// // Copyright 2014-2016 Ettus Research LLC // Copyright 2018 Ettus Research, a National Instruments Company // // SPDX-License-Identifier: GPL-3.0-or-later // #include "graph.hpp" #include #include using namespace uhd::rfnoc; // test class derived, this is what we search for class result_node : public test_node { public: typedef boost::shared_ptr sptr; result_node(const std::string &test_id) : test_node(test_id) {}; }; /* class result_node */ #define MAKE_RESULT_NODE(name) result_node::sptr name(new result_node(#name)); BOOST_AUTO_TEST_CASE(test_simplest_downstream_search) { MAKE_NODE(node_A); MAKE_NODE(node_B); // Simplest possible scenario: Connect B downstream of A and let // A find B connect_nodes(node_A, node_B); test_node::sptr result = node_A->find_downstream_node()[0]; BOOST_REQUIRE(result); BOOST_CHECK_EQUAL(result->get_test_id(), "node_B"); } BOOST_AUTO_TEST_CASE(test_simple_downstream_search) { MAKE_NODE(node_A); MAKE_NODE(node_B0); MAKE_NODE(node_B1); // Simple scenario: Connect both B{1,2} downstream of A and let // it find them connect_nodes(node_A, node_B0); connect_nodes(node_A, node_B1); // We're still searching for test_node, so any downstream block will match std::vector< test_node::sptr > result = node_A->find_downstream_node(); BOOST_REQUIRE(result.size() == 2); BOOST_CHECK( (result[0]->get_test_id() == "node_B0" and result[1]->get_test_id() == "node_B1") or (result[1]->get_test_id() == "node_B0" and result[0]->get_test_id() == "node_B1") ); BOOST_CHECK(result[0] == node_B0 or result[0] == node_B1); } BOOST_AUTO_TEST_CASE(test_linear_downstream_search) { MAKE_NODE(node_A); MAKE_RESULT_NODE(node_B); MAKE_RESULT_NODE(node_C); // Slightly more complex graph: connect_nodes(node_A, node_B); connect_nodes(node_B, node_C); // This time, we search for result_node std::vector< result_node::sptr > result = node_A->find_downstream_node(); std::cout << "size: " << result.size() << std::endl; BOOST_CHECK_EQUAL(result.size(), 1); BOOST_CHECK_EQUAL(result[0]->get_test_id(), "node_B"); for(const result_node::sptr &node: result) { std::cout << node->get_test_id() << std::endl; } } BOOST_AUTO_TEST_CASE(test_multi_iter_downstream_search) { MAKE_NODE(node_A); MAKE_NODE(node_B0); MAKE_NODE(node_B1); MAKE_NODE(node_C0); MAKE_RESULT_NODE(node_C1); MAKE_RESULT_NODE(node_C2); MAKE_RESULT_NODE(node_C3); MAKE_RESULT_NODE(node_D0); // Slightly more complex graph: connect_nodes(node_A, node_B0); connect_nodes(node_A, node_B1); connect_nodes(node_B0, node_C0); connect_nodes(node_B0, node_C1); connect_nodes(node_B1, node_C2); connect_nodes(node_B1, node_C3); connect_nodes(node_C0, node_D0); // This time, we search for result_node std::vector< result_node::sptr > result = node_A->find_downstream_node(); BOOST_REQUIRE(result.size() == 4); for(const result_node::sptr &node: result) { std::cout << node->get_test_id() << std::endl; } } BOOST_AUTO_TEST_CASE(test_multi_iter_cycle_downstream_search) { MAKE_NODE(node_A); MAKE_NODE(node_B0); MAKE_NODE(node_B1); MAKE_NODE(node_C0); MAKE_RESULT_NODE(node_C1); MAKE_RESULT_NODE(node_C2); MAKE_RESULT_NODE(node_C3); MAKE_RESULT_NODE(node_D0); // Slightly more complex graph: connect_nodes(node_A, node_B0); // This connection goes both ways, causing a cycle connect_nodes(node_A, node_B1); connect_nodes(node_B1, node_A); connect_nodes(node_B0, node_C0); connect_nodes(node_B0, node_C1); connect_nodes(node_B1, node_C2); connect_nodes(node_B1, node_C3); connect_nodes(node_C0, node_D0); // This time, we search for result_node std::vector< result_node::sptr > result = node_A->find_downstream_node(); BOOST_REQUIRE(result.size() == 4); for(const result_node::sptr &node: result) { std::cout << node->get_test_id() << std::endl; } } BOOST_AUTO_TEST_CASE(test_mini_cycle_downstream_and_upstream) { MAKE_NODE(node_A); MAKE_NODE(node_B); // Connect them in a loop connect_nodes(node_A, node_B); connect_nodes(node_B, node_A); std::vector< test_node::sptr > result; result = node_A->find_downstream_node(); BOOST_REQUIRE_EQUAL(result.size(), 1); BOOST_REQUIRE(result[0] == node_B); result = node_B->find_downstream_node(); BOOST_REQUIRE_EQUAL(result.size(), 1); BOOST_REQUIRE(result[0] == node_A); result = node_A->find_upstream_node(); BOOST_REQUIRE_EQUAL(result.size(), 1); BOOST_REQUIRE(result[0] == node_B); result = node_B->find_upstream_node(); BOOST_REQUIRE_EQUAL(result.size(), 1); BOOST_REQUIRE(result[0] == node_A); }