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 | Typedefs | Functions
add_custom_strategies_to_python.cpp File Reference
#include "custom_python/add_custom_strategies_to_python.h"
#include "spaces/ublas_space.h"
#include "utilities/openmp_utils.h"
#include "custom_solvers/solution_strategies/newton_raphson_strategy.hpp"
#include "custom_solvers/solution_strategies/line_search_strategy.hpp"
#include "custom_solvers/solution_strategies/explicit_strategy.hpp"
#include "custom_solvers/solution_strategies/eigensolver_strategy.hpp"
#include "custom_solvers/solution_strategies/segregated_strategy.hpp"
#include "custom_solvers/solution_strategies/explicit_hamilton_strategy.hpp"
#include "custom_solvers/solution_builders_and_solvers/block_builder_and_solver.hpp"
#include "custom_solvers/solution_builders_and_solvers/reduction_builder_and_solver.hpp"
#include "custom_solvers/solution_builders_and_solvers/explicit_builder_and_solver.hpp"
#include "custom_solvers/solution_builders_and_solvers/explicit_hamilton_builder_and_solver.hpp"
#include "custom_solvers/convergence_criteria/residual_criterion.hpp"
#include "custom_solvers/convergence_criteria/dofs_criterion.hpp"
#include "custom_solvers/convergence_criteria/composite_criterion.hpp"
#include "custom_solvers/solution_schemes/static_scheme.hpp"
#include "custom_solvers/solution_schemes/dynamic_scheme.hpp"
#include "custom_solvers/solution_schemes/eigensolver_scheme.hpp"
#include "custom_solvers/solution_schemes/explicit_central_differences_scheme.hpp"
#include "custom_solvers/solution_schemes/explicit_hamilton_scheme.hpp"
#include "linear_solvers/linear_solver.h"
#include "custom_solvers/time_integration_methods/backward_euler_method.hpp"
#include "custom_solvers/time_integration_methods/bdf_method.hpp"
#include "custom_solvers/time_integration_methods/simo_method.hpp"
#include "custom_solvers/time_integration_methods/static_step_rotation_method.hpp"
#include "custom_solvers/time_integration_methods/newmark_step_rotation_method.hpp"
#include "custom_solvers/time_integration_methods/bossak_step_rotation_method.hpp"
#include "custom_solvers/time_integration_methods/simo_step_rotation_method.hpp"
#include "custom_solvers/time_integration_methods/emc_step_rotation_method.hpp"
#include "custom_solvers/time_integration_methods/time_integration_methods_container.hpp"
Include dependency graph for add_custom_strategies_to_python.cpp:

Namespaces

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

Typedefs

typedef SolutionStrategy< SparseSpaceType, LocalSpaceType, LinearSolverType > Kratos::Python::SolutionStrategyType
 
typedef SolutionBuilderAndSolver< SparseSpaceType, LocalSpaceType, LinearSolverType > Kratos::Python::SolutionBuilderAndSolverType
 
typedef SolutionScheme< SparseSpaceType, LocalSpaceType > Kratos::Python::SolutionSchemeType
 
typedef ConvergenceCriterion< SparseSpaceType, LocalSpaceType > Kratos::Python::ConvergenceCriterionType
 
typedef SolutionStrategyType::Pointer Kratos::Python::SolutionStrategyPointer
 
typedef std::vector< SolutionStrategyType::Pointer > Kratos::Python::SolutionStrategiesContainer
 
typedef ConvergenceCriterionType::Pointer Kratos::Python::ConvergenceCriterionPointerType
 
typedef std::vector< ConvergenceCriterionPointerType > Kratos::Python::ConvergenceCriteriaContainer
 

Functions

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