@RequestMapping("/left.html") public String left() throws InterruptedException { leftFrontMotor.toggle(); rightFrontMotor.toggle(); return "Moving left..."; }
public static void main(String[] args) throws InterruptedException { System.out.println("works"); GpioController gpio = GpioFactory.getInstance(); GpioPinDigitalOutput pin1 = gpio.provisionDigitalOutputPin(RaspiPin.GPIO_01, "MyLed", PinState.HIGH); pin1.setShutdownOptions(true, PinState.LOW); Thread.sleep(5000); System.out.println("pin low"); pin1.low(); Thread.sleep(5000); System.out.println("pin toggle"); pin1.toggle(); Thread.sleep(5000); System.out.println("pin pulse"); pin1.pulse(1000, true); Thread.sleep(2000); System.out.println("pin blink"); pin1.blink(500, 5000); Thread.sleep(2000); System.out.println("koniec"); gpio.shutdown(); }
@Override public void toggle(GpioPinDigitalOutput... pin) { if (pin == null || pin.length == 0) { throw new IllegalArgumentException("Missing pin argument."); } for (GpioPinDigitalOutput p : pin) { // ensure the requested pin has been provisioned if (!pins.contains(p)) { throw new GpioPinNotProvisionedException(p.getPin()); } // toggle pin state p.toggle(); } }
public static void main(String[] args) throws InterruptedException { // START SNIPPET: usage-create-controller-snippet // create gpio controller instance final GpioController gpio = GpioFactory.getInstance(); // END SNIPPET: usage-create-controller-snippet // START SNIPPET: usage-provision-input-pin-snippet // provision gpio pin #02 as an input pin with its internal pull down resistor enabled // (configure pin edge to both rising and falling to get notified for HIGH and LOW state // changes) GpioPinDigitalInput myButton = gpio.provisionDigitalInputPin( RaspiPin.GPIO_02, // PIN NUMBER "MyButton", // PIN FRIENDLY NAME (optional) PinPullResistance.PULL_DOWN); // PIN RESISTANCE (optional) // END SNIPPET: usage-provision-input-pin-snippet // START SNIPPET: usage-provision-output-pin-snippet // provision gpio pins #04 as an output pin and make sure is is set to LOW at startup GpioPinDigitalOutput myLed = gpio.provisionDigitalOutputPin( RaspiPin.GPIO_04, // PIN NUMBER "My LED", // PIN FRIENDLY NAME (optional) PinState.LOW); // PIN STARTUP STATE (optional) // END SNIPPET: usage-provision-output-pin-snippet // START SNIPPET: usage-shutdown-pin-snippet // configure the pin shutdown behavior; these settings will be // automatically applied to the pin when the application is terminated // ensure that the LED is turned OFF when the application is shutdown myLed.setShutdownOptions(true, PinState.LOW, PinPullResistance.OFF); // END SNIPPET: usage-shutdown-pin-snippet // START SNIPPET: usage-control-pin-snippet // explicitly set a state on the pin object myLed.setState(PinState.HIGH); // use convenience wrapper method to set state on the pin object myLed.low(); myLed.high(); // use toggle method to apply inverse state on the pin object myLed.toggle(); // use pulse method to set the pin to the HIGH state for // an explicit length of time in milliseconds myLed.pulse(1000); // END SNIPPET: usage-control-pin-snippet // START SNIPPET: usage-read-pin-snippet // get explicit state enumeration for the GPIO pin associated with the button PinState myButtonState = myButton.getState(); // use convenience wrapper method to interrogate the button state boolean buttonPressed = myButton.isHigh(); // END SNIPPET: usage-read-pin-snippet // START SNIPPET: usage-register-listener-snippet // create and register gpio pin listener myButton.addListener(new GpioUsageExampleListener()); // END SNIPPET: usage-register-listener-snippet // START SNIPPET: usage-trigger-snippet // create a gpio synchronization trigger on the input pin // when the input state changes, also set LED controlling gpio pin to same state myButton.addTrigger(new GpioSyncStateTrigger(myLed)); // END SNIPPET: usage-trigger-snippet // keep program running until user aborts (CTRL-C) while (true) { Thread.sleep(500); } // stop all GPIO activity/threads by shutting down the GPIO controller // (this method will forcefully shutdown all GPIO monitoring threads and scheduled tasks) // gpio.shutdown(); <--- implement this method call if you wish to terminate the Pi4J GPIO // controller }
/** Process the message */ @Override public void process(Exchange exchange) throws Exception { if (log.isTraceEnabled()) { log.trace(exchange.toString()); } GPIOAction messageAction = exchange.getIn().getHeader(Pi4jConstants.CAMEL_RBPI_PIN_ACTION, action, GPIOAction.class); if (messageAction == null) { log.trace("No action pick up body"); this.output(exchange, exchange.getIn().getBody()); } else { log.trace("action= {} ", action); switch (messageAction) { case TOGGLE: if (pin.getMode() == PinMode.DIGITAL_OUTPUT) { ((GpioPinDigitalOutput) pin).toggle(); } break; case LOW: if (pin.getMode() == PinMode.DIGITAL_OUTPUT) { ((GpioPinDigitalOutput) pin).low(); } break; case HIGH: if (pin.getMode() == PinMode.DIGITAL_OUTPUT) { ((GpioPinDigitalOutput) pin).high(); } break; case BLINK: if (pin.getMode() == PinMode.DIGITAL_OUTPUT) { pool.submit( new Runnable() { @Override public void run() { try { Thread.sleep(getEndpoint().getDelay()); ((GpioPinDigitalOutput) pin).toggle(); Thread.sleep(getEndpoint().getDuration()); ((GpioPinDigitalOutput) pin).toggle(); } catch (InterruptedException e) { log.error("Thread interruption into BLINK sequence", e); } } }); } break; default: log.error("Any action set found"); break; } } }
/** * [ARGUMENT/OPTION "--pin (#)" | "-p (#)" ] This example program accepts an optional argument for * specifying the GPIO pin (by number) to use with this GPIO listener example. If no argument is * provided, then GPIO #1 will be used. -- EXAMPLE: "--pin 4" or "-p 0". * * @param args * @throws InterruptedException * @throws PlatformAlreadyAssignedException */ public static void main(String[] args) throws InterruptedException, PlatformAlreadyAssignedException { // #################################################################### // // since we are not using the default Raspberry Pi platform, we should // explicitly assign the platform as the BananaPi platform. // // #################################################################### PlatformManager.setPlatform(Platform.BANANAPI); // create Pi4J console wrapper/helper // (This is a utility class to abstract some of the boilerplate code) final Console console = new Console(); // print program title/header console.title("<-- The Pi4J Project -->", "GPIO Output Example"); // allow for user to exit program using CTRL-C console.promptForExit(); // create gpio controller final GpioController gpio = GpioFactory.getInstance(); // #################################################################### // // When provisioning a pin, use the BananaPiPin class. // // #################################################################### // by default we will use gpio pin #01; however, if an argument // has been provided, then lookup the pin by address Pin pin = CommandArgumentParser.getPin( BananaPiPin.class, // pin provider class to obtain pin instance from BananaPiPin.GPIO_01, // default pin if no pin argument found args); // argument array to search in // provision gpio pin as an output pin and turn on final GpioPinDigitalOutput output = gpio.provisionDigitalOutputPin(pin, "My Output", PinState.HIGH); // set shutdown state for this pin: keep as output pin, set to low state output.setShutdownOptions(false, PinState.LOW); // create a pin listener to print out changes to the output gpio pin state output.addListener( new GpioPinListenerDigital() { @Override public void handleGpioPinDigitalStateChangeEvent(GpioPinDigitalStateChangeEvent event) { // display pin state on console console.println( " --> GPIO PIN STATE CHANGE: " + event.getPin() + " = " + ConsoleColor.conditional( event.getState().isHigh(), // conditional expression ConsoleColor.GREEN, // positive conditional color ConsoleColor.RED, // negative conditional color event.getState())); // text to display } }); // prompt user that we are ready console.println(" ... Successfully provisioned output pin: " + output.toString()); console.emptyLine(); console.box("The GPIO output pin states will cycle HIGH and LOW states now."); console.emptyLine(); // notify user of current pin state console.println( "--> [" + output.toString() + "] state was provisioned with state = " + ConsoleColor.conditional( output.getState().isHigh(), // conditional expression ConsoleColor.GREEN, // positive conditional color ConsoleColor.RED, // negative conditional color output.getState())); // text to display // wait Thread.sleep(500); // -------------------------------------------------------------------------- // tset gpio pin state to LOW console.emptyLine(); console.println("Setting output pin state is set to LOW."); output.low(); // or ... output.setState(PinState.LOW); // wait Thread.sleep(500); // -------------------------------------------------------------------------- // tset gpio pin state to HIGH console.emptyLine(); console.println("Setting output pin state from LOW to HIGH."); output.setState(PinState.HIGH); // or ... output.high(); // wait Thread.sleep(500); // -------------------------------------------------------------------------- // toggle the current state of gpio pin (from HIGH to LOW) console.emptyLine(); console.println("Toggling output pin state from HIGH to LOW."); output.toggle(); // wait Thread.sleep(500); // -------------------------------------------------------------------------- // pulse gpio pin state for 1 second HIGH and then return to LOW console.emptyLine(); console.println("Pulsing output pin state HIGH for 1 second."); output.pulse(1000, true); // set second argument to 'true' use a blocking call Thread.sleep(50); // -------------------------------------------------------------------------- // blink gpio pin state for 1 second between HIGH and LOW states console.emptyLine(); console.println( "Blinking output pin state between HIGH and LOW for 3 seconds with a blink rate of 250ms."); Future future = output.blink(250, 3000); // -------------------------------------------------------------------------- // wait for blinking to finish; we are notified in a future object while (!future.isDone()) { Thread.sleep(50); } // stop all GPIO activity/threads by shutting down the GPIO controller // (this method will forcefully shutdown all GPIO monitoring threads and scheduled tasks) gpio.shutdown(); }