This example program creates several "limiting" actions (stop the robot from hitting detected obstacles), as well as Joydrive and Keydrive actions which request movement based on keys pressed or a joystick attached to the computer. The limiting actions are added at a higher priority than the teleoperation actions, so they prevent those actions from driving the robot if nearby obstacles are detected; otherwise, you can drive the robot using they joystick or keyboard.
#include "Aria.h" int main(int argc, char **argv) { Aria::init(); ArRobot robot; // limiter for close obstacles ArActionLimiterForwards limiter("speed limiter near", 300, 600, 250); // limiter for far away obstacles ArActionLimiterForwards limiterFar("speed limiter far", 300, 1100, 400); // limiter that checks IR sensors (like Peoplebot has) ArActionLimiterTableSensor tableLimiter; // limiter so we don't bump things backwards ArActionLimiterBackwards backwardsLimiter; // the joydrive action ArActionJoydrive joydriveAct; // the keydrive action ArActionKeydrive keydriveAct; // sonar device, used by the limiter actions. ArSonarDevice sonar; ArArgumentParser parser(&argc, argv); parser.loadDefaultArguments(); ArSimpleConnector connector(&parser); if (!Aria::parseArgs()) { Aria::logOptions(); Aria::shutdown(); return 1; } printf("This program will allow you to use a joystick or keyboard to control the robot.\nYou can use the arrow keys to drive, and the spacebar to stop.\nFor joystick control press the trigger button and then drive.\nPress escape to exit.\n"); // if we don't have a joystick, let 'em know if (!joydriveAct.joystickInited()) printf("Do not have a joystick, only the arrow keys on the keyboard will work.\n"); // add the sonar to the robot robot.addRangeDevice(&sonar); // try to connect, if we fail exit if (!connector.connectRobot(&robot)) { printf("Could not connect to robot... exiting\n"); Aria::shutdown(); return 1; } // set the robots maximum velocity (sonar don't work at all well if you're // going faster) robot.setAbsoluteMaxTransVel(400); // enable the motor robot.enableMotors(); // Add the actions, with the limiters as highest priority, then the teleop. // actions. This will keep the teleop. actions from being able to drive too // fast and hit something robot.addAction(&tableLimiter, 100); robot.addAction(&limiter, 95); robot.addAction(&limiterFar, 90); robot.addAction(&backwardsLimiter, 85); robot.addAction(&joydriveAct, 50); robot.addAction(&keydriveAct, 45); // Configure the joydrive action so it will let the lower priority actions // (i.e. keydriveAct) request motion if the joystick button is // not pressed. joydriveAct.setStopIfNoButtonPressed(false); // run the robot, true means that the run will exit if connection lost robot.run(true); Aria::shutdown(); return 0; }
1.4.2