/usr/include/kdl/framevel.hpp is in liborocos-kdl-dev 1.3.0+dfsg-1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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* \file
* This file contains the definition of classes for a
* Rall Algebra of (subset of) the classes defined in frames,
* i.e. classes that contain a pair (value,derivative) and define operations on that pair
* this classes are usefull for automatic differentiation ( <-> symbolic diff , <-> numeric diff)
* Defines VectorVel, RotationVel, FrameVel. Look at Frames.h for details on how to work
* with Frame objects.
* \author
* Erwin Aertbelien, Div. PMA, Dep. of Mech. Eng., K.U.Leuven
*
* \version
* ORO_Geometry V0.2
*
* \par History
* - $log$
*
* \par Release
* $Id: rframes.h,v 1.1.1.1 2002/08/26 14:14:21 rmoreas Exp $
* $Name: $
****************************************************************************/
#ifndef KDL_FRAMEVEL_H
#define KDL_FRAMEVEL_H
#include "utilities/utility.h"
#include "utilities/rall1d.h"
#include "utilities/traits.h"
#include "frames.hpp"
namespace KDL {
typedef Rall1d<double> doubleVel;
IMETHOD doubleVel diff(const doubleVel& a,const doubleVel& b,double dt=1.0) {
return doubleVel((b.t-a.t)/dt,(b.grad-a.grad)/dt);
}
IMETHOD doubleVel addDelta(const doubleVel& a,const doubleVel&da,double dt=1.0) {
return doubleVel(a.t+da.t*dt,a.grad+da.grad*dt);
}
IMETHOD void random(doubleVel& F) {
random(F.t);
random(F.grad);
}
IMETHOD void posrandom(doubleVel& F) {
posrandom(F.t);
posrandom(F.grad);
}
}
template <>
struct Traits<KDL::doubleVel> {
typedef double valueType;
typedef KDL::doubleVel derivType;
};
namespace KDL {
class TwistVel;
class VectorVel;
class FrameVel;
class RotationVel;
// Equal is friend function, but default arguments for friends are forbidden (ยง8.3.6.4)
IMETHOD bool Equal(const VectorVel& r1,const VectorVel& r2,double eps=epsilon);
IMETHOD bool Equal(const Vector& r1,const VectorVel& r2,double eps=epsilon);
IMETHOD bool Equal(const VectorVel& r1,const Vector& r2,double eps=epsilon);
IMETHOD bool Equal(const RotationVel& r1,const RotationVel& r2,double eps=epsilon);
IMETHOD bool Equal(const Rotation& r1,const RotationVel& r2,double eps=epsilon);
IMETHOD bool Equal(const RotationVel& r1,const Rotation& r2,double eps=epsilon);
IMETHOD bool Equal(const FrameVel& r1,const FrameVel& r2,double eps=epsilon);
IMETHOD bool Equal(const Frame& r1,const FrameVel& r2,double eps=epsilon);
IMETHOD bool Equal(const FrameVel& r1,const Frame& r2,double eps=epsilon);
IMETHOD bool Equal(const TwistVel& a,const TwistVel& b,double eps=epsilon);
IMETHOD bool Equal(const Twist& a,const TwistVel& b,double eps=epsilon);
IMETHOD bool Equal(const TwistVel& a,const Twist& b,double eps=epsilon);
class VectorVel
// = TITLE
// An VectorVel is a Vector and its first derivative
// = CLASS TYPE
// Concrete
{
public:
Vector p; // position vector
Vector v; // velocity vector
public:
VectorVel():p(),v(){}
VectorVel(const Vector& _p,const Vector& _v):p(_p),v(_v) {}
explicit VectorVel(const Vector& _p):p(_p),v(Vector::Zero()) {}
Vector value() const { return p;}
Vector deriv() const { return v;}
IMETHOD VectorVel& operator = (const VectorVel& arg);
IMETHOD VectorVel& operator = (const Vector& arg);
IMETHOD VectorVel& operator += (const VectorVel& arg);
IMETHOD VectorVel& operator -= (const VectorVel& arg);
IMETHOD static VectorVel Zero();
IMETHOD void ReverseSign();
IMETHOD doubleVel Norm() const;
IMETHOD friend VectorVel operator + (const VectorVel& r1,const VectorVel& r2);
IMETHOD friend VectorVel operator - (const VectorVel& r1,const VectorVel& r2);
IMETHOD friend VectorVel operator + (const Vector& r1,const VectorVel& r2);
IMETHOD friend VectorVel operator - (const Vector& r1,const VectorVel& r2);
IMETHOD friend VectorVel operator + (const VectorVel& r1,const Vector& r2);
IMETHOD friend VectorVel operator - (const VectorVel& r1,const Vector& r2);
IMETHOD friend VectorVel operator * (const VectorVel& r1,const VectorVel& r2);
IMETHOD friend VectorVel operator * (const VectorVel& r1,const Vector& r2);
IMETHOD friend VectorVel operator * (const Vector& r1,const VectorVel& r2);
IMETHOD friend VectorVel operator * (const VectorVel& r1,double r2);
IMETHOD friend VectorVel operator * (double r1,const VectorVel& r2);
IMETHOD friend VectorVel operator * (const doubleVel& r1,const VectorVel& r2);
IMETHOD friend VectorVel operator * (const VectorVel& r2,const doubleVel& r1);
IMETHOD friend VectorVel operator*(const Rotation& R,const VectorVel& x);
IMETHOD friend VectorVel operator / (const VectorVel& r1,double r2);
IMETHOD friend VectorVel operator / (const VectorVel& r2,const doubleVel& r1);
IMETHOD friend void SetToZero(VectorVel& v);
IMETHOD friend bool Equal(const VectorVel& r1,const VectorVel& r2,double eps);
IMETHOD friend bool Equal(const Vector& r1,const VectorVel& r2,double eps);
IMETHOD friend bool Equal(const VectorVel& r1,const Vector& r2,double eps);
IMETHOD friend VectorVel operator - (const VectorVel& r);
IMETHOD friend doubleVel dot(const VectorVel& lhs,const VectorVel& rhs);
IMETHOD friend doubleVel dot(const VectorVel& lhs,const Vector& rhs);
IMETHOD friend doubleVel dot(const Vector& lhs,const VectorVel& rhs);
};
class RotationVel
// = TITLE
// An RotationVel is a Rotation and its first derivative, a rotation vector
// = CLASS TYPE
// Concrete
{
public:
Rotation R; // Rotation matrix
Vector w; // rotation vector
public:
RotationVel():R(),w() {}
explicit RotationVel(const Rotation& _R):R(_R),w(Vector::Zero()){}
RotationVel(const Rotation& _R,const Vector& _w):R(_R),w(_w){}
Rotation value() const { return R;}
Vector deriv() const { return w;}
IMETHOD RotationVel& operator = (const RotationVel& arg);
IMETHOD RotationVel& operator = (const Rotation& arg);
IMETHOD VectorVel UnitX() const;
IMETHOD VectorVel UnitY() const;
IMETHOD VectorVel UnitZ() const;
IMETHOD static RotationVel Identity();
IMETHOD RotationVel Inverse() const;
IMETHOD VectorVel Inverse(const VectorVel& arg) const;
IMETHOD VectorVel Inverse(const Vector& arg) const;
IMETHOD VectorVel operator*(const VectorVel& arg) const;
IMETHOD VectorVel operator*(const Vector& arg) const;
IMETHOD void DoRotX(const doubleVel& angle);
IMETHOD void DoRotY(const doubleVel& angle);
IMETHOD void DoRotZ(const doubleVel& angle);
IMETHOD static RotationVel RotX(const doubleVel& angle);
IMETHOD static RotationVel RotY(const doubleVel& angle);
IMETHOD static RotationVel RotZ(const doubleVel& angle);
IMETHOD static RotationVel Rot(const Vector& rotvec,const doubleVel& angle);
// rotvec has arbitrary norm
// rotation around a constant vector !
IMETHOD static RotationVel Rot2(const Vector& rotvec,const doubleVel& angle);
// rotvec is normalized.
// rotation around a constant vector !
IMETHOD friend RotationVel operator* (const RotationVel& r1,const RotationVel& r2);
IMETHOD friend RotationVel operator* (const Rotation& r1,const RotationVel& r2);
IMETHOD friend RotationVel operator* (const RotationVel& r1,const Rotation& r2);
IMETHOD friend bool Equal(const RotationVel& r1,const RotationVel& r2,double eps);
IMETHOD friend bool Equal(const Rotation& r1,const RotationVel& r2,double eps);
IMETHOD friend bool Equal(const RotationVel& r1,const Rotation& r2,double eps);
IMETHOD TwistVel Inverse(const TwistVel& arg) const;
IMETHOD TwistVel Inverse(const Twist& arg) const;
IMETHOD TwistVel operator * (const TwistVel& arg) const;
IMETHOD TwistVel operator * (const Twist& arg) const;
};
class FrameVel
// = TITLE
// An FrameVel is a Frame and its first derivative, a Twist vector
// = CLASS TYPE
// Concrete
// = CAVEATS
//
{
public:
RotationVel M;
VectorVel p;
public:
FrameVel(){}
explicit FrameVel(const Frame& _T):
M(_T.M),p(_T.p) {}
FrameVel(const Frame& _T,const Twist& _t):
M(_T.M,_t.rot),p(_T.p,_t.vel) {}
FrameVel(const RotationVel& _M,const VectorVel& _p):
M(_M),p(_p) {}
Frame value() const { return Frame(M.value(),p.value());}
Twist deriv() const { return Twist(p.deriv(),M.deriv());}
IMETHOD FrameVel& operator = (const Frame& arg);
IMETHOD FrameVel& operator = (const FrameVel& arg);
IMETHOD static FrameVel Identity();
IMETHOD FrameVel Inverse() const;
IMETHOD VectorVel Inverse(const VectorVel& arg) const;
IMETHOD VectorVel operator*(const VectorVel& arg) const;
IMETHOD VectorVel operator*(const Vector& arg) const;
IMETHOD VectorVel Inverse(const Vector& arg) const;
IMETHOD Frame GetFrame() const;
IMETHOD Twist GetTwist() const;
IMETHOD friend FrameVel operator * (const FrameVel& f1,const FrameVel& f2);
IMETHOD friend FrameVel operator * (const Frame& f1,const FrameVel& f2);
IMETHOD friend FrameVel operator * (const FrameVel& f1,const Frame& f2);
IMETHOD friend bool Equal(const FrameVel& r1,const FrameVel& r2,double eps);
IMETHOD friend bool Equal(const Frame& r1,const FrameVel& r2,double eps);
IMETHOD friend bool Equal(const FrameVel& r1,const Frame& r2,double eps);
IMETHOD TwistVel Inverse(const TwistVel& arg) const;
IMETHOD TwistVel Inverse(const Twist& arg) const;
IMETHOD TwistVel operator * (const TwistVel& arg) const;
IMETHOD TwistVel operator * (const Twist& arg) const;
};
//very similar to Wrench class.
class TwistVel
// = TITLE
// This class represents a TwistVel. This is a velocity and rotational velocity together
{
public:
VectorVel vel;
VectorVel rot;
public:
// = Constructors
TwistVel():vel(),rot() {};
TwistVel(const VectorVel& _vel,const VectorVel& _rot):vel(_vel),rot(_rot) {};
TwistVel(const Twist& p,const Twist& v):vel(p.vel, v.vel), rot( p.rot, v.rot) {};
TwistVel(const Twist& p):vel(p.vel), rot( p.rot) {};
Twist value() const {
return Twist(vel.value(),rot.value());
}
Twist deriv() const {
return Twist(vel.deriv(),rot.deriv());
}
// = Operators
IMETHOD TwistVel& operator-=(const TwistVel& arg);
IMETHOD TwistVel& operator+=(const TwistVel& arg);
// = External operators
IMETHOD friend TwistVel operator*(const TwistVel& lhs,double rhs);
IMETHOD friend TwistVel operator*(double lhs,const TwistVel& rhs);
IMETHOD friend TwistVel operator/(const TwistVel& lhs,double rhs);
IMETHOD friend TwistVel operator*(const TwistVel& lhs,const doubleVel& rhs);
IMETHOD friend TwistVel operator*(const doubleVel& lhs,const TwistVel& rhs);
IMETHOD friend TwistVel operator/(const TwistVel& lhs,const doubleVel& rhs);
IMETHOD friend TwistVel operator+(const TwistVel& lhs,const TwistVel& rhs);
IMETHOD friend TwistVel operator-(const TwistVel& lhs,const TwistVel& rhs);
IMETHOD friend TwistVel operator-(const TwistVel& arg);
IMETHOD friend void SetToZero(TwistVel& v);
// = Zero
static IMETHOD TwistVel Zero();
// = Reverse Sign
IMETHOD void ReverseSign();
// = Change Reference point
IMETHOD TwistVel RefPoint(const VectorVel& v_base_AB);
// Changes the reference point of the TwistVel.
// The VectorVel v_base_AB is expressed in the same base as the TwistVel
// The VectorVel v_base_AB is a VectorVel from the old point to
// the new point.
// Complexity : 6M+6A
// = Equality operators
// do not use operator == because the definition of Equal(.,.) is slightly
// different. It compares whether the 2 arguments are equal in an eps-interval
IMETHOD friend bool Equal(const TwistVel& a,const TwistVel& b,double eps);
IMETHOD friend bool Equal(const Twist& a,const TwistVel& b,double eps);
IMETHOD friend bool Equal(const TwistVel& a,const Twist& b,double eps);
// = Conversion to other entities
IMETHOD Twist GetTwist() const;
IMETHOD Twist GetTwistDot() const;
// = Friends
friend class RotationVel;
friend class FrameVel;
};
IMETHOD VectorVel diff(const VectorVel& a,const VectorVel& b,double dt=1.0) {
return VectorVel(diff(a.p,b.p,dt),diff(a.v,b.v,dt));
}
IMETHOD VectorVel addDelta(const VectorVel& a,const VectorVel&da,double dt=1.0) {
return VectorVel(addDelta(a.p,da.p,dt),addDelta(a.v,da.v,dt));
}
IMETHOD VectorVel diff(const RotationVel& a,const RotationVel& b,double dt = 1.0) {
return VectorVel(diff(a.R,b.R,dt),diff(a.w,b.w,dt));
}
IMETHOD RotationVel addDelta(const RotationVel& a,const VectorVel&da,double dt=1.0) {
return RotationVel(addDelta(a.R,da.p,dt),addDelta(a.w,da.v,dt));
}
IMETHOD TwistVel diff(const FrameVel& a,const FrameVel& b,double dt=1.0) {
return TwistVel(diff(a.M,b.M,dt),diff(a.p,b.p,dt));
}
IMETHOD FrameVel addDelta(const FrameVel& a,const TwistVel& da,double dt=1.0) {
return FrameVel(
addDelta(a.M,da.rot,dt),
addDelta(a.p,da.vel,dt)
);
}
IMETHOD void random(VectorVel& a) {
random(a.p);
random(a.v);
}
IMETHOD void random(TwistVel& a) {
random(a.vel);
random(a.rot);
}
IMETHOD void random(RotationVel& R) {
random(R.R);
random(R.w);
}
IMETHOD void random(FrameVel& F) {
random(F.M);
random(F.p);
}
IMETHOD void posrandom(VectorVel& a) {
posrandom(a.p);
posrandom(a.v);
}
IMETHOD void posrandom(TwistVel& a) {
posrandom(a.vel);
posrandom(a.rot);
}
IMETHOD void posrandom(RotationVel& R) {
posrandom(R.R);
posrandom(R.w);
}
IMETHOD void posrandom(FrameVel& F) {
posrandom(F.M);
posrandom(F.p);
}
#ifdef KDL_INLINE
#include "framevel.inl"
#endif
} // namespace
#endif
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