KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
Namespaces | Functions
add_processes_to_python.cpp File Reference
#include <pybind11/pybind11.h>
#include "includes/define.h"
#include "includes/define_python.h"
#include "processes/process.h"
#include "custom_python/add_processes_to_python.h"
#include "custom_processes/pressure_calculate_process.h"
#include "custom_processes/pressure_calculate_process_axisym.h"
#include "custom_processes/mass_calculate_process.h"
#include "custom_processes/ulf_time_step_dec_process.h"
#include "custom_processes/mark_fluid_process.h"
#include "custom_processes/mark_close_nodes_process.h"
#include "custom_processes/mark_outer_nodes_process.h"
#include "custom_processes/save_structure_model_part_process.h"
#include "custom_processes/save_structure_conditions_process.h"
#include "custom_processes/merge_model_parts_process.h"
#include "custom_processes/save_fluid_only_process.h"
#include "custom_processes/lagrangian_inlet_process.h"
#include "custom_processes/remove_and_save_wall_process.h"
#include "custom_processes/add_wall_process.h"
#include "custom_processes/calculate_curvature.h"
#include "custom_processes/find_triple_point.h"
#include "custom_processes/calculate_contact_angle.h"
#include "custom_processes/calculate_nodal_length.h"
#include "custom_processes/find_nodal_neighbours_surface_process.h"
#include "custom_processes/mark_free_surface_process.h"
#include "includes/node.h"
#include "custom_processes/calculate_normal_eq.h"
#include "custom_processes/calculate_adhesion_force.h"
#include "spaces/ublas_space.h"
#include "linear_solvers/linear_solver.h"
Include dependency graph for add_processes_to_python.cpp:

Namespaces

 Kratos
 REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES.
 
 Kratos::Python
 

Functions

void Kratos::Python::AddProcessesToPython (pybind11::module &m)