# - package and R: Csdp (https://projects.coin-or.org/Csdp)
#
# Conditional build:
-%bcond_with tests # run testsuite (csdp dependant micromega tests fail badly on x86_64)
+%bcond_without ocaml_opt # skip building native optimized binaries (bytecode is always built)
+%bcond_with tests # run testsuite (csdp dependant micromega tests fail badly on x86_64)
#
+%ifnarch %{ix86} %{x8664} arm aarch64 ppc sparc sparcv9
+%undefine with_ocaml_opt
+%endif
+
Summary: The Coq Proof Assistant
Summary(pl.UTF-8): Coq - narzędzie pomagające w udowadnianiu
Name: coq
-emacs emacs \
-browser "xdg-open %s" \
-emacslib %{_datadir}/emacs/site-lisp \
- -opt \
+ %{?with_ocaml_opt:-opt} \
--coqdocdir %{_datadir}/texmf/tex/latex/misc \
- --coqide opt
+ --coqide %{?with_ocaml_opt:opt}%{!?with_ocaml_opt:byte}
-%{__make} -j1 world VERBOSE=1
-%{?with_tests:%{__make} -j1 check VERBOSE=1} # Use native coq to compile theories
+%{__make} -j1 world VERBOSE=1 CAML_LD_LIBRARY_PATH=kernel/byterun
+%{?with_tests:%{__make} -j1 check VERBOSE=1 CAML_LD_LIBRARY_PATH=kernel/byterun} # Use native coq to compile theories
%install
rm -rf $RPM_BUILD_ROOT