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IMP Reference Guide
2.16.0
The Integrative Modeling Platform
IMP Manual
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include
IMP
version 2.16.0
singleton_macros.h
Go to the documentation of this file.
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// Autogenerated by ../../../../tmp/nightly-build-315/imp-2.16.0/tools/build/make_containers.py
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// from ../../../../tmp/nightly-build-315/imp-2.16.0/tools/build/container_templates/kernel/classname_macros.h
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// Do not edit - any changes will be lost!
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/**
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* \file IMP/singleton_macros.h
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* \brief Macros for various classes.
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*
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* Copyright 2007-2021 IMP Inventors. All rights reserved.
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*/
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#ifndef IMPKERNEL_SINGLETON_MACROS_H
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#define IMPKERNEL_SINGLETON_MACROS_H
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#include "internal/TupleRestraint.h"
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#include "internal/functors.h"
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#include "
container_macros.h
"
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#include <
IMP/object_macros.h
>
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#include <algorithm>
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/** Define
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- IMP::SingletonScore::evaluate_indexes()
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- IMP::SingletonScore::evaluate_if_good_indexes()
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*/
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#define IMP_SINGLETON_SCORE_METHODS(Name) \
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double evaluate_indexes(Model *m, const ParticleIndexes &p, \
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DerivativeAccumulator *da, unsigned int lower_bound, \
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unsigned int upper_bound) \
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const IMP_OVERRIDE IMP_FINAL { \
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double ret = 0; \
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for (unsigned int i = lower_bound; i < upper_bound; ++i) { \
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ret += evaluate_index(m, p[i], da); \
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} \
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return ret; \
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} \
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double evaluate_indexes_scores( \
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Model *m, const ParticleIndexes &p, \
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DerivativeAccumulator *da, unsigned int lower_bound, \
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unsigned int upper_bound, \
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std::vector<double> &score) \
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const IMP_OVERRIDE IMP_FINAL { \
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double ret = 0; \
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for (unsigned int i = lower_bound; i < upper_bound; ++i) { \
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double s = evaluate_index(m, p[i], da); \
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score[i] = s; \
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ret += s; \
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} \
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return ret; \
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} \
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double evaluate_indexes_delta( \
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Model *m, const ParticleIndexes &p, \
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DerivativeAccumulator *da, \
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const std::vector<unsigned> &indexes, \
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std::vector<double> &score) \
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const IMP_OVERRIDE IMP_FINAL { \
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double ret = 0; \
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for (std::vector<unsigned>::const_iterator it = indexes.begin(); \
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it != indexes.end(); ++it) { \
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double s = evaluate_index(m, p[*it], da); \
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ret = ret - score[*it] + s; \
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score[*it] = s; \
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} \
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return ret; \
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} \
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double evaluate_if_good_indexes( \
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Model *m, const ParticleIndexes &p, DerivativeAccumulator *da, \
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double max, unsigned int lower_bound, \
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unsigned int upper_bound) const IMP_OVERRIDE { \
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double ret = 0; \
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for (unsigned int i = lower_bound; i < upper_bound; ++i) { \
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ret += evaluate_if_good_index(m, p[i], da, max - ret); \
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if (ret > max) return std::numeric_limits<double>::max(); \
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} \
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return ret; \
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}
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//! Define extra the functions needed for a SingletonPredicate
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#define IMP_SINGLETON_PREDICATE_METHODS(Name) \
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int get_value(Particle* a) const { \
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return get_value_index(IMP::internal::get_model(a), \
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IMP::internal::get_index(a)); \
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} \
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Ints get_value(const ParticlesTemp &o) const { \
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Ints ret(o.size()); \
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for (unsigned int i = 0; i < o.size(); ++i) { \
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ret[i] += Name::get_value(o[i]); \
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} \
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return ret; \
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} \
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Ints get_value_index(Model *m, const ParticleIndexes &o) const IMP_OVERRIDE {\
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Ints ret(o.size()); \
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for (unsigned int i = 0; i < o.size(); ++i) { \
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ret[i] += Name::get_value_index(m, o[i]); \
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} \
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return ret; \
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} \
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IMP_IMPLEMENT_INLINE_NO_SWIG( \
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void remove_if_equal(Model *m, ParticleIndexes &ps, \
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int value) const, \
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{ \
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ps.erase( \
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std::remove_if(ps.begin(), ps.end(), \
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IMP::internal::PredicateEquals<Name, true>( \
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this, m, value)), \
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ps.end()); \
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}); \
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IMP_IMPLEMENT_INLINE_NO_SWIG(void remove_if_not_equal(Model *m, \
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ParticleIndexes &ps, \
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int value) const, \
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{ \
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ps.erase( \
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std::remove_if(ps.begin(), ps.end(), \
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IMP::internal::PredicateEquals<Name, false>( \
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this, m, value)), \
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ps.end()); \
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});
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//! Use IMP_SINGLETON_MODIFIER() instead
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#define IMP_SINGLETON_DERIVATIVE_MODIFIER(Name) IMP_SINGLETON_MODIFIER(Name)
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/** Define
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- IMP::SingletonModifier::apply_indexes()
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*/
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#define IMP_SINGLETON_MODIFIER_METHODS(Name) \
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virtual void apply_indexes(Model *m, const ParticleIndexes &o, \
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unsigned int lower_bound, \
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unsigned int upper_bound) \
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const IMP_OVERRIDE IMP_FINAL { \
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for (unsigned int i = lower_bound; i < upper_bound; ++i) { \
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apply_index(m, o[i]); \
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} \
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}
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//! Use IMP_INDEX_SINGLETON_MODIFIER instead
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#define IMP_INDEX_SINGLETON_DERIVATIVE_MODIFIER(Name) \
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IMP_INDEX_SINGLETON_MODIFIER(Name)
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#ifndef IMP_DOXYGEN
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#define IMP_IMPLEMENT_SINGLETON_CONTAINER(Name) \
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IMP_IMPLEMENT_INLINE(void do_apply(const SingletonModifier *sm) const, \
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{ apply_generic(sm); }); \
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IMP_IMPLEMENT_INLINE(void do_apply_moved(const SingletonModifier *sm, \
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const ParticleIndexes &moved_pis, \
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const ParticleIndexes &reset_pis) const, \
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{ apply_generic_moved(sm, moved_pis, reset_pis); }); \
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virtual ParticleIndexes get_all_possible_indexes() const IMP_OVERRIDE; \
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IMP_OBJECT_METHODS(Name)
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#endif
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/** Use this to fill in container methods
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IMP::SingletonContainer::do_apply()
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IMP::SingletonContainer::do_apply_moved()
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*/
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#define IMP_SINGLETON_CONTAINER_METHODS(Name) \
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void do_apply(const SingletonModifier *sm) const IMP_OVERRIDE { \
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apply_generic(sm); } \
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void do_apply_moved(const SingletonModifier *sm, \
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const ParticleIndexes &moved_pis, \
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const ParticleIndexes &reset_pis) const IMP_OVERRIDE { \
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apply_generic_moved(sm, moved_pis, reset_pis); }
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#endif
/* IMPKERNEL_SINGLETON_MACROS_H */
object_macros.h
Helper macros for implementing IMP Objects.
container_macros.h
Macros to define containers of objects.