第二次作业
Point.h
1 #ifndef POINT_H 2 #define POINT_H 3 class Point{ 4 private: 5 double X,Y; 6 public: 7 Point(); 8 Point(double a,double b); 9 void SetPoint(double a,double b); 10 void SetX(double a); 11 void SetY(double b); 12 double GetX(); 13 double GetY(); 14 }; 15 #endif
Point.cpp
1 #include"Point.h" 2 Point::Point() 3 { 4 X=0;Y=0; 5 }; 6 Point::Point(double a,double b) 7 { 8 X=a,Y=b; 9 }; 10 void Point::SetPoint(double a,double b) 11 { 12 X=a,Y=b; 13 }; 14 void Point::SetX(double a) 15 { 16 X=a; 17 }; 18 void Point::SetY(double b) 19 { 20 Y=b; 21 }; 22 double Point::GetX() 23 { 24 return X; 25 }; 26 double Point::GetY() 27 { 28 return Y; 29 };
Axis.h
1 #ifndef AXIS_H 2 #define AXIS_H 3 4 #include"Point.h" 5 class Axis 6 { 7 private: 8 Point O; 9 double Angle; 10 public: 11 Axis(); 12 Axis(double a,double b,double ang); 13 Axis(Point p,double ang); 14 void SetAxis(double a,double b,double ang); 15 void SetAxis(Point p,double ang); 16 void SetO(double a,double b); 17 void SetO(Point p); 18 Point GetO(); 19 double GetAngle(); 20 }; 21 22 class WorldFrame: public Axis 23 { 24 public: 25 WorldFrame(); 26 }; 27 28 class TaskFrame: public Axis 29 { 30 public: 31 TaskFrame(); 32 TaskFrame(double a,double b,double ang); 33 }; 34 35 class JointFrame 36 { 37 private: 38 double Angle1,Angle2; 39 public: 40 JointFrame(); 41 JointFrame(double ang1,double ang2); 42 void SetAngle1(double a); 43 void SetAngle2(double b); 44 double GetAngle1(); 45 double GetAngle2(); 46 }; 47 #endif
Axis.cpp
1 #include"Axis.h" 2 #include"Point.h" 3 4 Axis::Axis() 5 { 6 O.SetPoint(0,0); 7 Angle=0; 8 } 9 Axis::Axis(double a,double b,double ang) 10 { 11 O.SetPoint(a,b); 12 Angle=ang; 13 }; 14 Axis::Axis(Point p,double ang) 15 { 16 O=p; 17 Angle=ang; 18 }; 19 void Axis::SetAxis(double a,double b,double ang) 20 { 21 O.SetPoint(a,b); 22 Angle=ang; 23 }; 24 void Axis::SetAxis(Point p,double ang) 25 { 26 O=p; 27 Angle=ang; 28 }; 29 void Axis::SetO(double a,double b) 30 { 31 O.SetPoint(a,b); 32 }; 33 void Axis::SetO(Point p) 34 { 35 O=p; 36 }; 37 Point Axis::GetO() 38 { 39 return O; 40 }; 41 double Axis::GetAngle() 42 { 43 return Angle; 44 }; 45 46 WorldFrame::WorldFrame() 47 { 48 SetAxis(0,0,0); 49 }; 50 51 TaskFrame::TaskFrame() 52 { 53 SetAxis(0,0,0); 54 }; 55 TaskFrame::TaskFrame(double a,double b,double ang):Axis(a,b,ang) 56 { 57 58 }; 59 60 JointFrame::JointFrame() 61 { 62 Angle1=Angle2=0; 63 }; 64 JointFrame::JointFrame(double ang1,double ang2) 65 { 66 Angle1=ang1; 67 Angle2=ang2; 68 }; 69 void JointFrame::SetAngle1(double a) 70 { 71 Angle1=a; 72 }; 73 void JointFrame::SetAngle2(double b) 74 { 75 Angle2=b; 76 }; 77 double JointFrame::GetAngle1() 78 { 79 return Angle1; 80 }; 81 double JointFrame::GetAngle2() 82 { 83 return Angle2; 84 };
Solver.h
1 #ifndef SOLVER_H 2 #define SOLVER_H 3 #include"Axis.h" 4 #include<math.h> 5 #include<iostream> 6 class Solver 7 { 8 public: 9 Solver(); 10 Solver(double a,double b); 11 SetL(double a,double b); 12 SetP(Point a); 13 SetJF(JointFrame j); 14 Point GetP(); 15 JointFrame Getjo(); 16 private: 17 Point p; 18 JointFrame jo; 19 double la,lb; 20 }; 21 22 #endif
Solver.cpp
1 #include "Solver.h" 2 #define PI 3.1415926 3 Solver::Solver(){}; 4 Solver::Solver(double a,double b) 5 { 6 la=a; 7 lb=b; 8 }; 9 Solver::SetL(double a,double b) 10 { 11 la=a; 12 lb=b; 13 }; 14 Solver::SetP(Point a) 15 { 16 p=a; 17 double l=sqrt(a.GetX()*a.GetX()+a.GetY()*a.GetY()); 18 if(l>la+lb)std::cout<<"error!"<<std::endl; 19 else 20 { 21 jo.SetAngle1((acos((la*la+l*l-lb*lb)/2/la/l)+atan(a.GetY()/a.GetX()))/PI*180); 22 jo.SetAngle2(acos((la*la+lb*lb-l*l)/2/la/lb)/PI*180); 23 } 24 }; 25 Solver::SetJF(JointFrame j) 26 { 27 jo=j; 28 p.SetPoint(la*cos(jo.GetAngle1()/180*PI)+lb*cos(jo.GetAngle2()/180*PI),la*sin(jo.GetAngle1()/180*PI)+lb*sin(jo.GetAngle2()/180*PI)); 29 }; 30 Point Solver::GetP() 31 { 32 return p; 33 }; 34 JointFrame Solver::Getjo() 35 { 36 return jo; 37 };
Robot.h
1 #ifndef ROBOT_H 2 #define ROBOT_H 3 #include<math.h> 4 #include<vector> 5 #include"Solver.h" 6 class Robot 7 { 8 public: 9 Robot(double la,double lb); 10 JointFrame GetJF(); 11 double GetLengthA(); 12 double GetLengthB(); 13 Point TF2WF(TaskFrame t,Point p); 14 Point WF2TF(TaskFrame t,Point p); 15 JointFrame P2Pmove(TaskFrame t,Point p); 16 JointFrame P2Pmove(WorldFrame t,Point p); 17 private: 18 JointFrame JF; 19 WorldFrame WF; 20 std::vector<TaskFrame> TF; 21 double LengthA,LengthB; 22 Solver s; 23 }; 24 25 #endif
Robot.cpp
1 #include "Robot.h" 2 #define PI 3.1415926 3 Robot::Robot(double la,double lb):s(la,lb) 4 { 5 LengthA=la; 6 LengthB=lb; 7 }; 8 JointFrame Robot::GetJF() 9 { 10 return JF; 11 }; 12 double Robot::GetLengthA() 13 { 14 return LengthA; 15 }; 16 double Robot::GetLengthB() 17 { 18 return LengthB; 19 }; 20 Point Robot::TF2WF(TaskFrame t,Point p) 21 { 22 double x=p.GetX()*cos(t.GetAngle()/180*PI)+t.GetO().GetX()-p.GetY()*sin(t.GetAngle()/180*PI); 23 double y=t.GetO().GetY()+p.GetY()*cos(t.GetAngle()/180*PI)+p.GetX()*sin(t.GetAngle()/180*PI); 24 Point temp(x,y); 25 return temp; 26 }; 27 Point Robot::WF2TF(TaskFrame t,Point p) 28 { 29 double i=(p.GetX()-t.GetO().GetX())/tan(t.GetAngle()/180*PI); 30 double j=p.GetY()-t.GetO().GetY()-i; 31 double y=j*cos(t.GetAngle()/180*PI); 32 double x=j*sin(t.GetAngle()/180*PI)+i/sin(t.GetAngle()/180*PI); 33 Point temp(x,y); 34 return temp; 35 }; 36 JointFrame Robot::P2Pmove(TaskFrame t,Point p) 37 { 38 s.SetP(TF2WF(t,p)); 39 return s.Getjo(); 40 }; 41 JointFrame Robot::P2Pmove(WorldFrame t,Point p) 42 { 43 s.SetP(p); 44 return s.Getjo(); 45 };
main.cpp
1 #include<iostream> 2 #include"Robot.h" 3 using namespace std; 4 int main() 5 { 6 Robot myrobot(10,10); 7 Point p(5,5),q(20,0); 8 WorldFrame w; 9 TaskFrame tk1(1,5,30),tk2(3,4,50),tk3(2,1,40); 10 JointFrame j; 11 j=myrobot.P2Pmove(w,p); 12 cout<<"第一个关节角度为"<<j.GetAngle1()<<"度,第二个关节角度为"<<j.GetAngle2()<<"度。"<<endl; 13 j=myrobot.P2Pmove(tk1,p); 14 cout<<"第一个关节角度为"<<j.GetAngle1()<<"度,第二个关节角度为"<<j.GetAngle2()<<"度。"<<endl; 15 j=myrobot.P2Pmove(tk2,p); 16 cout<<"第一个关节角度为"<<j.GetAngle1()<<"度,第二个关节角度为"<<j.GetAngle2()<<"度。"<<endl; 17 j=myrobot.P2Pmove(tk3,p); 18 cout<<"第一个关节角度为"<<j.GetAngle1()<<"度,第二个关节角度为"<<j.GetAngle2()<<"度。"<<endl; 19 j=myrobot.P2Pmove(w,q); 20 cout<<"第一个关节角度为"<<j.GetAngle1()<<"度,第二个关节角度为"<<j.GetAngle2()<<"度。"<<endl; 21 return 0; 22 }