py_structural_mechanics_model.cc
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Created: Sat, May 4, 02:03

py_structural_mechanics_model.cc
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	/* -------------------------------------------------------------------------- */
	#include "py_aka_array.hh"
	/* -------------------------------------------------------------------------- */
	#include <structural_mechanics_model.hh>
	/* -------------------------------------------------------------------------- */
	#include <pybind11/pybind11.h>
	/* -------------------------------------------------------------------------- */
	namespace py = pybind11;
	/* -------------------------------------------------------------------------- */

	namespace akantu {

	/* -------------------------------------------------------------------------- */
	#define def_deprecated(func_name, mesg) \
	def(func_name, [](py::args, py::kwargs) { AKANTU_ERROR(mesg); })

	#define def_function_nocopy(func_name) \
	def( \
	#func_name, \
	[](StructuralMechanicsModel & self) -> decltype(auto) { \
	return self.func_name(); \
	}, \
	py::return_value_policy::reference)

	#define def_function_(func_name) \
	def(#func_name, [](StructuralMechanicsModel & self) -> decltype(auto) { \
	return self.func_name(); \
	})

	#define def_plainmember(M) def_readwrite(#M, &StructuralMaterial::M)
	/* -------------------------------------------------------------------------- */

	void register_structural_mechanics_model(pybind11::module & mod) {
	/* First we have to register the material class
	* The wrapper aims to mimic the behaviour of the real material.
	*/
	py::class_<StructuralMaterial>(mod, "StructuralMaterial")
	.def(py::init<>())
	.def(py::init<const StructuralMaterial &>())
	.def_plainmember(E)
	.def_plainmember(A)
	.def_plainmember(I)
	.def_plainmember(Iz)
	.def_plainmember(Iy)
	.def_plainmember(GJ)
	.def_plainmember(rho)
	.def_plainmember(t)
	.def_plainmember(nu);

	/* Now we create the structural model wrapper
	* Note that this is basically a port from the solid mechanic part.
	*/
	py::class_<StructuralMechanicsModel, Model>(mod, "StructuralMechanicsModel")
	.def(py::init<Mesh &, UInt, const ID &>(),
	py::arg("mesh"), py::arg("spatial_dimension") = _all_dimensions,
	py::arg("id") = "structural_mechanics_model")
	.def(
	"initFull",
	[](StructuralMechanicsModel & self,
	const AnalysisMethod & analysis_method) -> void {
	self.initFull(_analysis_method = analysis_method);
	},
	py::arg("_analysis_method"))
	.def("initFull",
	[](StructuralMechanicsModel & self) -> void { self.initFull(); })
	.def_function_nocopy(getExternalForce)
	.def_function_nocopy(getDisplacement)
	.def_function_nocopy(getInternalForce)
	.def_function_nocopy(getVelocity)
	.def_function_nocopy(getAcceleration)
	.def_function_nocopy(getInternalForce)
	.def_function_nocopy(getBlockedDOFs)
	.def_function_nocopy(getMesh)

	.def("setTimeStep", &StructuralMechanicsModel::setTimeStep,
	py::arg("time_step"), py::arg("solver_id") = "")
	.def(
	"getElementMaterial",
	[](StructuralMechanicsModel & self, const ElementType & type,
	GhostType ghost_type) -> decltype(auto) {
	return self.getElementMaterial(type, ghost_type);
	},
	"This function returns the map that maps elements to materials.",
	py::arg("type"), py::arg("ghost_type") = _not_ghost,
	py::return_value_policy::reference)
	.def(
	"getMaterialByElement",
	[](StructuralMechanicsModel & self, Element element)
	-> decltype(auto) { return self.getMaterialByElement(element); },
	"This function returns the `StructuralMaterial` instance that is "
	"associated with element `element`.",
	py::arg("element"), py::return_value_policy::reference)
	.def(
	"addMaterial",
	[](StructuralMechanicsModel & self, StructuralMaterial & mat,
	const ID & name) -> UInt { return self.addMaterial(mat, name); },
	"This function adds the `StructuralMaterial` `mat` to `self`."
	" The function returns the ID of the new material.",
	py::arg("mat"), py::arg("name") = "")
	.def(
	"getMaterial",
	[](StructuralMechanicsModel & self, UInt material_index)
	-> decltype(auto) { return self.getMaterial(material_index); },
	"This function returns the `i`th material of `self`."
	" Note a reference is returned which allows to modify the material inside `self`.",
	py::arg("i"),
	py::return_value_policy::reference)
	.def(
	"getMaterial",
	[](StructuralMechanicsModel & self, const ID & name)
	-> decltype(auto) { return self.getMaterial(name); },
	"This function returns the material with name `i` of `self`."
	" Note a reference is returned which allows to modify the material inside `self`.",
	py::arg("i"),
	py::return_value_policy::reference)
	.def(
	"getNbMaterials",
	[](StructuralMechanicsModel & self) { return self.getNbMaterials(); },
	"Returns the number of different materials inside `self`.")
	.def("getKineticEnergy", &StructuralMechanicsModel::getKineticEnergy,
	"Compute kinetic energy")
	.def("getPotentialEnergy", &StructuralMechanicsModel::getPotentialEnergy,
	"Compute potential energy")
	.def("getEnergy", &StructuralMechanicsModel::getEnergy,
	"Compute the specified energy");

	} // End: register structural mechanical model

	} // namespace akantu

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