mountcontrol/cxx/tests/astrom_test.cpp

#include <fstream>
#include <iostream>

// #include "../mcc_coord.h"
#include "../mcc_mount_astro_erfa.h"
#include "../mcc_traits.h"
#include "../mount_astrom.h"


// BTA coords from maps.yandex.ru: 43.646711, 41.440732

int main(int argc, char* argv[])
{
    int ecode = 0;

    if (argc < 2) {
        std::cerr << "Usage: " << argv[0] << " bulletinA-filename\n";
        exit(1);
    }

    std::ifstream ist(argv[1]);
    if (!ist) {
        std::cerr << "Invalid filename!\n";
        exit(1);
    }


    mcc::astrom::MccIersBulletinA bullA;
    bullA.dump(std::cout);

    std::cout << "\n\n";

    mcc::astrom::MccLeapSeconds lps;
    lps.dump(std::cout);

    std::cout << "\n\n";

    bool ok = bullA.load(ist);
    bullA.dump(std::cerr);

    ist.close();

    std::cout << "\n\n\n------------------\n";

    constexpr auto nnn = mcc::astrom::MccLeapSeconds::real_secs_t{std::numeric_limits<double>::quiet_NaN()};

    auto now = std::chrono::system_clock::now();
    // std::cout << "LEAP SECS for now: " << lps[now].value_or(std::numeric_limits<double>::quiet_NaN()) << "\n";
    std::cout << "LEAP SECS for now: " << lps[now].value_or(nnn) << "\n";

    // std::cout << "DUT1 for now: " << bullA.DUT1(now).value_or(std::numeric_limits<double>::quiet_NaN()) << " (" <<
    // now
    std::cout << "DUT1 for now: " << bullA.DUT1(now).value_or(nnn) << " (" << now << ")\n";

    double mjd = 61077.4;

    // std::cout << "DUT1 for MJD = " << mjd << ": " <<
    // bullA.DUT1(mjd).value_or(std::numeric_limits<double>::quiet_NaN())
    std::cout << "DUT1 for MJD = " << mjd << ": " << bullA.DUT1(mjd).value_or(nnn) << "\n";


    auto st = mcc::astrom::mcc_julday(now, mjd);
    std::cout << "MJD for now: " << std::setprecision(19) << mjd << " (" << now << ")\n";

    // double pres = 786.6;
    // double temp = 0.0;
    // double hum = 0.8;
    // double A, B;

    // erfa::eraRefco(pres, temp, hum, 0.5, &A, &B);
    // const double rr = 180.0 / std::numbers::pi * 60.0;
    // std::cout << "A(arcmin) = " << A * rr << "; B(arcmin) = " << B * rr << "\n";

    float alt_lim = 10.0;
    std::string_view ra_str = "06:30:00.0", dec_str = "00:00:00.0";
    std::cout << "\n\nTimes to object (RA = " << ra_str << ", DEC = " << dec_str << ") sets to given altitude ("
              << alt_lim << " degrees):\n";
    using namespace std::chrono_literals;
    // auto stm = mcc::astrom::mcc_time_to_alt_limit(alt_lim, ra_str, dec_str, 43.646711, 41.440732,
    //                                               std::chrono::system_clock::now(), 0.041s, 32.184s, 37.0s);

    // auto stm_d = mcc::astrom::mcc_chrono_radians{stm};
    // std::cout << "STM: " << stm * 12.0 / std::numbers::pi * 60.0 << " minutes\n";
    // std::cout << "STM: " << std::chrono::duration_cast<std::chrono::minutes>(stm) << " minutes\n";

    alt_lim = 85.0;
    ra_str = "02:30:00.0", dec_str = "45:00:00.0";
    std::cout << "\n\nTimes to object (RA = " << ra_str << ", DEC = " << dec_str << ") sets to given altitude ("
              << alt_lim << " degrees):\n";

    auto stm =
        mcc::astrom::mcc_time_to_alt({alt_lim, mcc::mcc_degrees}, {ra_str, mcc::mcc_hms}, dec_str, 43.646711_degs,
                                     41.440732_degs, std::chrono::system_clock::now(), 0.041s, 32.184s, 37.0s);
    // stm = mcc::astrom::mcc_time_to_alt_limit(alt_lim, ra_str, dec_str, 43.646711, 41.440732,
    //                                          std::chrono::system_clock::now(), 0.041s, 32.184s, 37.0s);

    // auto stm_d = mcc::astrom::mcc_chrono_radians{stm};
    // std::cout << "STM: " << stm * 12.0 / std::numbers::pi * 60.0 << " minutes\n";
    std::cout << "STM: " << stm.first << ", " << stm.second << " seconds\n";
    std::cout << "STM: " << std::chrono::duration_cast<std::chrono::minutes>(stm.first) << ", "
              << std::chrono::duration_cast<std::chrono::minutes>(stm.second) << " minutes\n";


    std::cout << "\n\n\n";
    const size_t N = 1000;
    double mjds[N];
    now = std::chrono::system_clock::now();
    st = mcc::astrom::mcc_julday(now, mjds, std::chrono::milliseconds(100));
    std::cout << std::format("comp time for {} MJDs = {}\n", N, std::chrono::system_clock::now() - now);
    std::cout << std::format("MIN MJD: {:.16f}; \nMAX MJD: {:.16f}\n", mjds[0], mjds[N - 1]);

    double elong = 43.646711 * std::numbers::pi / 180.0;
    double phi = 41.440732 * std::numbers::pi / 180.0;
    double aob, zob, hob, dob, rob, eo;

    now = std::chrono::system_clock::now();

    for (auto& el : mjds) {
        st = mcc::astrom::erfa::eraAtco13(1.343523, 0.32352345, 0.0, 0.0, 0.0, 0.0, ERFA_DJM0, el, 0.041, elong, phi,
                                          2100.0, 0.0, 0.0, 700.0, 10.0, 0.8, 0.5, &aob, &zob, &hob, &dob, &rob, &eo);
        // st = erfa::eraAtco13(1.343523, 0.32352345, 0.0, 0.0, 0.0, 0.0, ERFA_DJM0, el, 0.041, elong, phi, 2100.0, 0.0,
        //                      0.0, 700.0, 10.0, 0.8, 0.5, &aob, &zob, &hob, &dob, &rob, &eo);
    }
    std::cout << std::format(
        "comp time for {} coordinate transf = {}\n", N,
        std::chrono::duration_cast<std::chrono::milliseconds>(std::chrono::system_clock::now() - now));


    std::cout << "\n\n\nMccCoordinate class test:\n";

    mcc::MccAngle ra("12:00:00", mcc::mcc_hms);

    std::cout << "sin(12h) = " << std::sin(ra) << "\n";
    std::cout << "cos(12h) = " << std::cos(ra) << "\n";

    ra = "18:00:00"_hms;
    std::cout << "sin(18h) = " << std::sin(ra) << "\n";
    std::cout << "cos(18h) = " << std::cos(ra) << "\n";

    ra = mcc::MccAngle{45.0, mcc::mcc_degrees};
    std::cout << "sin(45) = " << std::sin(ra) << "\n";
    std::cout << "cos(45) = " << std::cos(ra) << "\n";

    std::cout << ra.sexagesimal(false, 4) << "\n";


    std::cout << "\n\n\n\n";

    mcc::astrom::erfa::MccMountAstromEngineERFA::engine_state_t state;
    state.lon = 41.440732_degs;
    state.lat = 43.646711_degs;
    state.elev = 2100.0;

    state.meteo = {10.0, 0.5, 1010.0};


    mcc::astrom::erfa::MccMountAstromEngineERFA erfa(state);
    mcc::astrom::erfa::MccMountAstromEngineERFA::juldate_t jd{60861.72};

    now = std::chrono::system_clock::now();
    erfa.greg2jul(now, jd);
    std::cout << "MJD(" << now << ") = " << jd.mjd << "\n";


    mcc::MccAngle ra1{"10:00:00", mcc::mcc_hms}, dec1{"68:25:10.43"}, ra_o, dec_o, ha1, az1, alt1;

    std::cout << "RA = " << ra1.sexagesimal(true) << ", DEC = " << dec1.sexagesimal() << "\n";
    auto res = erfa.icrs2obs(ra1, dec1, 0, 0, 0, jd, ra_o, dec_o, ha1, az1, alt1, eo);
    std::cout << "ret code (icrs2obs) = " << erfa.errorString(res) << "\n";
    std::cout << "alt = " << alt1.sexagesimal() << "\n";
    std::cout << "az = " << az1.sexagesimal() << "\n";

    return ecode;
}