public void timedOut() { RConsole.println("" + odo.getAngle() + ", " + linePoller.getColourVal()); // RConsole.println("" + odo.getX() + ", " + odo.getY() + ", " + odo.getAngle()); // RConsole.println(""); // RConsole.println("" + Controller.task); // RConsole.println(""); // RConsole.println(""); // RConsole.println("X: " + (int)odo.getX()); // RConsole.println("Y: " + (int)odo.getY()); // RConsole.println("Angle: " + (int)odo.getAngle()); // RConsole.println(""); // RConsole.println(""); // RConsole.println("Search Zone: (" + Controller.ourZoneLL_X + ", " + Controller.ourZoneLL_Y + // ") to (" + Controller.ourZoneUR_X + ", " + Controller.ourZoneUR_Y + ")"); // RConsole.println("Flag coulour: " + Controller.ourFlagColour); // // // switch (Controller.task){ // case NAVIGATING: // break; // case SEARCHING: // break; // default: // break; // } }
private void reportToDevice() { short sendInt; if (bdetect.isBox()) { sendInt = stationIsOccupied; } else { sendInt = stationIsNotOccupied; } try { dos.writeInt(sendInt); } catch (IOException e) { RConsole.println("[BT] Send failed!"); Delay.msDelay(waitBetweenSends); closeConnection(); connectToDevice(); reportToDevice(); } RConsole.println("[BT] Status " + sendInt + " successfully reported!"); }
public static void main(String[] args) throws InterruptedException { // Wait for bluetooth/usb connection to computer. RConsole.open(); int arenaLength = 200; int arenaWidth = 150; int cellSize = 25; // Set up the world map. // Length, width, cellHeight, cellWidth. worldMap = new WorldMap(arenaLength, arenaWidth, cellSize, cellSize); // Set up the robot and pass it the world map. robot = new Robot(worldMap); // Wait to start System.out.println("Press any button to start"); Button.waitForAnyPress(); Output.clear(); BumperMonitor bm = new BumperMonitor(robot); bm.start(); // Main robot loop. // Keeps going till fully explored. while (!robot.getMap().fullyExplored()) { if (!Robot.takecontrol) { // Print the map before every movement. Output.printMapLCD(robot); // Check for obstacles to the left, right and front of robot. robot.checkSurroundings(); // Choose a direction to move in. Robot.Direction directionChosen = robot.chooseACell(); // Turn in the chosen direction. robot.turnRobotToFace(directionChosen); // Move forwards. robot.moveForwards(); } } // Print out the finished world map. Output.println("Final world map"); Output.printMapLCD(robot); /* Wait before ending. This is done because the world map kept not being printed correctly for some reason and this fixes it. */ RConsole.println("\nPress any button to end."); Button.waitForAnyPress(); RConsole.close(); }
private void closeConnection() { try { dos.close(); btc.close(); } catch (IOException e) { e.printStackTrace(); } dos = null; btc = null; RConsole.println("[BT] Connection was closed."); }
private void connectToDevice() { try { btc = Bluetooth.waitForConnection(); if (btc == null) { RConsole.println("[BT] Connection error!"); throw new BluetoothStateException("Connection error!"); } dos = btc.openDataOutputStream(); } catch (BluetoothStateException e) { e.printStackTrace(); Delay.msDelay(waitBetweenSends); connectToDevice(); } }