public TestVerdict ScratchMethod() { try { //using (var testMetric = new TestMetric("9999", "Test metric description")) //{ // testMetric.Start(); // Thread.Sleep(5000); // testMetric.Stop(); //}; var testCheck = TestCheck.IsTrue("This is the first a sample test check", false, "I expected this to fail"); testCheck = TestCheck.IsTrue("This is the second a sample test check", true, "I expected this to pass."); testCheck = TestCheck.IsTrue("This is the third a sample test check", false, $"Expected: Pass, Actual: Fail."); TestWarning.IsTrue(false, "This is a sample test warning."); TestTrace.Trace("This is a sample trace message"); Thread.Sleep(5000); TestMessage += "Completed!"; TestVerdict = TestVerdict.Pass; } catch (Exception e) { TestMessage += e.ToString(); TestVerdict = TestVerdict.Error; } finally { } return(TestVerdict); }
public ActionResult Create([Bind(Include = "Id,TestId,Checked")] TestCheck testCheck) { if (ModelState.IsValid) { var manager = new UserManager <ApplicationUser>(new Microsoft.AspNet.Identity.EntityFramework.UserStore <ApplicationUser>(new ApplicationDbContext())); var currentUser = manager.FindById(User.Identity.GetUserId()); //barcodecs objbar = new barcodecs(); if (currentUser != null) { testCheck.createdBy = currentUser.UserName; } else { testCheck.createdBy = User.Identity.Name; } testCheck.createdDate = DateTime.Now; db.TestCheck.Add(testCheck); db.SaveChanges(); return(RedirectToAction("Index")); } ViewBag.TestId = new SelectList(db.Test, "Id", "Name", testCheck.TestId); return(View(testCheck)); }
public ActionResult DeleteConfirmed(int id) { TestCheck testCheck = db.TestCheck.Find(id); db.TestCheck.Remove(testCheck); db.SaveChanges(); return(RedirectToAction("Index")); }
public override void OnTestCheck(TestCheck testCheck) { string padding = getPadding(testObjectDictionary[testStepKey] + 1); using (StreamWriter sw = File.AppendText(resultFile)) { sw.WriteLine($"{padding} TestCheck: {testCheck.Description}, Verdict: {testCheck.TestVerdict}"); sw.WriteLine(padding + " " + testCheck.Comment); } }
private void TestCheck_OnTestCheck(TestCheck testCheck) { if (this.InvokeRequired) { OnTestCheckDelegate d = new OnTestCheckDelegate(onTestCheck); BeginInvoke(d, new object[] { testCheck }); } else { onTestCheck(testCheck); } }
// GET: TestCheck/Details/5 public ActionResult Details(int?id) { if (id == null) { return(new HttpStatusCodeResult(HttpStatusCode.BadRequest)); } TestCheck testCheck = db.TestCheck.Find(id); if (testCheck == null) { return(HttpNotFound()); } return(View(testCheck)); }
// GET: TestCheck/Edit/5 public ActionResult Edit(int?id) { if (id == null) { return(new HttpStatusCodeResult(HttpStatusCode.BadRequest)); } TestCheck testCheck = db.TestCheck.Find(id); if (testCheck == null) { return(HttpNotFound()); } ViewBag.TestId = new SelectList(db.Test, "Id", "Name", testCheck.TestId); return(View(testCheck)); }
private void onTestCheck(TestCheck testCheck) { _totalRunTestChecks++; if (testCheck.TestVerdict == TestVerdict.Pass) { _testStepChecksPass++; } else if (testCheck.TestVerdict == TestVerdict.Fail) { _testStepChecksFail++; } else if (testCheck.TestVerdict == TestVerdict.Error) { _testStepChecksError++; } }
public override void OnTestCheck(TestCheck testCheck) { LogEvent.Debug($"{MethodInfo.GetCurrentMethod().Name} {testCheck.VirtualUser}"); try { if (_validExecution) { onTestCheck(testCheck); } } catch (Exception e) { _validExecution = false; LogEvent.Error(e.ToString()); throw; } }
public TestVerdict MyTestMethod( [TestParameter("String parameter", "Enter string parameter", "Default value")] string param1, [TestParameter("Int parameter", "Enter integer parameter", 0)] int param2, [TestParameter("Boolean parameter", "Enter boolean parameter", true)] bool param3) { try { Setup(); TestTrace.Trace("This is a sample TestTrace message."); TestAssert.IsTrue(param3, "This is a sample assertion."); TestCheck.IsTrue("Test of param3", param3, "This is a sample TestCheck."); TestMessage += "This is the returned test message."; TestVerdict = TestVerdict.Pass; } catch (TestAssertFailedException e) { TestMessage += e.ToString(); TestVerdict = TestVerdict.Fail; } catch (Exception e) { TestMessage += e.ToString(); TestVerdict = TestVerdict.Error; } finally { Teardown(); } return(TestVerdict); }
public override void OnTestCheck(TestCheck testCheck) { }
public override void OnTestCheck(TestCheck testCheck) { Debug.WriteLine("SampleTestListener2 method: " + MethodInfo.GetCurrentMethod().Name); }
// Start is called before the first frame update void Start() { testCheck = new GameObject(); testCheck.AddComponent <BoxCollider2D>(); check = testCheck.AddComponent <TestCheck>(); }
private void TestCheck_OnTestCheck(TestCheck testCheck) { _listenerEventsClient?.OnTestCheck(testCheck); }
public abstract void OnTestCheck(TestCheck testCheck);
private void onTestCheck(TestCheck testCheck) { }
private void onTestCheck(TestCheck testCheck) { //m_testOutputViewer.AppendText(string.Format("Test check: {0}\n", testCheck.Comment)); //m_testOutputViewer.ScrollToCaret(); }
public override void OnTestCheck(TestCheck testCheck) { throw new NotImplementedException(); }
protected override void Up(MigrationBuilder migrationBuilder) { if (!TestCheck.CheckTableExists <tblMfCdPredictedValueC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "fsprediction", columns: table => new { PredictedValueID = table.Column <long>(type: "bigint", nullable: false) .Annotation("MySQL:ValueGenerationStrategy", MySQLValueGenerationStrategy.IdentityColumn), SystemID = table.Column <int>(type: "int", nullable: false), SubSampleID = table.Column <long>(type: "bigint", nullable: false), ParameterLogicalID = table.Column <int>(type: "int", nullable: false), Type = table.Column <int>(type: "int", nullable: false), AggregationType = table.Column <int>(type: "int", nullable: false), TextResult = table.Column <string>(type: "text", nullable: true), DoubleResult = table.Column <double>(type: "double", nullable: true), DataType = table.Column <int>(type: "int", nullable: false), Unit = table.Column <int>(type: "int", nullable: true), OutlierStatus = table.Column <int>(type: "int", nullable: false), ProductLimitsStatus = table.Column <int>(type: "int", nullable: false), RawResult = table.Column <double>(type: "double", nullable: true), IsSigned = table.Column <bool>(type: "tinyint(1)", nullable: false) }, constraints: table => { table.PrimaryKey("PK_fsprediction", x => x.PredictedValueID); }); } if (!TestCheck.CheckTableExists <tblMfCdProductC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "fsproduct", columns: table => new { ProductID = table.Column <long>(type: "bigint", nullable: false) .Annotation("MySQL:ValueGenerationStrategy", MySQLValueGenerationStrategy.IdentityColumn), SystemID = table.Column <int>(type: "int", nullable: false), ProductLogicalID = table.Column <int>(type: "int", nullable: false), NetworkID = table.Column <int>(type: "int", nullable: false), InstrumentTypeID = table.Column <int>(type: "int", nullable: false), ProductType = table.Column <int>(type: "int", nullable: false), ProductGroupID = table.Column <int>(type: "int", nullable: true), ProductIconID = table.Column <int>(type: "int", nullable: true), Name = table.Column <string>(type: "text", nullable: true), ProductCode = table.Column <string>(type: "text", nullable: true), Description = table.Column <string>(type: "text", nullable: true), SampleType = table.Column <int>(type: "int", nullable: true), InstrumentGroupLogicalID = table.Column <long>(type: "bigint", nullable: true), Active = table.Column <bool>(type: "tinyint(1)", nullable: false), Valid = table.Column <bool>(type: "tinyint(1)", nullable: true), AdvancedPredictionModels = table.Column <bool>(type: "tinyint(1)", nullable: false), AdvancedInstruments = table.Column <bool>(type: "tinyint(1)", nullable: false), AdvancedProductLimits = table.Column <bool>(type: "tinyint(1)", nullable: false), PredictionMode = table.Column <int>(type: "int", nullable: false), HierarchyFileID = table.Column <int>(type: "int", nullable: true), SpecificSlopeIntercept = table.Column <bool>(type: "tinyint(1)", nullable: false), NameTranslationID = table.Column <long>(type: "bigint", nullable: true), Version = table.Column <int>(type: "int", nullable: false), GUID = table.Column <byte[]>(type: "varbinary(16)", nullable: true), CreatedAtUTC = table.Column <DateTime>(type: "datetime", nullable: false), ModifiedAtUTC = table.Column <DateTime>(type: "datetime", nullable: true), Obsolete = table.Column <bool>(type: "tinyint(1)", nullable: false), Latest = table.Column <bool>(type: "tinyint(1)", nullable: false), CreatedBy = table.Column <long>(type: "bigint", nullable: true), ModifiedBy = table.Column <long>(type: "bigint", nullable: true) }, constraints: table => { table.PrimaryKey("PK_fsproduct", x => x.ProductID); }); } if (!TestCheck.CheckTableExists <tblMfCdSampleC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "fssample", columns: table => new { SampleID = table.Column <long>(type: "bigint", nullable: false) .Annotation("MySQL:ValueGenerationStrategy", MySQLValueGenerationStrategy.IdentityColumn), SystemID = table.Column <int>(type: "int", nullable: false), InstrumentLogicalID = table.Column <int>(type: "int", nullable: false), SampleType = table.Column <int>(type: "int", nullable: false), SampleNumber = table.Column <string>(type: "text", nullable: true), ProductLogicalID = table.Column <int>(type: "int", nullable: false), AuditTrailID = table.Column <int>(type: "int", nullable: true), AnalysisStartUTC = table.Column <DateTime>(type: "datetime", nullable: true), AnalysisEndUTC = table.Column <DateTime>(type: "datetime", nullable: true), CreatedAtUTC = table.Column <DateTime>(type: "datetime", nullable: true), ModifiedAtUTC = table.Column <DateTime>(type: "datetime", nullable: true), ModifiedBy = table.Column <long>(type: "bigint", nullable: true), RawDataStatus = table.Column <int>(type: "int", nullable: false), EventsStatus = table.Column <int>(type: "int", nullable: false), OutlierStatus = table.Column <int>(type: "int", nullable: false), ProductLimitsStatus = table.Column <int>(type: "int", nullable: false), SampleinstrumentID = table.Column <byte[]>(type: "varbinary(16)", nullable: true), Obsolete = table.Column <bool>(type: "tinyint(1)", nullable: false), Signature = table.Column <string>(type: "text", nullable: true), SignatureVersion = table.Column <int>(type: "int", nullable: true) }, constraints: table => { table.PrimaryKey("PK_fssample", x => x.SampleID); }); } if (!TestCheck.CheckTableExists <tblMfCdSubSampleC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "fssubsample", columns: table => new { SubSampleID = table.Column <long>(type: "bigint", nullable: false) .Annotation("MySQL:ValueGenerationStrategy", MySQLValueGenerationStrategy.IdentityColumn), SystemID = table.Column <int>(type: "int", nullable: false), SampleID = table.Column <long>(type: "bigint", nullable: false), ParentSubSampleID = table.Column <long>(type: "bigint", nullable: true), SequenceNumber = table.Column <int>(type: "int", nullable: true), SubSampleNumber = table.Column <int>(type: "int", nullable: false), Level = table.Column <int>(type: "int", nullable: false), Info = table.Column <int>(type: "int", nullable: false), Comment = table.Column <string>(type: "text", nullable: true), IsLeaf = table.Column <bool>(type: "tinyint(1)", nullable: false), RawDataStatus = table.Column <int>(type: "int", nullable: false), EventsStatus = table.Column <int>(type: "int", nullable: false), OutlierStatus = table.Column <int>(type: "int", nullable: false), ProductLimitsStatus = table.Column <int>(type: "int", nullable: false), Quality = table.Column <int>(type: "int", nullable: false) }, constraints: table => { table.PrimaryKey("PK_fssubsample", x => x.SubSampleID); }); } if (!TestCheck.CheckTableExists <PredictionC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "prediction", columns: table => new { SampRef = table.Column <int>(type: "int", nullable: false), RepNoRef = table.Column <short>(type: "smallint", nullable: false), CompRef = table.Column <int>(type: "int", nullable: false), Value = table.Column <double>(type: "double", nullable: true), Flags = table.Column <short>(type: "smallint", nullable: true) }, constraints: table => { table.PrimaryKey("PK_prediction", x => new { x.SampRef, x.RepNoRef, x.CompRef }); }); } if (!TestCheck.CheckTableExists <ProductC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "product", columns: table => new { ProdNo = table.Column <int>(type: "int", nullable: false) .Annotation("MySQL:ValueGenerationStrategy", MySQLValueGenerationStrategy.IdentityColumn), Name = table.Column <string>(type: "text", nullable: true), CurVersion = table.Column <bool>(type: "tinyint(1)", nullable: true), Protected = table.Column <bool>(type: "tinyint(1)", nullable: true), UsabilityLevel = table.Column <short>(type: "smallint", nullable: true), NoOfComps = table.Column <short>(type: "smallint", nullable: true), NoOfCols = table.Column <short>(type: "smallint", nullable: true), IconNo = table.Column <short>(type: "smallint", nullable: true), IconPos = table.Column <int>(type: "int", nullable: true), Replicates = table.Column <short>(type: "smallint", nullable: true), PumpStrokes = table.Column <short>(type: "smallint", nullable: true), Viscosity = table.Column <short>(type: "smallint", nullable: true), Preflush = table.Column <bool>(type: "tinyint(1)", nullable: true), PipetteShake = table.Column <short>(type: "smallint", nullable: true), ReducedVolume = table.Column <bool>(type: "tinyint(1)", nullable: true), CleaningTemperature = table.Column <short>(type: "smallint", nullable: true), CleaningIntensity = table.Column <short>(type: "smallint", nullable: true), PurgeAlarmTimeout = table.Column <short>(type: "smallint", nullable: true), PilotMode = table.Column <short>(type: "smallint", nullable: true), PilotMeanMax = table.Column <short>(type: "smallint", nullable: true), CurNoOfPilots = table.Column <short>(type: "smallint", nullable: true), Description = table.Column <string>(type: "text", nullable: true), Version = table.Column <string>(type: "text", nullable: true), ProdDate = table.Column <string>(type: "text", nullable: true), OrigProdRef = table.Column <int>(type: "int", nullable: true), UseDilution = table.Column <bool>(type: "tinyint(1)", nullable: true), DilutionFactorMin = table.Column <double>(type: "double", nullable: true), DilutionFactorIdeal = table.Column <double>(type: "double", nullable: true), DilutionFactorMax = table.Column <double>(type: "double", nullable: true), SampleWeightMin = table.Column <double>(type: "double", nullable: true), SampleWeightideal = table.Column <double>(type: "double", nullable: true), SampleWeightMax = table.Column <double>(type: "double", nullable: true), PcaFailMode = table.Column <short>(type: "smallint", nullable: true), AllowCheckSampleDefinition = table.Column <bool>(type: "tinyint(1)", nullable: true), HideAllGH = table.Column <bool>(type: "tinyint(1)", nullable: true), InstrumentType = table.Column <int>(type: "int", nullable: false) }, constraints: table => { table.PrimaryKey("PK_product", x => x.ProdNo); }); } if (!TestCheck.CheckTableExists <ResultsC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "result", columns: table => new { WorkstationID = table.Column <short>(type: "smallint", nullable: false), SampleIndex = table.Column <int>(type: "int", nullable: false), IntakeNumerator = table.Column <byte>(type: "tinyint", nullable: false), SyntheticNumerator = table.Column <byte>(type: "tinyint", nullable: false), ResultTime = table.Column <DateTime>(type: "datetime", nullable: false), Export = table.Column <bool>(type: "tinyint(1)", nullable: false), SaveForever = table.Column <bool>(type: "tinyint(1)", nullable: false), StoreOnServer = table.Column <bool>(type: "tinyint(1)", nullable: false), Comments = table.Column <string>(type: "text", nullable: true), Status = table.Column <short>(type: "smallint", nullable: false), ResultType = table.Column <byte>(type: "tinyint", nullable: false), ResultSubType = table.Column <byte>(type: "tinyint", nullable: false), SetupIndex = table.Column <int>(type: "int", nullable: false), JobIndex = table.Column <int>(type: "int", nullable: false), Numerator = table.Column <int>(type: "int", nullable: false), Position = table.Column <int>(type: "int", nullable: false), RackID = table.Column <int>(type: "int", nullable: false), OriginalJobIndex = table.Column <int>(type: "int", nullable: false), IsMosaicUploaded = table.Column <short>(type: "smallint", nullable: false), IsModified = table.Column <short>(type: "smallint", nullable: false), InstrumentSampleID = table.Column <byte[]>(type: "varbinary(16)", nullable: false), IsLinkDiagnosticUploaded = table.Column <short>(type: "smallint", nullable: false) }, constraints: table => { table.PrimaryKey("PK_result", x => new { x.SampleIndex, x.IntakeNumerator, x.SyntheticNumerator, x.WorkstationID }); }); } if (!TestCheck.CheckTableExists <SampleC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "sample", columns: table => new { SampNo = table.Column <int>(type: "int", nullable: false) .Annotation("MySQL:ValueGenerationStrategy", MySQLValueGenerationStrategy.IdentityColumn), SampleId = table.Column <string>(type: "text", nullable: true), ProdRef = table.Column <int>(type: "int", nullable: false), ZeroRef = table.Column <int>(type: "int", nullable: false), NoOfReps = table.Column <short>(type: "smallint", nullable: false), Kind = table.Column <short>(type: "smallint", nullable: false), DateTime = table.Column <DateTime>(type: "datetime", nullable: false), DilutionFactor = table.Column <double>(type: "double", nullable: false), SampleWeight = table.Column <double>(type: "double", nullable: false), Excluded = table.Column <bool>(type: "tinyint(1)", nullable: false), Flags = table.Column <int>(type: "int", nullable: false), Remark = table.Column <string>(type: "text", nullable: true), UDF1 = table.Column <string>(type: "text", nullable: true), UDF2 = table.Column <string>(type: "text", nullable: true), UDF3 = table.Column <string>(type: "text", nullable: true), UDF4 = table.Column <string>(type: "text", nullable: true) }, constraints: table => { table.PrimaryKey("PK_sample", x => x.SampNo); }); } if (!TestCheck.CheckTableExists <DoubleComponentsC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "doublecomponent", columns: table => new { WorkstationID = table.Column <short>(type: "smallint", nullable: false), SampleIndex = table.Column <int>(type: "int", nullable: false), IntakeNumerator = table.Column <byte>(type: "tinyint", nullable: false), SyntheticNumerator = table.Column <byte>(type: "tinyint", nullable: false), CID = table.Column <int>(type: "int", nullable: false), Value = table.Column <double>(type: "double", nullable: true), Status = table.Column <short>(type: "smallint", nullable: false), ReferenceValue = table.Column <double>(type: "double", nullable: true) }, constraints: table => { table.PrimaryKey("PK_doublecomponent", x => new { x.SampleIndex, x.CID, x.IntakeNumerator, x.SyntheticNumerator, x.WorkstationID }); table.ForeignKey( name: "FK_doublecomponent_result_SampleIndex_IntakeNumerator_Synthetic~", columns: x => new { x.SampleIndex, x.IntakeNumerator, x.SyntheticNumerator, x.WorkstationID }, principalTable: "result", principalColumns: new[] { "SampleIndex", "IntakeNumerator", "SyntheticNumerator", "WorkstationID" }, onDelete: ReferentialAction.Cascade); }); } if (!TestCheck.CheckTableExists <TextComponentsC>(new ConnectionMilkoscan())) { migrationBuilder.CreateTable( name: "textcomponent", columns: table => new { WorkstationID = table.Column <short>(type: "smallint", nullable: false), SampleIndex = table.Column <int>(type: "int", nullable: false), IntakeNumerator = table.Column <byte>(type: "tinyint", nullable: false), SyntheticNumerator = table.Column <byte>(type: "tinyint", nullable: false), CID = table.Column <int>(type: "int", nullable: false), Value = table.Column <string>(type: "text", nullable: true), Status = table.Column <short>(type: "smallint", nullable: true) }, constraints: table => { table.PrimaryKey("PK_textcomponent", x => new { x.SampleIndex, x.CID, x.IntakeNumerator, x.SyntheticNumerator, x.WorkstationID }); table.ForeignKey( name: "FK_textcomponent_result_SampleIndex_IntakeNumerator_SyntheticNu~", columns: x => new { x.SampleIndex, x.IntakeNumerator, x.SyntheticNumerator, x.WorkstationID }, principalTable: "result", principalColumns: new[] { "SampleIndex", "IntakeNumerator", "SyntheticNumerator", "WorkstationID" }, onDelete: ReferentialAction.Cascade); }); } migrationBuilder.CreateIndex( name: "IX_doublecomponent_SampleIndex_IntakeNumerator_SyntheticNumerat~", table: "doublecomponent", columns: new[] { "SampleIndex", "IntakeNumerator", "SyntheticNumerator", "WorkstationID" }); migrationBuilder.CreateIndex( name: "IX_textcomponent_SampleIndex_IntakeNumerator_SyntheticNumerator~", table: "textcomponent", columns: new[] { "SampleIndex", "IntakeNumerator", "SyntheticNumerator", "WorkstationID" }); }