRequires: R-devel >= 3.6.0 Requires: R-core >= 3.6.0 BuildRequires: R-CRAN-lavaan BuildRequires: R-CRAN-psych BuildRequires: R-CRAN-crayon BuildRequires: R-CRAN-stringr BuildRequires: R-stats BuildRequires: R-CRAN-ggplot2 BuildRequires: R-CRAN-tibble BuildRequires: R-CRAN-magrittr BuildRequires: R-CRAN-dplyr BuildRequires: R-CRAN-cli BuildRequires: R-CRAN-Rcpp BuildRequires: R-CRAN-viridisLite BuildRequires: R-graphics BuildRequires: R-CRAN-future.apply BuildRequires: R-CRAN-future BuildRequires: R-CRAN-GPArotation BuildRequires: R-CRAN-checkmate BuildRequires: R-CRAN-tidyr BuildRequires: R-CRAN-progressr BuildRequires: R-CRAN-progress BuildRequires: R-CRAN-rlang BuildRequires: R-CRAN-RcppArmadillo Requires: R-CRAN-lavaan Requires: R-CRAN-psych Requires: R-CRAN-crayon Requires: R-CRAN-stringr Requires: R-stats Requires: R-CRAN-ggplot2 Requires: R-CRAN-tibble Requires: R-CRAN-magrittr Requires: R-CRAN-dplyr Requires: R-CRAN-cli Requires: R-CRAN-Rcpp Requires: R-CRAN-viridisLite Requires: R-graphics Requires: R-CRAN-future.apply Requires: R-CRAN-future Requires: R-CRAN-GPArotation Requires: R-CRAN-checkmate Requires: R-CRAN-tidyr Requires: R-CRAN-progressr Requires: R-CRAN-progress Requires: R-CRAN-rlang %description Provides functions to perform exploratory factor analysis (EFA) procedures and compare their solutions. The goal is to provide state-of-the-art factor retention methods and a high degree of flexibility in the EFA procedures. This way, for example, implementations from R 'psych' and 'SPSS' can be compared. Moreover, functions for Schmid-Leiman transformation and the computation of omegas are provided. To speed up the analyses, some of the iterative procedures, like principal axis factoring (PAF), are implemented in C++. %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}