/* Adept MobileRobots Robotics Interface for Applications (ARIA) Copyright (C) 2004, 2005 ActivMedia Robotics LLC Copyright (C) 2006, 2007, 2008, 2009, 2010 MobileRobots Inc. Copyright (C) 2011, 2012, 2013 Adept Technology This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA If you wish to redistribute ARIA under different terms, contact Adept MobileRobots for information about a commercial version of ARIA at robots@mobilerobots.com or Adept MobileRobots, 10 Columbia Drive, Amherst, NH 03031; +1-603-881-7960 */ #include "Aria.h" /* This is a test of the accelerations and decelerations in actions. */ class Tester : public ArAction { public: Tester(ArRobot *robot); virtual ~Tester() {} virtual ArActionDesired *fire(ArActionDesired currentDesired); void setRotVelMax(int rotVelMax) { myRotVelMax = rotVelMax; } void setRotAcc(int rotAccel) { myRotAcc = rotAccel; } void setRotDecel(int rotDecel) { myRotDecel = rotDecel; } void setTransVelMax(int transVelMax) { myTransVelMax = transVelMax; } void setTransAcc(int transAcc) { myTransAcc = transAcc; } void setTransDecel(int transDecel) { myTransDecel = transDecel; } protected: ArActionDesired myActionDesired; int myRotVelMax; int myRotAcc; int myRotDecel; int myTransVelMax; int myTransAcc; int myTransDecel; }; Tester::Tester(ArRobot *robot) : ArAction("Tester") { ArKeyHandler *keyHandler; if ((keyHandler = Aria::getKeyHandler()) == NULL) { keyHandler = new ArKeyHandler; Aria::setKeyHandler(keyHandler); robot->attachKeyHandler(keyHandler); } myTransVelMax = 0; myTransAcc = 0; myTransDecel = 0; myRotVelMax = 0; myRotAcc = 0; myRotDecel = 0; keyHandler->addKeyHandler('q', new ArFunctor1C(this, &Tester::setRotVelMax, 0)); keyHandler->addKeyHandler('w', new ArFunctor1C(this, &Tester::setRotVelMax, 20)); keyHandler->addKeyHandler('e', new ArFunctor1C(this, &Tester::setRotVelMax, 500)); keyHandler->addKeyHandler('a', new ArFunctor1C(this, &Tester::setRotAcc, 0)); keyHandler->addKeyHandler('s', new ArFunctor1C(this, &Tester::setRotAcc, 8)); keyHandler->addKeyHandler('d', new ArFunctor1C(this, &Tester::setRotAcc, 500)); keyHandler->addKeyHandler('z', new ArFunctor1C(this, &Tester::setRotDecel, 0)); keyHandler->addKeyHandler('x', new ArFunctor1C(this, &Tester::setRotDecel, 8)); keyHandler->addKeyHandler('c', new ArFunctor1C(this, &Tester::setRotDecel, 500)); keyHandler->addKeyHandler('u', new ArFunctor1C(this, &Tester::setTransVelMax, 0)); keyHandler->addKeyHandler('i', new ArFunctor1C(this, &Tester::setTransVelMax, 20)); keyHandler->addKeyHandler('o', new ArFunctor1C(this, &Tester::setTransVelMax, 500)); keyHandler->addKeyHandler('j', new ArFunctor1C(this, &Tester::setTransAcc, 0)); keyHandler->addKeyHandler('k', new ArFunctor1C(this, &Tester::setTransAcc, 8)); keyHandler->addKeyHandler('l', new ArFunctor1C(this, &Tester::setTransAcc, 500)); keyHandler->addKeyHandler('m', new ArFunctor1C(this, &Tester::setTransDecel, 0)); keyHandler->addKeyHandler(',', new ArFunctor1C(this, &Tester::setTransDecel, 8)); keyHandler->addKeyHandler('.', new ArFunctor1C(this, &Tester::setTransDecel, 500)); } ArActionDesired *Tester::fire(ArActionDesired currDes) { printf("%4.0f %4.0f Rot max: %3d acc: %3d dec: %3d Trans max: %3d acc: %3d dec %3d\n", myRobot->getVel(), myRobot->getRotVel(), myRotVelMax, myRotAcc, myRotDecel, myTransVelMax, myTransAcc, myTransDecel); myActionDesired.reset(); if (myRotVelMax != 0) myActionDesired.setMaxRotVel(myRotVelMax); if (myRotAcc != 0) myActionDesired.setRotAccel(myRotAcc); if (myRotDecel != 0) myActionDesired.setRotDecel(myRotDecel); if (myTransVelMax != 0) myActionDesired.setMaxVel(myTransVelMax); if (myTransVelMax != 0) myActionDesired.setMaxNegVel(myTransVelMax); if (myTransAcc != 0) myActionDesired.setTransAccel(myTransAcc); if (myTransDecel != 0) myActionDesired.setTransDecel(myTransDecel); return &myActionDesired; } int main(int argc, char **argv) { // robot ArRobot robot; // the joydrive action ArActionJoydrive joydriveAct; // the keydrive action ArActionKeydrive keydriveAct; // Testing action Tester tester(&robot); // sonar device, so the limiter will work, this must be added to the robot ArSonarDevice sonar; ArSimpleConnector connector(&argc, argv); if (!connector.parseArgs() || argc > 1) { connector.logOptions(); exit(1); } // mandatory init Aria::init(); 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"); // set the joystick so it won't do anything if the button isn't pressed joydriveAct.setStopIfNoButtonPressed(false); // 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; } // enable the motors robot.enableMotors(); // add the cations, put the limiters on top, then have the action, // this will keep the action from being able to drive too fast and hit // something robot.addAction(&tester, 55); //robot.addAction(&joydriveAct, 50); robot.addAction(&keydriveAct, 45); // set the joydrive action so it'll let the keydrive action fire if // there is no button pressed joydriveAct.setStopIfNoButtonPressed(false); // run the robot, true here so that the run will exit if connection lost robot.run(true); // now exit Aria::shutdown(); return 0; }