Description
Physics element that carries its own dynamics, described as an index-3 DAE IVP of the form:
M * y'' + (Cy)^T * lambda = F C(y) = 0 y(t0) = y0 y'(t0) = yd0
The internal states are integrated simultaneously with the containing system and they can be accessed and coupled with other physics elements.
#include <ChExternalDynamicsDAE.h>
Public Member Functions | |
| virtual void | Initialize () |
| Initialize the physics item. | |
| virtual bool | InExplicitForm () const |
| Declare as explicit form (identity mass matrix). More... | |
| virtual bool | IsStiff () const |
| Declare as stiff (default: false). More... | |
| virtual bool | IsRheonomous () const |
| Declare the DAE as rheonomous (default: false). More... | |
| virtual unsigned int | GetNumStates () const =0 |
| Get number of states (dimension of y). | |
| virtual unsigned int | GetNumStateDerivatives () const |
| Get number of state derivatives (dimension of yd). More... | |
| virtual unsigned int | GetNumAlgebraicConstraints () const |
| Get number of algebraic constraints. | |
| ChVectorDynamic | GetInitialStates () |
| Get the initial state values (state at initial time). | |
| ChVectorDynamic | GetInitialStateDerivatives () |
| Get the initial state derivative values (state derivatives at initial time). | |
| const ChVectorDynamic & | GetStates () const |
| Get current states. | |
| const ChVectorDynamic & | GetStateDerivatives () const |
| Get current state derivatives. | |
| const ChVectorDynamic & | GetForce () const |
| Get current applied force. | |
 Public Member Functions inherited from chrono::ChPhysicsItem | |
| ChPhysicsItem (const ChPhysicsItem &other) | |
| virtual ChPhysicsItem * | Clone () const override |
| "Virtual" copy constructor (covariant return type). | |
| ChSystem * | GetSystem () const |
| Get the pointer to the parent ChSystem(). | |
| virtual void | SetSystem (ChSystem *m_system) |
| Set the pointer to the parent ChSystem(). More... | |
| void | AddVisualModel (std::shared_ptr< ChVisualModel > model) |
| Add an (optional) visualization model. More... | |
| std::shared_ptr< ChVisualModel > | GetVisualModel () const |
| Access the visualization model (if any). More... | |
| void | AddVisualShape (std::shared_ptr< ChVisualShape > shape, const ChFrame<> &frame=ChFrame<>()) |
| Add the specified visual shape to the visualization model. More... | |
| std::shared_ptr< ChVisualShape > | GetVisualShape (unsigned int i) const |
| Access the specified visualization shape in the visualization model (if any). More... | |
| void | AddVisualShapeFEA (std::shared_ptr< ChVisualShapeFEA > shapeFEA) |
| Add the specified FEA visualization object to the visualization model. More... | |
| std::shared_ptr< ChVisualShapeFEA > | GetVisualShapeFEA (unsigned int i) const |
| Access the specified FEA visualization object in the visualization model (if any). More... | |
| virtual ChFrame | GetVisualModelFrame (unsigned int nclone=0) const |
| Get the reference frame (expressed in and relative to the absolute frame) of the visual model. More... | |
| virtual unsigned int | GetNumVisualModelClones () const |
| Return the number of clones of the visual model associated with this physics item. More... | |
| void | AddCamera (std::shared_ptr< ChCamera > camera) |
| Attach a ChCamera to this physical item. More... | |
| std::vector< std::shared_ptr< ChCamera > > | GetCameras () const |
| Get the set of cameras attached to this physics item. | |
| virtual bool | IsActive () const |
| Return true if the object is active and included in dynamics. | |
| virtual bool | IsCollisionEnabled () const |
| Tell if the object is subject to collision. More... | |
| virtual void | AddCollisionModelsToSystem (ChCollisionSystem *coll_sys) const |
| Add to the provided collision system any collision models managed by this physics item. More... | |
| virtual void | RemoveCollisionModelsFromSystem (ChCollisionSystem *coll_sys) const |
| Remove from the provided collision system any collision models managed by this physics item. More... | |
| virtual void | SyncCollisionModels () |
| Synchronize the position and bounding box of any collsion models managed by this physics item. | |
| virtual ChAABB | GetTotalAABB () const |
| Get the axis-aligned bounding box (AABB) of this object. More... | |
| virtual ChVector3d | GetCenter () const |
| Get a symbolic 'center' of the object. More... | |
| virtual void | Setup () |
| Perform setup operations. More... | |
| virtual void | Update (bool update_assets=true) |
| Perform an update using the current time. | |
| void | UpdateVisualModel () |
| Utility function to update only the associated visual assets (if any). | |
| virtual void | ForceToRest () |
| Set zero speed (and zero accelerations) in state, without changing the position. More... | |
| virtual unsigned int | GetNumConstraintsUnilateral () |
| Get the number of unilateral scalar constraints. | |
| unsigned int | GetOffset_x () |
| Get offset in the state vector (position part) | |
| unsigned int | GetOffset_w () |
| Get offset in the state vector (speed part) | |
| unsigned int | GetOffset_L () |
| Get offset in the lagrangian multipliers. | |
| void | SetOffset_x (const unsigned int moff) |
| Set offset in the state vector (position part) Note: only the ChSystem::Setup function should use this. | |
| void | SetOffset_w (const unsigned int moff) |
| Set offset in the state vector (speed part) Note: only the ChSystem::Setup function should use this. | |
| void | SetOffset_L (const unsigned int moff) |
| Set offset in the lagrangian multipliers Note: only the ChSystem::Setup function should use this. | |
| virtual void | VariablesFbReset () |
| Sets the 'fb' part (the known term) of the encapsulated ChVariables to zero. | |
| virtual void | VariablesFbLoadForces (double factor=1) |
| Adds the current forces (applied to item) into the encapsulated ChVariables, in the 'fb' part: qf+=forces*factor. | |
| virtual void | VariablesQbLoadSpeed () |
| Initialize the 'qb' part of the ChVariables with the current value of speeds. More... | |
| virtual void | VariablesFbIncrementMq () |
| Adds M*q (masses multiplied current 'qb') to Fb, ex. More... | |
| virtual void | VariablesQbSetSpeed (double step=0) |
| Fetches the item speed (ex. More... | |
| virtual void | VariablesQbIncrementPosition (double step) |
| Increment item positions by the 'qb' part of the ChVariables, multiplied by a 'step' factor. More... | |
| virtual void | ConstraintsBiReset () |
| Sets to zero the known term (b_i) of encapsulated ChConstraints. | |
| virtual void | ConstraintsBiLoad_C (double factor=1, double recovery_clamp=0.1, bool do_clamp=false) |
| Adds the current C (constraint violation) to the known term (b_i) of encapsulated ChConstraints. | |
| virtual void | ConstraintsBiLoad_Ct (double factor=1) |
| Adds the current Ct (partial t-derivative, as in C_dt=0-> [Cq]*q_dt=-Ct) to the known term (b_i) of encapsulated ChConstraints. | |
| virtual void | ConstraintsBiLoad_Qc (double factor=1) |
| Adds the current Qc (the vector of C_dtdt=0 -> [Cq]*q_dtdt=Qc ) to the known term (b_i) of encapsulated ChConstraints. | |
| virtual void | ConstraintsFbLoadForces (double factor=1) |
| Adds the current link-forces, if any, (caused by springs, etc.) to the 'fb' vectors of the ChVariables referenced by encapsulated ChConstraints. | |
| virtual void | ConstraintsFetch_react (double factor=1) |
| Fetches the reactions from the lagrangian multiplier (l_i) of encapsulated ChConstraints. More... | |
| virtual void | ArchiveOut (ChArchiveOut &archive_out) override |
| Method to allow serialization of transient data to archives. | |
| virtual void | ArchiveIn (ChArchiveIn &archive_in) override |
| Method to allow deserialization of transient data from archives. More... | |
| Public Member Functions inherited from chrono::ChObj | |
| ChObj (const ChObj &other) | |
| int | GetIdentifier () const |
| Get the unique integer identifier of this object. More... | |
| void | SetTag (int tag) |
| Set an object integer tag (default: -1). More... | |
| int | GetTag () const |
| Get the tag of this object. | |
| void | SetName (const std::string &myname) |
| Set the name of this object. | |
| const std::string & | GetName () const |
| Get the name of this object. | |
| double | GetChTime () const |
| Gets the simulation time of this object. | |
| void | SetChTime (double m_time) |
| Sets the simulation time of this object. | |
| virtual std::string & | ArchiveContainerName () |
Protected Member Functions | |
| virtual void | SetInitialConditions (ChVectorDynamic<> &y0, ChVectorDynamic<> &yd0)=0 |
| Set initial conditions. More... | |
| virtual void | CalculateMassMatrix (ChMatrixDynamic<> &M) |
| Calculate and return mass matrix. More... | |
| virtual bool | CalculateMassTimesVector (const ChVectorDynamic<> &v, ChVectorDynamic<> &Mv) |
| Calculate and return the product of the mass matrix and the given vector. More... | |
| virtual void | CalculateForce (double time, const ChVectorDynamic<> &y, const ChVectorDynamic<> &yd, ChVectorDynamic<> &F)=0 |
| Calculate and return the generalized force (right-hand side) at the provided time and states. More... | |
| virtual bool | CalculateForceJacobians (double time, const ChVectorDynamic<> &y, const ChVectorDynamic<> &yd, const ChVectorDynamic<> &F, double alpha, double beta, ChMatrixDynamic<> &J) |
| Calculate a linear combination of the Jacobians of the generalized force with respect to the DAE states. More... | |
| virtual void | CalculateConstraintViolation (double time, const ChVectorDynamic<> &y, ChVectorDynamic<> &c) |
| Calculate the constraint violations c. More... | |
| virtual bool | CalculateConstraintDerivative (double time, const ChVectorDynamic<> &y, const ChVectorDynamic<> &c, ChVectorDynamic<> &ct) |
| Calculate the constraint violation partial derivative with respect to time. More... | |
| virtual void | CalculateConstraintJacobian (double time, const ChVectorDynamic<> &y, const ChVectorDynamic<> &c, ChMatrixDynamic<> &J) |
| Calculate the Jacobian of the constraints with respect to the DAE states. More... | |
| virtual void | IncrementState (const ChVectorDynamic<> &x, const ChVectorDynamic<> &Dv, ChVectorDynamic<> &x_new) |
| Increment the state vector by the provided vector. More... | |
| virtual void | CalculateStateIncrement (const ChVectorDynamic<> &x, const ChVectorDynamic<> &x_new, ChVectorDynamic<> &Dv) |
| Calculate the increment between the two procided state vectors. More... | |
| virtual void | OnUpdate (double time, const ChVectorDynamic<> &y, const ChVectorDynamic<> &yd) |
| Optional operations performed before an update. More... | |
| virtual void | Update (double time, bool update_assets=true) override |
| Perform any updates necessary at the current phase during the solution process. More... | |
| virtual unsigned int | GetNumCoordsPosLevel () override |
| Get the number of coordinates at the position level. More... | |
| virtual unsigned int | GetNumCoordsVelLevel () override |
| Get the number of coordinates at the velocity level. More... | |
| virtual unsigned int | GetNumConstraints () override |
| Get the number of scalar constraints. | |
| virtual unsigned int | GetNumConstraintsBilateral () override |
| Get the number of bilateral scalar constraints. | |
| virtual void | InjectVariables (ChSystemDescriptor &descriptor) override |
| Register with the given system descriptor any ChVariable objects associated with this item. | |
| virtual void | InjectConstraints (ChSystemDescriptor &descriptor) override |
| Register with the given system descriptor any ChConstraint objects associated with this item. | |
| virtual void | InjectKRMMatrices (ChSystemDescriptor &descriptor) override |
| Register with the given system descriptor any ChKRMBlock objects associated with this item. | |
| virtual void | IntStateGather (const unsigned int off_x, ChState &x, const unsigned int off_v, ChStateDelta &v, double &T) override |
| From item's state to global state vectors y={x,v} pasting the states at the specified offsets. More... | |
| virtual void | IntStateScatter (const unsigned int off_x, const ChState &x, const unsigned int off_v, const ChStateDelta &v, const double T, bool full_update) override |
| From global state vectors y={x,v} to item's state (and update) fetching the states at the specified offsets. More... | |
| virtual void | IntStateGatherAcceleration (const unsigned int off_a, ChStateDelta &a) override |
| From item's state acceleration to global acceleration vector. More... | |
| virtual void | IntStateScatterAcceleration (const unsigned int off_a, const ChStateDelta &a) override |
| From global acceleration vector to item's state acceleration. More... | |
| virtual void | IntStateGatherReactions (const unsigned int off_L, ChVectorDynamic<> &L) override |
| From item's reaction forces to global reaction vector. More... | |
| virtual void | IntStateScatterReactions (const unsigned int off_L, const ChVectorDynamic<> &L) override |
| From global reaction vector to item's reaction forces. More... | |
| virtual void | IntStateIncrement (const unsigned int off_x, ChState &x_new, const ChState &x, const unsigned int off_v, const ChStateDelta &Dv) override |
| Computes x_new = x + Dt , using vectors at specified offsets. More... | |
| virtual void | IntStateGetIncrement (const unsigned int off_x, const ChState &x_new, const ChState &x, const unsigned int off_v, ChStateDelta &Dv) override |
| Computes Dt = x_new - x, using vectors at specified offsets. More... | |
| virtual void | IntLoadResidual_F (const unsigned int off, ChVectorDynamic<> &R, const double c) override |
| Takes the F force term, scale and adds to R at given offset: R += c*F. More... | |
| virtual void | IntLoadResidual_Mv (const unsigned int off, ChVectorDynamic<> &R, const ChVectorDynamic<> &v, const double c) override |
| Takes the M*v term, multiplying mass by a vector, scale and adds to R at given offset: R += c*M*w. More... | |
| virtual void | IntLoadLumpedMass_Md (const unsigned int off, ChVectorDynamic<> &Md, double &err, const double c) override |
| Adds the lumped mass to a Md vector, representing a mass diagonal matrix. More... | |
| virtual void | IntLoadConstraint_C (const unsigned int off, ChVectorDynamic<> &Qc, const double c, bool do_clamp, double recovery_clamp) override |
| Takes the term C, scale and adds to Qc at given offset: Qc += c*C. More... | |
| virtual void | IntLoadConstraint_Ct (const unsigned int off, ChVectorDynamic<> &Qc, const double c) override |
| Takes the term Ct, scale and adds to Qc at given offset: Qc += c*Ct. More... | |
| virtual void | IntLoadResidual_CqL (const unsigned int off_L, ChVectorDynamic<> &R, const ChVectorDynamic<> &L, const double c) override |
| Takes the term Cq'*L, scale and adds to R at given offset: R += c*Cq'*L. More... | |
| virtual void | IntToDescriptor (const unsigned int off_v, const ChStateDelta &v, const ChVectorDynamic<> &R, const unsigned int off_L, const ChVectorDynamic<> &L, const ChVectorDynamic<> &Qc) override |
| Prepare variables and constraints to accommodate a solution: More... | |
| virtual void | IntFromDescriptor (const unsigned int off_v, ChStateDelta &v, const unsigned int off_L, ChVectorDynamic<> &L) override |
| After a solver solution, fetch values from variables and constraints into vectors: More... | |
| virtual void | LoadConstraintJacobians () override |
| Compute and load current Jacobians in encapsulated ChConstraint objects. | |
| virtual void | LoadKRMMatrices (double Kfactor, double Rfactor, double Mfactor) override |
| Compute and load current stiffnes (K), damping (R), and mass (M) matrices in encapsulated ChKRMBlock objects. More... | |
| Protected Member Functions inherited from chrono::ChObj | |
| int | GenerateUniqueIdentifier () |
Additional Inherited Members | |
| Protected Attributes inherited from chrono::ChPhysicsItem | |
| ChSystem * | system |
| parent system | |
| std::shared_ptr< ChVisualModelInstance > | vis_model_instance |
| instantiated visualization model | |
| std::vector< std::shared_ptr< ChCamera > > | cameras |
| set of cameras | |
| unsigned int | offset_x |
| offset in vector of state (position part) | |
| unsigned int | offset_w |
| offset in vector of state (speed part) | |
| unsigned int | offset_L |
| offset in vector of lagrangian multipliers | |
| Protected Attributes inherited from chrono::ChObj | |
| double | ChTime |
| object simulation time | |
| std::string | m_name |
| object name | |
| int | m_identifier |
| object unique identifier | |
| int | m_tag |
| user-supplied tag | |
Member Function Documentation
◆ CalculateConstraintDerivative()
|
inlineprotectedvirtual |
Calculate the constraint violation partial derivative with respect to time.
Must load ct = \partial c / \partial t, for c = c(t,y). This function is optional and only used is the system is rheonomous. If provided, load the constraint derivatives in the provided vector 'c' and return 'true'. In that case, this overrides the default finite difference approximation.
- Parameters
-
time current time y current DAE states c current constraint violations ct output constraint derivative vector
◆ CalculateConstraintJacobian()
|
inlineprotectedvirtual |
Calculate the Jacobian of the constraints with respect to the DAE states.
- Parameters
-
time current time y current DAE states c current constraint violations J output Jacobian matrix
◆ CalculateConstraintViolation()
|
inlineprotectedvirtual |
Calculate the constraint violations c.
- Parameters
-
time current time y current DAE states c output constraint violation vector
◆ CalculateForce()
|
protectedpure virtual |
Calculate and return the generalized force (right-hand side) at the provided time and states.
Must load F = F(t,y, yd).
- Parameters
-
time current time y current DAE states yd current DAE state derivatives F output right-hand side force vector
◆ CalculateForceJacobians()
|
inlineprotectedvirtual |
Calculate a linear combination of the Jacobians of the generalized force with respect to the DAE states.
Must load J = alpha * dF/dy + beta * dF/dyd, for given alpha and beta. Only used if the physics item is declared as stiff. If provided, load J into the provided matrix 'J' (already set to zero before the call) and return 'true'. In that case, the user-provided Jacobian will overwrite the default finite-difference approximation. Note that a derived class must always implement CalculateForceJacobians if the number of derivatives and states are different.
- Parameters
-
time current time y current DAE states yd current DAE state derivatives F current right-hand side force vector alpha multiplier for Jacobian wrt y beta multiplier for Jacobian wrt yd J output Jacobian matrix
◆ CalculateMassMatrix()
|
inlineprotectedvirtual |
Calculate and return mass matrix.
This function must be implemented if the DAE is in implicit form.
◆ CalculateMassTimesVector()
|
inlineprotectedvirtual |
Calculate and return the product of the mass matrix and the given vector.
This function is optional and is used only if the DAE is declared in implicit form. If provided, calculate M*v in the provided vector 'Mv' and return 'true'. In that case, this overwrites the default matrix-vector product calculation.
◆ CalculateStateIncrement()
|
inlineprotectedvirtual |
Calculate the increment between the two procided state vectors.
Must calculate Dv = x_new - x. If the number of derivatives is equal to the number of states, this is a simple vector subtraction and this function need not be implemented. Otherwise (e.g., when using quaternions for rotations), special treatment is required and a derived class must provide an override. Here, 'x' and 'x_new' are vectors of length Ny, and 'Dv' has length Nyd.
◆ GetNumCoordsPosLevel()
|
inlineoverrideprotectedvirtual |
Get the number of coordinates at the position level.
Might differ from coordinates at velocity level if quaternions are used for rotations.
Reimplemented from chrono::ChPhysicsItem.
◆ GetNumCoordsVelLevel()
|
inlineoverrideprotectedvirtual |
Get the number of coordinates at the velocity level.
Might differ from coordinates at position level if quaternions are used for rotations.
Reimplemented from chrono::ChPhysicsItem.
◆ GetNumStateDerivatives()
|
inlinevirtual |
Get number of state derivatives (dimension of yd).
The default implementation assumes equal number of states and state derivatives. If this is not the case, a derived class must implement the functions IncrementState, CalculateStateIncrement, and (if stiff) CalculateForceJacobians.
◆ IncrementState()
|
inlineprotectedvirtual |
Increment the state vector by the provided vector.
Must calculate x_new = x + Dv. If the number of derivatives is equal to the number of states, this is a simple vector addition and this function need not be implemented. Otherwise (e.g., when using quaternions for rotations), special treatment is required and a derived class must provide an override. Here, 'x' and 'x_new' are vectors of length Ny, and 'Dv' has length Nyd.
◆ InExplicitForm()
|
inlinevirtual |
Declare as explicit form (identity mass matrix).
If not in explicit form, a derived class must implement the function CalculateMassMatrix and optionally CalculateMassTimesVector.
◆ IntFromDescriptor()
|
overrideprotectedvirtual |
After a solver solution, fetch values from variables and constraints into vectors:
- Parameters
-
off_v offset for v v vector to where the q 'unknowns' term of the variables will be copied off_L offset for L L vector to where L 'lagrangian ' term of the constraints will be copied
Reimplemented from chrono::ChPhysicsItem.
◆ IntLoadConstraint_C()
|
overrideprotectedvirtual |
Takes the term C, scale and adds to Qc at given offset: Qc += c*C.
- Parameters
-
off offset in Qc residual Qc result: the Qc residual, Qc += c*C c a scaling factor do_clamp apply clamping to c*C? recovery_clamp value for min/max clamping of c*C
Reimplemented from chrono::ChPhysicsItem.
◆ IntLoadConstraint_Ct()
|
overrideprotectedvirtual |
Takes the term Ct, scale and adds to Qc at given offset: Qc += c*Ct.
- Parameters
-
off offset in Qc residual Qc result: the Qc residual, Qc += c*Ct c a scaling factor
Reimplemented from chrono::ChPhysicsItem.
◆ IntLoadLumpedMass_Md()
|
overrideprotectedvirtual |
Adds the lumped mass to a Md vector, representing a mass diagonal matrix.
Used by lumped explicit integrators. If mass lumping is impossible or approximate, adds scalar error to "error" parameter. Md += c*diag(M)
- Parameters
-
off offset in Md vector Md result: Md vector, diagonal of the lumped mass matrix err result: not touched if lumping does not introduce errors c a scaling factor
Reimplemented from chrono::ChPhysicsItem.
◆ IntLoadResidual_CqL()
|
overrideprotectedvirtual |
Takes the term Cq'*L, scale and adds to R at given offset: R += c*Cq'*L.
- Parameters
-
off_L offset in L multipliers R result: the R residual, R += c*Cq'*L L the L vector c a scaling factor
Reimplemented from chrono::ChPhysicsItem.
◆ IntLoadResidual_F()
|
overrideprotectedvirtual |
Takes the F force term, scale and adds to R at given offset: R += c*F.
- Parameters
-
off offset in R residual R result: the R residual, R += c*F c a scaling factor
Reimplemented from chrono::ChPhysicsItem.
◆ IntLoadResidual_Mv()
|
overrideprotectedvirtual |
Takes the M*v term, multiplying mass by a vector, scale and adds to R at given offset: R += c*M*w.
- Parameters
-
off offset in R residual R result: the R residual, R += c*M*v w the w vector c a scaling factor
Reimplemented from chrono::ChPhysicsItem.
◆ IntStateGather()
|
overrideprotectedvirtual |
From item's state to global state vectors y={x,v} pasting the states at the specified offsets.
- Parameters
-
off_x offset in x state vector x state vector, position part off_v offset in v state vector v state vector, speed part T time
Reimplemented from chrono::ChPhysicsItem.
◆ IntStateGatherAcceleration()
|
overrideprotectedvirtual |
From item's state acceleration to global acceleration vector.
- Parameters
-
off_a offset in a accel. vector a acceleration part of state vector derivative
Reimplemented from chrono::ChPhysicsItem.
◆ IntStateGatherReactions()
|
overrideprotectedvirtual |
From item's reaction forces to global reaction vector.
- Parameters
-
off_L offset in L vector L L vector of reaction forces
Reimplemented from chrono::ChPhysicsItem.
◆ IntStateGetIncrement()
|
overrideprotectedvirtual |
Computes Dt = x_new - x, using vectors at specified offsets.
By default, when DOF = DOF_w, it does just the difference of two state vectors, but in some cases (ex when using quaternions for rotations) it could do more complex stuff, and children classes might overload it.
- Parameters
-
off_x offset in x state vector x_new state vector, final position part x state vector, initial position part off_v offset in v state vector Dv state vector, increment. Here gets the result
Reimplemented from chrono::ChPhysicsItem.
◆ IntStateIncrement()
|
overrideprotectedvirtual |
Computes x_new = x + Dt , using vectors at specified offsets.
By default, when DOF = DOF_w, it does just the sum, but in some cases (ex when using quaternions for rotations) it could do more complex stuff, and children classes might overload it.
- Parameters
-
off_x offset in x state vector x_new state vector, position part, incremented result x state vector, initial position part off_v offset in v state vector Dv state vector, increment
Reimplemented from chrono::ChPhysicsItem.
◆ IntStateScatter()
|
overrideprotectedvirtual |
From global state vectors y={x,v} to item's state (and update) fetching the states at the specified offsets.
- Parameters
-
off_x offset in x state vector x state vector, position part off_v offset in v state vector v state vector, speed part T time full_update perform complete update
Reimplemented from chrono::ChPhysicsItem.
◆ IntStateScatterAcceleration()
|
overrideprotectedvirtual |
From global acceleration vector to item's state acceleration.
- Parameters
-
off_a offset in a accel. vector a acceleration part of state vector derivative
Reimplemented from chrono::ChPhysicsItem.
◆ IntStateScatterReactions()
|
overrideprotectedvirtual |
From global reaction vector to item's reaction forces.
- Parameters
-
off_L offset in L vector L L vector of reaction forces
Reimplemented from chrono::ChPhysicsItem.
◆ IntToDescriptor()
|
overrideprotectedvirtual |
Prepare variables and constraints to accommodate a solution:
- Parameters
-
off_v offset for v and R v vector copied into the q 'unknowns' term of the variables R vector copied into the F 'force' term of the variables off_L offset for L and Qc L vector copied into the L 'lagrangian ' term of the constraints Qc vector copied into the Qb 'constraint' term of the constraints
Reimplemented from chrono::ChPhysicsItem.
◆ IsRheonomous()
|
inlinevirtual |
Declare the DAE as rheonomous (default: false).
A rheonomous system has constraints that depend explicitly on time.
◆ IsStiff()
|
inlinevirtual |
Declare as stiff (default: false).
If stiff, Jacobian information will be generated.
◆ LoadKRMMatrices()
|
overrideprotectedvirtual |
Compute and load current stiffnes (K), damping (R), and mass (M) matrices in encapsulated ChKRMBlock objects.
The resulting KRM blocks represent linear combinations of the K, R, and M matrices, with the specified coefficients Kfactor, Rfactor,and Mfactor, respectively. Note: signs are flipped from the term dF/dx in the integrator: K = -dF/dq and R = -dF/dv.
Reimplemented from chrono::ChPhysicsItem.
◆ OnUpdate()
|
inlineprotectedvirtual |
Optional operations performed before an update.
This function is invoked before calls to CalculateForce, CalculateConstraintViolation, and CalculateConstraintJacobian.
- Parameters
-
time current time y current DAE states yd current DAE state derivatives
◆ SetInitialConditions()
|
protectedpure virtual |
Set initial conditions.
Must load y0 = y(0).
◆ Update()
|
overrideprotectedvirtual |
Perform any updates necessary at the current phase during the solution process.
This function is called at least once per step to update auxiliary data, internal states, etc. The default implementation updates the item's time stamp and its visualization assets (if any are defined anf only if requested).
Reimplemented from chrono::ChPhysicsItem.
The documentation for this class was generated from the following files:
- /builds/uwsbel/chrono/src/chrono/physics/ChExternalDynamicsDAE.h
- /builds/uwsbel/chrono/src/chrono/physics/ChExternalDynamicsDAE.cpp
