// // Copyright 2016 Ettus Research // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #include #include #include #include #include #include using namespace uhd; using namespace uhd::cal; static const double eps = 1e-8; //////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE(test_power_container_bilinear){ //////////////////////////////////////////////////////////////////////// // Create the data container power_container::sptr container = power_container::make(); // Create some data points to add std::vector pt0(2, 0.0); std::vector pt1(2, 0.0); std::vector pt2(2, 0.0); std::vector pt3(2, 2.0); pt1[0] = 2.0; pt2[1] = 2.0; container->add(1.0, pt0); container->add(1.0, pt1); container->add(0.0, pt2); container->add(0.0, pt3); // Add points to interpolate against std::vector test0(2, 1.0); std::vector test1(2, 1.5); std::vector test2(2, 0.0); test2[1] = 1.0; BOOST_CHECK_CLOSE(container->get(test0), 0.50, eps); BOOST_CHECK_CLOSE(container->get(test1), 0.25, eps); BOOST_CHECK_CLOSE(container->get(test2), 0.50, eps); } //////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE(test_power_temp_container){ //////////////////////////////////////////////////////////////////////// // Create the data container power_container::sptr container = power_container::make(); // Create some data points to add std::vector pt0(3, 1.0); std::vector pt1(3, 2.0); std::vector pt2(3, 3.0); container->add(1.0, pt0); container->add(2.0, pt1); container->add(5.0, pt2); // Add points to interpolate against std::vector test0(3, 1.99); std::vector test1(3, 1.29); std::vector test2; test2.push_back(2.59); test2.push_back(1.29); test2.push_back(2.99); BOOST_CHECK_CLOSE(container->get(test0), 2.0, eps); BOOST_CHECK_CLOSE(container->get(test1), 1.0, eps); BOOST_CHECK_CLOSE(container->get(test2), 5.0, eps); } //////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE(test_power_container_metadata){ //////////////////////////////////////////////////////////////////////// // Create the data container power_container::sptr container = power_container::make(); // Create some metadata to add base_container::metadata_t data; std::string fake_serial = "F2A432"; data["x300"] = fake_serial; // Add some metadata container->add_metadata(data); // Check to see if the metadata matches power_container::metadata_t recovered_data = container->get_metadata(); BOOST_CHECK_EQUAL(recovered_data["x300"], fake_serial); } //////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE(test_power_serialization){ //////////////////////////////////////////////////////////////////////// // Create the data container power_container::sptr container = power_container::make(); // Create some metadata to add base_container::metadata_t data; std::string fake_serial = "F2A432"; data["x300"] = fake_serial; // Add some metadata container->add_metadata(data); // Create some data points to add std::vector pt0(3, 1.0); std::vector pt1(3, 2.0); std::vector pt2(3, 3.0); container->add(1.0, pt0); container->add(2.0, pt1); container->add(5.0, pt2); std::string filename("test_power_serialization"); // Create/open a file to store the container { std::ofstream ofile(filename.c_str()); boost::archive::text_oarchive oarchive(ofile); oarchive << *container; } // Restore to another data container power_container::sptr new_container = power_container::make(); { std::ifstream ifile(filename.c_str()); boost::archive::text_iarchive iarchive(ifile); iarchive >> *new_container; } // Add points to interpolate against std::vector test0(3, 1.99); std::vector test1(3, 1.29); std::vector test2; test2.push_back(2.59); test2.push_back(1.29); test2.push_back(2.99); power_container::metadata_t recovered_data = new_container->get_metadata(); BOOST_CHECK_CLOSE(new_container->get(test0), 2.0, eps); BOOST_CHECK_CLOSE(new_container->get(test1), 1.0, eps); BOOST_CHECK_CLOSE(new_container->get(test2), 5.0, eps); // Check to see if the metadata matches BOOST_CHECK_EQUAL(recovered_data["x300"], fake_serial); std::remove(filename.c_str()); } //////////////////////////////////////////////////////////////////////// BOOST_AUTO_TEST_CASE(test_interp_singular){ //////////////////////////////////////////////////////////////////////// // Create the data container power_container::sptr container = power_container::make(); // Create some data points to add // that result in a singular matrix std::vector pt0(2, 1.0); std::vector pt1(2, 2.0); std::vector pt2(2, 3.0); std::vector pt3(2, 4.0); container->add(1.0, pt0); container->add(2.0, pt1); container->add(3.0, pt2); container->add(4.0, pt3); std::vector test(2, 2.5); BOOST_CHECK_CLOSE(container->get(test), 2.5, eps); }