177 lines
5.0 KiB
C++
177 lines
5.0 KiB
C++
#include "control/unitreeArm.h"
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class Z1ARM : public unitreeArm{
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public:
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Z1ARM(CtrlComponents * ctrlComp):unitreeArm(ctrlComp){};
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~Z1ARM(){};
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void armCtrlByFSM();
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void armCtrlByTraj();
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void armCtrlTrackInJointCtrl();
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void armCtrlTrackInCartesian();
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void printState();
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};
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void Z1ARM::armCtrlByFSM() {
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Vec6 posture[2];
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std::cout << "[JOINTCTRL]" << std::endl;
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setFsm(ArmFSMState::JOINTCTRL);
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std::cout << "[TO STATE]" << std::endl;
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labelRun("forward");
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std::cout << "[MOVEJ]" << std::endl;
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posture[0]<<0.5,0.1,0.1,0.5,-0.2,0.5;
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MoveJ(posture[0], -M_PI/3.0, 1.0);
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std::cout << "[MOVEL]" << std::endl;
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posture[0] << 0,0,0,0.45,-0.2,0.2;
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MoveL(posture[0], 0., 0.3);
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std::cout << "[MOVEC]" << std::endl;
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posture[0] << 0,0,0,0.45,0,0.4;
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posture[1] << 0,0,0,0.45,0.2,0.2;
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MoveC(posture[0], posture[1], -M_PI/3.0, 0.3);
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}
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void Z1ARM::armCtrlByTraj(){
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Vec6 posture[2];
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int order = 1;
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labelRun("forward");
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_trajCmd.trajOrder = 0;//if order == 0, clear traj
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setTraj();
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// No.1 trajectory
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_trajCmd.trajOrder = order++;
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_trajCmd.trajType = TrajType::MoveJ;
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_trajCmd.maxSpeed = 1.0;// angular velocity, rad/s
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_trajCmd.gripperPos = 0.0;
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posture[0] << 0.5,0.1,0.1,0.5,-0.2,0.5;
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_trajCmd.posture[0] = Vec6toPosture(posture[0]);
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setTraj();
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// No.2 trajectory
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_trajCmd.trajOrder = order++;
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_trajCmd.trajType = TrajType::Stop;
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_trajCmd.stopTime = 1.0;
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_trajCmd.gripperPos = -1.0;
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setTraj();
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// No.3 trajectory
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_trajCmd.trajOrder = order++;
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_trajCmd.trajType = TrajType::MoveL;
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_trajCmd.maxSpeed = 0.3; // Cartesian velocity , m/s
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_trajCmd.gripperPos = 0.0;
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posture[0] << 0,0,0,0.45,-0.2,0.2;
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_trajCmd.posture[0] = Vec6toPosture(posture[0]);
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setTraj();
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// No.4 trajectory
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_trajCmd.trajOrder = order++;
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_trajCmd.trajType = TrajType::Stop;
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_trajCmd.stopTime = 1.0;
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_trajCmd.gripperPos = -1.0;
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setTraj();
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// No.5 trajectory
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_trajCmd.trajOrder = order++;
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_trajCmd.trajType = TrajType::MoveC;
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_trajCmd.maxSpeed = 0.3; // Cartesian velocity
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_trajCmd.gripperPos = 0.0;
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posture[0] << 0,0,0,0.45,0,0.4;
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posture[1] << 0,0,0,0.45,0.2,0.2;
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_trajCmd.posture[0] = Vec6toPosture(posture[0]);
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_trajCmd.posture[1] = Vec6toPosture(posture[1]);
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setTraj();
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startTraj();
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// wait for trajectory completion
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while (_ctrlComp->recvState.state != ArmFSMState::JOINTCTRL){
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usleep(_ctrlComp->dt*1000000);
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}
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}
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void Z1ARM::armCtrlTrackInJointCtrl(){
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labelRun("forward");
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startTrack(ArmFSMState::JOINTCTRL);
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for(;;){
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q(3) -= _ctrlComp->dt * 1.0;//max dt*PI, rad/s
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qPast = _ctrlComp->lowstate->getQ();
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// std::cout << "qCmd: " << q.transpose() << " qState: " << qPast.transpose() << std::endl;
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//The joint has reached limit, there is warning: joint cmd is far from state
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double error = fabs(q(3) - qPast(3));
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if(error > 0.1){
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break;
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}
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usleep(_ctrlComp->dt*1000000);
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}
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_ctrlComp->sendCmd.track = false;
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}
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void Z1ARM::armCtrlTrackInCartesian(){
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labelRun("forward");
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startTrack(ArmFSMState::CARTESIAN);
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for(;;){
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_ctrlComp->lowcmd->endPosture(5) -= _ctrlComp->dt * 0.2;//z, m/s
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// no inverse kinematics solution, the joint has reached limit
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// std::cout << "postureCmd: " << _ctrlComp->lowcmd->endPosture.transpose() << " qState: " << _ctrlComp->lowstate->endPosture.transpose() << std::endl;
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double error = fabs(_ctrlComp->lowcmd->endPosture(5) - _ctrlComp->lowstate->endPosture(5));
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if( error > 0.1){
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break;
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}
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usleep(_ctrlComp->dt*1000000);
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}
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_ctrlComp->sendCmd.track = false;
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}
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void Z1ARM::printState(){
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std::cout<<"------ joint State ------"<<std::endl;
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std::cout<<"qState: "<<_ctrlComp->lowstate->getQ().transpose()<<std::endl;
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std::cout<<"qdState: "<<_ctrlComp->lowstate->getQd().transpose()<<std::endl;
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std::cout<<"tauState: "<<_ctrlComp->lowstate->getTau().transpose()<<std::endl;
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std::cout<<"------ Endeffector Cartesian Posture ------"<<std::endl;
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std::cout<<"roll pitch yaw x y z"<<std::endl;
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std::cout<<_ctrlComp->lowstate->endPosture.transpose()<<std::endl;
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}
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int main() {
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CtrlComponents *ctrlComp = new CtrlComponents(0.002);
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Z1ARM arm(ctrlComp);
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arm.sendRecvThread->start();
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arm.backToStart();
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// size_t demo = 2;
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for(size_t demo = 1; demo < 5; demo++)
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// for(;;)
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switch (demo)
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{
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case 1:
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arm.armCtrlByFSM();
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break;
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case 2:
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arm.armCtrlByTraj();
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break;
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case 3:
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arm.armCtrlTrackInJointCtrl();
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break;
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case 4:
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arm.armCtrlTrackInCartesian();
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break;
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default:
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break;
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}
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arm.backToStart();
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arm.setFsm(ArmFSMState::PASSIVE);
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arm.sendRecvThread->shutdown();
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delete ctrlComp;
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return 0;
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} |