public void GomEpsInitialize_repeat_Test() { GomEPS gom = new GomEPS(); Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsInitialize(add, 1)); Assert.AreEqual(Constants.E_IS_INITIALIZED, gom.GomEpsInitialize(add, 1)); }
public void GomEpsConfig2CMD_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsConfig2CMD(0, 1)); }
public void GomEpsConfigSet_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); EPS.eps_config_t conf = new EPS.eps_config_t(); //conf.output = new EPS.eps_config_t(); EPS eps = gom.eps_table[0]; conf.ppt_mode = (byte)eps.CurrentConfig.PptMode; conf.battheater_mode = (byte)eps.CurrentConfig.BattheaterMode; conf.battheater_low = eps.CurrentConfig.BattheaterLow; conf.battheater_high = eps.CurrentConfig.BattheaterHigh; conf.output_initial_off_delay = new ushort[8]; conf.output_initial_on_delay = new ushort[8]; conf.output_normal_value = new byte[8]; conf.output_safe_value = new byte[8]; for (int i = 0; i < 8; i++) { conf.output_initial_off_delay[i] = eps.CurrentConfig.OutputInitialOffDelay[i]; conf.output_initial_on_delay[i] = eps.CurrentConfig.OutputInitialOnDelay[i]; conf.output_normal_value[i] = eps.CurrentConfig.OutputNormalValue[i]; conf.output_safe_value[i] = eps.CurrentConfig.OutputSafeValue[i]; } conf.vboost = new ushort[3]; for (int i = 0; i < 3; i++) { conf.vboost[i] = eps.CurrentConfig.Vboost[i]; } Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsConfigSet(0, conf)); }
public void GomEpsSetPhotovoltaicInputs_not_an_index_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsSetPhotovoltaicInputs(1, 7000, 7200, 7400)); }
public void GomEpsSoftReset_not_an_index_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsSoftReset(1)); }
public void GomEpsConfig2CMD_invalid_input_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Assert.AreEqual(Constants.E_INVALID_INPUT, gom.GomEpsConfig2CMD(0, 6)); }
public void GomEpsSetPhotovoltaicInputs_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsSetPhotovoltaicInputs(0, 7000, 7200, 7400)); }
public void GomEpsSoftReset_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsSoftReset(0)); }
public void GomEpsConfig2Set_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); EPS.eps_config2_t conf = new EPS.eps_config2_t(); Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsConfig2Set(0, conf)); }
public void GomEpsSetPhotovoltaicInputs_invalid_action_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); gom.eps_table[0].CurrentConfig.PptMode = PPTMode.MPPT; Assert.AreEqual(Constants.E_INVALID_ACTION, gom.GomEpsSetPhotovoltaicInputs(0, 7000, 7200, 7400)); }
public void GomEpsConfig2Set_not_an_index_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); EPS.eps_config2_t conf = new EPS.eps_config2_t(); Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsConfig2Set(1, conf)); }
public void GomEpsSetPptMode_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); byte mode = 1; Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsSetPptMode(0, mode)); }
public void GomEpsGetHkData_basic_not_an_index_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Output <EPS.eps_hk_basic_t> output = new Output <EPS.eps_hk_basic_t>(); Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsGetHkData_basic(1, output)); }
public void GomEpsSetPptMode_not_invalid_input_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); byte mode = 3; Assert.AreEqual(Constants.E_INVALID_INPUT, gom.GomEpsSetPptMode(0, mode)); }
public void GomEpsGetHkData_basic_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Output <EPS.eps_hk_basic_t> output = new Output <EPS.eps_hk_basic_t>(); Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsGetHkData_basic(0, output)); }
public void GomEpsSetOutput_not_an_index_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); byte outputs = 255; Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsSetOutput(1, outputs)); }
public void GomEpsSetOutput_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); byte outputs = 255; Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsSetOutput(0, outputs)); }
public void GomEpsSetPptMode_not_an_index_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); byte mode = 1; Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsSetPptMode(1, mode)); }
public void GomEpsPing_eps_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Output <Byte> output = new Output <Byte>(); Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsPing(0, 1, output)); }
public void GomEpsPing_eps_not_an_index_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Output <Byte> output = new Output <Byte>(); Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsPing(1, 1, output)); }
public void GomEpsConfigGet_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Output <EPS.eps_config_t> conf = new Output <EPS.eps_config_t>(); Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsConfigGet(0, conf)); }
public void GomEpsPing_eps_right_ping_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Output <Byte> output = new Output <Byte>(); gom.GomEpsPing(0, 1, output); Assert.AreEqual(1, output.output); }
public void GomEpsSetSingleOutput_invalid_value_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); byte channelId = 5; byte val = 2; Assert.AreEqual(Constants.E_INVALID_INPUT, gom.GomEpsSetSingleOutput(0, channelId, val, 1)); }
public void GomEpsSetSingleOutput_not_an_index_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); byte channelId = 5; byte val = 1; Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsSetSingleOutput(1, channelId, val, 1)); }
public void GomEpsSetSingleOutput_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); byte channelId = 5; byte val = 1; Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsSetSingleOutput(0, channelId, val, 1)); }
public void GomEpsSetHeaterAutoMode_not_an_index_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Output <ushort> output = new Output <ushort>(); byte mode = 1; Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsSetHeaterAutoMode(1, mode, output)); }
public void GomEpsSetHeaterAutoMode_no_error_Test() { GomEPS gom = new GomEPS(); gom.GomEpsInitialize(add, 1); Output <ushort> output = new Output <ushort>(); byte mode = 1; Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsSetHeaterAutoMode(0, mode, output)); }
public EPSTab(GomEPS gomEPS) { InitializeComponent(); this.gomEPS = gomEPS; gomEPS.GomEpsInitialize(0, 1); eps = gomEPS.eps_table[0]; Battery batt = eps.OnboardBattery; BoostConverter converter1 = eps.BoostConverters[0]; BoostConverter converter2 = eps.BoostConverters[1]; BoostConverter converter3 = eps.BoostConverters[2]; Channel channel1 = (Channel)eps.Outputs[(int)OutputType.T_3_3V1]; Channel channel2 = (Channel)eps.Outputs[(int)OutputType.T_3_3V2]; Channel channel3 = (Channel)eps.Outputs[(int)OutputType.T_3_3V3]; Channel channel4 = (Channel)eps.Outputs[(int)OutputType.T_5V1]; Channel channel5 = (Channel)eps.Outputs[(int)OutputType.T_5V2]; Channel channel6 = (Channel)eps.Outputs[(int)OutputType.T_5V3]; Output qs = eps.Outputs[(int)OutputType.T_QS]; Output qh = eps.Outputs[(int)OutputType.T_QH]; EPSConfiguration currConfig = eps.CurrentConfig; BatteryHeater heater = eps.BatteryHeaters[EPSConstants.ONBOARD_HEATER]; WDT i2c = eps.Wdts[(int)WdtType.I2C]; WDT gnd = eps.Wdts[(int)WdtType.GND]; WDT csp0 = eps.Wdts[(int)WdtType.CSP0]; WDT csp1 = eps.Wdts[(int)WdtType.CSP1]; //Battery batteryGrid.DataContext = batt; battCurrInText.DataContext = batt; battCurrOutText.DataContext = batt; //pv pv1Grid.DataContext = converter1; pv1CurrInText.DataContext = converter1; pv1CurrOutText.DataContext = converter1; pv1VboostText.DataContext = currConfig; pv2Grid.DataContext = converter2; pv2CurrInText.DataContext = converter2; pv2CurrOutText.DataContext = converter2; pv2VboostText.DataContext = currConfig; pv3Grid.DataContext = converter3; pv3CurrInText.DataContext = converter3; pv3CurrOutText.DataContext = converter3; pv3VboostText.DataContext = currConfig; //channels channel1Grid.DataContext = channel1; ch1OnDelText.DataContext = currConfig; ch1OffDelText.DataContext = currConfig; ch1CurrOutText.DataContext = channel1; ch1Light.DataContext = channel1; ch1NormalText.DataContext = currConfig; ch1SafeText.DataContext = currConfig; channel2Grid.DataContext = channel2; ch2OnDelText.DataContext = currConfig; ch2OffDelText.DataContext = currConfig; ch2CurrOutText.DataContext = channel2; ch2Light.DataContext = channel2; ch2NormalText.DataContext = currConfig; ch2SafeText.DataContext = currConfig; channel3Grid.DataContext = channel3; ch3OnDelText.DataContext = currConfig; ch3OffDelText.DataContext = currConfig; ch3CurrOutText.DataContext = channel3; ch3Light.DataContext = channel3; ch3NormalText.DataContext = currConfig; ch3SafeText.DataContext = currConfig; channel4Grid.DataContext = channel4; ch4OnDelText.DataContext = currConfig; ch4OffDelText.DataContext = currConfig; ch4CurrOutText.DataContext = channel4; ch4Light.DataContext = channel4; ch4NormalText.DataContext = currConfig; ch4SafeText.DataContext = currConfig; channel5Grid.DataContext = channel5; ch5OnDelText.DataContext = currConfig; ch5OffDelText.DataContext = currConfig; ch5CurrOutText.DataContext = channel5; ch5Light.DataContext = channel5; ch5NormalText.DataContext = currConfig; ch5SafeText.DataContext = currConfig; channel6Grid.DataContext = channel6; ch6OnDelText.DataContext = currConfig; ch6OffDelText.DataContext = currConfig; ch6CurrOutText.DataContext = channel6; ch6Light.DataContext = channel6; ch6NormalText.DataContext = currConfig; ch6SafeText.DataContext = currConfig; channelQSGrid.DataContext = qs; qsOnDelText.DataContext = currConfig; qsOffDelText.DataContext = currConfig; qsLight.DataContext = qs; qsNormalText.DataContext = currConfig; qsSafeText.DataContext = currConfig; channelQHGrid.DataContext = qh; qhOnDelText.DataContext = currConfig; qhOffDelText.DataContext = currConfig; qhLight.DataContext = qh; qhNormalText.DataContext = currConfig; qhSafeText.DataContext = currConfig; //current config confGrid.DataContext = currConfig; //battery heater batteryHeaterGrid.DataContext = heater; heaterModeText.DataContext = currConfig; heatLowText.DataContext = currConfig; heatHighText.DataContext = currConfig; battHeatBorder.DataContext = heater; //WDTs wdtI2CGrid.DataContext = i2c; wdtGNDGrid.DataContext = gnd; wdtCSP0Grid.DataContext = csp0; wdtCSP1Grid.DataContext = csp1; //other lastResetText.DataContext = eps; numRebootText.DataContext = eps; numErrorsText.DataContext = eps; /*Task.Factory.StartNew(() => Thread.Sleep(1000)) * .ContinueWith((t) => * { * eps.BatteryDrop(); * }, TaskScheduler.FromCurrentSynchronizationContext()); */ // Create a timer myTimer = new System.Timers.Timer(); // Tell the timer what to do when it elapses myTimer.Elapsed += new ElapsedEventHandler(MyEvent); // Set it to go off every five seconds myTimer.Interval = 1000; // And start it myTimer.Enabled = true; // Implement a call with the right signature for events going off }
public void GomEpsInitialize_n_greater_then_1_Test() { GomEPS gom = new GomEPS(); Assert.AreEqual(Constants.E_NO_SS_ERR, gom.GomEpsInitialize(add, 2)); }
public void GomEpsInitializeRepeat_incorrect_number_Test() { GomEPS gom = new GomEPS(); Assert.AreEqual(Constants.E_INDEX_ERROR, gom.GomEpsInitialize(add, 0)); }