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- /**
- * @file artis/kernel/AbstractCoupledModel.hpp
- * @author See the AUTHORS file
- */
- /*
- * Copyright (C) 2012-2019 ULCO http://www.univ-littoral.fr
- *
- * This program is free software: you can redistribute it and/or modify
- * it under the terms of the GNU General Public License as published by
- * the Free Software Foundation, either version 3 of the License, or
- * (at your option) any later version.
- *
- * This program 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 General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with this program. If not, see <http://www.gnu.org/licenses/>.
- */
- #ifndef __ARTIS_KERNEL_ABSTRACT_COUPLED_MODEL_HPP
- #define __ARTIS_KERNEL_ABSTRACT_COUPLED_MODEL_HPP
- #include <artis/kernel/AbstractModel.hpp>
- #include <artis/kernel/Externals.hpp>
- #include <artis/kernel/Internals.hpp>
- #include <artis/kernel/States.hpp>
- #include <artis/utils/DateTime.hpp>
- #include <artis/utils/Trace.hpp>
- #include <functional>
- #include <vector>
- namespace artis {
- namespace kernel {
- template<typename T, typename U, typename V, typename W>
- class Simulator;
- template<typename T, typename U, typename V, typename W>
- class AbstractCoupledModel : public AbstractModel<U, V>,
- public States<T, U, V>,
- public Internals<T, U, V>,
- public Externals<T, U, V> {
- typedef AbstractModel<U, V> type;
- typedef std::map<int, type*> Submodels;
- typedef std::map<int,
- std::vector<type*> > Setsubmodels;
- typedef std::map<int, std::pair<type*,
- int> > SubModelInternals;
- using Externals<T, U, V>::restore;
- using Internals<T, U, V>::restore;
- using States<T, U, V>::restore;
- using Externals<T, U, V>::save;
- using Internals<T, U, V>::save;
- using States<T, U, V>::save;
- #ifdef WITH_TRACE
- friend class Simulator<T, U, V, W>;
- #endif
- public:
- struct Var {
- unsigned int index;
- type* model;
- int sub_index;
- std::string var_name;
- std::string sub_var_name;
- Var(unsigned int index, std::string var_name,
- type* model, int sub_index, std::string sub_var_name)
- :
- index(index), model(model), sub_index(sub_index),
- var_name(var_name), sub_var_name(sub_var_name) { }
- };
- AbstractCoupledModel(const type* parent = 0)
- :type(parent)
- {
- #ifdef WITH_TRACE
- utils::Trace<utils::DoubleTime>::trace()
- << utils::TraceElement<utils::DoubleTime>(
- true,
- boost::core::demangle(typeid(T).name()),
- utils::DoubleTime::null,
- utils::CONSTRUCT);
- utils::Trace<utils::DoubleTime>::trace().flush();
- #endif
- }
- virtual ~AbstractCoupledModel()
- {
- #ifdef WITH_TRACE
- trace_element(true, utils::DoubleTime::null,
- utils::DESTRUCT);
- #endif
- }
- virtual void after(typename U::type t)
- {
- #ifdef WITH_TRACE
- trace_element(true, t, utils::AFTER_COMPUTE);
- trace_internals(true, t, utils::AFTER_COMPUTE);
- #else
- (void) t;
- #endif
- }
- virtual const Node<U>* atomic(unsigned int index) const
- {
- typename AbstractCoupledModel::SubModelInternals::const_iterator it =
- submodel_internals.find(index);
- if (it == submodel_internals.end()) {
- return this;
- } else {
- return it->second.first->atomic(it->second.second);
- }
- }
- virtual void before(typename U::type t)
- {
- #ifdef WITH_TRACE
- trace_element(true, t, utils::BEFORE_COMPUTE);
- trace_internals(true, t, utils::BEFORE_COMPUTE);
- trace_externals(true, t, utils::BEFORE_COMPUTE);
- #else
- (void) t;
- #endif
- }
- virtual void build(W& /* parameters */) { }
- virtual void build(W& /* parameters */, const std::string& /* json */) { }
- virtual bool check(typename U::type t) const { return Externals<T, U, V>::check(t); }
- virtual void compute(typename U::type t, bool update) = 0;
- virtual const Any& get(typename U::type t, unsigned int index) const
- {
- typename AbstractCoupledModel::SubModelInternals::const_iterator it =
- submodel_internals.find(index);
- if (it == submodel_internals.end()) {
- if (type::last_time != t) {
- throw utils::InvalidGet("Variable not computed");
- }
- return Internals<T, U, V>::get(index);
- } else {
- return it->second.first->get(t, it->second.second);
- }
- }
- template<typename Z, typename K>
- Z get(typename U::type t, unsigned int index) const
- {
- typename AbstractCoupledModel::SubModelInternals::const_iterator it =
- submodel_internals.find(index);
- if (it == submodel_internals.end()) {
- if (type::last_time != t) {
- throw utils::InvalidGet("Variable not computed");
- }
- const Any& value = Internals<T, U, V>::get(index);
- return static_cast < const T* >(this)->*(value.get<T, Z>());
- } else {
- const Any& value = it->second.first->get(t, it->second.second);
- const Node<U>* object = it->second.first->atomic(
- it->second.second);
- return static_cast < const K* >(object)->*(value.get<K, Z>());
- }
- }
- virtual std::string get(const ValueTypeID& value_type, typename U::type t,
- unsigned int index) const
- {
- typename AbstractCoupledModel::SubModelInternals::const_iterator it =
- submodel_internals.find(index);
- if (it == submodel_internals.end()) {
- Any value = Internals<T, U, V>::get(index);
- switch (value_type) {
- case DOUBLE:
- return std::to_string(
- static_cast < const T* >(this)->*(value.get<T,
- double>()));
- case INT:
- return std::to_string(
- static_cast < const T* >(this)->*(value.get<T, int>()));
- case BOOL:
- return std::to_string(
- static_cast < const T* >(this)->*(value.get<T, bool>()));
- default:
- return "NA";
- }
- } else {
- return it->second.first->get(value_type, t, it->second.second);
- }
- }
- virtual void init(typename U::type t, const V& parameters) = 0;
- virtual bool is_atomic() const { return false; }
- bool is_computed(typename U::type t, unsigned int index) const
- {
- typename AbstractCoupledModel::SubModelInternals::const_iterator it =
- submodel_internals.find(index);
- if (it == submodel_internals.end()) {
- return false;
- } else {
- return it->second.first->is_computed(t, it->second.second);
- }
- }
- bool is_stable(typename U::type t) const
- {
- typename AbstractCoupledModel::SubModelInternals::const_iterator it =
- submodel_internals.begin();
- bool stable = true;
- while (it != submodel_internals.end() and stable) {
- stable = it->second.first->is_stable(t);
- ++it;
- }
- return stable;
- }
- virtual bool is_updated() const { return Externals<T, U, V>::updated; }
- virtual const Node<U>* get_submodel(unsigned int index) const
- {
- typename AbstractCoupledModel::Submodels::const_iterator it =
- submodels.find(index);
- if (it != submodels.end()) {
- return it->second;
- } else {
- return 0;
- }
- }
- virtual const Node<U>* get_submodel(unsigned int index,
- unsigned int rank) const
- {
- typename AbstractCoupledModel::Setsubmodels::const_iterator it =
- setsubmodels.find(index);
- if (it != setsubmodels.end() and it->second.size() > rank) {
- return it->second.at(rank);
- } else {
- return 0;
- }
- }
- virtual std::string path_index(const AbstractModel<U, V>* child,
- int& index) const
- {
- typename Setsubmodels::const_iterator it = setsubmodels.begin();
- bool found = false;
- index = -1;
- while (not found and it != setsubmodels.end()) {
- typename std::vector<type*>::const_iterator itm =
- it->second.begin();
- index = 0;
- while (not found and itm != it->second.end()) {
- found = *itm == child;
- if (not found) {
- ++index;
- ++itm;
- }
- }
- index = found ? index : -1;
- ++it;
- }
- if (type::parent) {
- int i;
- std::string p = type::parent->path_index(this, i);
- if (i >= 0) {
- return p +
- "/[" + std::to_string(i) + "]" +
- boost::core::demangle(typeid(*this).name());
- } else {
- return p + "/" + boost::core::demangle(typeid(*this).name());
- }
- } else {
- return boost::core::demangle(typeid(*this).name());
- }
- }
- virtual void restore(const context::State<U>& state)
- {
- typename AbstractCoupledModel::Submodels::const_iterator it =
- submodels.begin();
- while (it != submodels.end()) {
- it->second->restore(state.get_substate(it->first));
- ++it;
- }
- States<T, U, V>::restore(this, state);
- Internals<T, U, V>::restore(this, state);
- Externals<T, U, V>::restore(this, state);
- }
- virtual void save(context::State<U>& state) const
- {
- typename AbstractCoupledModel::Submodels::const_iterator it =
- submodels.begin();
- while (it != submodels.end()) {
- context::State<U> substate;
- it->second->save(substate);
- state.add_substate(it->first, substate);
- ++it;
- }
- States<T, U, V>::save(this, state);
- Internals<T, U, V>::save(this, state);
- Externals<T, U, V>::save(this, state);
- }
- virtual void stable() { Externals<T, U, V>::updated = false; }
- void submodel(unsigned int index, type* model)
- {
- if (model) {
- submodels[index] = model;
- model->set_parent(this);
- } else {
- submodels[index] = 0;
- }
- }
- virtual void trace_element(typename U::type t,
- utils::TraceType type = utils::NONE,
- std::string comment = "") const { trace_element(false, t, type, comment); }
- virtual void trace_internals(typename U::type t,
- utils::TraceType type) const { trace_internals(false, t, type); }
- virtual void trace_externals(typename U::type t,
- utils::TraceType type = utils::NONE) const { trace_externals(false, t, type); }
- virtual void trace_model(typename U::type t,
- utils::TraceType type = utils::NONE) const { trace_model(false, t, type); }
- private:
- void trace_element(bool from_kernel, typename U::type t,
- utils::TraceType type = utils::NONE,
- std::string comment = "") const
- {
- utils::Trace<utils::DoubleTime>::trace()
- << utils::TraceElement<utils::DoubleTime>(
- from_kernel,
- AbstractCoupledModel<T, U, V, W>::path(this),
- t, type)
- << comment;
- utils::Trace<utils::DoubleTime>::trace().flush();
- }
- void trace_internals(bool from_kernel, typename U::type t,
- utils::TraceType type) const
- {
- for (size_t i = 0; i < Internals<T, U, V>::size(); ++i) {
- if (not Internals<T, U, V>::get(i).is_null()) {
- utils::Trace<utils::DoubleTime>::trace()
- << utils::TraceElement<utils::DoubleTime>(
- from_kernel,
- AbstractCoupledModel<T, U, V, W>::path(this),
- t, type)
- << utils::KernelInfo(
- Internals<T, U, V>::name(i), true,
- Internals<T, U, V>::get(i).to_string(
- dynamic_cast < const T* >(this))
- );
- utils::Trace<utils::DoubleTime>::trace().flush();
- }
- }
- }
- void trace_externals(bool from_kernel, typename U::type t,
- utils::TraceType type = utils::NONE) const
- {
- for (size_t i = 0; i < Externals<T, U, V>::size(); ++i) {
- if (not Externals<T, U, V>::get(i).is_null()) {
- utils::Trace<utils::DoubleTime>::trace()
- << utils::TraceElement<utils::DoubleTime>(
- from_kernel,
- AbstractCoupledModel<T, U, V, W>::path(this),
- t, type)
- << utils::KernelInfo(
- Externals<T, U, V>::name(i), false,
- Externals<T, U, V>::get(i).to_string(
- dynamic_cast < const T* >(this))
- );
- utils::Trace<utils::DoubleTime>::trace().flush();
- }
- }
- }
- void trace_model(bool from_kernel, typename U::type t,
- utils::TraceType type = utils::NONE) const
- {
- trace_element(from_kernel, t, type);
- trace_internals(from_kernel, t, type);
- trace_externals(from_kernel, t, type);
- // typename AbstractCoupledModel::Submodels::const_iterator it =
- // submodels.begin();
- // while (it != submodels.end()) {
- // it->second->trace_model(from_kernel, t, type);
- // ++it;
- // }
- }
- protected:
- void link_internal_(unsigned int index, std::string var_name,
- type* model, int sub_index, std::string sub_var_name)
- {
- submodel_internals[index] =
- std::pair<type*, int>(model, sub_index);
- #ifdef WITH_TRACE
- utils::Trace<utils::DoubleTime>::trace()
- << utils::TraceElement<utils::DoubleTime>(
- true,
- AbstractCoupledModel<T, U, V, W>::path(this),
- utils::DoubleTime::null,
- utils::INTERNAL_LINK)
- << utils::KernelInfo(
- var_name,
- AbstractCoupledModel<T, U, V, W>::path(model),
- sub_var_name);
- utils::Trace<utils::DoubleTime>::trace().flush();
- #endif
- }
- void I_(std::initializer_list<Var> internals)
- {
- for (typename std::initializer_list<Var>::iterator it =
- internals.begin(); it != internals.end(); ++it) {
- submodel_internals[it->index] =
- std::pair<type*, int>(it->model, it->sub_index);
- #ifdef WITH_TRACE
- utils::Trace<utils::DoubleTime>::trace()
- << utils::TraceElement<utils::DoubleTime>(
- true,
- AbstractCoupledModel<T, U, V, W>::path(this),
- utils::DoubleTime::null,
- utils::INTERNAL_LINK)
- << utils::KernelInfo(
- it->var_name,
- AbstractCoupledModel<T, U, V, W>::path(it->model),
- it->sub_var_name);
- utils::Trace<utils::DoubleTime>::trace().flush();
- #endif
- }
- }
- void SM_(std::initializer_list<std::pair<unsigned int,
- type*> > models)
- {
- for (typename std::initializer_list<std::pair<unsigned int,
- type*> >::iterator it =
- models.begin(); it != models.end(); ++it) {
- submodels[it->first] = it->second;
- it->second->set_parent(this);
- #ifdef WITH_TRACE
- utils::Trace<utils::DoubleTime>::trace()
- << utils::TraceElement<utils::DoubleTime>(
- true,
- AbstractCoupledModel<T, U, V, W>::path(this),
- utils::DoubleTime::null,
- utils::SUBMODEL_ADD)
- << utils::KernelInfo(
- AbstractCoupledModel<T, U, V, W>::path(it->second));
- utils::Trace<utils::DoubleTime>::trace().flush();
- #endif
- }
- }
- void setsubmodel(unsigned int index, type* model)
- {
- if (setsubmodels.find(index) == setsubmodels.end()) {
- setsubmodels[index] = std::vector<type*>();
- }
- setsubmodels[index].push_back(model);
- model->set_parent(this);
- #ifdef WITH_TRACE
- utils::Trace<utils::DoubleTime>::trace()
- << utils::TraceElement<utils::DoubleTime>(
- true,
- AbstractCoupledModel<T, U, V, W>::path(this),
- utils::DoubleTime::null,
- utils::SUBMODEL_ADD)
- << utils::KernelInfo(
- AbstractCoupledModel<T, U, V, W>::path(model));
- utils::Trace<utils::DoubleTime>::trace().flush();
- #endif
- }
- private:
- SubModelInternals submodel_internals;
- Submodels submodels;
- Setsubmodels setsubmodels;
- };
- #define InternalS(index, var, sub_index) link_internal_(index, std::string(ESCAPEQUOTE(index)), var, sub_index, std::string(ESCAPEQUOTE(index)))
- #define ITEM_S(index, var, sub_index) Var(index, std::string(ESCAPEQUOTE(index)), var, sub_index, std::string(ESCAPEQUOTE(index)))
- #define UNWRAP_ITEM_S(...) ITEM_S __VA_ARGS__
- #define LIST_S_16(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12, L13, L14, L15, L16) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7), UNWRAP_ITEM_S(L8), UNWRAP_ITEM_S(L9), UNWRAP_ITEM_S(L10), UNWRAP_ITEM_S(L11), UNWRAP_ITEM_S(L12), UNWRAP_ITEM_S(L13), UNWRAP_ITEM_S(L14), UNWRAP_ITEM_S(L15), UNWRAP_ITEM_S(L16) }
- #define LIST_S_15(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12, L13, L14, L15) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7), UNWRAP_ITEM_S(L8), UNWRAP_ITEM_S(L9), UNWRAP_ITEM_S(L10), UNWRAP_ITEM_S(L11), UNWRAP_ITEM_S(L12), UNWRAP_ITEM_S(L13), UNWRAP_ITEM_S(L14), UNWRAP_ITEM_S(L15) }
- #define LIST_S_14(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12, L13, L14) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7), UNWRAP_ITEM_S(L8), UNWRAP_ITEM_S(L9), UNWRAP_ITEM_S(L10), UNWRAP_ITEM_S(L11), UNWRAP_ITEM_S(L12), UNWRAP_ITEM_S(L13), UNWRAP_ITEM_S(L14) }
- #define LIST_S_13(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12, L13) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7), UNWRAP_ITEM_S(L8), UNWRAP_ITEM_S(L9), UNWRAP_ITEM_S(L10), UNWRAP_ITEM_S(L11), UNWRAP_ITEM_S(L12), UNWRAP_ITEM_S(L13) }
- #define LIST_S_12(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7), UNWRAP_ITEM_S(L8), UNWRAP_ITEM_S(L9), UNWRAP_ITEM_S(L10), UNWRAP_ITEM_S(L11), UNWRAP_ITEM_S(L12) }
- #define LIST_S_11(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7), UNWRAP_ITEM_S(L8), UNWRAP_ITEM_S(L9), UNWRAP_ITEM_S(L10), UNWRAP_ITEM_S(L11) }
- #define LIST_S_10(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7), UNWRAP_ITEM_S(L8), UNWRAP_ITEM_S(L9), UNWRAP_ITEM_S(L10) }
- #define LIST_S_9(L1, L2, L3, L4, L5, L6, L7, L8, L9) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7), UNWRAP_ITEM_S(L8), UNWRAP_ITEM_S(L9) }
- #define LIST_S_8(L1, L2, L3, L4, L5, L6, L7, L8) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7), UNWRAP_ITEM_S(L8) }
- #define LIST_S_7(L1, L2, L3, L4, L5, L6, L7) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6), UNWRAP_ITEM_S(L7) }
- #define LIST_S_6(L1, L2, L3, L4, L5, L6) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5), UNWRAP_ITEM_S(L6) }
- #define LIST_S_5(L1, L2, L3, L4, L5) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4), UNWRAP_ITEM_S(L5) }
- #define LIST_S_4(L1, L2, L3, L4) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3), UNWRAP_ITEM_S(L4) }
- #define LIST_S_3(L1, L2, L3) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2), UNWRAP_ITEM_S(L3) }
- #define LIST_S_2(L1, L2) { UNWRAP_ITEM_S(L1), UNWRAP_ITEM_S(L2) }
- #define LIST_S_1(L1) { UNWRAP_ITEM_S(L1) }
- #define LIST_S_(N) LIST_S_##N
- #define LIST_S_EVAL(N) LIST_S_(N)
- #define UNWRAP_S_2(...) EXPAND( LIST_S_EVAL(EXPAND( PP_NARG(__VA_ARGS__) ))(__VA_ARGS__) )
- //#define UNWRAP_S_2(...) GET_MACRO(__VA_ARGS__, LIST_S_16, LIST_S_15, LIST_S_14, LIST_S_13, LIST_S_12, LIST_S_11, LIST_S_10, LIST_S_9, LIST_S_8, LIST_S_7, LIST_S_6, LIST_S_5, LIST_S_4, LIST_S_3, LIST_S_2, LIST_S_1)(__VA_ARGS__)
- #define InternalsS(L) I_(UNWRAP_S_2 L)
- #define ITEM_Sub(index, model) { index, model }
- #define UNWRAP_ITEM_Sub(...) ITEM_Sub __VA_ARGS__
- #define LIST_Sub_16(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12, L13, L14, L15, L16) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7), UNWRAP_ITEM_Sub(L8), UNWRAP_ITEM_Sub(L9), UNWRAP_ITEM_Sub(L10), UNWRAP_ITEM_Sub(L11), UNWRAP_ITEM_Sub(L12), UNWRAP_ITEM_Sub(L13), UNWRAP_ITEM_Sub(L14), UNWRAP_ITEM_Sub(L15), UNWRAP_ITEM_Sub(L16) }
- #define LIST_Sub_15(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12, L13, L14, L15) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7), UNWRAP_ITEM_Sub(L8), UNWRAP_ITEM_Sub(L9), UNWRAP_ITEM_Sub(L10), UNWRAP_ITEM_Sub(L11), UNWRAP_ITEM_Sub(L12), UNWRAP_ITEM_Sub(L13), UNWRAP_ITEM_Sub(L14), UNWRAP_ITEM_Sub(L15) }
- #define LIST_Sub_14(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12, L13, L14) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7), UNWRAP_ITEM_Sub(L8), UNWRAP_ITEM_Sub(L9), UNWRAP_ITEM_Sub(L10), UNWRAP_ITEM_Sub(L11), UNWRAP_ITEM_Sub(L12), UNWRAP_ITEM_Sub(L13), UNWRAP_ITEM_Sub(L14) }
- #define LIST_Sub_13(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12, L13) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7), UNWRAP_ITEM_Sub(L8), UNWRAP_ITEM_Sub(L9), UNWRAP_ITEM_Sub(L10), UNWRAP_ITEM_Sub(L11), UNWRAP_ITEM_Sub(L12), UNWRAP_ITEM_Sub(L13) }
- #define LIST_Sub_12(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11, L12) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7), UNWRAP_ITEM_Sub(L8), UNWRAP_ITEM_Sub(L9), UNWRAP_ITEM_Sub(L10), UNWRAP_ITEM_Sub(L11), UNWRAP_ITEM_Sub(L12) }
- #define LIST_Sub_11(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10, L11) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7), UNWRAP_ITEM_Sub(L8), UNWRAP_ITEM_Sub(L9), UNWRAP_ITEM_Sub(L10), UNWRAP_ITEM_Sub(L11) }
- #define LIST_Sub_10(L1, L2, L3, L4, L5, L6, L7, L8, L9, L10) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7), UNWRAP_ITEM_Sub(L8), UNWRAP_ITEM_Sub(L9), UNWRAP_ITEM_Sub(L10) }
- #define LIST_Sub_9(L1, L2, L3, L4, L5, L6, L7, L8, L9) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7), UNWRAP_ITEM_Sub(L8), UNWRAP_ITEM_Sub(L9) }
- #define LIST_Sub_8(L1, L2, L3, L4, L5, L6, L7, L8) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7), UNWRAP_ITEM_Sub(L8) }
- #define LIST_Sub_7(L1, L2, L3, L4, L5, L6, L7) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6), UNWRAP_ITEM_Sub(L7) }
- #define LIST_Sub_6(L1, L2, L3, L4, L5, L6) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5), UNWRAP_ITEM_Sub(L6) }
- #define LIST_Sub_5(L1, L2, L3, L4, L5) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4), UNWRAP_ITEM_Sub(L5) }
- #define LIST_Sub_4(L1, L2, L3, L4) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3), UNWRAP_ITEM_Sub(L4) }
- #define LIST_Sub_3(L1, L2, L3) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2), UNWRAP_ITEM_Sub(L3) }
- #define LIST_Sub_2(L1, L2) { UNWRAP_ITEM_Sub(L1), UNWRAP_ITEM_Sub(L2) }
- #define LIST_Sub_1(L1) { UNWRAP_ITEM_Sub(L1) }
- #define LIST_Sub_(N) LIST_Sub_##N
- #define LIST_Sub_EVAL(N) LIST_Sub_(N)
- #define UNWRAP_Sub_2(...) EXPAND( LIST_Sub_EVAL(EXPAND( PP_NARG(__VA_ARGS__) ))(__VA_ARGS__) )
- //#define UNWRAP_Sub_2(...) GET_MACRO(__VA_ARGS__, LIST_Sub_16, LIST_Sub_15, LIST_Sub_14, LIST_Sub_13, LIST_Sub_12, LIST_Sub_11, LIST_Sub_10, LIST_Sub_9, LIST_Sub_8, LIST_Sub_7, LIST_Sub_6, LIST_Sub_5, LIST_Sub_4, LIST_Sub_3, LIST_Sub_2, LIST_Sub_1)(__VA_ARGS__)
- #define Submodels(L) SM_(UNWRAP_Sub_2 L)
- }
- }
- #endif
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