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jacobianexpr.hpp File Reference

#include <kdl/traits.h>
#include <kdl/jacobian.hpp>
#include <iostream>
Include dependency graph for jacobianexpr.hpp:

Go to the source code of this file.

Classes

class  KDL::Binary< A, B, OpID >
 A type to specify the implementation of a binary operation. More...
class  KDL::BinaryOp< ID, A, B >
class  KDL::OpAbs
class  KDL::OpAcos
class  KDL::OpAdd
class  KDL::OpAsin
class  KDL::OpAtan
class  KDL::OpAtan2
class  KDL::OpCoordX
class  KDL::OpCoordY
class  KDL::OpCoordZ
class  KDL::OpCos
class  KDL::OpDiff
class  KDL::OpDiv
class  KDL::OpDot
class  KDL::OpExp
class  KDL::OpInverse
class  KDL::OpLog
class  KDL::OpMult
class  KDL::OpNegate
class  KDL::OpNorm
class  KDL::OpOrigin
class  KDL::OpRefPoint
class  KDL::OpRotation
class  KDL::OpRotX
class  KDL::OpRotY
class  KDL::OpRotZ
class  KDL::OpSin
class  KDL::OpSqrt
class  KDL::OpSub
class  KDL::OpTan
class  KDL::OpUnitX
class  KDL::OpUnitY
class  KDL::OpUnitZ
class  KDL::Ref< T >
 A reference to T. More...
class  KDL::Unary< A, OpID >
 A type to specify a unary operation. More...
class  KDL::UnaryOp< OpID, A >
 A type to specify the implementation of a unary operation. More...

Namespaces

namespace  KDL

Defines

#define DEFBINARY_EXPR(NAME, IMPL)
#define DEFBINARY_LTYPE(NAME, IMPL, LTYPE)
#define DEFBINARY_RLTYPE(NAME, IMPL, LTYPE, RTYPE)
#define DEFBINARY_RTYPE(NAME, IMPL, RTYPE)
#define DEFUNARY_EXPR(NAME, IMPL)
#define DEFUNARY_TYPE(NAME, IMPL, TYPE)
#define INLINE2

Functions

template<typename T >
Jacobian< T > KDL::Constant (const T &arg)
 KDL::DEFBINARY_EXPR (RefPoint, OpRefPoint)
 KDL::DEFBINARY_EXPR (atan2, OpAtan2)
 KDL::DEFBINARY_EXPR (Diff, OpDiff)
 KDL::DEFBINARY_EXPR (dot, OpDot)
 KDL::DEFBINARY_EXPR (operator-, OpSub)
 KDL::DEFBINARY_EXPR (operator+, OpAdd)
 KDL::DEFBINARY_EXPR (operator/, OpDiv)
 KDL::DEFBINARY_EXPR (operator*, OpMult)
 KDL::DEFUNARY_EXPR (CoordZ, OpCoordZ)
 KDL::DEFUNARY_EXPR (CoordY, OpCoordY)
 KDL::DEFUNARY_EXPR (CoordX, OpCoordX)
 KDL::DEFUNARY_EXPR (UnitZ, OpUnitZ)
 KDL::DEFUNARY_EXPR (UnitY, OpUnitY)
 KDL::DEFUNARY_EXPR (UnitX, OpUnitX)
 KDL::DEFUNARY_EXPR (Origin, OpOrigin)
 KDL::DEFUNARY_EXPR (RotMat, OpRotation)
 KDL::DEFUNARY_EXPR (RotZ, OpRotZ)
 KDL::DEFUNARY_EXPR (RotY, OpRotY)
 KDL::DEFUNARY_EXPR (RotX, OpRotX)
 KDL::DEFUNARY_EXPR (Inverse, OpInverse)
 KDL::DEFUNARY_EXPR (norm, OpNorm)
 KDL::DEFUNARY_EXPR (abs, OpAbs)
 KDL::DEFUNARY_EXPR (acos, OpAcos)
 KDL::DEFUNARY_EXPR (asin, OpAsin)
 KDL::DEFUNARY_EXPR (atan, OpAtan)
 KDL::DEFUNARY_EXPR (sqrt, OpSqrt)
 KDL::DEFUNARY_EXPR (log, OpLog)
 KDL::DEFUNARY_EXPR (exp, OpExp)
 KDL::DEFUNARY_EXPR (tan, OpTan)
 KDL::DEFUNARY_EXPR (cos, OpCos)
 KDL::DEFUNARY_EXPR (sin, OpSin)
 KDL::DEFUNARY_EXPR (operator-, OpNegate)
template<typename T >
std::ostream & KDL::operator<< (std::ostream &os, const Jacobian< T > &F)

Define Documentation

#define DEFBINARY_EXPR ( NAME,
IMPL   ) 
Value:
template <typename A,typename B>\
INLINE Expr< Binary< A, B, IMPL >  >\
NAME (const Expr<A>& a,const Expr<B>& b) {\
    typedef Binary<A,B, IMPL> MyType;\
    return MyType(a.elem,b.elem);\
}

Defines a template operator to connect a given operator NAME with the implementation IMPL.

  • NAME stands for the operator, e.g. operator- or sin
  • IMPL stands for the maker class corresponding to this operator. The argument of this operator are of type Expr<A> and Expr<B>

Definition at line 373 of file jacobianexpr.hpp.

#define DEFBINARY_LTYPE ( NAME,
IMPL,
LTYPE   ) 
Value:
template <typename B>\
INLINE Expr< Binary< LTYPE , B, IMPL >  >\
        NAME (const LTYPE& a,const Expr<B>& b) {\
    typedef Binary< LTYPE , B, IMPL> MyType;\
    return MyType(a,b.elem);\
}

Defines a template method to connect a given operator NAME with the implementation IMPL.

  • NAME stands for the operator, e.g. operator- or sin
  • IMPL stands for the maker class corresponding to this operator.
  • LTYPE stands for the type of the 1st argument (Left hand side) The arguments of this operator are LTYPE and Expr<..>. LTYPE is normally of the form Ref<Jacobian<..> >.

Definition at line 406 of file jacobianexpr.hpp.

#define DEFBINARY_RLTYPE ( NAME,
IMPL,
LTYPE,
RTYPE   ) 
Value:
INLINE Expr< Binary< LTYPE, RTYPE, IMPL >  >\
        NAME (const LTYPE& a,const RTYPE& b) {\
    typedef Binary< LTYPE, RTYPE, IMPL > MyType;\
    return MyType(a,b);\
}

Defines a template method to connect a given operator NAME with the implementation IMPL.

  • NAME stands for the operator, e.g. operator- or sin
  • IMPL stands for the maker class corresponding to this operator.
  • LTYPE stands for the type of the 1st argument (Left hand side)
  • RTYPE stands for the type of the 2nd argument (Right hand side) The arguments of this operator are LTYPE and RTYPE. LTYPE and RTYPE are normally of the form Ref<Jacobian<..> >.

Definition at line 423 of file jacobianexpr.hpp.

#define DEFBINARY_RTYPE ( NAME,
IMPL,
RTYPE   ) 
Value:
template <typename A>\
INLINE Expr< Binary< A, RTYPE, IMPL >  >\
        NAME (const Expr<A>& a,const RTYPE& b) {\
    typedef Binary<A,RTYPE, IMPL> MyType;\
    return MyType(a.elem,b);\
}

Defines a template method to connect a given operator NAME with the implementation IMPL.

  • NAME stands for the operator, e.g. operator- or sin
  • IMPL stands for the maker class corresponding to this operator.
  • RTYPE stands for the type of the 2nd argument (Right hand side) The arguments of this operator are Expr<..> and RTYPE. RTYPE is normally of the form Ref<Jacobian<..> >.

Definition at line 390 of file jacobianexpr.hpp.

#define DEFUNARY_EXPR ( NAME,
IMPL   ) 
Value:
template <typename A>\
INLINE Expr< Unary< A, IMPL> >\
NAME (const Expr<A>& a) {\
    typedef Unary< A, IMPL> MyType;\
    return MyType(a.elem);\
}

Defines a template operator to connect a given operator NAME with the implementation IMPL.

  • NAME stands for the operator, e.g. operator- or sin
  • IMPL stands for the maker class corresponding to this operator. The argument of this operator is a type Expr

Definition at line 342 of file jacobianexpr.hpp.

#define DEFUNARY_TYPE ( NAME,
IMPL,
TYPE   ) 
Value:
INLINE Expr< Unary< TYPE, IMPL> >\
NAME(const TYPE& a) {\
    typedef Unary< TYPE , IMPL> MyType;\
    return MyType(a);\
}

Defines a template method to connect a given operator NAME with the implementation IMPL.

  • NAME stands for the operator, e.g. operator- or sin
  • IMPL stands for the maker class corresponding to this operator.
  • TYPE stands for the type of the argument. The argument of this operator is a type TYPE that serves as an argument to our operation TYPE is normally of the form Ref<Jacobian<..> >.

Definition at line 358 of file jacobianexpr.hpp.

#define INLINE2

Definition at line 35 of file jacobianexpr.hpp.

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orocos_kdl
Author(s): Ruben Smits, Erwin Aertbelien, Orocos Developers
autogenerated on Fri Mar 1 16:19:54 2013