public void RunSelfTest_Success_SelftestApproved() { _heater.RunSelfTest().Returns(true); _sensor.RunSelfTest().Returns(true); _window.RunSelfTest().Returns(true); Assert.IsTrue(_uut.RunSelfTest()); }
public void RunSelfTest_SelfTestReturnsTrue() { // Act _tempSensor.RunSelfTest().Returns(true); _heater.RunSelfTest().Returns(true); Assert.IsTrue(_uut.RunSelfTest()); // Assert }
public void RunSelfTest_CombinationOfInput_CorrectOutput( bool tempResult, bool heaterResult, bool expectedResult) { _fakeTempSensor.SelfTestResult = tempResult; _fakeHeater.SelfTestResult = heaterResult; Assert.That(_uut.RunSelfTest(), Is.EqualTo(expectedResult)); }
public void RunSelfTest_StubsReturnsAllBoolValues_ReturnsCorrectBool(bool heaterBool, bool sensorBool, bool result) { _heater.RunSelfTest().Returns(heaterBool); _tempSensor.RunSelfTest().Returns(sensorBool); // work is done in setup bool selfTestResult = uut.RunSelfTest(); Assert.That(selfTestResult, Is.EqualTo(result)); }
public void RunSelfTest_StubsSetToXandY_ExpectZ(bool X, bool Y, bool Z) { //Arrange _fakeHeater.RunSelfTest().Returns(X); _fakeTempSensor.RunSelfTest().Returns(Y); //Act bool result = uut.RunSelfTest(); //Assert Assert.That(result, Is.EqualTo(Z)); }
public void RunSelftest_AllSubtestsPass_ReturnsTrue( bool TempTest, bool HeaterTest, bool WindowTest, bool ExpectedResult) { _fakeTempSensor.RunSelfTest().Returns(TempTest); _fakeHeater.RunSelfTest().Returns(HeaterTest); _fakeWindow.RunSelfTest().Returns(WindowTest); Assert.That(_uut.RunSelfTest(), Is.EqualTo(ExpectedResult)); }
public void RunSelfTest_StubsSetToXandY_ExpectZ(bool X, bool Y, bool Z) { StubTempSensor sts = new StubTempSensor(0); sts.RunSelftestBool = X; StubHeater sh = new StubHeater(); sh.RunSelftestBool = Y; uut = new ECS(sts, sh, 10); bool result = uut.RunSelfTest(); Assert.That(result, Is.EqualTo(Z)); }
public void TestSelfTest(bool Heater, bool Temp, bool expeted) { //Arrange var subHeater = NSubstitute.Substitute.For <IHeater>(); var subTemp = NSubstitute.Substitute.For <ITempSensor>(); var uut = new ECS(subTemp, subHeater, 3); //Arrange stub subHeater.RunSelfTest().Returns(Heater); subTemp.RunSelfTest().Returns(Temp); //Act / Assert Assert.That(uut.RunSelfTest(), Is.EqualTo(expeted)); }
public void RunSelfTestTests(bool tempSensorStatus, bool heaterStatus, bool windowStatus, bool expectedValue) { tempSensor.selfTestResult = tempSensorStatus; heater.selfTestResult = heaterStatus; window.SelfTestResult = windowStatus; var result = UUT.RunSelfTest(); if (expectedValue == true) { Assert.That(result, Is.True); } else { Assert.That(result, Is.False); } }
public void RunSelfTest_TempSensorFails_SelfTestFails() { _tempSensor.RunSelfTest().Returns(false); _heater.RunSelfTest().Returns(true); Assert.IsFalse(_uut.RunSelfTest()); }
public void RunSelfTest_SelfTestFails_TempOrHeaterIsFalse(bool temp, bool heater) { _tempSensor.RunSelfTest().Returns(temp); _heater.RunSelfTest().Returns(heater); Assert.IsFalse(_uut.RunSelfTest()); }
public void RunSelfTest_HeaterSensor_Res(bool hSelftest, bool tSSelfTest, bool res) { _fakeHeater.RunSelfTest().Returns(hSelftest); _fakeTempSensor.RunSelfTest().Returns(tSSelfTest); Assert.That(_uut.RunSelfTest() == res); }
public void RunSelfTest_Test(bool hReturn, bool tReturn, bool Result) { _fakeTempSensor.RunSelfTest().Returns(tReturn); _fakeHeater.RunSelfTest().Returns(hReturn); Assert.That(_uut.RunSelfTest(), Is.EqualTo(Result)); }
public void ECS_RunSelfTest_True() { Assert.That(uut.RunSelfTest(fakeTempSensor, new FakeHeaterTrue()), Is.True); }
public void RunSelfTest_True() { bool res = uut.RunSelfTest(); Assert.That(res, Is.True); }