// Copyright John Maddock 2006. // Use, modification and distribution are subject to the // Boost Software License, Version 1.0. // (See accompanying file LICENSE_1_0.txt // or copy at http://www.boost.org/LICENSE_1_0.txt) #include //#include #include #include #include #include #include #include float extern_val; // confuse the compilers optimiser, and force a truncation to float precision: float truncate_to_float(float const * pf) { extern_val = *pf; return *pf; } std::tr1::tuple generate_rf_data(boost::math::ntl::RR n) { static std::tr1::mt19937 r; std::tr1::uniform_real ur(0, 1); std::tr1::uniform_int ui(-100, 100); float x = ur(r); x = ldexp(x, ui(r)); boost::math::ntl::RR xr(truncate_to_float(&x)); float y = ur(r); y = ldexp(y, ui(r)); boost::math::ntl::RR yr(truncate_to_float(&y)); float z = ur(r); z = ldexp(z, ui(r)); boost::math::ntl::RR zr(truncate_to_float(&z)); boost::math::ntl::RR result = boost::math::ellint_rf(xr, yr, zr); return std::tr1::make_tuple(xr, yr, zr, result); } std::tr1::tuple generate_rc_data(boost::math::ntl::RR n) { static std::tr1::mt19937 r; std::tr1::uniform_real ur(0, 1); std::tr1::uniform_int ui(-100, 100); float x = ur(r); x = ldexp(x, ui(r)); boost::math::ntl::RR xr(truncate_to_float(&x)); float y = ur(r); y = ldexp(y, ui(r)); boost::math::ntl::RR yr(truncate_to_float(&y)); boost::math::ntl::RR result = boost::math::ellint_rc(xr, yr); return std::tr1::make_tuple(xr, yr, result); } std::tr1::tuple generate_rj_data(boost::math::ntl::RR n) { static std::tr1::mt19937 r; std::tr1::uniform_real ur(0, 1); std::tr1::uniform_real nur(-1, 1); std::tr1::uniform_int ui(-100, 100); float x = ur(r); x = ldexp(x, ui(r)); boost::math::ntl::RR xr(truncate_to_float(&x)); float y = ur(r); y = ldexp(y, ui(r)); boost::math::ntl::RR yr(truncate_to_float(&y)); float z = ur(r); z = ldexp(z, ui(r)); boost::math::ntl::RR zr(truncate_to_float(&z)); float p = nur(r); p = ldexp(p, ui(r)); boost::math::ntl::RR pr(truncate_to_float(&p)); boost::math::ellint_rj(x, y, z, p); boost::math::ntl::RR result = boost::math::ellint_rj(xr, yr, zr, pr); return std::tr1::make_tuple(xr, yr, zr, pr, result); } std::tr1::tuple generate_rd_data(boost::math::ntl::RR n) { static std::tr1::mt19937 r; std::tr1::uniform_real ur(0, 1); std::tr1::uniform_int ui(-100, 100); float x = ur(r); x = ldexp(x, ui(r)); boost::math::ntl::RR xr(truncate_to_float(&x)); float y = ur(r); y = ldexp(y, ui(r)); boost::math::ntl::RR yr(truncate_to_float(&y)); float z = ur(r); z = ldexp(z, ui(r)); boost::math::ntl::RR zr(truncate_to_float(&z)); boost::math::ntl::RR result = boost::math::ellint_rd(xr, yr, zr); return std::tr1::make_tuple(xr, yr, zr, result); } int test_main(int argc, char*argv []) { using namespace boost::math::tools; boost::math::ntl::RR::SetOutputPrecision(50); boost::math::ntl::RR::SetPrecision(1000); parameter_info arg1, arg2; test_data data; bool cont; std::string line; if(argc < 1) return 1; do{ int count; std::cout << "Number of points: "; std::cin >> count; arg1 = make_periodic_param(boost::math::ntl::RR(0), boost::math::ntl::RR(1), count); arg1.type |= dummy_param; // // Change this next line to get the R variant you want: // data.insert(&generate_rd_data, arg1); std::cout << "Any more data [y/n]?"; std::getline(std::cin, line); boost::algorithm::trim(line); cont = (line == "y"); }while(cont); std::cout << "Enter name of test data file [default=ellint_rf_data.ipp]"; std::getline(std::cin, line); boost::algorithm::trim(line); if(line == "") line = "ellint_rf_data.ipp"; std::ofstream ofs(line.c_str()); line.erase(line.find('.')); ofs << std::scientific; write_code(ofs, data, line.c_str()); return 0; }