public void RunMinute() { var now = DateTime.UtcNow; var tt = new TestTask((byte)now.Hour, (sbyte)now.Minute); tt.Run(); Assert.IsTrue(tt.Called); }
public void RetrieveDescriptionOrNameRetrievesTheDescriptionWhenDescriptionIsSet() { var task = new TestTask(); task.Description = "Test Task"; var actual = task.RetrieveDescriptionOrName(); Assert.AreEqual(task.Description, actual); }
public void RetrieveDescriptionOrNameRetrievesTheNameWhenDescriptionIsNotSet() { var task = new TestTask(); task.Description = null; var actual = task.RetrieveDescriptionOrName(); Assert.AreEqual(task.GetType().Name, actual); }
public void SetUp() { _library = new GenericBTLibrary(); _tree = new TestTask(null, "tree1", new ModelTask[0]); _tree2 = new TestTask(null, "tree2", new ModelTask[0]); }
public void ValidateHandlesNull() { var task = new TestTask { Tasks = null }; task.Validate(null, null, null); }
public void ValidateHandlesEmpty() { var task = new TestTask { Tasks = new ITask[0] }; task.Validate(null, null, null); }
public void ApplyParametersHandlesNull() { var task = new TestTask { DynamicValues = null }; var parameters = new Dictionary<string, string>(); var definitions = new List<ParameterBase>(); task.ApplyParameters(parameters, definitions); }
internal override void Execute() { var cmdlet = (SendTmxTestTaskResultCommand)Cmdlet; var taskUpdater = new TaskUpdater(new RestRequestCreator()); // 20140926 // var testTask = new TestTask { TaskResult = new Dictionary<string, string>() }; var testTask = new TestTask(); foreach (var key in cmdlet.Result.Keys) { testTask.TaskResult.Add(key.ToString(), cmdlet.Result[key].ToString()); } taskUpdater.SendTaskResult(testTask, ClientSettings.Instance.ClientId); }
public void CascadeError() { var sw = new StringWriter(); var t1 = new TestTask {DoError = true}; var t2 = new TestTask(sw); t2.RequiredModules.Add(t1); t1.Execute(); t2.Execute(); Console.WriteLine(sw.ToString()); Assert.AreEqual(@" S:Pending S:CascadeError ".Trim(), sw.ToString().Trim()); }
public void ValidateHandlesValidationTasks() { var subTask = new MockTask(); var task = new TestTask { Tasks = new ITask[] { subTask } }; task.Validate(null, ConfigurationTrace.Start(null), null); Assert.IsTrue(subTask.IsValided); }
public void RunWithFalseResultMarksStatusAsFailed() { var task = new TestTask { Result = () => false }; var result = mocks.DynamicMock<IIntegrationResult>(); mocks.ReplayAll(); task.Run(result); mocks.VerifyAll(); Assert.IsTrue(task.Executed); Assert.AreEqual(ItemBuildStatus.CompletedFailed, task.CurrentStatus.Status); }
public void ValidateHandlesNonValidationTasks() { var subTask = mocks.StrictMock<ITask>(); var task = new TestTask { Tasks = new ITask[] { subTask } }; mocks.ReplayAll(); task.Validate(null, null, null); mocks.VerifyAll(); }
public void Execute_should_call_wait_for_exit_before_ExitCode() { //Since mono is broken and won't give us the ExitCode otherwise. var process = new ProcessStub(); var waitForExitCalled = false; process.WaitForExitHandler = () => waitForExitCalled = true; process.GetExitCodeHandler = () => { Assert.IsTrue(waitForExitCalled); return 0; }; var platform = new ExecutionEnvironmentStub(); platform.RunHandler = (program, args, handler) => handler(process); var task = new TestTask(platform); task.Execute(); }
internal override void Execute() { var cmdlet = (SendTmxTestTaskResultCommand)Cmdlet; // 20150918 // var taskUpdater = new TaskUpdater(new RestRequestCreator()); // var taskUpdater = new TaskUpdater(); var taskUpdater = ProxyFactory.Get<TaskUpdater>(); // 20140926 // var testTask = new TestTask { TaskResult = new Dictionary<string, string>() }; // 20150904 var testTask = new TestTask(); // TODO: parameterize this // var testTask = new TestTask(TestTaskRuntimeTypes.Powershell); foreach (var key in cmdlet.Result.Keys) testTask.TaskResult.Add(key.ToString(), cmdlet.Result[key].ToString()); taskUpdater.SendTaskResult(testTask, ClientSettings.Instance.ClientId); }
public void PreprocessParametersAddsDirectValueForValidAttributeDynamicValue() { var document = new XmlDocument(); var xml = "<item attrib=\"$[value|default]\"><subItem>Text</subItem></item>"; document.LoadXml(xml); var task = new TestTask(); var actual = task.PreprocessParameters(new NetReflectorTypeTable(), document.DocumentElement); var expected = "<item attrib=\"default\"><subItem>Text</subItem>" + "<dynamicValues>" + "<directValue>" + "<parameter>value</parameter>" + "<default>default</default>" + "<property>attrib</property>" + "</directValue>" + "</dynamicValues></item>"; Assert.AreEqual(expected, actual.OuterXml); }
public void ApplyParametersHandlesParameter() { var dynamicValue = mocks.StrictMock<IDynamicValue>(); var task = new TestTask { DynamicValues = new IDynamicValue[] { dynamicValue } }; var parameters = new Dictionary<string, string>(); var definitions = new List<ParameterBase>(); Expect.Call(() => { dynamicValue.ApplyTo(task, parameters, definitions); }); mocks.ReplayAll(); task.ApplyParameters(parameters, definitions); mocks.VerifyAll(); }
public void MinuteMin() { var tt = new TestTask(1, sbyte.MinValue); Assert.AreEqual(-1, tt.Minute); }
public void HourMin() { var tt = new TestTask(byte.MinValue, 1); Assert.AreEqual(0, tt.Hour); }
public void MinuteMax() { var tt = new TestTask(1, sbyte.MaxValue); Assert.AreEqual(59, tt.Minute); }
public void ApplyParametersStoresTheArguments() { var parameters = new Dictionary<string, string>(); var definitions = new List<ParameterBase>(); var subTask = new MockTask(); var task = new TestTask { Tasks = new ITask[] { subTask } }; var result = mocks.DynamicMock<IIntegrationResult>(); mocks.ReplayAll(); task.ApplyParameters(parameters, definitions); task.Run(result); mocks.VerifyAll(); Assert.AreSame(parameters, subTask.Parameters); Assert.AreSame(definitions, subTask.Definitions); Assert.IsTrue(subTask.Executed); }
public void HourMax() { var tt = new TestTask(byte.MaxValue, 1); Assert.AreEqual(23, tt.Hour); }
public void PreprocessParametersAddsSingleReplacementValueForValidAttributeDynamicValueWithoutDefault() { var document = new XmlDocument(); var xml = "<item attrib=\"($[value1])\"><subItem>Text</subItem></item>"; document.LoadXml(xml); var task = new TestTask(); var actual = task.PreprocessParameters(new NetReflectorTypeTable(), document.DocumentElement); var expected = "<item attrib=\"\"><subItem>Text</subItem>" + "<dynamicValues>" + "<replacementValue>" + "<format>({0})</format>" + "<parameters>" + "<namedValue name=\"value1\" />" + "</parameters>" + "<property>attrib</property>" + "</replacementValue>" + "</dynamicValues></item>"; Assert.AreEqual(expected, actual.OuterXml); }
public void RunWrongMinute() { var now = DateTime.UtcNow; var minute = now.Minute > 1 ? now.Minute - 1 : 2; var tt = new TestTask((byte)now.Hour, (sbyte)minute); tt.Run(); Assert.IsFalse(tt.Called); }
public void InitialiseStatusHandlesStatusTask() { var subTask = new MockTask(); var task = new TestTask { Tasks = new ITask[] { subTask } }; task.TestStatus(); Assert.IsNotNull(task.CurrentStatus); Assert.IsTrue(subTask.SnapshotGenerated); }
public void InitialiseStatusHandlesNonStatusTask() { var subTask = mocks.StrictMock<ITask>(); var task = new TestTask { Tasks = new ITask[] { subTask } }; mocks.ReplayAll(); task.TestStatus(); mocks.VerifyAll(); Assert.IsNotNull(task.CurrentStatus); }
public void InitialiseStatusHandlesEmpty() { var task = new TestTask { Tasks = new ITask[0] }; task.TestStatus(); Assert.IsNotNull(task.CurrentStatus); }
public void InitialiseStatusHandlesNull() { var task = new TestTask { Tasks = null }; task.TestStatus(); }
private void button1_Click(object sender, EventArgs e) { int n = Convert.ToInt32(textBox1.Text); int m = Convert.ToInt32(textBox2.Text); int s = Convert.ToInt32(textBox3.Text); if (otherSeries == true) { chart1.Series["1"].Points.Clear(); chart1.Series["2"].Points.Clear(); chart1.Series["3"].Points.Clear(); chart1.Series["4"].Points.Clear(); chart1.Series["5"].Points.Clear(); chart1.Series["6"].Points.Clear(); chart1.Series["7"].Points.Clear(); chart1.Series["8"].Points.Clear(); chart1.Series["9"].Points.Clear(); chart1.Series["10"].Points.Clear(); } ThermalCondEq eq = new TestTask(); if (radioButton4.Checked == true) { eq = new TestTask2(); } SolvingThermalCondEq task = new ExplicitMethod(eq, n, m);; if (radioButton2.Checked == true) { task = new ImplicitMethod(eq, n, m); } if (radioButton1.Checked == true) { if (task.Tgrid.h >= task.Xgrid.h * task.Xgrid.h / 2.0) { MessageBox.Show("Error!"); return; } } label5.Text = "k = " + task.Tgrid.h; label6.Text = "h = " + task.Xgrid.h; bool b = task.convergence(); label4.Text = "Error = " + task.Norma(); label8.Text = "h^2+k = " + (task.Xgrid.h * task.Xgrid.h + task.Tgrid.h).ToString(); chart1.ChartAreas[0].AxisX.Minimum = 0; chart1.ChartAreas[0].AxisX.Maximum = 1; chart1.ChartAreas[0].AxisX.Interval = 0.2; chart1.Series[0].Points.Clear(); chart1.Series[1].Points.Clear(); for (int i = 0; i <= n; i++) { chart1.Series[1].Points.AddXY(task.Xgrid.points[i], eq.analiticRes(task.Xgrid.points[i], task.Tgrid.points[s])); chart1.Series[0].Points.AddXY(task.Xgrid.points[i], task.result[i, s]); } int tableI = Convert.ToInt32(textBox4.Text); int tableJ = Convert.ToInt32(textBox5.Text); dataGridView1.ColumnCount = n + 1; dataGridView1.RowCount = tableJ - tableI + 1; for (int i = 0; i < dataGridView1.RowCount; i++) { for (int j = 0; j < dataGridView1.ColumnCount; j++) { dataGridView1[j, i].Value = task.result[j, tableI + i]; } } }
public void PreprocessParametersAddsMultipleReplacementValueForValidNodeDynamicValueWithFormat() { var document = new XmlDocument(); var xml = "<item attrib=\"value\"><subItem>$[value1|default|00] $[value2|default|00]</subItem></item>"; document.LoadXml(xml); var task = new TestTask(); var actual = task.PreprocessParameters(new NetReflectorTypeTable(), document.DocumentElement); var expected = "<item attrib=\"value\"><subItem></subItem>" + "<dynamicValues>" + "<replacementValue>" + "<format>{0:00} {1:00}</format>" + "<parameters>" + "<namedValue name=\"value1\" value=\"default\" />" + "<namedValue name=\"value2\" value=\"default\" />" + "</parameters>" + "<property>subItem</property>" + "</replacementValue>" + "</dynamicValues></item>"; Assert.AreEqual(expected, actual.OuterXml); }
public void RunWithExceptionMarksStatusAsFailed() { var task = new TestTask { Result = () => { throw new CruiseControlException(); } }; var result = mocks.DynamicMock<IIntegrationResult>(); mocks.ReplayAll(); // This may look like a weird test, but we don't care that Run() has an exception try { task.Run(result); } catch (Exception) { } mocks.VerifyAll(); Assert.IsTrue(task.Executed); Assert.AreEqual(ItemBuildStatus.CompletedFailed, task.CurrentStatus.Status); }
public void RunWrongHour() { var now = DateTime.UtcNow; var hour = now.Hour > 1 ? now.Hour - 1 : 2; var tt = new TestTask((byte)hour); tt.Run(); Assert.IsFalse(tt.Called); }
private void button2_Click(object sender, EventArgs e) { ThermalCondEq eq = new TestTask(); if (radioButton4.Checked == true) { eq = new TestTask2(); } int loc_n = 10; int loc_m = 2010; var task = new ImplicitMethod(eq, loc_n, loc_m); if (otherSeries == false) { chart1.Series.Add("1"); chart1.Series.Add("2"); chart1.Series.Add("3"); chart1.Series.Add("4"); chart1.Series.Add("5"); chart1.Series.Add("6"); chart1.Series.Add("7"); chart1.Series.Add("8"); chart1.Series.Add("9"); chart1.Series.Add("10"); chart1.Series["1"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; chart1.Series["2"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; chart1.Series["3"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; chart1.Series["4"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; chart1.Series["5"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; chart1.Series["6"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; chart1.Series["7"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; chart1.Series["8"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; chart1.Series["9"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; chart1.Series["10"].ChartType = System.Windows.Forms.DataVisualization.Charting.SeriesChartType.Line; otherSeries = true; } chart1.Series[0].Points.Clear(); chart1.Series[1].Points.Clear(); chart1.Series["1"].Points.Clear(); chart1.Series["2"].Points.Clear(); chart1.Series["3"].Points.Clear(); chart1.Series["4"].Points.Clear(); chart1.Series["5"].Points.Clear(); chart1.Series["6"].Points.Clear(); chart1.Series["7"].Points.Clear(); chart1.Series["8"].Points.Clear(); chart1.Series["9"].Points.Clear(); chart1.Series["10"].Points.Clear(); int l = (loc_m / 10) / 10; for (int i = 0; i <= loc_n; i++) { chart1.Series["1"].Points.AddXY(task.Xgrid.points[i], task.result[i, l]); chart1.Series["2"].Points.AddXY(task.Xgrid.points[i], task.result[i, 2 * l]); chart1.Series["3"].Points.AddXY(task.Xgrid.points[i], task.result[i, 3 * l]); chart1.Series["4"].Points.AddXY(task.Xgrid.points[i], task.result[i, 4 * l]); chart1.Series["5"].Points.AddXY(task.Xgrid.points[i], task.result[i, 5 * l]); chart1.Series["6"].Points.AddXY(task.Xgrid.points[i], task.result[i, 6 * l]); chart1.Series["7"].Points.AddXY(task.Xgrid.points[i], task.result[i, 7 * l]); chart1.Series["8"].Points.AddXY(task.Xgrid.points[i], task.result[i, 8 * l]); chart1.Series["9"].Points.AddXY(task.Xgrid.points[i], task.result[i, 9 * l]); chart1.Series["10"].Points.AddXY(task.Xgrid.points[i], task.result[i, 10 * l]); } }