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mrpt::poses::CPoseOrPoint< DERIVEDCLASS > Class Template Referenceabstract

## Detailed Description

### template<class DERIVEDCLASS> class mrpt::poses::CPoseOrPoint< DERIVEDCLASS >

The base template class for 2D & 3D points and poses.

This class use the Curiously Recurring Template Pattern (CRTP) to define a set of common methods to all the children classes without the cost of virtual methods. Since most important methods are inline, they will be expanded at compile time and optimized for every specific derived case.

For more information and examples, refer to the 2D/3D Geometry tutorial online.

## Introduction to 2D and 3D representation classes

There are two class of spatial representation classes:

• Point: A point in the common mathematical sense, with no directional information.
• 2D: A 2D point is represented just by its coordinates (x,y).
• 3D: A 3D point is represented by its coordinates (x,y,z).
• Pose: It is a point, plus a direction.

• 2D: A 2D pose is a 2D point plus a single angle, the yaw or &#966; angle: the angle from the positive X angle.
• 3D: A 3D point is a 3D point plus three orientation angles (More details above).

In the case for a 3D orientation many representation angles can be used (Euler angles,yaw/pitch/roll,...) but all of them can be handled by a 4x4 matrix called "Homogeneous Matrix". This matrix includes both, the translation and the orientation for a point or a pose, and it can be obtained using the method getHomogeneousMatrix() which is defined for any pose or point. Note that when the YPR angles are used to define a 3D orientation, these three values can not be extracted from the matrix again.

Homogeneous matrices: These are 4x4 matrices which can represent any translation or rotation in 2D & 3D. See the tutorial online for more details. *

Operators: There are operators defined for the pose compounding and inverse pose compounding of poses and points. For example, let "a" and "b" be 2D or 3D poses. Then "a+b" returns the resulting pose of "moving b" from "a"; and "b-a" returns the pose of "b" as it is seen "from a". They can be mixed points and poses, being 2D or 3D, in these operators, with the following results:

 Does "a+b" return a Pose or a Point?
+---------------------------------+
|  a \ b   |  Pose     |  Point   |
+----------+-----------+----------+
| Pose     |  Pose     |  Point   |
| Point    |  Pose     |  Point   |
+---------------------------------+
 Does "a-b" return a Pose or a Point?
+---------------------------------+
|  a \ b   |  Pose     |  Point   |
+----------+-----------+----------+
| Pose     |  Pose     |  Pose    |
| Point    |  Point    |  Point   |
+---------------------------------+
 Does "a+b" and "a-b" return a 2D or 3D object?
+-------------------------+
|  a \ b   |  2D   |  3D  |
+----------+--------------+
|  2D      |  2D   |  3D  |
|  3D      |  3D   |  3D  |
+-------------------------+

See also
CPose,CPoint

Definition at line 107 of file CPoseOrPoint.h.

#include <mrpt/poses/CPoseOrPoint.h>

Inheritance diagram for mrpt::poses::CPoseOrPoint< DERIVEDCLASS >:
 double x () const Common members of all points & poses classes. More... double y () const double & x () double & y () void x (const double v) void y (const double v) void x_incr (const double v) void y_incr (const double v) template double sqrDistanceTo (const CPoseOrPoint< OTHERCLASS > &b) const Returns the squared euclidean distance to another pose/point: More... template double distanceTo (const CPoseOrPoint< OTHERCLASS > &b) const Returns the Euclidean distance to another pose/point: More... double distance2DToSquare (double ax, double ay) const Returns the squared 2D distance from this pose/point to a 2D point (ignores Z, if it exists). More... double distance3DToSquare (double ax, double ay, double az) const Returns the squared 3D distance from this pose/point to a 3D point. More... double distance2DTo (double ax, double ay) const Returns the 2D distance from this pose/point to a 2D point (ignores Z, if it exists). More... double distance3DTo (double ax, double ay, double az) const Returns the 3D distance from this pose/point to a 3D point. More... double distanceTo (const mrpt::math::TPoint3D &b) const Returns the euclidean distance to a 3D point: More... double norm () const Returns the euclidean norm of vector: . More... mrpt::math::CVectorDouble getAsVectorVal () const Return the pose or point as a 1xN vector with all the components (see derived classes for each implementation) More... mrpt::math::CMatrixDouble44 getHomogeneousMatrixVal () const Returns the corresponding 4x4 homogeneous transformation matrix for the point(translation) or pose (translation+orientation). More... void getInverseHomogeneousMatrix (mrpt::math::CMatrixDouble44 &out_HM) const Returns the corresponding 4x4 inverse homogeneous transformation matrix for this point or pose. More... mrpt::math::CMatrixDouble44 getInverseHomogeneousMatrix () const virtual void setToNaN ()=0 Set all data fields to quiet NaN. More... static bool is3DPoseOrPoint () Return true for poses or points with a Z component, false otherwise. More...

## ◆ distance2DTo()

template<class DERIVEDCLASS>
 double mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::distance2DTo ( double ax, double ay ) const
inline

Returns the 2D distance from this pose/point to a 2D point (ignores Z, if it exists).

Definition at line 165 of file CPoseOrPoint.h.

Referenced by mrpt::nav::PlannerRRT_SE2_TPS::solve().

## ◆ distance2DToSquare()

template<class DERIVEDCLASS>
 double mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::distance2DToSquare ( double ax, double ay ) const
inline

Returns the squared 2D distance from this pose/point to a 2D point (ignores Z, if it exists).

Definition at line 156 of file CPoseOrPoint.h.

Referenced by mrpt::poses::CPoseOrPoint< CPoint3D >::distance2DTo().

## ◆ distance3DTo()

template<class DERIVEDCLASS>
 double mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::distance3DTo ( double ax, double ay, double az ) const
inline

Returns the 3D distance from this pose/point to a 3D point.

Definition at line 168 of file CPoseOrPoint.h.

## ◆ distance3DToSquare()

template<class DERIVEDCLASS>
 double mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::distance3DToSquare ( double ax, double ay, double az ) const
inline

Returns the squared 3D distance from this pose/point to a 3D point.

Definition at line 159 of file CPoseOrPoint.h.

Referenced by mrpt::poses::CPoseOrPoint< CPoint3D >::distance3DTo().

## ◆ distanceTo() [1/2]

template<class DERIVEDCLASS>
template<class OTHERCLASS >
 double mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::distanceTo ( const CPoseOrPoint< OTHERCLASS > & b ) const
inline

## ◆ distanceTo() [2/2]

template<class DERIVEDCLASS>
 double mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::distanceTo ( const mrpt::math::TPoint3D & b ) const
inline

Returns the euclidean distance to a 3D point:

Definition at line 171 of file CPoseOrPoint.h.

## ◆ getAsVectorVal()

template<class DERIVEDCLASS>
 mrpt::math::CVectorDouble mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::getAsVectorVal ( ) const
inline

Return the pose or point as a 1xN vector with all the components (see derived classes for each implementation)

Definition at line 181 of file CPoseOrPoint.h.

## ◆ getHomogeneousMatrixVal()

template<class DERIVEDCLASS>
 mrpt::math::CMatrixDouble44 mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::getHomogeneousMatrixVal ( ) const
inline

Returns the corresponding 4x4 homogeneous transformation matrix for the point(translation) or pose (translation+orientation).

See also
getInverseHomogeneousMatrix

Definition at line 191 of file CPoseOrPoint.h.

## ◆ getInverseHomogeneousMatrix() [1/2]

template<class DERIVEDCLASS>
 void mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::getInverseHomogeneousMatrix ( mrpt::math::CMatrixDouble44 & out_HM ) const
inline

Returns the corresponding 4x4 inverse homogeneous transformation matrix for this point or pose.

See also
getHomogeneousMatrix

Definition at line 201 of file CPoseOrPoint.h.

Referenced by mrpt::poses::CPose3DRotVec::inverseComposeFrom(), and Pose3DTests::test_inverse().

## ◆ getInverseHomogeneousMatrix() [2/2]

template<class DERIVEDCLASS>
 mrpt::math::CMatrixDouble44 mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::getInverseHomogeneousMatrix ( ) const
inline

This is an overloaded member function, provided for convenience. It differs from the above function only in what argument(s) it accepts.

Definition at line 208 of file CPoseOrPoint.h.

## ◆ is3DPoseOrPoint()

template<class DERIVEDCLASS>
 static bool mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::is3DPoseOrPoint ( )
inlinestatic

Return true for poses or points with a Z component, false otherwise.

Definition at line 127 of file CPoseOrPoint.h.

## ◆ norm()

template<class DERIVEDCLASS>
 double mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::norm ( ) const
inline

## ◆ setToNaN()

template<class DERIVEDCLASS>
 virtual void mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::setToNaN ( )
pure virtual

Set all data fields to quiet NaN.

## ◆ sqrDistanceTo()

template<class DERIVEDCLASS>
template<class OTHERCLASS >
 double mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::sqrDistanceTo ( const CPoseOrPoint< OTHERCLASS > & b ) const
inline

Returns the squared euclidean distance to another pose/point:

Definition at line 130 of file CPoseOrPoint.h.

Referenced by mrpt::poses::CPoseOrPoint< CPoint3D >::distanceTo().

## ◆ x() [2/3]

template<class DERIVEDCLASS>
 double& mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::x ( )
inline

Definition at line 116 of file CPoseOrPoint.h.

## ◆ x() [3/3]

template<class DERIVEDCLASS>
 void mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::x ( const double v )
inline
Parameters
 v Set X coord.

Definition at line 119 of file CPoseOrPoint.h.

## ◆ x_incr()

template<class DERIVEDCLASS>
 void mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::x_incr ( const double v )
inline
Parameters
 v X+=v

Definition at line 122 of file CPoseOrPoint.h.

## ◆ y() [2/3]

template<class DERIVEDCLASS>
 double& mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::y ( )
inline

Definition at line 117 of file CPoseOrPoint.h.

## ◆ y() [3/3]

template<class DERIVEDCLASS>
 void mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::y ( const double v )
inline
Parameters
 v Set Y coord.

Definition at line 120 of file CPoseOrPoint.h.

## ◆ y_incr()

template<class DERIVEDCLASS>
 void mrpt::poses::CPoseOrPoint< DERIVEDCLASS >::y_incr ( const double v )
inline
Parameters
 v Y+=v

Definition at line 123 of file CPoseOrPoint.h.

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