chrono::ChContactNSC< Ta, Tb > Class Template Reference

Description

template<class Ta, class Tb>
class chrono::ChContactNSC< Ta, Tb >

Class for non-smooth contact between two generic ChContactable objects.

Ta and Tb are of ChContactable sub classes.

#include <ChContactNSC.h>

Inheritance diagram for chrono::ChContactNSC< Ta, Tb >:
Collaboration diagram for chrono::ChContactNSC< Ta, Tb >:

Public Types

typedef ChContactTuple< Ta, Tb >::typecarr_a typecarr_a
 
typedef ChContactTuple< Ta, Tb >::typecarr_b typecarr_b
 
- Public Types inherited from chrono::ChContactTuple< Ta, Tb >
typedef Ta::type_variable_tuple_carrier typecarr_a
 
typedef Tb::type_variable_tuple_carrier typecarr_b
 

Public Member Functions

 ChContactNSC (ChContactContainer *mcontainer, Ta *mobjA, Tb *mobjB, const collision::ChCollisionInfo &cinfo, const ChMaterialCompositeNSC &mat)
 
virtual void Reset (Ta *mobjA, Tb *mobjB, const collision::ChCollisionInfo &cinfo, const ChMaterialCompositeNSC &mat)
 Reinitialize this contact for reuse. More...
 
virtual ChVector GetContactForce () const override
 Get the contact force, if computed, in contact coordinate system.
 
virtual double GetFriction ()
 Get the contact friction coefficient.
 
virtual void SetFriction (double mf)
 Set the contact friction coefficient.
 
virtual void ContIntStateGatherReactions (const unsigned int off_L, ChVectorDynamic<> &L) override
 
virtual void ContIntStateScatterReactions (const unsigned int off_L, const ChVectorDynamic<> &L) override
 
virtual void ContIntLoadResidual_CqL (const unsigned int off_L, ChVectorDynamic<> &R, const ChVectorDynamic<> &L, const double c) override
 
virtual void ContIntLoadConstraint_C (const unsigned int off_L, ChVectorDynamic<> &Qc, const double c, bool do_clamp, double recovery_clamp) override
 
virtual void ContIntToDescriptor (const unsigned int off_L, const ChVectorDynamic<> &L, const ChVectorDynamic<> &Qc) override
 
virtual void ContIntFromDescriptor (const unsigned int off_L, ChVectorDynamic<> &L) override
 
virtual void InjectConstraints (ChSystemDescriptor &mdescriptor) override
 
virtual void ConstraintsBiReset () override
 
virtual void ConstraintsBiLoad_C (double factor=1., double recovery_clamp=0.1, bool do_clamp=false) override
 
virtual void ConstraintsFetch_react (double factor) override
 
- Public Member Functions inherited from chrono::ChContactTuple< Ta, Tb >
 ChContactTuple (ChContactContainer *mcontainer, Ta *mobjA, Tb *mobjB, const collision::ChCollisionInfo &cinfo)
 
void Reset_cinfo (Ta *mobjA, Tb *mobjB, const collision::ChCollisionInfo &cinfo)
 Reinitialize geometric information for this contact for reuse. More...
 
Ta * GetObjA ()
 Get the colliding object A, with point P1.
 
Tb * GetObjB ()
 Get the colliding object B, with point P2.
 
ChCoordsys GetContactCoords () const
 Get the contact coordinate system, expressed in absolute frame. More...
 
const ChMatrix33GetContactPlane () const
 Returns the pointer to a contained 3x3 matrix representing the UV and normal directions of the contact. More...
 
const ChVectorGetContactP1 () const
 Get the contact point 1, in absolute coordinates.
 
const ChVectorGetContactP2 () const
 Get the contact point 2, in absolute coordinates.
 
const ChVectorGetContactNormal () const
 Get the contact normal, in absolute coordinates.
 
double GetContactDistance () const
 Get the contact distance.
 
double GetEffectiveCurvatureRadius () const
 Get the effective radius of curvature.
 
virtual void ContIntLoadResidual_F (ChVectorDynamic<> &R, const double c)
 
virtual void ContInjectKRMmatrices (ChSystemDescriptor &mdescriptor)
 
virtual void ContKRMmatricesLoad (double Kfactor, double Rfactor)
 

Protected Attributes

float * reactions_cache
 N,U,V reactions which might be stored in a persistent contact manifold.
 
ChConstraintTwoTuplesContactN< typecarr_a, typecarr_b > Nx
 The three scalar constraints, to be fed into the system solver. More...
 
ChConstraintTwoTuplesFrictionT< typecarr_a, typecarr_b > Tu
 
ChConstraintTwoTuplesFrictionT< typecarr_a, typecarr_b > Tv
 
ChVector react_force
 
double compliance
 
double complianceT
 
double restitution
 
double dampingf
 
- Protected Attributes inherited from chrono::ChContactTuple< Ta, Tb >
ChContactContainercontainer
 associated contact container
 
Ta * objA
 first ChContactable object in the pair
 
Tb * objB
 second ChContactable object in the pair
 
ChVector p1
 max penetration point on geo1, after refining, in abs space
 
ChVector p2
 max penetration point on geo2, after refining, in abs space
 
ChVector normal
 normal, on surface of master reference (geo1)
 
ChMatrix33 contact_plane
 the plane of contact (X is normal direction)
 
double norm_dist
 penetration distance (negative if going inside) after refining
 
double eff_radius
 effective radius of curvature at contact
 

Constructor & Destructor Documentation

◆ ChContactNSC()

template<class Ta , class Tb >
chrono::ChContactNSC< Ta, Tb >::ChContactNSC ( ChContactContainer mcontainer,
Ta *  mobjA,
Tb *  mobjB,
const collision::ChCollisionInfo cinfo,
const ChMaterialCompositeNSC mat 
)
inline
Parameters
mcontainercontact container
mobjAcollidable object A
mobjBcollidable object B
cinfodata for the collision pair
matcomposite material

Member Function Documentation

◆ Reset()

template<class Ta , class Tb >
virtual void chrono::ChContactNSC< Ta, Tb >::Reset ( Ta *  mobjA,
Tb *  mobjB,
const collision::ChCollisionInfo cinfo,
const ChMaterialCompositeNSC mat 
)
inlinevirtual

Reinitialize this contact for reuse.

Parameters
mobjAcollidable object A
mobjBcollidable object B
cinfodata for the collision pair
matcomposite material

Reimplemented in chrono::ChContactNSCrolling< Ta, Tb >.

Member Data Documentation

◆ Nx

template<class Ta , class Tb >
ChConstraintTwoTuplesContactN<typecarr_a, typecarr_b> chrono::ChContactNSC< Ta, Tb >::Nx
protected

The three scalar constraints, to be fed into the system solver.

They contain jacobians data and special functions.


The documentation for this class was generated from the following file:
  • /builds/uwsbel/chrono/src/chrono/physics/ChContactNSC.h