py_aka_material.cc
No OneTemporary
Actions

Subscribers

None

File Metadata

Created: Sun, May 5, 13:09

py_aka_material.cc
View Options

	/* -------------------------------------------------------------------------- */
	#include "py_aka_array.hh"
	/* -------------------------------------------------------------------------- */
	#include <solid_mechanics_model.hh>
	/* -------------------------------------------------------------------------- */
	#include <pybind11/operators.h>
	#include <pybind11/pybind11.h>
	#include <pybind11/stl.h>
	/* -------------------------------------------------------------------------- */
	namespace py = pybind11;
	/* -------------------------------------------------------------------------- */

	namespace akantu {

	template <typename _Material> class PyMaterial : public _Material {

	public:
	/* Inherit the constructors */
	using _Material::_Material;

	virtual ~PyMaterial(){};
	void initMaterial() override {
	PYBIND11_OVERLOAD(void, _Material, initMaterial);
	};
	void computeStress(ElementType el_type,
	GhostType ghost_type = _not_ghost) override {
	PYBIND11_OVERLOAD_PURE(void, _Material, computeStress, el_type, ghost_type);
	}
	void computeTangentModuli(const ElementType & el_type,
	Array<Real> & tangent_matrix,
	GhostType ghost_type = _not_ghost) override {
	PYBIND11_OVERLOAD(void, _Material, computeTangentModuli, el_type,
	tangent_matrix, ghost_type);
	}

	void computePotentialEnergy(ElementType el_type) override {
	PYBIND11_OVERLOAD(void, _Material, computePotentialEnergy, el_type);
	}

	Real getPushWaveSpeed(const Element & element) const override {
	PYBIND11_OVERLOAD(Real, _Material, getPushWaveSpeed, element);
	}

	Real getShearWaveSpeed(const Element & element) const override {
	PYBIND11_OVERLOAD(Real, _Material, getShearWaveSpeed, element);
	}

	void registerInternal(const std::string & name, UInt nb_component) {
	this->internals[name] = std::make_shared<InternalField<Real>>(name, *this);
	AKANTU_DEBUG_INFO("alloc internal " << name << " "
	<< &this->internals[name]);

	this->internals[name]->initialize(nb_component);
	}

	auto & getInternals() { return this->internals; }

	protected:
	std::map<std::string, std::shared_ptr<InternalField<Real>>> internals;
	};

	/* -------------------------------------------------------------------------- */

	template <typename T>
	void register_element_type_map_array(py::module & mod,
	const std::string & name) {

	py::class_<ElementTypeMapArray<T>, std::shared_ptr<ElementTypeMapArray<T>>>(
	mod, ("ElementTypeMapArray" + name).c_str())
	.def("__call__",
	[](ElementTypeMapArray<T> & self, ElementType & type,
	const GhostType & ghost_type) -> decltype(auto) {
	return self(type, ghost_type);
	},
	py::arg("type"), py::arg("ghost_type") = _not_ghost,
	py::return_value_policy::reference)
	.def("elementTypes",
	[](ElementTypeMapArray<T> & self, UInt _dim, GhostType _ghost_type,
	ElementKind _kind) -> decltype(auto) {
	auto types = self.elementTypes(_dim, _ghost_type, _kind);
	std::vector<ElementType> _types;
	for (auto && t : types) {
	_types.push_back(t);
	}
	return _types;
	},
	py::arg("dim") = _all_dimensions, py::arg("ghost_type") = _not_ghost,
	py::arg("kind") = _ek_regular);

	py::class_<InternalField<T>, ElementTypeMapArray<T>,
	std::shared_ptr<InternalField<T>>>(
	mod, ("InternalField" + name).c_str());
	}

	/* -------------------------------------------------------------------------- */
	template <typename _Material>
	void define_material(py::module & mod, const std::string & name) {

	auto mat = py::class_<_Material, PyMaterial<_Material>, Parsable>(
	mod, name.c_str(), py::multiple_inheritance());

	mat.def(py::init<SolidMechanicsModel &, const ID &>())
	.def("getGradU",
	[](Material & self, ElementType el_type,
	GhostType ghost_type = _not_ghost) -> decltype(auto) {
	return self.getGradU(el_type, ghost_type);
	},
	py::arg("el_type"), py::arg("ghost_type") = _not_ghost,
	py::return_value_policy::reference)
	.def("getStress",
	[](Material & self, ElementType el_type,
	GhostType ghost_type = _not_ghost) -> decltype(auto) {
	return self.getStress(el_type, ghost_type);
	},
	py::arg("el_type"), py::arg("ghost_type") = _not_ghost,
	py::return_value_policy::reference)
	.def("getPotentialEnergy",
	[](Material & self, ElementType el_type) -> decltype(auto) {
	return self.getPotentialEnergy(el_type);
	},
	py::return_value_policy::reference)
	.def("initMaterial", &Material::initMaterial)
	.def("getModel", &Material::getModel)
	.def("registerInternal",
	[](Material & self, const std::string & name, UInt nb_component) {
	return dynamic_cast<PyMaterial<Material> &>(self).registerInternal(
	name, nb_component);
	})
	.def_property_readonly(
	"internals",
	[](Material & self) {
	return dynamic_cast<PyMaterial<Material> &>(self).getInternals();
	})
	.def_property_readonly("element_filter",
	[](Material & self) -> decltype(auto) {
	return self.getElementFilter();
	},
	py::return_value_policy::reference);
	}

	/* -------------------------------------------------------------------------- */

	[[gnu::visibility("default")]] void register_material(py::module & mod) {

	py::class_<MaterialFactory>(mod, "MaterialFactory")
	.def_static("getInstance",
	[]() -> MaterialFactory & { return Material::getFactory(); },
	py::return_value_policy::reference)
	.def("registerAllocator",
	[](MaterialFactory & self, const std::string id, py::function func) {
	self.registerAllocator(
	id,
	[func, id](UInt dim, const ID &, SolidMechanicsModel & model,
	const ID & id) -> std::unique_ptr<Material> {
	py::object obj = func(dim, id, model, id);
	auto & ptr = py::cast<Material &>(obj);

	obj.release();
	return std::unique_ptr<Material>(&ptr);
	});
	});

	register_element_type_map_array<Real>(mod, "Real");
	register_element_type_map_array<UInt>(mod, "UInt");

	define_material<Material>(mod, "Material");
	}

	} // namespace akantu

py_aka_material.ccNo OneTemporaryActions

File Metadata

py_aka_material.ccView Options

Event Timeline

py_aka_material.cc
No OneTemporary
Actions

py_aka_material.cc
View Options