class Root < Formula desc "Object oriented framework for large scale data analysis" homepage "https://root.cern.ch" url "https://root.cern.ch/download/root_v6.10.08.source.tar.gz" version "6.10.08" sha256 "2cd276d2ac365403c66f08edd1be62fe932a0334f76349b24d8c737c0d6dad8a" head "http://root.cern.ch/git/root.git" bottle do rebuild 1 sha256 "32ec87dd05b998d2b6d794b75bdb5905b752842ed2193ed6bbdd22deb5c49c7a" => :high_sierra sha256 "5a913e35442d6f37d5abd5bda2a80061716f8687f24bb95ca3630dbb29918897" => :sierra sha256 "e1191f01a47f1a086f48266a33d5d5ff11722e14259c3b30560417049c86a2e6" => :el_capitan end depends_on "cmake" => :build depends_on "fftw" depends_on "graphviz" depends_on "gsl" depends_on "openssl" depends_on "xrootd" depends_on :fortran depends_on :python => :recommended depends_on :python3 => :optional needs :cxx11 skip_clean "bin" def install # Work around "error: no member named 'signbit' in the global namespace" ENV.delete("SDKROOT") if DevelopmentTools.clang_build_version >= 900 args = std_cmake_args + %W[ -Dgnuinstall=ON -DCMAKE_INSTALL_ELISPDIR=#{share}/emacs/site-lisp/#{name} -Dbuiltin_freetype=ON -Dfftw3=ON -Dfortran=ON -Dgdml=ON -Dmathmore=ON -Dminuit2=ON -Droofit=ON -Dssl=ON -Dxrootd=ON ] if build.with?("python3") && build.with?("python") odie "Root: Does not support building both python 2 and 3 wrappers" elsif build.with?("python") || build.with?("python3") python_executable = `which python`.strip if build.with? "python" python_executable = `which python3`.strip if build.with? "python3" python_prefix = `#{python_executable} -c 'import sys;print(sys.prefix)'`.chomp python_include = `#{python_executable} -c 'from distutils import sysconfig;print(sysconfig.get_python_inc(True))'`.chomp python_version = "python" + `#{python_executable} -c 'import sys;print(sys.version[:3])'`.chomp # cmake picks up the system's python dylib, even if we have a brewed one if File.exist? "#{python_prefix}/Python" python_library = "#{python_prefix}/Python" elsif File.exist? "#{python_prefix}/lib/lib#{python_version}.a" python_library = "#{python_prefix}/lib/lib#{python_version}.a" elsif File.exist? "#{python_prefix}/lib/lib#{python_version}.dylib" python_library = "#{python_prefix}/lib/lib#{python_version}.dylib" else odie "No libpythonX.Y.{a,dylib} file found!" end args << "-DPYTHON_EXECUTABLE='#{python_executable}'" args << "-DPYTHON_INCLUDE_DIR='#{python_include}'" args << "-DPYTHON_LIBRARY='#{python_library}'" end if build.with?("python") || build.with?("python3") args << "-Dpython=ON" else args << "-Dpython=OFF" end mkdir "builddir" do system "cmake", "..", *args # Work around superenv stripping out isysroot leading to errors with # libsystem_symptoms.dylib (only available on >= 10.12) and # libsystem_darwin.dylib (only available on >= 10.13) if MacOS.version < :high_sierra system "xcrun", "make", "install" else system "make", "install" end chmod 0755, Dir[bin/"*.*sh"] end end def caveats; <<~EOS Because ROOT depends on several installation-dependent environment variables to function properly, you should add the following commands to your shell initialization script (.bashrc/.profile/etc.), or call them directly before using ROOT. For bash users: . #{HOMEBREW_PREFIX}/bin/thisroot.sh For zsh users: pushd #{HOMEBREW_PREFIX} >/dev/null; . bin/thisroot.sh; popd >/dev/null For csh/tcsh users: source #{HOMEBREW_PREFIX}/bin/thisroot.csh EOS end test do (testpath/"test.C").write <<~EOS #include void test() { std::cout << "Hello, world!" << std::endl; } EOS (testpath/"test.bash").write <<~EOS . #{bin}/thisroot.sh root -l -b -n -q test.C EOS assert_equal "\nProcessing test.C...\nHello, world!\n", shell_output("/bin/bash test.bash") end end