void SpencerRobotReader::updateRobot(tf::TransformListener &listener) { Robot* curRobot = lastConfig_["spencer"]; Joint* curJoint = new Joint("spencer_base_link", "spencer"); curJoint->setName(spencerJointsName_[0]); // We start with base: setRobotJointLocation(listener, curJoint); curRobot->setOrientation(curJoint->getOrientation()); curRobot->setPosition(curJoint->getPosition()); curRobot->setTime(curJoint->getTime()); //printf("spencer robot: %f, %f, %f\n", curRobot->getPosition().get<0>(), curRobot->getPosition().get<1>(), curRobot->getPosition().get<2>()); delete curJoint; }
int main(int argc, char* argv[]) { RobotSimulator * simulator = new RobotSimulator(); simulator->simStart(); Joint * joint = new Joint(simulator,(char*)"joint7",45*RAD,-90*RAD); if (simulator->clientIdStatus()) { simulator->simStartSimulation(simx_opmode_oneshot_wait); while (simulator->simGetConnectionId() != -1) { double position; cout << "Ingrese un valor para el angulo del motor #1 en grados รณ -1 para terminar:" << endl; cin >> position; if(position == 999) break; else { clog << "joint_pos: " << joint->getJointCurrentPosition((char *)"RAD") << endl; double * pos; double * ori; pos = joint->getPosition(-1); ori = joint->getOrientation(-1); clog << "pos: " << pos[0] << " - " << pos[1] << " - " << pos[2] << endl; clog << "ori: " << ori[0] << " - " << ori[1] << " - " << ori[2] << endl; clog << "moving to position: " << position << endl; joint->setJointPosition(position,(char *)"DEG"); } sleep(2); } simulator->simStopSimulation(simx_opmode_oneshot_wait); }