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.
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#include <string>
#include <iostream>
#include "includes/define.h"
#include "includes/kratos_application.h"
#include "custom_elements/nodal_concentrated_element.hpp"
#include "custom_elements/mass_element.h"
#include "custom_elements/truss_element_3D2N.hpp"
#include "custom_elements/truss_element_linear_3D2N.hpp"
#include "custom_elements/cable_element_3D2N.hpp"
#include "custom_elements/cr_beam_element_3D2N.hpp"
#include "custom_elements/cr_beam_element_linear_3D2N.hpp"
#include "custom_elements/cr_beam_element_2D2N.hpp"
#include "custom_elements/cr_beam_element_linear_2D2N.hpp"
#include "custom_response_functions/adjoint_elements/adjoint_finite_difference_shell_element.h"
#include "custom_response_functions/adjoint_elements/adjoint_finite_difference_cr_beam_element_3D2N.h"
#include "custom_response_functions/adjoint_elements/adjoint_finite_difference_truss_element_3D2N.h"
#include "custom_response_functions/adjoint_elements/adjoint_finite_difference_truss_element_linear_3D2N.h"
#include "custom_response_functions/adjoint_elements/adjoint_solid_element.h"
#include "custom_response_functions/adjoint_elements/adjoint_finite_difference_small_displacement_element.h"
#include "custom_response_functions/adjoint_elements/adjoint_finite_difference_spring_damper_element_3D2N.h"
#include "custom_elements/isotropic_shell_element.hpp"
#include "custom_elements/membrane_element.hpp"
#include "custom_elements/shell_thick_element_3D4N.hpp"
#include "custom_elements/shell_thin_element_3D4N.hpp"
#include "custom_elements/shell_thin_element_3D3N.hpp"
#include "custom_elements/shell_thick_element_3D3N.hpp"
#include "custom_elements/spring_damper_element.hpp"
#include "custom_elements/solid_shell_element_sprism_3D6N.h"
#include "custom_elements/small_displacement.h"
#include "custom_elements/axisym_small_displacement.h"
#include "custom_elements/z_strain_driven_2p5_small_displacement.h"
#include "custom_elements/total_lagrangian.h"
#include "custom_elements/axisym_total_lagrangian.h"
#include "custom_elements/updated_lagrangian.h"
#include "custom_elements/axisym_updated_lagrangian.h"
#include "custom_elements/small_displacement_bbar.h"
#include "custom_elements/small_displacement_mixed_volumetric_strain_element.h"
#include "custom_elements/total_lagrangian_mixed_volumetric_strain_element.h"
#include "custom_elements/total_lagrangian_q1p0_mixed_element.h"
#include "custom_conditions/base_load_condition.h"
#include "custom_conditions/point_load_condition.h"
#include "custom_conditions/point_contact_condition.h"
#include "custom_conditions/axisym_point_load_condition.h"
#include "custom_conditions/line_load_condition.h"
#include "custom_conditions/small_displacement_line_load_condition.h"
#include "custom_conditions/axisym_line_load_condition_2d.h"
#include "custom_conditions/surface_load_condition_3d.h"
#include "custom_conditions/small_displacement_surface_load_condition_3d.h"
#include "custom_conditions/point_moment_condition_3d.h"
#include "custom_conditions/displacement_control_condition.h"
#include "custom_conditions/moving_load_condition.h"
#include "custom_response_functions/adjoint_conditions/adjoint_semi_analytic_point_load_condition.h"
#include "custom_response_functions/adjoint_conditions/adjoint_semi_analytic_base_condition.h"
#include "custom_constitutive/truss_constitutive_law.h"
#include "custom_constitutive/beam_constitutive_law.h"
#include "custom_constitutive/elastic_isotropic_3d.h"
#include "custom_constitutive/axisym_elastic_isotropic.h"
#include "custom_constitutive/linear_plane_strain.h"
#include "custom_constitutive/linear_plane_stress.h"
#include "custom_constitutive/user_provided_linear_elastic_law.h"
Go to the source code of this file.
Classes | |
class | Kratos::KratosStructuralMechanicsApplication |
This application features Elements, Conditions, Constitutive laws and Utilities for structural analysis problems. More... | |
Namespaces | |
Kratos | |
REF: G. R. Cowper, GAUSSIAN QUADRATURE FORMULAS FOR TRIANGLES. | |