void TestDigitalInputPorts(int loopCount) { var in00 = _mcp.CreateDigitalInputPort(_mcp.Pins.GP0); var in01 = _mcp.CreateDigitalInputPort(_mcp.Pins.GP1); var in02 = _mcp.CreateDigitalInputPort(_mcp.Pins.GP2); var in03 = _mcp.CreateDigitalInputPort(_mcp.Pins.GP3); var in04 = _mcp.CreateDigitalInputPort(_mcp.Pins.GP4); var in05 = _mcp.CreateDigitalInputPort(_mcp.Pins.GP5); var in06 = _mcp.CreateDigitalInputPort(_mcp.Pins.GP6); var in07 = _mcp.CreateDigitalInputPort(_mcp.Pins.GP7); var innies = new List <IDigitalInputPort>() { in00, in01, in02, in03, in04, in05, in06, in07 }; // read all the ports, sleep for 100ms and repeat a few times. for (int l = 0; l < loopCount; l++) { foreach (var innie in innies) { Console.WriteLine($"InputPort {innie.Pin.Name} Read: {innie.State}"); } Thread.Sleep(100); } // cleanup for (int i = 0; i < innies.Count; i++) { innies[i].Dispose(); } }
/// <summary> /// Initializes all hardware and software classes /// </summary> void Initialize() { Console.WriteLine("Initialize hardware..."); onboardLed = new RgbPwmLed(device: Device, redPwmPin: Device.Pins.OnboardLedRed, greenPwmPin: Device.Pins.OnboardLedGreen, bluePwmPin: Device.Pins.OnboardLedBlue, 3.3f, 3.3f, 3.3f, Meadow.Peripherals.Leds.IRgbLed.CommonType.CommonAnode); #if DEBUG Console.WriteLine("Initializing bus"); #endif bus = Device.CreateI2cBus(400000); #if DEBUG Console.WriteLine("Initializing display 1"); #endif displaySmall = new DisplayLCD(bus, 0x27, 2, 16); displaySmall.Write("I'm alive!"); #if DEBUG Console.WriteLine("Initializing display 2"); #endif displayBig = new DisplayLCD(bus, 0x23, 4, 20); displayBig.Write("I'm alive!"); #if DEBUG Console.WriteLine("Initializing hc12"); #endif displaySmall.Write("Initializing radio"); serialCom = new HC12Communication(Device.CreateSerialMessagePort(Device.SerialPortNames.Com4, suffixDelimiter: new byte[] { 10 }, preserveDelimiter: true, 115200, 8, Parity.None, StopBits.One)); com = new CommunicationWrapper(serialCom); #if DEBUG Console.WriteLine("Initializing WiFi"); #endif displaySmall.Write("Initializing WiFi"); ipCom = new WifiUdpCommunication(Device.WiFiAdapter, new Action <string>[] { com.SendMessage, displaySmall.Write }); //Trying to connect at startup to speed process up, but router might be still booting so in that case will try again when requested Task.Run(() => { try { ConnectToWiFi(""); } catch (Exception e) { com.SendMessage(ReturnCommandList.exception + e.Message + ReturnCommandList.exceptionTrace + e.StackTrace); #if DEBUG Console.WriteLine(e.Message + "/n/n" + e.StackTrace); #endif } }); #if DEBUG Console.WriteLine("Initializing RTC"); #endif displaySmall.Write("Initializing RTC"); clock = new Rtc(bus, com.SendMessage, SetClock); clock.SetClockFromRtc(); #if DEBUG Console.WriteLine("Initializing watchdog"); #endif displaySmall.Write("Initializing watchdog"); watchdog = new Watchdog(Watchdog.Type.SerialPort); //serialCom.RegisterWatchdog(watchdog.MessageReceived); //ipCom.RegisterWatchdog(watchdog.MessageReceived); watchdog.RegisterSender(com.SendMessage); watchdog.RegisterBlockAction(EmergencyDisable); watchdog.RegisterSwitchToSerial(SwitchToSerial); dict = new MethodsDictionary(); queue = new MethodsQueue(com, dict); ipCom.SubscribeToMessages(queue.MessageReceived); ipCom.SubscribeToMessages(watchdog.MessageReceived); serialCom.SubscribeToMessages(queue.MessageReceived); serialCom.SubscribeToMessages(watchdog.MessageReceived); #if DEBUG Console.WriteLine("Initializing pca @1600Hz"); #endif displaySmall.Write("Initializing PWM @1600Hz"); pwm1600 = new Pca9685(bus, 0x61, 1600); pwm1600.Initialize(); #if DEBUG Console.WriteLine("Initializing pca @50Hz"); #endif displaySmall.Write("Initializing PWM @50Hz"); pwm50 = new Pca9685(bus, 0x60, 50); pwm50.Initialize(); #if DEBUG Console.WriteLine("Initializing expander 1"); #endif displaySmall.Write("Initializing expander 1"); expander1 = new Mcp23x08(bus, 0x20, Device.CreateDigitalInputPort(Device.Pins.D02, InterruptMode.EdgeBoth)); #if DEBUG Console.WriteLine("Initializing expander 2"); #endif displaySmall.Write("Initializing expander 2"); expander2 = new Mcp23x08(bus, 0x21, Device.CreateDigitalInputPort(Device.Pins.D06, InterruptMode.EdgeBoth)); #if DEBUG Console.WriteLine("Initializing fans"); #endif displaySmall.Write("Initializing fans"); LEDsFans = new Fan(expander2.CreateDigitalOutputPort(expander2.Pins.GP4), "LEDs' fans"); motorsFans = new Fan(expander2.CreateDigitalOutputPort(expander2.Pins.GP5), "Motors' fans"); inasFan = new Fan(expander2.CreateDigitalOutputPort(expander2.Pins.GP6), "INAs fan"); #if DEBUG Console.WriteLine("Initializing buzzer"); #endif displaySmall.Write("Initializing buzzer"); buzzer = new Buzzer(expander2.CreateDigitalOutputPort(expander2.Pins.GP3, false, OutputType.OpenDrain)); watchdog.RegisterBuzzer(buzzer.Buzz); #pragma warning disable CS4014 // To wywołanie nie jest oczekiwane, dlatego wykonywanie bieżącej metody będzie kontynuowane do czasu ukończenia wywołania buzzer.Buzz(); #pragma warning restore CS4014 // To wywołanie nie jest oczekiwane, dlatego wykonywanie bieżącej metody będzie kontynuowane do czasu ukończenia wywołania #if DEBUG Console.WriteLine("Initializing power sensors"); #endif displaySmall.Write("Initializing power sensors"); INA219.INA219Configuration config = new INA219.INA219Configuration(INA219.BusVoltageRangeSettings.range32v, INA219.PGASettings.Gain320mV, INA219.ADCsettings.Samples128, INA219.ADCsettings.Samples128, INA219.ModeSettings.ShuntBusContinuous); ina219s = new INA219Array(new INA219[] { new INA219(3.2f, 0.1f, 1, bus, 0x41, config, "C"), new INA219(10f, 0.01f, 1, bus, 0x44, config, "L"), new INA219(10f, 0.01f, 1, bus, 0x45, config, "R") }, buzzer, displayBig, EmergencyDisable); ina219s.RegisterSender(com.SendMessage); ina219s.RegisterFan(inasFan.SetState); ina219s.RegisterFan(motorsFans.SetState); ina219s.StartMonitoringVoltage(); //com = new ComCommunication(Device.CreateSerialMessagePort(Device.SerialPortNames.Com4, suffixDelimiter: new byte[] { 10 }, preserveDelimiter: true, 921600, 8, Parity.None, StopBits.One)); #if DEBUG Console.WriteLine("Initializing temperature sensor"); #endif displaySmall.Write("Initializing temperature sensor"); tempPresSensor = new TempPressureSensor(bus); tempPresSensor.RegisterSender(com.SendMessage); #if DEBUG Console.WriteLine("Initializing position sensor"); #endif displaySmall.Write("Initializing position sensor"); positionSensor = new BNO055(bus, 0x28); positionSensor.RegisterSender(com.SendMessage); positionSensor.RegisterScreen(displaySmall.Write); #if DEBUG Console.WriteLine("Initializing motor controller"); #endif displaySmall.Write("Initializing motor controller"); motor = new MotorController(pwm1600.CreatePwmPort(3, 0), pwm1600.CreatePwmPort(2, 0), pwm1600.CreatePwmPort(1, 0), pwm1600.CreatePwmPort(0, 0), pwm50.CreatePwmPort(0), Device.CreateDigitalInputPort(Device.Pins.D03, InterruptMode.EdgeRising, ResistorMode.InternalPullDown, 20, 20), Device.CreateDigitalInputPort(Device.Pins.D04, InterruptMode.EdgeRising, ResistorMode.InternalPullDown, 20, 20), positionSensor, gimbal, queue.ClearQueue); #if DEBUG Console.WriteLine("Initializing gimbal"); #endif displaySmall.Write("Initializing camera gimbal"); gimbal = new CameraGimbal(pwm50.CreatePwmPort(2), pwm50.CreatePwmPort(1), positionSensor); #if DEBUG Console.WriteLine("Initializing proximity sensors"); #endif displaySmall.Write("Initializing proximity sensors"); proxSensors = new ProximitySensorsArray(new ProximitySensor[] { new ProximitySensor(expander1.CreateDigitalInputPort(expander1.Pins.GP0, InterruptMode.EdgeRising, ResistorMode.InternalPullUp, 500, 500), Direction.Forward, StopBehavior.Stop, "Front, right", queue, motor), new ProximitySensor(expander1.CreateDigitalInputPort(expander1.Pins.GP1, InterruptMode.EdgeRising, ResistorMode.InternalPullUp, 500, 500), Direction.Forward, StopBehavior.Stop, "Front, left", queue, motor), new ProximitySensor(expander1.CreateDigitalInputPort(expander1.Pins.GP2, InterruptMode.EdgeRising, ResistorMode.InternalPullUp, 500, 500), Direction.Forward, StopBehavior.Stop, "Front, center", queue, motor), new ProximitySensor(expander1.CreateDigitalInputPort(expander1.Pins.GP3, InterruptMode.EdgeRising, ResistorMode.InternalPullUp, 500, 500), Direction.Backward, StopBehavior.Stop, "Back, center", queue, motor) }); proxSensors.Register(com.SendMessage); //proxSensors.Register(displaySmall.Write); #if DEBUG Console.WriteLine("Initializing lamps"); #endif displaySmall.Write("Initializing lamps"); narrowLed = new LedLamp(pwm1600.CreatePwmPort(4, 0), LEDsFans, "Front, narrow"); wideLed = new LedLamp(pwm1600.CreatePwmPort(5, 0), LEDsFans, "Front, wide"); #if DEBUG Console.WriteLine("Initializing cameras"); #endif displaySmall.Write("Initializing cameras"); camera = new Camera(expander2.CreateDigitalOutputPort(expander2.Pins.GP7)); camera.SetCamera(true); #if DEBUG Console.WriteLine("Finishing initialization"); #endif displaySmall.Write("Finishing initialization"); RegisterMethods(); //watchdog.StartCheckingMessages(); #if DEBUG Console.WriteLine("All hardware initialized!"); #endif displaySmall.Clear(); displaySmall.Write("Ready!"); com.SendMessage("Ready!"); #pragma warning disable CS4014 // To wywołanie nie jest oczekiwane, dlatego wykonywanie bieżącej metody będzie kontynuowane do czasu ukończenia wywołania buzzer.BuzzPulse(100, 100, 3); #pragma warning restore CS4014 // To wywołanie nie jest oczekiwane, dlatego wykonywanie bieżącej metody będzie kontynuowane do czasu ukończenia wywołania }