// // Copyright 2019 Ettus Research, a National Instruments Brand // // SPDX-License-Identifier: GPL-3.0-or-later // #include #include #include #include using namespace uhd::rfnoc; class test_node_t : public node_t { public: test_node_t(size_t num_inputs, size_t num_outputs) : _num_input_ports(num_inputs), _num_output_ports(num_outputs) { register_property(&_double_prop_user, [this]() { std::cout << "Calling clean callback for user prop" << std::endl; this->user_prop_cb_called = true; }); register_property(&multi_instance_prop_0); register_property(&multi_instance_prop_1); register_property(&_double_prop_in); register_property(&_double_prop_out); // A property with a simple 1:1 dependency add_property_resolver({&_double_prop_user}, {&_double_prop_out}, []() { std::cout << "Executing user prop resolver" << std::endl; }); } //! Register a property for the second time, with the goal of triggering an // exception void double_register() { register_property(&_double_prop_user); } //! Register an identical property for the first time, with the goal of // triggering an exception void double_register_input() { property_t double_prop_in{ "double_prop", 0.0, {res_source_info::INPUT_EDGE, 0}}; register_property(&double_prop_in); } //! This should throw an error because the property in the output isn't // registered void add_unregistered_resolver_in() { property_t temp{"temp", 0.0, {res_source_info::INPUT_EDGE, 5}}; add_property_resolver({&temp}, {}, []() { std::cout << "foo" << std::endl; }); } //! This should throw an error because the property in the output isn't // registered void add_unregistered_resolver_out() { property_t temp{"temp", 0.0, {res_source_info::INPUT_EDGE, 5}}; add_property_resolver( {&_double_prop_user}, {&temp}, []() { std::cout << "foo" << std::endl; }); } size_t get_num_input_ports() const override { return _num_input_ports; } size_t get_num_output_ports() const override { return _num_output_ports; } bool user_prop_cb_called = false; private: property_t _double_prop_user{"double_prop", 0.0, {res_source_info::USER}}; property_t _double_prop_in{ "double_prop", 0.0, {res_source_info::INPUT_EDGE, 0}}; property_t _double_prop_out{ "double_prop", 0.0, {res_source_info::OUTPUT_EDGE, 1}}; property_t multi_instance_prop_0{ "multi_instance_prop", 0.0, {res_source_info::USER, 0}}; property_t multi_instance_prop_1{ "multi_instance_prop", 0.0, {res_source_info::USER, 1}}; const size_t _num_input_ports; const size_t _num_output_ports; }; BOOST_AUTO_TEST_CASE(test_node_prop_access) { test_node_t TN1(2, 3); test_node_t TN2(1, 1); BOOST_REQUIRE_THROW(TN2.double_register(), uhd::runtime_error); BOOST_REQUIRE_THROW(TN2.double_register_input(), uhd::runtime_error); BOOST_REQUIRE_THROW(TN2.add_unregistered_resolver_in(), uhd::runtime_error); BOOST_REQUIRE_THROW(TN2.add_unregistered_resolver_out(), uhd::runtime_error); BOOST_CHECK_EQUAL(TN1.get_num_input_ports(), 2); BOOST_CHECK_EQUAL(TN1.get_num_output_ports(), 3); std::cout << TN1.get_unique_id() << std::endl; BOOST_CHECK(TN1.get_unique_id() != TN2.get_unique_id()); auto user_prop_ids = TN1.get_property_ids(); BOOST_REQUIRE_EQUAL(user_prop_ids.size(), 3); BOOST_CHECK_EQUAL(user_prop_ids[0], "double_prop"); BOOST_REQUIRE_THROW(TN1.get_property("nonexistant_prop"), uhd::lookup_error); // If this next test fails, RTTI is not available. There might be cases when // that's expected, and when we encounter those we'll reconsider the test. BOOST_REQUIRE_THROW(TN1.get_property("double_prop"), uhd::type_error); BOOST_REQUIRE_THROW(TN1.get_property("double_prop", 5), uhd::lookup_error); BOOST_CHECK_EQUAL(TN1.get_property("double_prop"), 0.0); // Check that set_properties() works with the override specification TN1.set_properties( uhd::device_addr_t("multi_instance_prop:0=1.234,multi_instance_prop:1=-5.678"), 5); BOOST_CHECK_EQUAL(TN1.get_property("multi_instance_prop", 0), 1.234); BOOST_CHECK_EQUAL(TN1.get_property("multi_instance_prop", 1), -5.678); // And check that it throws an exception with a bad override specification BOOST_REQUIRE_THROW( TN1.set_properties(uhd::device_addr_t("multi_instance_prop:")), uhd::value_error); BOOST_REQUIRE_THROW( TN1.set_properties(uhd::device_addr_t("multi_instance_prop:chicken")), uhd::value_error); BOOST_REQUIRE_THROW(TN1.set_property("nonexistant_prop", 5), uhd::lookup_error); // If this next test fails, RTTI is not available. There might be cases when // that's expected, and when we encounter those we'll reconsider the test. BOOST_REQUIRE_THROW(TN1.set_property("double_prop", 5), uhd::type_error); TN1.set_property("double_prop", 4.2); BOOST_CHECK_EQUAL(TN1.get_property("double_prop"), 4.2); } BOOST_AUTO_TEST_CASE(test_node_accessor) { test_node_t TN1(2, 3); node_accessor_t node_accessor{}; auto user_props = node_accessor.filter_props(&TN1, [](property_base_t* prop) { return (prop->get_src_info().type == res_source_info::USER); }); BOOST_CHECK_EQUAL(user_props.size(), 3); std::map prop_count; for (const auto& prop : user_props) { prop_count[prop->get_id()]++; } BOOST_CHECK_EQUAL(prop_count["double_prop"], 1); BOOST_CHECK_EQUAL(prop_count["multi_instance_prop"], 2); BOOST_CHECK((*user_props.begin())->get_src_info().type == res_source_info::USER); BOOST_CHECK(!TN1.user_prop_cb_called); node_accessor.init_props(&TN1); BOOST_CHECK(TN1.user_prop_cb_called); }