FindBenchmarks() public method

public FindBenchmarks ( Assembly targetAssembly ) : IEnumerable
targetAssembly System.Reflection.Assembly
return IEnumerable
示例#1
0
 public void BugFix153IsFixed()
 {
     var o = new ActionBenchmarkOutput(benchmarkAction: r =>
     {
         var name = new CounterMetricName(CounterThroughputBenchmark.CounterName);
         var count = r.Data.StatsByMetric[name];
         Assert.True(count.PerSecondStats.Average > 0.0);
     });
     var d = new ReflectionDiscovery(o, DefaultBenchmarkAssertionRunner.Instance, new RunnerSettings());
     var benchmarks = d.FindBenchmarks(typeof(CounterThroughputBenchmark));
     foreach (var b in benchmarks)
     {
         b.Run();
         b.Finish();
         Assert.True(b.AllAssertsPassed);
     }
 }
示例#2
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        public void Should_write_trace_messages_in_user_spec_to_output_when_runner_has_enabled_tracing()
        {
            var methodOutput = new List<string>();
            var discovery = new ReflectionDiscovery(new ActionBenchmarkOutput(writeLineAction: str =>
                {
                    methodOutput.Add(str);
                }), DefaultBenchmarkAssertionRunner.Instance, new RunnerSettings() { TracingEnabled = true});

            var benchmarks = discovery.FindBenchmarks(typeof (TracingBenchmark)).ToList();
            Assert.Equal(1, benchmarks.Count); // sanity check
            foreach(var benchmark in benchmarks)
                benchmark.Run();

            var setupTraces = methodOutput.Count(x => x.Contains(SetupTrace));
            var runTraces = methodOutput.Count(x => x.Contains(RunTrace));
            var cleanupTraces = methodOutput.Count(x => x.Contains(CleanupTrace));

            Assert.Equal(ExpectedTraces, setupTraces);
            Assert.Equal(ExpectedTraces, runTraces);
            Assert.Equal(ExpectedTraces, cleanupTraces);
        }
示例#3
0
        /// <summary>
        /// Executes the tests
        /// </summary>
        /// <returns>True if all tests passed.</returns>
        public TestRunnerResult Execute()
        {
            // Perform core / thread optimizations if we're running in single-threaded mode
            // But not if the user has specified that they're going to be running multi-threaded benchmarks
            SetProcessPriority(_package.Concurrent);

            // pass in the runner settings so we can include them in benchmark reports
            // also, toggles tracing on or off
            var runnerSettings = new RunnerSettings()
            {
                ConcurrentModeEnabled = _package.Concurrent,
                TracingEnabled = _package.Tracing
            };

            IBenchmarkOutput output = CreateOutput();

            var discovery = new ReflectionDiscovery(output,
                DefaultBenchmarkAssertionRunner.Instance, // one day we might be able to pass in custom assertion runners, hence why this is here
                runnerSettings);
            var result = new TestRunnerResult()
            {
                AllTestsPassed = true
            };

            try
            {
                foreach (var testFile in _package.Files)
                {
                    var assembly = AssemblyRuntimeLoader.LoadAssembly(testFile);

                    var benchmarks = discovery.FindBenchmarks(assembly);

                    foreach (var benchmark in benchmarks)
                    {
                        // verify if the benchmark should be included/excluded from the list of benchmarks to be run
                        if (_package.ShouldRunBenchmark(benchmark.BenchmarkName))
                        {
                            output.StartBenchmark(benchmark.BenchmarkName);
                            benchmark.Run();
                            benchmark.Finish();

                            // if one assert fails, all fail
                            result.AllTestsPassed = result.AllTestsPassed && benchmark.AllAssertsPassed;
                            output.FinishBenchmark(benchmark.BenchmarkName);
                            result.ExecutedTestsCount = result.ExecutedTestsCount + 1;
                        }
                        else
                        {
                            output.SkipBenchmark(benchmark.BenchmarkName);
                            result.IgnoredTestsCount = result.IgnoredTestsCount + 1;
                        }
                    }
                }
            }
            catch (Exception ex)
            {
                output.Error(ex, "Error while executing the tests.");
                result.AllTestsPassed = false;
            }

            return result;
        }