class Fftw < Formula desc "C routines to compute the Discrete Fourier Transform" homepage "http://www.fftw.org" url "http://fftw.org/fftw-3.3.8.tar.gz" sha256 "6113262f6e92c5bd474f2875fa1b01054c4ad5040f6b0da7c03c98821d9ae303" revision 2 livecheck do url "http://fftw.org/" regex(%r{latest official release.*? v?(\d+(?:\.\d+)+)}i) end bottle do cellar :any sha256 "e021f210b7f8a785b86b82fe191408d783def6e6baec192e8133d703c51bf0de" => :catalina sha256 "d4af1ee10e2eb5784874cac832f10d3e8d3010962e31102df7c6bffc34783d92" => :mojave sha256 "64d050b8736eed9b127f175d39d4acc93c1ec960b096aee756bbb5ea906b6b82" => :high_sierra end depends_on "gcc" depends_on "open-mpi" fails_with :clang def install args = [ "--enable-shared", "--disable-debug", "--prefix=#{prefix}", "--enable-threads", "--disable-dependency-tracking", "--enable-mpi", "--enable-openmp", ] # FFTW supports runtime detection of CPU capabilities, so it is safe to # use with --enable-avx and the code will still run on all CPUs simd_args = ["--enable-sse2", "--enable-avx"] # single precision # enable-sse2, enable-avx and enable-avx2 work for both single and double precision system "./configure", "--enable-single", *(args + simd_args) system "make", "install" # clean up so we can compile the double precision variant system "make", "clean" # double precision # enable-sse2, enable-avx and enable-avx2 work for both single and double precision system "./configure", *(args + simd_args) system "make", "install" # clean up so we can compile the long-double precision variant system "make", "clean" # long-double precision # no SIMD optimization available system "./configure", "--enable-long-double", *args system "make", "install" end test do # Adapted from the sample usage provided in the documentation: # http://www.fftw.org/fftw3_doc/Complex-One_002dDimensional-DFTs.html (testpath/"fftw.c").write <<~EOS #include int main(int argc, char* *argv) { fftw_complex *in, *out; fftw_plan p; long N = 1; in = (fftw_complex*) fftw_malloc(sizeof(fftw_complex) * N); out = (fftw_complex*) fftw_malloc(sizeof(fftw_complex) * N); p = fftw_plan_dft_1d(N, in, out, FFTW_FORWARD, FFTW_ESTIMATE); fftw_execute(p); /* repeat as needed */ fftw_destroy_plan(p); fftw_free(in); fftw_free(out); return 0; } EOS system ENV.cc, "-o", "fftw", "fftw.c", "-L#{lib}", "-lfftw3", *ENV.cflags.to_s.split system "./fftw" end end