public void GetNodesLevelMaxTest(TestConfiguration conf) { // Simplified Prepare/Run version, no prepare because the Benchmark preparation data is read only: var graph = GraphPerformanceTestHelper.CreateGraphInstance(conf.GraphType); Assert.IsTrue(graph.CountNodes == 0); GraphPerformanceTestHelper.FillGraph(graph, conf); conf.Run = (c => graph.GetNodes(conf.Levels - 1).Enumerate()); conf.Benchmark("GetNodesLevelMax", conf.ToString(), 5); }
public void CanSortTest(TestConfiguration conf) { // Simplified Prepare/Run version, no prepare because the Benchmark preparation data is read only: var graph = GraphPerformanceTestHelper.CreateGraphInstance(conf.GraphType); Assert.IsTrue(graph.CountNodes == 0); GraphPerformanceTestHelper.FillGraph(graph, conf); conf.Run = (c => graph.CanSort(new[] { 1, 2 })); conf.Benchmark("CanSort", conf.ToString(), 5); }
public void AddRangeTest(TestConfiguration conf) { conf.Prepare = (i => { var c = ((TestConfiguration)i); c.SequencesToAdd = GenerateSequencesToAdd(conf); c.Graph = GraphPerformanceTestHelper.CreateGraphInstance(conf.GraphType); Assert.IsTrue(c.Graph.CountNodes == 0); }); conf.Run = (i => { var c = ((TestConfiguration)i); c.Graph.AddSequences(c.SequencesToAdd); }); conf.Benchmark("AddSequences", conf.ToString(), 5); }
public void NodePerformanceTests(TestConfiguration conf) { var graph = CreateGraphInstance(conf.GraphType); GraphPerformanceTestHelper.FillGraph(graph, conf); // Original 'Get Neighbours' was: ////// Get Neighbours ////var node = graph.GetNodes(conf.Levels / 2).First(); ////var action = new Action(() => node.GetNeighbours(-1, 1).Enumerate()); ////action.Benchmark(conf, "Node_GetNeighbours", conf.ToString()); // The full alternative for simplified Benchmark would be the following sample // As all these Benchmarks (the Run action) uses the preparation in _read_ only mode // the new API conf.Prepare action is not mandatory, see simplified version // Get Neighbours ////conf.Prepare = (c => ((TestConfiguration)c).Node = graph.GetNodes(conf.Levels / 2).First()); ////conf.Run = (c => ((TestConfiguration)c).Node.GetNeighbours(-1, 1).Enumerate()); ////conf.IsReusable = true; ////conf.Benchmark("Node_GetNeighbours", conf.ToString(), 5); // Simplified version: conf.Prepare remains null and using local variables for // the communication with the Run action (the 'node' variable) // Get Neighbours var node = graph.GetNodes(conf.Levels / 2).First(); conf.Run = (c => node.GetNeighbours(-1, 1).Enumerate()); conf.Benchmark("Node_GetNeighbours", conf.ToString(), 5); // Get Descendants node = graph.Find(0); conf.Run = (c => node.Descendants.Enumerate()); conf.Benchmark("Node_Descendants", conf.ToString(), 5); // Get Precedents node = graph.Find(graph.CountNodes - 1); conf.Run = (c => node.Precedents.Enumerate()); conf.Benchmark("Node_Precedents", conf.ToString(), 5); // Get Terminating Descendants node = graph.Find(1); conf.Run = (c => node.TerminatingDescendants.Enumerate()); conf.Benchmark("Node_TerminatingDescendants", conf.ToString(), 5); // Get Terminating Precedents node = graph.Find(graph.CountNodes - 1); conf.Run = (c => node.TerminatingPrecedents.Enumerate()); conf.Benchmark("Node_TerminatingPrecedents", conf.ToString(), 5); // Find middle conf.Run = (c => graph.Find(graph.CountNodes / 2)); conf.Benchmark("Node_FindMiddle", conf.ToString(), 5); // Find first conf.Run = (c => graph.Find(0)); conf.Benchmark("Node_FindFirst", conf.ToString(), 5); // Find Last conf.Run = (c => graph.Find(graph.CountNodes - 1)); conf.Benchmark("Node_FindLast", conf.ToString(), 5); }