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bindings_model.h
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172 lines (150 loc) · 7.54 KB
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#ifndef FUNTIDES_MODEL_MESH_PYWRAP_INCLUDE_BINDINGS_MODEL_H_
#define FUNTIDES_MODEL_MESH_PYWRAP_INCLUDE_BINDINGS_MODEL_H_
#pragma once
#include <pybind11/numpy.h>
#include <pybind11/pybind11.h>
#include <pybind11/stl.h>
#include <KokkosExp_InterOp.hpp>
#include <string>
#include "bindings_utils.h"
#include "common_macros.h"
#include "face_connectivity_unstruct.h"
#include "model.h"
#include "model_struct.h"
#include "model_unstruct.h"
namespace py = pybind11;
namespace model
{
// template binder for ModelAPI
template <typename FloatType, typename ScalarType>
void bind_modelapi(py::module_ &m)
{
using T = model::ModelApi<FloatType, ScalarType>;
std::string name = model_class_name<FloatType, ScalarType>("ModelApi");
py::class_<T, std::shared_ptr<T>>(m, name.c_str())
.def("node_coord", &T::nodeCoord)
.def("global_node_index", &T::globalNodeIndex)
.def("get_model_vp_on_node", &T::getModelVpOnNodes)
.def("get_model_vp_on_element", &T::getModelVpOnElement)
.def("get_model_rho_on_node", &T::getModelRhoOnNodes)
.def("get_model_rho_on_element", &T::getModelRhoOnElement)
.def("get_model_vs_on_node", &T::getModelVsOnNodes)
.def("get_model_vs_on_element", &T::getModelVsOnElement)
.def("get_model_delta_on_node", &T::getModelDeltaOnNodes)
.def("get_model_delta_on_element", &T::getModelDeltaOnElement)
.def("get_model_epsilon_on_node", &T::getModelEpsilonOnNodes)
.def("get_model_epsilon_on_element", &T::getModelEpsilonOnElement)
.def("get_model_gamma_on_node", &T::getModelGammaOnNodes)
.def("get_model_gamma_on_element", &T::getModelGammaOnElement)
.def("get_model_phi_on_node", &T::getModelPhiOnNodes)
.def("get_model_phi_on_element", &T::getModelPhiOnElement)
.def("get_model_theta_on_node", &T::getModelThetaOnNodes)
.def("get_model_theta_on_element", &T::getModelThetaOnElement)
.def("get_number_of_elements", &T::getNumberOfElements)
.def("get_number_of_nodes", &T::getNumberOfNodes)
.def("get_number_of_points_per_element", &T::getNumberOfPointsPerElement)
.def("get_order", &T::getOrder)
.def("boundary_type", &T::boundaryType)
.def("face_normal", &T::faceNormal)
.def("domain_size", &T::domainSize)
.def("get_min_spacing", &T::getMinSpacing)
.def("get_max_speed", &T::getMaxSpeed)
.def("build_face_connectivity", &T::buildFaceConnectivity)
.def("get_number_of_faces", &T::getNumberOfFaces)
.def("is_boundary_face", &T::isBoundaryFace)
.def("get_global_node_from_face", &T::getGlobalNodeFromFace)
.def("get_global_face", &T::getGlobalFace)
.def("set_free_surface_enabled", &T::setFreeSurfaceEnabled)
.def("init_free_surface", &T::initFreeSurface)
.def("is_free_surface", &T::isFreeSurface);
}
// templated binder for one ModelStruct instantiation
template <typename FloatType, typename ScalarType, int Order>
void bind_modelstruct(py::module_ &m)
{
using Base = model::ModelApi<FloatType, ScalarType>;
using T = model::ModelStruct<FloatType, ScalarType, Order>;
using Data = model::ModelStructData<FloatType, ScalarType>;
std::string name =
model_class_name<FloatType, ScalarType, Order>("ModelStruct");
py::class_<T, Base, std::shared_ptr<T>>(m, name.c_str())
.def(py::init<const Data &>());
}
// templated binder for ModelStructData
template <typename FloatType, typename ScalarType>
void bind_modelstructdata(py::module_ &m)
{
using Data = model::ModelStructData<FloatType, ScalarType>;
std::string name = model_class_name<FloatType, ScalarType>("ModelStructData");
py::class_<Data>(m, name.c_str())
.def(py::init<>())
.def_readwrite("ex", &Data::ex_)
.def_readwrite("ey", &Data::ey_)
.def_readwrite("ez", &Data::ez_)
.def_readwrite("dx", &Data::dx_)
.def_readwrite("dy", &Data::dy_)
.def_readwrite("dz", &Data::dz_);
}
// templated binder for ModelUnstruct
template <typename FloatType, typename ScalarType>
void bind_modelunstruct(py::module_ &m)
{
using Base = model::ModelApi<FloatType, ScalarType>;
using T = model::ModelUnstruct<FloatType, ScalarType>;
using Data = model::ModelUnstructData<FloatType, ScalarType>;
std::string name = model_class_name<FloatType, ScalarType>("ModelUnstruct");
py::class_<T, Base, std::shared_ptr<T>>(m, name.c_str())
.def(py::init<const Data &>());
}
// template binder for ModelUnstructData
template <typename FloatType, typename ScalarType>
void bind_modelunstructdata(py::module_ &m)
{
using Data = model::ModelUnstructData<FloatType, ScalarType>;
std::string name =
model_class_name<FloatType, ScalarType>("ModelUnstructData");
py::class_<Data>(m, name.c_str())
// Constructeur existant INCHANGÉ (sans face_connectivity)
.def(py::init<
ScalarType, ScalarType, ScalarType, FloatType, FloatType,
FloatType, bool, bool,
Kokkos::Experimental::python_view_type_t<ARRAY_INT_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<ARRAY3D_REAL_VIEW>,
Kokkos::Experimental::python_view_type_t<VECTOR_REAL_VIEW>>(),
py::arg("order"), py::arg("n_element"), py::arg("n_node"),
py::arg("lx"), py::arg("ly"), py::arg("lz"),
py::arg("is_model_on_nodes"), py::arg("is_elastic"),
py::arg("global_node_index"), py::arg("nodes_coords_x"),
py::arg("nodes_coords_y"), py::arg("nodes_coords_z"),
py::arg("model_vp_node"), py::arg("model_vp_element"),
py::arg("model_rho_node"), py::arg("model_rho_element"),
py::arg("model_vs_node"), py::arg("model_vs_element"),
py::arg("model_delta_node"), py::arg("model_delta_element"),
py::arg("model_epsilon_node"), py::arg("model_epsilon_element"),
py::arg("model_gamma_node"), py::arg("model_gamma_element"),
py::arg("model_theta_node"), py::arg("model_theta_element"),
py::arg("model_phi_node"), py::arg("model_phi_element"),
py::arg("model_C_tensor_element"), py::arg("boundaries_t"))
.def_readwrite("face_connectivity", &Data::face_connectivity_);
}
} // namespace model
#endif // FUNTIDES_MODEL_MESH_PYWRAP_INCLUDE_BINDINGS_MODEL_H_