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py_aka_common.cc
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Mon, Nov 4, 07:38
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rAKA akantu
py_aka_common.cc
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/* -------------------------------------------------------------------------- */
#include "py_aka_common.hh"
#include "py_aka_boundary_conditions.hh"
#include "py_aka_error.hh"
#include "py_aka_fe_engine.hh"
#include "py_aka_material.hh"
#include "py_aka_mesh.hh"
#include "py_aka_model.hh"
#include "py_aka_parser.hh"
#include "py_aka_solid_mechanics_model.hh"
#include "py_aka_solid_mechanics_model_cohesive.hh"
/* -------------------------------------------------------------------------- */
#include <aka_common.hh>
/* -------------------------------------------------------------------------- */
#include <pybind11/operators.h>
#include <pybind11/pybind11.h>
#include <pybind11/stl.h>
/* -------------------------------------------------------------------------- */
namespace py = pybind11;
namespace akantu {
/* -------------------------------------------------------------------------- */
void register_initialize(py::module & mod) {
mod.def("__initialize", []() {
int nb_args = 0;
char ** null = nullptr;
initialize(nb_args, null);
});
}
/* -------------------------------------------------------------------------- */
void register_enums(py::module & mod) {
py::enum_<SpatialDirection>(mod, "SpatialDirection")
.value("_x", _x)
.value("_y", _y)
.value("_z", _z)
.export_values();
py::enum_<AnalysisMethod>(mod, "AnalysisMethod")
.value("_static", _static)
.value("_implicit_dynamic", _implicit_dynamic)
.value("_explicit_lumped_mass", _explicit_lumped_mass)
.value("_explicit_lumped_capacity", _explicit_lumped_capacity)
.value("_explicit_consistent_mass", _explicit_consistent_mass)
.export_values();
py::enum_<NonLinearSolverType>(mod, "NonLinearSolverType")
.value("_nls_linear", _nls_linear)
.value("_nls_newton_raphson", _nls_newton_raphson)
.value("_nls_newton_raphson_modified", _nls_newton_raphson_modified)
.value("_nls_lumped", _nls_lumped)
.value("_nls_auto", _nls_auto)
.export_values();
py::enum_<TimeStepSolverType>(mod, "TimeStepSolverType")
.value("_tsst_static", _tsst_static)
.value("_tsst_dynamic", _tsst_dynamic)
.value("_tsst_dynamic_lumped", _tsst_dynamic_lumped)
.value("_tsst_not_defined", _tsst_not_defined)
.export_values();
py::enum_<IntegrationSchemeType>(mod, "IntegrationSchemeType")
.value("_ist_pseudo_time", _ist_pseudo_time)
.value("_ist_forward_euler", _ist_forward_euler)
.value("_ist_trapezoidal_rule_1", _ist_trapezoidal_rule_1)
.value("_ist_backward_euler", _ist_backward_euler)
.value("_ist_central_difference", _ist_central_difference)
.value("_ist_fox_goodwin", _ist_fox_goodwin)
.value("_ist_trapezoidal_rule_2", _ist_trapezoidal_rule_2)
.value("_ist_linear_acceleration", _ist_linear_acceleration)
.value("_ist_newmark_beta", _ist_newmark_beta)
.value("_ist_generalized_trapezoidal", _ist_generalized_trapezoidal)
.export_values();
py::enum_<SolveConvergenceCriteria>(mod, "SolveConvergenceCriteria")
.value("_scc_residual", _scc_residual)
.value("_scc_solution", _scc_solution)
.value("_scc_residual_mass_wgh", _scc_residual_mass_wgh)
.export_values();
py::enum_<CohesiveMethod>(mod, "CohesiveMethod")
.value("_intrinsic", _intrinsic)
.value("_extrinsic", _extrinsic)
.export_values();
py::enum_<GhostType>(mod, "GhostType")
.value("_not_ghost", _not_ghost)
.value("_ghost", _ghost)
.value("_casper", _casper)
.export_values();
py::enum_<MeshIOType>(mod, "MeshIOType")
.value("_miot_auto", _miot_auto)
.value("_miot_gmsh", _miot_gmsh)
.value("_miot_gmsh_struct", _miot_gmsh_struct)
.value("_miot_diana", _miot_diana)
.value("_miot_abaqus", _miot_abaqus)
.export_values();
py::enum_<ModelType>(mod, "ModelType")
.value("_model", ModelType::_model)
.value("_solid_mechanics_model", ModelType::_solid_mechanics_model)
.value("_solid_mechanics_model_cohesive",
ModelType::_solid_mechanics_model_cohesive)
.value("_heat_transfer_model", ModelType::_heat_transfer_model)
.value("_structural_mechanics_model",
ModelType::_structural_mechanics_model)
.value("_embedded_model", ModelType::_embedded_model)
.export_values();
py::enum_<ElementType>(mod, "ElementType")
.value("_point_1", _point_1)
.value("_segment_2", _segment_2)
.value("_segment_3", _segment_3)
.value("_triangle_3", _triangle_3)
.value("_triangle_6", _triangle_6)
.value("_quadrangle_4", _quadrangle_4)
.value("_quadrangle_8", _quadrangle_8)
.value("_tetrahedron_4", _tetrahedron_4)
.value("_tetrahedron_10", _tetrahedron_10)
.value("_pentahedron_6", _pentahedron_6)
.value("_pentahedron_15", _pentahedron_15)
.value("_hexahedron_8", _hexahedron_8)
.value("_hexahedron_20", _hexahedron_20)
.export_values();
py::enum_<ElementKind>(mod, "ElementKind")
.value("_ek_regular", _ek_regular)
.export_values();
py::enum_<MatrixType>(mod, "MatrixType")
.value("_unsymmetric", _unsymmetric)
.value("_symmetric", _symmetric)
.export_values();
}
/* -------------------------------------------------------------------------- */
#define AKANTU_PP_STR_TO_TYPE2(s, data, elem) ({BOOST_PP_STRINGIZE(elem), elem})
void register_functions(py::module & mod) {
mod.def("getElementTypes", []() {
std::map<std::string, akantu::ElementType> element_types{
BOOST_PP_SEQ_FOR_EACH_I(
AKANTU_PP_ENUM, BOOST_PP_SEQ_SIZE(AKANTU_ek_regular_ELEMENT_TYPE),
BOOST_PP_SEQ_TRANSFORM(AKANTU_PP_STR_TO_TYPE2, akantu,
AKANTU_ek_regular_ELEMENT_TYPE))};
return element_types;
});
}
#undef AKANTU_PP_STR_TO_TYPE2
/* -------------------------------------------------------------------------- */
__attribute__((visibility("default"))) void register_all(py::module & mod) {
register_initialize(mod);
register_enums(mod);
register_error(mod);
register_functions(mod);
register_parser(mod);
register_boundary_conditions(mod);
register_fe_engine(mod);
register_model(mod);
register_solid_mechanics_model(mod);
register_solid_mechanics_model_cohesive(mod);
register_material(mod);
register_mesh(mod);
}
} // namespace akantu
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