GetFEM++  5.3
getfem_contact_and_friction_common.h File Reference

Comomon tools for unilateral contact and Coulomb friction bricks. More...

Go to the source code of this file.

Namespaces

 getfem
 GEneric Tool for Finite Element Methods.
 

Functions

void getfem::add_raytracing_transformation (model &md, const std::string &transname, scalar_type release_distance)
 Add a raytracing interpolate transformation called 'transname' to a model to be used by the generic assembly bricks.
 
void getfem::add_raytracing_transformation (ga_workspace &workspace, const std::string &transname, scalar_type release_distance)
 Add a raytracing interpolate transformation called 'transname' to a workspace to be used by the generic assembly bricks.
 
void getfem::add_master_contact_boundary_to_raytracing_transformation (model &md, const std::string &transname, const mesh &m, const std::string &dispname, size_type region)
 Add a master boundary with corresponding displacement variable 'dispname' on a specific boundary 'region' to an existing raytracing interpolate transformation called 'transname'.
 
void getfem::add_slave_contact_boundary_to_raytracing_transformation (model &md, const std::string &transname, const mesh &m, const std::string &dispname, size_type region)
 Add a slave boundary with corresponding displacement variable 'dispname' on a specific boundary 'region' to an existing raytracing interpolate transformation called 'transname'.
 
void getfem::add_master_contact_boundary_to_raytracing_transformation (ga_workspace &workspace, const std::string &transname, const mesh &m, const std::string &dispname, size_type region)
 Add a master boundary with corresponding displacement variable 'dispname' on a specific boundary 'region' to an existing raytracing interpolate transformation called 'transname'.
 
void getfem::add_slave_contact_boundary_to_raytracing_transformation (ga_workspace &workspace, const std::string &transname, const mesh &m, const std::string &dispname, size_type region)
 Add a slave boundary with corresponding displacement variable 'dispname' on a specific boundary 'region' to an existing raytracing interpolate transformation called 'transname'.
 
void getfem::add_rigid_obstacle_to_raytracing_transformation (model &md, const std::string &transname, const std::string &expr, size_type N)
 Add a rigid obstacle whose geometry corresponds to the zero level-set of the high-level generic assembly expression expr to an existing raytracing interpolate transformation called 'transname'. More...
 
void getfem::add_rigid_obstacle_to_raytracing_transformation (ga_workspace &workspace, const std::string &transname, const std::string &expr, size_type N)
 Add a rigid obstacle whose geometry corresponds to the zero level-set of the high-level generic assembly expression 'expr' to an existing raytracing interpolate transformation called 'transname'.
 
void getfem::add_projection_transformation (model &md, const std::string &transname, scalar_type release_distance)
 Add a projection interpolate transformation called 'transname' to a model to be used by the generic assembly bricks.
 
void getfem::add_projection_transformation (ga_workspace &workspace, const std::string &transname, scalar_type release_distance)
 Add a projection interpolate transformation called 'transname' to a workspace to be used by the generic assembly bricks.
 
void getfem::add_master_contact_boundary_to_projection_transformation (model &md, const std::string &transname, const mesh &m, const std::string &dispname, size_type region)
 Add a master boundary with corresponding displacement variable 'dispname' on a specific boundary 'region' to an existing projection interpolate transformation called 'transname'.
 
void getfem::add_master_contact_boundary_to_projection_transformation (ga_workspace &workspace, const std::string &transname, const mesh &m, const std::string &dispname, size_type region)
 Add a master boundary with corresponding displacement variable 'dispname' on a specific boundary 'region' to an existing projection interpolate transformation called 'transname'.
 
void getfem::add_slave_contact_boundary_to_projection_transformation (model &md, const std::string &transname, const mesh &m, const std::string &dispname, size_type region)
 Add a slave boundary with corresponding displacement variable 'dispname' on a specific boundary 'region' to an existing projection interpolate transformation called 'transname'.
 
void getfem::add_slave_contact_boundary_to_projection_transformation (ga_workspace &workspace, const std::string &transname, const mesh &m, const std::string &dispname, size_type region)
 Add a slave boundary with corresponding displacement variable 'dispname' on a specific boundary 'region' to an existing projection interpolate transformation called 'transname'.
 
void getfem::add_rigid_obstacle_to_projection_transformation (model &md, const std::string &transname, const std::string &expr, size_type N)
 Add a rigid obstacle whose geometry corresponds to the zero level-set of the high-level generic assembly expression expr to an existing projection interpolate transformation called 'transname'. More...
 
void getfem::add_rigid_obstacle_to_projection_transformation (ga_workspace &workspace, const std::string &transname, const std::string &expr, size_type N)
 Add a rigid obstacle whose geometry corresponds to the zero level-set of the high-level generic assembly expression 'expr' to an existing projection interpolate transformation called 'transname'.
 

Detailed Description

Comomon tools for unilateral contact and Coulomb friction bricks.

Author
Yves Renard Yves..nosp@m.Rena.nosp@m.rd@in.nosp@m.sa-l.nosp@m.yon.f.nosp@m.r
Konstantinos Poulios logar.nosp@m.i81@.nosp@m.googl.nosp@m.emai.nosp@m.l.com
Date
November, 2011.

Definition in file getfem_contact_and_friction_common.h.