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Created: Fri, Feb 21, 14:39

constitutive_law_selector.hh
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	/**
	* @file constitutive_law_selector.hh
	*
	* @author Mohit Pundir <mohit.pundir@ethz.ch>
	*
	* @date creation: Tue May 3 2022
	* @date last modification: Tue May 3 2022
	*
	* @brief class describing how to choose a constitutive law
	* for a given element
	*
	*
	* @section LICENSE
	*
	* Copyright (©) 2014-2021 EPFL (Ecole Polytechnique Fédérale de Lausanne)
	* Laboratory (LSMS - Laboratoire de Simulation en Mécanique des Solides)
	*
	* Akantu is free software: you can redistribute it and/or modify it under the
	* terms of the GNU Lesser General Public License as published by the Free
	* Software Foundation, either version 3 of the License, or (at your option) any
	* later version.
	*
	* Akantu is distributed in the hope that it will be useful, but WITHOUT ANY
	* WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
	* A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
	* details.
	*
	* You should have received a copy of the GNU Lesser General Public License
	* along with Akantu. If not, see <http://www.gnu.org/licenses/>.
	*
	*/

	/* -------------------------------------------------------------------------- */
	#include "element.hh"
	#include "mesh.hh"
	/* -------------------------------------------------------------------------- */
	#include <memory>
	/* -------------------------------------------------------------------------- */

	#ifndef __AKANTU_CONSTITUTIVE_LAW_SELECTOR_HH__
	#define __AKANTU_CONSTITUTIVE_LAW_SELECTOR_HH__

	namespace akantu {
	class PoissonModel;
	} // namespace akantu

	/* -------------------------------------------------------------------------- */
	namespace akantu {

	/**
	* main class to assign same or differentconstitutive laws to
	* different elements
	*/
	class ConstitutiveLawSelector
	: public std::enable_shared_from_this<ConstitutiveLawSelector> {
	public:
	ConstitutiveLawSelector() = default;
	virtual ~ConstitutiveLawSelector() = default;
	virtual inline UInt operator()(const Element & element) {
	if (fallback_selector) {
	return (*fallback_selector)(element);
	}

	return fallback_value;
	}

	inline void setFallback(UInt f) { fallback_value = f; }
	inline void
	setFallback(const std::shared_ptr<ConstitutiveLawSelector> & fallback_selector) {
	this->fallback_selector = fallback_selector;
	}

	inline void setFallback(ConstitutiveLawSelector & fallback_selector) {
	this->fallback_selector = fallback_selector.shared_from_this();
	}

	inline std::shared_ptr<ConstitutiveLawSelector> & getFallbackSelector() {
	return this->fallback_selector;
	}

	inline UInt getFallbackValue() const { return this->fallback_value; }

	protected:
	UInt fallback_value{0};
	std::shared_ptr<ConstitutiveLawSelector> fallback_selector;
	};

	/* -------------------------------------------------------------------------- */
	/**
	* class that assigns the first constitutive law to regular elements by default
	*/
	class DefaultConstitutiveLawSelector : public ConstitutiveLawSelector {
	public:
	explicit DefaultConstitutiveLawSelector(
	const ElementTypeMapArray<UInt> & constitutive_law_index)
	: constitutive_law_index(constitutive_law_index) {}

	UInt operator()(const Element & element) override {
	if (not constitutive_law_index.exists(element.type, element.ghost_type)) {
	return ConstitutiveLawSelector::operator()(element);
	}

	const auto & law_indexes =
	constitutive_law_index(element.type, element.ghost_type);
	if (element.element < law_indexes.size()) {
	auto && tmp_phase = law_indexes(element.element);
	if (tmp_phase != UInt(-1)) {
	return tmp_phase;
	}
	}

	return ConstitutiveLawSelector::operator()(element);
	}

	private:
	const ElementTypeMapArray<UInt> & constitutive_law_index;
	};

	/* -------------------------------------------------------------------------- */
	/**
	* Use elemental data to assign constitutive laws
	*/
	template <typename T>
	class ElementDataConstitutiveLawSelector : public ConstitutiveLawSelector {
	public:
	ElementDataConstitutiveLawSelector(const ElementTypeMapArray<T> & element_data,
	const PoissonModel & model,
	UInt first_index = 1)
	: element_data(element_data), model(model), first_index(first_index) {}

	inline T elementData(const Element & element) {
	DebugLevel dbl = debug::getDebugLevel();
	debug::setDebugLevel(dblError);
	T data = element_data(element.type, element.ghost_type)(element.element);
	debug::setDebugLevel(dbl);
	return data;
	}

	inline UInt operator()(const Element & element) override {
	return ConstitutiveLawSelector::operator()(element);
	}

	protected:
	/// list of element with the specified data (i.e. tag value)
	const ElementTypeMapArray<T> & element_data;

	/// the model that the constitutive laws belong
	const PoissonModel & model;

	/// first constitutive law index: equal to 1 if none specified
	UInt first_index;
	};

	/* -------------------------------------------------------------------------- */
	/**
	* class to use mesh data information to assign different phasefields
	* where name is the tag value: tag_0, tag_1
	*/
	template <typename T>
	class MeshDataConstitutiveLawSelector : public ElementDataConstitutiveLawSelector<T> {
	public:
	MeshDataConstitutiveLawSelector(const std::string & name,
	const PoissonModel & model,
	UInt first_index = 1);
	};

	} // namespace akantu

	#endif /* __AKANTU_CONSTITUTIVE_LAW_SELECTOR_HH__ */

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