public bool PosTest1() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest1: Call ctor to construct a new instance"); try { Encoder encoder = new TestEncoder(); if (encoder == null) { TestLibrary.TestFramework.LogError("001.1", "Calling ctor to construct a new instance returns null reference"); retVal = false; } } catch (Exception e) { TestLibrary.TestFramework.LogError("001.0", "Unexpected exception: " + e); TestLibrary.TestFramework.LogInformation(e.StackTrace); retVal = false; } return retVal; }
public bool PosTest1() { bool retVal = true; TestLibrary.TestFramework.BeginScenario("PosTest1: Call ctor to construct a new instance"); try { Encoder encoder = new TestEncoder(); if (encoder == null) { TestLibrary.TestFramework.LogError("001.1", "Calling ctor to construct a new instance returns null reference"); retVal = false; } } catch (Exception e) { TestLibrary.TestFramework.LogError("001.0", "Unexpected exception: " + e); TestLibrary.TestFramework.LogInformation(e.StackTrace); retVal = false; } return(retVal); }
private void SetupAll(bool useLimboOutput = false) { var secrets = NetTestVectors.GetSecretsPair(); FrameCipher frameCipher = new FrameCipher(secrets.A.AesSecret); FrameMacProcessor frameMacProcessor = new FrameMacProcessor(TestItem.IgnoredPublicKey, secrets.A); _encoder = new TestEncoder(frameCipher, frameMacProcessor); _splitter = new TestSplitter(); _splitter.DisableFraming(); _zeroSplitter = new TestZeroSplitter(); _zeroSplitter.DisableFraming(); _zeroEncoder = new TestZeroEncoder(frameCipher, frameMacProcessor); _snappyEncoder = new TestSnappy(); _zeroSnappyEncoder = new TestZeroSnappy(); Transaction a = Build.A.Transaction.TestObject; Transaction b = Build.A.Transaction.TestObject; _block = Build.A.Block.WithTransactions(a, b).TestObject; _newBlockMessageSerializer = new NewBlockMessageSerializer(); if (useLimboOutput) { _outputBuffer = new MockBuffer(); } _newBlockMessage = new NewBlockMessage(); _newBlockMessage.Block = _block; _serializationService = new MessageSerializationService(); _serializationService.Register(_newBlockMessageSerializer); _packetSender = new PacketSender(_serializationService, LimboLogs.Instance); ResourceLeakDetector.Level = ResourceLeakDetector.DetectionLevel.Paranoid; }
public void Encode_ABC_to_BCD_with_key_1() { const string str = "ABC"; const int key = 1; const string expected_str = "BCD"; var actual_str = TestEncoder.Encode(str, key); Assert.AreEqual(expected_str, actual_str); }
public void AfterTest() { container.Dispose(); container = null; testFilePath = null; config = null; encoder = null; decoder = null; moduleManagerMock = null; configurationManagerMock = null; fileSystemMock = null; bootstrapperMock = null; }
public void BeforeTest() { container = new CompositionContainer(); testFilePath = new FilePath(@"C:\test", true); config = new SessionConfiguration(); encoder = new TestEncoder(); decoder = new TestDecoder(); moduleManagerMock = new Mock <IModuleManager>(); configurationManagerMock = new Mock <IConfigurationManager>(); fileSystemMock = new MockFileSystem(); bootstrapperMock = new Mock <IBootstrapper>(); var hookMock = new HookNativeMethodsMock(); hookMock.AllowLibraryLoad(); }
public static void testImageCompressor() { Vector2d <uint> imageSize = new Vector2d <uint>(5, 7); Map2d <float> stimulus = new Map2d <float>(imageSize); ImageDrawer <float> drawer = new ImageDrawer <float>(); // draw candidate drawer.drawHorizontalLine(stimulus, new Vector2d <uint>(1, 1), 3, 1.0f); TestEncoder testEncoder = new TestEncoder(); TestEncoder.Candidate bestCandidate = testEncoder.encode(stimulus); int debug = 1; }