Public Member Functions | Private Member Functions | Private Attributes | List of all members
FSICollapsibleChannelProblem< ELEMENT > Class Template Reference

Problem class. More...

Inheritance diagram for FSICollapsibleChannelProblem< ELEMENT >:

Public Member Functions

 FSICollapsibleChannelProblem (const unsigned &nup, const unsigned &ncollapsible, const unsigned &ndown, const unsigned &ny, const double &lup, const double &lcollapsible, const double &ldown, const double &ly)
 Constructor: The arguments are the number of elements and the lengths of the domain. More...
 
 ~FSICollapsibleChannelProblem ()
 Destructor (empty) More...
 
MacroElementNodeUpdateCollapsibleChannelMesh
< ELEMENT > * 
bulk_mesh_pt ()
 Access function for the specific bulk (fluid) mesh. More...
 
AlgebraicCollapsibleChannelMesh
< ELEMENT > * 
bulk_mesh_pt ()
 Access function for the specific bulk (fluid) mesh. More...
 
OneDLagrangianMesh
< FSIHermiteBeamElement > * 
wall_mesh_pt ()
 Access function for the wall mesh. More...
 
void actions_before_newton_solve ()
 Update the problem specs before solve (empty) More...
 
void actions_after_newton_solve ()
 Update the problem after solve (empty) More...
 
void actions_before_newton_convergence_check ()
 Update before checking Newton convergence: Update the nodal positions in the fluid mesh in response to possible changes in the wall shape. More...
 
void doc_solution (DocInfo &doc_info, ofstream &trace_file)
 Doc the solution. More...
 
void set_initial_condition ()
 Apply initial conditions. More...
 
 FSICollapsibleChannelProblem (const unsigned &nup, const unsigned &ncollapsible, const unsigned &ndown, const unsigned &ny, const double &lup, const double &lcollapsible, const double &ldown, const double &ly)
 Constructor: The arguments are the number of elements and the lengths of the domain. More...
 
 ~FSICollapsibleChannelProblem ()
 Destructor (empty) More...
 
MacroElementNodeUpdateRefineableCollapsibleChannelMesh
< ELEMENT > * 
bulk_mesh_pt ()
 Access function for the specific bulk (fluid) mesh. More...
 
RefineableAlgebraicCollapsibleChannelMesh
< ELEMENT > * 
bulk_mesh_pt ()
 Access function for the specific bulk (fluid) mesh. More...
 
OneDLagrangianMesh
< FSIHermiteBeamElement > * 
wall_mesh_pt ()
 Access function for the wall mesh. More...
 
void actions_before_adapt ()
 Actions before adapt: Wipe the mesh of prescribed traction elements. More...
 
void actions_after_adapt ()
 Actions after adapt: Rebuild the mesh of prescribed traction elements. More...
 
void actions_before_newton_solve ()
 Update the problem specs before solve (empty) More...
 
void actions_after_newton_solve ()
 Update the problem after solve (empty) More...
 
void actions_before_newton_convergence_check ()
 Update before checking Newton convergence: Update the nodal positions in the fluid mesh in response to possible changes in the wall shape. More...
 
void doc_solution (DocInfo &doc_info, ofstream &trace_file)
 Doc the solution. More...
 
void set_initial_condition ()
 Apply initial conditions. More...
 
 FSICollapsibleChannelProblem (const unsigned &nup, const unsigned &ncollapsible, const unsigned &ndown, const unsigned &ny, const double &lup, const double &lcollapsible, const double &ldown, const double &ly)
 Constructor: The arguments are the number of elements and the lengths of the domain. More...
 
 ~FSICollapsibleChannelProblem ()
 Destructor (empty) More...
 
ElasticCollapsibleChannelMesh
< ELEMENT > * 
bulk_mesh_pt ()
 Access function for the specific bulk (fluid) mesh. More...
 
OneDLagrangianMesh
< FSIHermiteBeamElement > * 
wall_mesh_pt ()
 Access function for the wall mesh. More...
 
void actions_before_newton_solve ()
 Update the problem specs before solve (empty) More...
 
void actions_after_newton_solve ()
 Update the problem after solve (empty) More...
 
void actions_before_newton_convergence_check ()
 Update no slip before Newton convergence check. More...
 
void doc_solution (DocInfo &doc_info, ofstream &trace_file)
 Doc the solution. More...
 
void set_initial_condition ()
 Apply initial conditions. More...
 
 FSICollapsibleChannelProblem (const unsigned &nup, const unsigned &ncollapsible, const unsigned &ndown, const unsigned &ny, const double &lup, const double &lcollapsible, const double &ldown, const double &ly)
 Constructor: The arguments are the number of elements and the lengths of the domain. More...
 
 ~FSICollapsibleChannelProblem ()
 Destructor (empty) More...
 
ElasticRefineableCollapsibleChannelMesh
< ELEMENT > * 
bulk_mesh_pt ()
 Access function for the specific bulk (fluid) mesh. More...
 
OneDLagrangianMesh
< FSIHermiteBeamElement > * 
wall_mesh_pt ()
 Access function for the wall mesh. More...
 
void actions_before_adapt ()
 Actions before adapt: Wipe the mesh of prescribed traction elements. More...
 
void actions_after_adapt ()
 
void actions_before_newton_solve ()
 Update the problem specs before solve (empty) More...
 
void actions_after_newton_solve ()
 Update the problem after solve (empty) More...
 
void actions_before_newton_convergence_check ()
 Update no slip before Newton convergence check. More...
 
void doc_solution (DocInfo &doc_info, ofstream &trace_file)
 Doc the solution. More...
 
void set_initial_condition ()
 Apply initial conditions. More...
 

Private Member Functions

void create_traction_elements (const unsigned &b, Mesh *const &bulk_mesh_pt, Mesh *const &traction_mesh_pt)
 Create the prescribed traction elements on boundary b. More...
 
void create_traction_elements (const unsigned &b, Mesh *const &bulk_mesh_pt, Mesh *const &traction_mesh_pt)
 Create the prescribed traction elements on boundary b. More...
 
void delete_traction_elements (Mesh *const &traction_mesh_pt)
 Delete prescribed traction elements from the surface mesh. More...
 
void create_traction_elements (const unsigned &b, Mesh *const &bulk_mesh_pt, Mesh *const &traction_mesh_pt)
 Create the prescribed traction elements on boundary b. More...
 
void delete_traction_elements (Mesh *const &traction_mesh_pt)
 Delete prescribed traction elements from the surface mesh. More...
 
void create_lagrange_multiplier_elements ()
 Create elements that enforce prescribed boundary motion by Lagrange multipliers. More...
 
void delete_lagrange_multiplier_elements ()
 
void create_traction_elements (const unsigned &b, Mesh *const &bulk_mesh_pt, Mesh *const &traction_mesh_pt)
 Create the prescribed traction elements on boundary b. More...
 
void delete_traction_elements (Mesh *const &traction_mesh_pt)
 Delete prescribed traction elements from the surface mesh. More...
 
void create_lagrange_multiplier_elements ()
 Create elements that enforce prescribed boundary motion by Lagrange multiplilers. More...
 
void delete_lagrange_multiplier_elements ()
 

Private Attributes

unsigned Nup
 Number of elements in the x direction in the upstream part of the channel. More...
 
unsigned Ncollapsible
 Number of elements in the x direction in the collapsible part of the channel. More...
 
unsigned Ndown
 Number of elements in the x direction in the downstream part of the channel. More...
 
unsigned Ny
 Number of elements across the channel. More...
 
double Lup
 x-length in the upstream part of the channel More...
 
double Lcollapsible
 x-length in the collapsible part of the channel More...
 
double Ldown
 x-length in the downstream part of the channel More...
 
double Ly
 Transverse length. More...
 
MacroElementNodeUpdateCollapsibleChannelMesh
< ELEMENT > * 
Bulk_mesh_pt
 Pointer to the "bulk" mesh. More...
 
AlgebraicCollapsibleChannelMesh
< ELEMENT > * 
Bulk_mesh_pt
 Pointer to the "bulk" mesh. More...
 
Mesh * Applied_fluid_traction_mesh_pt
 Pointer to the "surface" mesh that applies the traction at the inflow. More...
 
OneDLagrangianMesh
< FSIHermiteBeamElement > * 
Wall_mesh_pt
 Pointer to the "wall" mesh. More...
 
Node * Left_node_pt
 Pointer to the left control node. More...
 
Node * Right_node_pt
 Pointer to right control node. More...
 
Node * Wall_node_pt
 Pointer to control node on the wall. More...
 
MacroElementNodeUpdateRefineableCollapsibleChannelMesh
< ELEMENT > * 
Bulk_mesh_pt
 Pointer to the "bulk" mesh. More...
 
RefineableAlgebraicCollapsibleChannelMesh
< ELEMENT > * 
Bulk_mesh_pt
 Pointer to the "bulk" mesh. More...
 
ElasticCollapsibleChannelMesh
< ELEMENT > * 
Bulk_mesh_pt
 Pointer to the "bulk" mesh. More...
 
SolidMesh * Lagrange_multiplier_mesh_pt
 Pointers to mesh of Lagrange multiplier elements. More...
 
MeshAsGeomObject * Wall_geom_object_pt
 Geometric object incarnation of the wall mesh. More...
 
ConstitutiveLaw * Constitutive_law_pt
 Constitutive law used to determine the mesh deformation. More...
 
ElasticRefineableCollapsibleChannelMesh
< ELEMENT > * 
Bulk_mesh_pt
 Pointer to the "bulk" mesh. More...
 

Detailed Description

template<class ELEMENT>
class FSICollapsibleChannelProblem< ELEMENT >

Problem class.

Definition at line 237 of file fsi_collapsible_channel.cc.

Constructor & Destructor Documentation

template<class ELEMENT >
FSICollapsibleChannelProblem< ELEMENT >::FSICollapsibleChannelProblem ( const unsigned &  nup,
const unsigned &  ncollapsible,
const unsigned &  ndown,
const unsigned &  ny,
const double &  lup,
const double &  lcollapsible,
const double &  ldown,
const double &  ly 
)
template<class ELEMENT >
FSICollapsibleChannelProblem< ELEMENT >::~FSICollapsibleChannelProblem ( )
inline

Destructor (empty)

Definition at line 254 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
FSICollapsibleChannelProblem< ELEMENT >::FSICollapsibleChannelProblem ( const unsigned &  nup,
const unsigned &  ncollapsible,
const unsigned &  ndown,
const unsigned &  ny,
const double &  lup,
const double &  lcollapsible,
const double &  ldown,
const double &  ly 
)

Constructor: The arguments are the number of elements and the lengths of the domain.

template<class ELEMENT >
FSICollapsibleChannelProblem< ELEMENT >::~FSICollapsibleChannelProblem ( )
inline

Destructor (empty)

Definition at line 253 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
FSICollapsibleChannelProblem< ELEMENT >::FSICollapsibleChannelProblem ( const unsigned &  nup,
const unsigned &  ncollapsible,
const unsigned &  ndown,
const unsigned &  ny,
const double &  lup,
const double &  lcollapsible,
const double &  ldown,
const double &  ly 
)

Constructor: The arguments are the number of elements and the lengths of the domain.

template<class ELEMENT >
FSICollapsibleChannelProblem< ELEMENT >::~FSICollapsibleChannelProblem ( )
inline

Destructor (empty)

Definition at line 299 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
FSICollapsibleChannelProblem< ELEMENT >::FSICollapsibleChannelProblem ( const unsigned &  nup,
const unsigned &  ncollapsible,
const unsigned &  ndown,
const unsigned &  ny,
const double &  lup,
const double &  lcollapsible,
const double &  ldown,
const double &  ly 
)

Constructor: The arguments are the number of elements and the lengths of the domain.

template<class ELEMENT >
FSICollapsibleChannelProblem< ELEMENT >::~FSICollapsibleChannelProblem ( )
inline

Destructor (empty)

Definition at line 304 of file fsi_pseudo_solid_collapsible_channel_adapt.cc.

Member Function Documentation

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_after_adapt ( )

Actions after adapt: Rebuild the mesh of prescribed traction elements.

Actions after adapt: Rebuild the mesh of prescribed traction elements and reset FSI

Definition at line 901 of file fsi_collapsible_channel_adapt.cc.

References Global_Physical_Variables::prescribed_traction().

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_after_adapt ( )

Actions after adapt: Rebuild the mesh of prescribed traction elements and reset FSI

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_after_newton_solve ( )
inline

Update the problem after solve (empty)

Definition at line 296 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_after_newton_solve ( )
inline

Update the problem after solve (empty)

Definition at line 301 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_after_newton_solve ( )
inline

Update the problem after solve (empty)

Definition at line 324 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_after_newton_solve ( )
inline

Update the problem after solve (empty)

Definition at line 336 of file fsi_pseudo_solid_collapsible_channel_adapt.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_adapt ( )

Actions before adapt: Wipe the mesh of prescribed traction elements.

Definition at line 885 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_adapt ( )

Actions before adapt: Wipe the mesh of prescribed traction elements.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_newton_convergence_check ( )
inline

Update before checking Newton convergence: Update the nodal positions in the fluid mesh in response to possible changes in the wall shape.

Definition at line 301 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_newton_convergence_check ( )
inline

Update before checking Newton convergence: Update the nodal positions in the fluid mesh in response to possible changes in the wall shape.

Definition at line 306 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_newton_convergence_check ( )
inline

Update no slip before Newton convergence check.

Definition at line 327 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_newton_convergence_check ( )
inline

Update no slip before Newton convergence check.

Definition at line 339 of file fsi_pseudo_solid_collapsible_channel_adapt.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_newton_solve ( )
inline

Update the problem specs before solve (empty)

Definition at line 293 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_newton_solve ( )
inline

Update the problem specs before solve (empty)

Definition at line 298 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_newton_solve ( )
inline

Update the problem specs before solve (empty)

Definition at line 321 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::actions_before_newton_solve ( )
inline

Update the problem specs before solve (empty)

Definition at line 333 of file fsi_pseudo_solid_collapsible_channel_adapt.cc.

template<class ELEMENT >
MacroElementNodeUpdateRefineableCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::bulk_mesh_pt ( )
inline

Access function for the specific bulk (fluid) mesh.

Definition at line 258 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
MacroElementNodeUpdateCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::bulk_mesh_pt ( )
inline

Access function for the specific bulk (fluid) mesh.

Definition at line 260 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
RefineableAlgebraicCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::bulk_mesh_pt ( )
inline

Access function for the specific bulk (fluid) mesh.

Definition at line 270 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
AlgebraicCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::bulk_mesh_pt ( )
inline

Access function for the specific bulk (fluid) mesh.

Definition at line 272 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
ElasticCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::bulk_mesh_pt ( )
inline

Access function for the specific bulk (fluid) mesh.

Definition at line 302 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
ElasticRefineableCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::bulk_mesh_pt ( )
inline

Access function for the specific bulk (fluid) mesh.

Definition at line 307 of file fsi_pseudo_solid_collapsible_channel_adapt.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::create_lagrange_multiplier_elements ( )
private

Create elements that enforce prescribed boundary motion by Lagrange multipliers.

Create elements that impose the prescribed boundary displacement.

Definition at line 881 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::create_lagrange_multiplier_elements ( )
private

Create elements that enforce prescribed boundary motion by Lagrange multiplilers.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::create_traction_elements ( const unsigned &  b,
Mesh *const &  bulk_mesh_pt,
Mesh *const &  traction_mesh_pt 
)
private

Create the prescribed traction elements on boundary b.

Create the traction elements.

Definition at line 734 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::create_traction_elements ( const unsigned &  b,
Mesh *const &  bulk_mesh_pt,
Mesh *const &  traction_mesh_pt 
)
private

Create the prescribed traction elements on boundary b.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::create_traction_elements ( const unsigned &  b,
Mesh *const &  bulk_mesh_pt,
Mesh *const &  traction_mesh_pt 
)
private

Create the prescribed traction elements on boundary b.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::create_traction_elements ( const unsigned &  b,
Mesh *const &  bulk_mesh_pt,
Mesh *const &  traction_mesh_pt 
)
private

Create the prescribed traction elements on boundary b.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::delete_lagrange_multiplier_elements ( )
private

Delete elements that enforce prescribed boundary motion by Lagrange multipliers

Delete elements that impose the prescribed boundary displacement and wipe the associated mesh

Definition at line 955 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::delete_lagrange_multiplier_elements ( )
private

Delete elements that enforce prescribed boundary motion by Lagrange multiplilers

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::delete_traction_elements ( Mesh *const &  traction_mesh_pt)
private

Delete prescribed traction elements from the surface mesh.

Delete traction elements and wipe the surface mesh.

Definition at line 816 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::delete_traction_elements ( Mesh *const &  traction_mesh_pt)
private

Delete prescribed traction elements from the surface mesh.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::delete_traction_elements ( Mesh *const &  traction_mesh_pt)
private

Delete prescribed traction elements from the surface mesh.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::doc_solution ( DocInfo &  doc_info,
ofstream &  trace_file 
)

Doc the solution.

Definition at line 672 of file fsi_collapsible_channel.cc.

References Global_Physical_Variables::P_ext.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::doc_solution ( DocInfo &  doc_info,
ofstream &  trace_file 
)

Doc the solution.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::doc_solution ( DocInfo &  doc_info,
ofstream &  trace_file 
)

Doc the solution.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::doc_solution ( DocInfo &  doc_info,
ofstream &  trace_file 
)

Doc the solution.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::set_initial_condition ( )

Apply initial conditions.

Definition at line 769 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::set_initial_condition ( )

Apply initial conditions.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::set_initial_condition ( )

Apply initial conditions.

template<class ELEMENT >
void FSICollapsibleChannelProblem< ELEMENT >::set_initial_condition ( )

Apply initial conditions.

template<class ELEMENT >
OneDLagrangianMesh<FSIHermiteBeamElement>* FSICollapsibleChannelProblem< ELEMENT >::wall_mesh_pt ( )
inline

Access function for the wall mesh.

Definition at line 283 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
OneDLagrangianMesh<FSIHermiteBeamElement>* FSICollapsibleChannelProblem< ELEMENT >::wall_mesh_pt ( )
inline

Access function for the wall mesh.

Definition at line 285 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
OneDLagrangianMesh<FSIHermiteBeamElement>* FSICollapsibleChannelProblem< ELEMENT >::wall_mesh_pt ( )
inline

Access function for the wall mesh.

Definition at line 313 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
OneDLagrangianMesh<FSIHermiteBeamElement>* FSICollapsibleChannelProblem< ELEMENT >::wall_mesh_pt ( )
inline

Access function for the wall mesh.

Definition at line 318 of file fsi_pseudo_solid_collapsible_channel_adapt.cc.

Member Data Documentation

template<class ELEMENT >
Mesh * FSICollapsibleChannelProblem< ELEMENT >::Applied_fluid_traction_mesh_pt
private

Pointer to the "surface" mesh that applies the traction at the inflow.

Definition at line 359 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
MacroElementNodeUpdateCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::Bulk_mesh_pt
private

Pointer to the "bulk" mesh.

Definition at line 347 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
AlgebraicCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::Bulk_mesh_pt
private

Pointer to the "bulk" mesh.

Definition at line 352 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
MacroElementNodeUpdateRefineableCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::Bulk_mesh_pt
private

Pointer to the "bulk" mesh.

Definition at line 355 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
RefineableAlgebraicCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::Bulk_mesh_pt
private

Pointer to the "bulk" mesh.

Definition at line 360 of file fsi_collapsible_channel_adapt.cc.

template<class ELEMENT >
ElasticCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::Bulk_mesh_pt
private

Pointer to the "bulk" mesh.

Definition at line 394 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
ElasticRefineableCollapsibleChannelMesh<ELEMENT>* FSICollapsibleChannelProblem< ELEMENT >::Bulk_mesh_pt
private

Pointer to the "bulk" mesh.

Definition at line 406 of file fsi_pseudo_solid_collapsible_channel_adapt.cc.

template<class ELEMENT >
ConstitutiveLaw * FSICollapsibleChannelProblem< ELEMENT >::Constitutive_law_pt
private

Constitutive law used to determine the mesh deformation.

Definition at line 419 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
SolidMesh * FSICollapsibleChannelProblem< ELEMENT >::Lagrange_multiplier_mesh_pt
private

Pointers to mesh of Lagrange multiplier elements.

Pointers to meshes of Lagrange multiplier elements.

Definition at line 401 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
double FSICollapsibleChannelProblem< ELEMENT >::Lcollapsible
private

x-length in the collapsible part of the channel

Definition at line 336 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
double FSICollapsibleChannelProblem< ELEMENT >::Ldown
private

x-length in the downstream part of the channel

Definition at line 339 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
Node * FSICollapsibleChannelProblem< ELEMENT >::Left_node_pt
private

Pointer to the left control node.

Definition at line 365 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
double FSICollapsibleChannelProblem< ELEMENT >::Lup
private

x-length in the upstream part of the channel

Definition at line 333 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
double FSICollapsibleChannelProblem< ELEMENT >::Ly
private

Transverse length.

Definition at line 342 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
unsigned FSICollapsibleChannelProblem< ELEMENT >::Ncollapsible
private

Number of elements in the x direction in the collapsible part of the channel.

Definition at line 324 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
unsigned FSICollapsibleChannelProblem< ELEMENT >::Ndown
private

Number of elements in the x direction in the downstream part of the channel.

Definition at line 327 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
unsigned FSICollapsibleChannelProblem< ELEMENT >::Nup
private

Number of elements in the x direction in the upstream part of the channel.

Definition at line 320 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
unsigned FSICollapsibleChannelProblem< ELEMENT >::Ny
private

Number of elements across the channel.

Definition at line 330 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
Node * FSICollapsibleChannelProblem< ELEMENT >::Right_node_pt
private

Pointer to right control node.

Definition at line 368 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
MeshAsGeomObject * FSICollapsibleChannelProblem< ELEMENT >::Wall_geom_object_pt
private

Geometric object incarnation of the wall mesh.

Definition at line 407 of file fsi_pseudo_solid_collapsible_channel.cc.

template<class ELEMENT >
OneDLagrangianMesh< FSIHermiteBeamElement > * FSICollapsibleChannelProblem< ELEMENT >::Wall_mesh_pt
private

Pointer to the "wall" mesh.

Definition at line 362 of file fsi_collapsible_channel.cc.

template<class ELEMENT >
Node * FSICollapsibleChannelProblem< ELEMENT >::Wall_node_pt
private

Pointer to control node on the wall.

Definition at line 371 of file fsi_collapsible_channel.cc.


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