chrono::ChParticleBase Class Reference

Description

Base class for a single particle to be used in ChIndexedParticles containers.

It is an item that has 6 degrees of freedom, like a moving frame.

#include <ChIndexedParticles.h>

Inheritance diagram for chrono::ChParticleBase:

Collaboration diagram for chrono::ChParticleBase:

Public Member Functions
	ChParticleBase (const ChParticleBase &other)
ChParticleBase &	operator= (const ChParticleBase &other)
virtual ChVariables &	Variables ()=0
Public Member Functions inherited from chrono::ChFrameMoving< double >
	ChFrameMoving (const ChVector< double > &mv=ChVector< double >(0, 0, 0), const ChQuaternion< double > &mq=ChQuaternion< double >(1, 0, 0, 0))
	Construct from pos and rot (as a quaternion)
	ChFrameMoving (const ChVector< double > &mv, const ChMatrix33< double > &ma)
	Construct from pos and rotation (as a 3x3 matrix)
	ChFrameMoving (const ChCoordsys< double > &mc)
	Construct from a coordsys.
	ChFrameMoving (const ChFrame< double > &mc)
	Construct from a frame.
	ChFrameMoving (const ChFrameMoving< double > &other)
	Copy constructor, build from another moving frame.
virtual	~ChFrameMoving ()
	Destructor.
ChFrameMoving< double > &	operator= (const ChFrameMoving< double > &other)
	Assignment operator: copy from another moving frame.
ChFrameMoving< double > &	operator= (const ChFrame< double > &other)
	Assignment operator: copy from another frame.
bool	operator== (const ChFrameMoving< double > &other) const
	Returns true for identical frames.
bool	operator!= (const ChFrameMoving< double > &other) const
	Returns true for different frames.
ChFrameMoving< double >	operator>> (const ChFrameMoving< double > &Fb) const
	The '>>' operator transforms a coordinate system, so transformations can be represented with this syntax: new_frame = old_frame >> tr_frame; For a sequence of transformations, i.e. More...
ChFrameMoving< double >	operator* (const ChFrameMoving< double > &Fb) const
	The '*' operator transforms a coordinate system, so transformations can be represented with this syntax: new_frame = tr_frame * old_frame; For a sequence of transformations, i.e. More...
ChFrameMoving< double > &	operator>>= (const ChFrameMoving< double > &T)
	Performs pre-multiplication of this frame by another frame, for example: A>>=T means A'=T*A ; or A'=A >> T.
ChFrameMoving< double > &	operator>>= (const ChVector< double > &D)
	Performs pre-multiplication of this frame by a vector D, to 'move' by a displacement D:
ChFrameMoving< double > &	operator>>= (const ChQuaternion< double > &R)
	Performs pre-multiplication of this frame by a quaternion R, to 'rotate' it by R:
ChFrameMoving< double > &	operator>>= (const ChCoordsys< double > &F)
	Performs pre-multiplication of this frame by a ChCoordsys F:
ChFrameMoving< double > &	operator>>= (const ChFrame< double > &F)
	Performs pre-multiplication of this frame by a ChFrame F:
ChFrameMoving< double > &	operator%= (const ChFrameMoving< double > &T)
	Performs pre-multiplication of this frame by another frame, for example: A%=T means A'=T*A ; or A'=A >> T Note: DEPRECATED, use >>= instead.
ChFrameMoving< double > &	operator*= (const ChFrameMoving< double > &T)
	Performs post-multiplication of this frame by another frame, for example: A*=T means A'=A*T ; or A'=T >> A.
ChCoordsys< double > &	GetCoord_dt ()
	Return both current rotation and translation speeds as a coordsystem object, with vector and quaternion.
const ChCoordsys< double > &	GetCoord_dt () const
ChCoordsys< double > &	GetCoord_dtdt ()
	Return both current rotation and translation accelerations as a coordsystem object, with vector and quaternion.
const ChCoordsys< double > &	GetCoord_dtdt () const
ChVector< double > &	GetPos_dt ()
	Return the current speed as a 3d vector.
const ChVector< double > &	GetPos_dt () const
ChVector< double > &	GetPos_dtdt ()
	Return the current acceleration as a 3d vector.
const ChVector< double > &	GetPos_dtdt () const
ChQuaternion< double > &	GetRot_dt ()
	Return the current rotation speed as a quaternion.
const ChQuaternion< double > &	GetRot_dt () const
ChQuaternion< double > &	GetRot_dtdt ()
	Return the current rotation acceleration as a quaternion.
const ChQuaternion< double > &	GetRot_dtdt () const
ChVector< double >	GetWvel_loc () const
	Computes the actual angular speed (expressed in local coords)
ChVector< double >	GetWvel_par () const
	Computes the actual angular speed (expressed in parent coords)
ChVector< double >	GetWacc_loc () const
	Computes the actual angular acceleration (expressed in local coords)
ChVector< double >	GetWacc_par () const
	Computes the actual angular acceleration (expressed in parent coords)
virtual void	SetCoord_dt (const ChCoordsys< double > &mcoord_dt)
	Set both linear speed and rotation speed as a single ChCoordsys derivative.
virtual void	SetPos_dt (const ChVector< double > &mvel)
	Set the linear speed.
virtual void	SetRot_dt (const ChQuaternion< double > &mrot_dt)
	Set the rotation speed as a quaternion. More...
virtual void	SetWvel_loc (const ChVector< double > &wl)
	Set the rotation speed from given angular speed (expressed in local csys)
virtual void	SetWvel_par (const ChVector< double > &wp)
	Set the rotation speed from given angular speed (expressed in parent csys)
virtual void	SetCoord_dtdt (const ChCoordsys< double > &mcoord_dtdt)
	Set both linear acceleration and rotation acceleration as a single ChCoordsys derivative.
virtual void	SetPos_dtdt (const ChVector< double > &macc)
	Set the linear acceleration.
virtual void	SetRot_dtdt (const ChQuaternion< double > &mrot_dtdt)
	Set the rotation acceleration as a quaternion derivative. More...
virtual void	SetWacc_loc (const ChVector< double > &al)
	Set the rotation acceleration from given angular acceleration (expressed in local csys) Note: even when the local angular acceleration is zero, you are still encouraged to call this method bacause q_dtdt might be nonzero due to nonzero q_dt in case of rotational motion.
virtual void	SetWacc_par (const ChVector< double > &ap)
	Set the rotation speed from given angular speed (expressed in parent csys)
void	Compute_Adt (ChMatrix33< double > &mA_dt) const
	Computes the time derivative of rotation matrix, mAdt.
void	Compute_Adtdt (ChMatrix33< double > &mA_dtdt)
	Computes the 2nd time derivative of rotation matrix, mAdtdt.
ChMatrix33< double >	GetA_dt ()
	Computes and returns an Adt matrix (-note: prefer using Compute_Adt() directly for better performance)
ChMatrix33< double >	GetA_dtdt ()
	Computes and returns an Adt matrix (-note: prefer using Compute_Adtdt() directly for better performance)
void	ConcatenatePreTransformation (const ChFrameMoving< double > &T)
	Apply a transformation (rotation and translation) represented by another ChFrameMoving T. More...
void	ConcatenatePostTransformation (const ChFrameMoving< double > &T)
	Apply a transformation (rotation and translation) represented by another ChFrameMoving T in local coordinate. More...
ChVector< double >	PointSpeedLocalToParent (const ChVector< double > &localpos) const
	Given the position of a point in local frame coords, and assuming it is sticky to frame, return the speed in parent coords.
ChVector< double >	PointSpeedLocalToParent (const ChVector< double > &localpos, const ChVector< double > &localspeed) const
	Given the position localpos of a point in the local reference frame, assuming that the point moves in the local reference frame with localspeed, return the speed in the parent reference frame.
ChVector< double >	PointAccelerationLocalToParent (const ChVector< double > &localpos) const
	Given the position of a point in local frame coords, and assuming it is sticky to frame, return the acceleration in parent coords. More...
ChVector< double >	PointAccelerationLocalToParent (const ChVector< double > &localpos, const ChVector< double > &localspeed, const ChVector< double > &localacc) const
	Given the position of a point in local frame coords, and assuming it has a frame-relative speed localspeed and frame-relative acceleration localacc, return the acceleration in parent coords.
ChVector< double >	PointSpeedParentToLocal (const ChVector< double > &parentpos, const ChVector< double > &parentspeed) const
	Given the position of a point in parent frame coords, and assuming it has an absolute speed parentspeed, return the speed in local coords.
ChVector< double >	PointAccelerationParentToLocal (const ChVector< double > &parentpos, const ChVector< double > &parentspeed, const ChVector< double > &parentacc) const
	Given the position of a point in parent frame coords, and assuming it has an absolute speed parentspeed and absolute acceleration parentacc, return the acceleration in local coords.
void	TransformLocalToParent (const ChFrameMoving< double > &local, ChFrameMoving< double > &parent) const
	This function transforms a frame from 'this' local coordinate system to parent frame coordinate system, and also transforms the speed and acceleration of the frame. More...
void	TransformParentToLocal (const ChFrameMoving< double > &parent, ChFrameMoving< double > &local) const
	This function transforms a frame from the parent coordinate system to 'this' local frame coordinate system. More...
bool	Equals (const ChFrameMoving< double > &other) const
	Returns true if coordsys is identical to other coordsys.
bool	Equals (const ChFrameMoving< double > &other, double tol) const
	Returns true if coordsys is equal to other coordsys, within a tolerance 'tol'.
virtual void	Invert () override
	The transformation (also for speeds, accelerations) is inverted in place. More...
ChFrameMoving< double >	GetInverse () const
virtual void	ArchiveOUT (ChArchiveOut &marchive) override
	Method to allow serialization of transient data to archives.
virtual void	ArchiveIN (ChArchiveIn &marchive) override
	Method to allow de serialization of transient data from archives.
Public Member Functions inherited from chrono::ChFrame< double >
	ChFrame (const ChVector< double > &mv=ChVector< double >(0, 0, 0), const ChQuaternion< double > &mq=ChQuaternion< double >(1, 0, 0, 0))
	Default constructor, or construct from pos and rot (as a quaternion)
	ChFrame (const ChVector< double > &mv, const ChMatrix33< double > &ma)
	Construct from pos and rotation (as a 3x3 matrix)
	ChFrame (const ChCoordsys< double > &mc)
	Construct from a coordsys.
	ChFrame (const ChVector< double > &mv, const double alpha, const ChVector< double > &mu)
	Construct from position mv and rotation of angle alpha around unit vector mu.
	ChFrame (const ChFrame< double > &other)
	Copy constructor, build from another frame.
ChFrame< double > &	operator= (const ChFrame< double > &other)
	Assignment operator: copy from another frame.
bool	operator== (const ChFrame< double > &other) const
	Returns true for identical frames.
bool	operator!= (const ChFrame< double > &other) const
	Returns true for different frames.
ChFrame< double >	operator>> (const ChFrame< double > &Fb) const
	The '>>' operator transforms a coordinate system, so transformations can be represented with this syntax: new_frame = old_frame >> tr_frame; For a sequence of transformations, i.e. More...
ChFrame< double >	operator* (const ChFrame< double > &Fb) const
	The '>>' operator transforms a vector, so transformations can be represented with this syntax: new_v = old_v >> tr_frame; For a sequence of transformations, i.e. More...
ChVector< double >	operator* (const ChVector< double > &V) const
	The '*' operator transforms a vector, so transformations can be represented with this syntax: new_v = tr_frame * old_v; For a sequence of transformations, i.e. More...
ChVector< double >	operator/ (const ChVector< double > &V) const
	The '/' is like the '*' operator (see), but uses the inverse transformation for A, in A/b. More...
ChFrame< double > &	operator>>= (const ChFrame< double > &T)
	Performs pre-multiplication of this frame by another frame, for example: A>>=T means A'=T*A ; or A'=A >> T.
ChFrame< double > &	operator>>= (const ChVector< double > &D)
	Performs pre-multiplication of this frame by a vector D, to 'move' by a displacement D:
ChFrame< double > &	operator>>= (const ChQuaternion< double > &R)
	Performs pre-multiplication of this frame by a quaternion R, to 'rotate' it by R:
ChFrame< double > &	operator>>= (const ChCoordsys< double > &F)
	Performs pre-multiplication of this frame by a ChCoordsys F, to transform it:
ChFrame< double > &	operator%= (const ChFrame< double > &T)
	Performs pre-multiplication of this frame by another frame, for example: A%=T means A'=T*A ; or A'=A >> T Note: DEPRECATED, use >>= instead.
ChFrame< double > &	operator*= (const ChFrame< double > &T)
	Performs post-multiplication of this frame by another frame, for example: A*=T means A'=A*T ; or A'=T >> A.
ChCoordsys< double > &	GetCoord ()
	Return both current rotation and translation as a coordsystem object, with vector and quaternion.
const ChCoordsys< double > &	GetCoord () const
ChVector< double > &	GetPos ()
	Return the current translation as a 3d vector.
const ChVector< double > &	GetPos () const
ChQuaternion< double > &	GetRot ()
	Return the current rotation as a quaternion.
const ChQuaternion< double > &	GetRot () const
ChMatrix33< double > &	GetA ()
	Return the current rotation as a 3x3 matrix.
const ChMatrix33< double > &	GetA () const
ChVector< double >	GetRotAxis ()
	Get axis of finite rotation, in parent space.
double	GetRotAngle ()
	Get angle of rotation about axis of finite rotation.
void	SetCoord (const ChCoordsys< double > &mcoord)
	Impose both translation and rotation as a single ChCoordsys. More...
void	SetCoord (const ChVector< double > &mv, const ChQuaternion< double > &mq)
	Impose both translation and rotation. More...
void	SetRot (const ChQuaternion< double > &mrot)
	Impose the rotation as a quaternion. More...
void	SetRot (const ChMatrix33< double > &mA)
	Impose the rotation as a 3x3 matrix. More...
void	SetPos (const ChVector< double > &mpos)
	Impose the translation.
void	ConcatenatePreTransformation (const ChFrame< double > &T)
	Apply a transformation (rotation and translation) represented by another ChFrame T. More...
void	ConcatenatePostTransformation (const ChFrame< double > &T)
	Apply a transformation (rotation and translation) represented by another ChFrame T in local coordinate. More...
void	Move (const ChVector< double > &V)
	An easy way to move the frame by the amount specified by vector V, (assuming V expressed in parent coordinates)
void	Move (const ChCoordsys< double > &VR)
	Apply both translation and rotation, assuming both expressed in parent coordinates, as a vector for translation and quaternion for rotation,.
ChVector< double >	TransformLocalToParent (const ChVector< double > &local) const
	This function transforms a point from the local frame coordinate system to the parent coordinate system. More...
void	TransformLocalToParent (const ChFrame< double > &local, ChFrame< double > &parent) const
	This function transforms a frame from 'this' local coordinate system to parent frame coordinate system. More...
ChVector< double >	TransformPointLocalToParent (const ChVector< double > &local) const
ChVector< double >	TransformParentToLocal (const ChVector< double > &parent) const
	This function transforms a point from the parent coordinate system to local frame coordinate system. More...
void	TransformParentToLocal (const ChFrame< double > &parent, ChFrame< double > &local) const
	This function transforms a frame from the parent coordinate system to 'this' local frame coordinate system. More...
ChVector< double >	TransformPointParentToLocal (const ChVector< double > &parent) const
ChVector< double >	TransformDirectionParentToLocal (const ChVector< double > &mdirection) const
	This function transforms a direction from 'this' local coordinate system to parent frame coordinate system. More...
ChVector< double >	TransformDirectionLocalToParent (const ChVector< double > &mdirection) const
	This function transforms a direction from the parent frame coordinate system to 'this' local coordinate system. More...
bool	Equals (const ChFrame< double > &other) const
	Returns true if coordsys is identical to other coordsys.
bool	Equals (const ChFrame< double > &other, double tol) const
	Returns true if coordsys is equal to other coordsys, within a tolerance 'tol'.
void	Normalize ()
	Normalize the rotation, so that quaternion has unit length.
virtual void	SetIdentity ()
	Sets to no translation and no rotation.
ChFrame< double >	GetInverse () const

Additional Inherited Members
Public Attributes inherited from chrono::ChFrameMoving< double >
ChCoordsys< double >	coord_dt
	Rotation and position speed, as vector+quaternion.
ChCoordsys< double >	coord_dtdt
	Rotation and position acceleration, as vector+quaternion.
Public Attributes inherited from chrono::ChFrame< double >
ChCoordsys< double >	coord
	Rotation and position, as vector+quaternion.
ChMatrix33< double >	Amatrix
	3x3 orthogonal rotation matrix

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The documentation for this class was generated from the following files:

• /builds/uwsbel/chrono/src/chrono/physics/ChIndexedParticles.h
• /builds/uwsbel/chrono/src/chrono/physics/ChIndexedParticles.cpp