ParticlesTemp CHARMMStereochemistryRestraint::get_input_particles() const { ParticlesTemp ps; for (Particles::const_iterator b = bonds_.begin(); b != bonds_.end(); ++b) { ps.push_back(*b); ParticlesTemp bps = bond_score_->get_input_particles(*b); ps.insert(ps.end(), bps.begin(), bps.end()); } for (Particles::const_iterator a = angles_.begin(); a != angles_.end(); ++a) { ps.push_back(*a); ParticlesTemp bps = angle_score_->get_input_particles(*a); ps.insert(ps.end(), bps.begin(), bps.end()); } for (Particles::const_iterator d = dihedrals_.begin(); d != dihedrals_.end(); ++d) { ps.push_back(*d); ParticlesTemp bps = dihedral_score_->get_input_particles(*d); ps.insert(ps.end(), bps.begin(), bps.end()); } for (Particles::const_iterator i = impropers_.begin(); i != impropers_.end(); ++i) { ps.push_back(*i); ParticlesTemp bps = improper_score_->get_input_particles(*i); ps.insert(ps.end(), bps.begin(), bps.end()); } return ps; }
void MolecularDynamics::assign_velocities(Float temperature) { ParticleIndexes ips = get_simulation_particle_indexes(); setup_degrees_of_freedom(ips); ParticlesTemp ps = IMP::internal::get_particle(get_model(), ips); boost::normal_distribution<Float> mrng(0., 1.); boost::variate_generator<RandomNumberGenerator &, boost::normal_distribution<Float> > sampler(random_number_generator, mrng); for (ParticlesTemp::iterator iter = ps.begin(); iter != ps.end(); ++iter) { Particle *p = *iter; LinearVelocity(p).set_velocity(algebra::Vector3D(sampler(), sampler(), sampler())); } Float rescale = sqrt(temperature / get_kinetic_temperature(get_kinetic_energy())); for (ParticlesTemp::iterator iter = ps.begin(); iter != ps.end(); ++iter) { Particle *p = *iter; LinearVelocity v(p); algebra::Vector3D velocity = v.get_velocity(); velocity *= rescale; v.set_velocity(velocity); } }
IMPCORE_BEGIN_NAMESPACE MoveStatisticsScoreState::MoveStatisticsScoreState( const ParticlesTemp &ps) : ScoreState(ps[0]->get_model(), "MoveStatisticsScoreState%1%"), ps_(ps.begin(), ps.end()) { reset(); }
Subset RestraintCache::get_subset(Restraint *r, const DepMap &dependencies) const { ParticlesTemp ups = IMP::get_input_particles(r->get_inputs()); std::sort(ups.begin(), ups.end()); ups.erase(std::unique(ups.begin(), ups.end()), ups.end()); ParticlesTemp outps; for (unsigned int i = 0; i < ups.size(); ++i) { DepMap::const_iterator it = dependencies.find(ups[i]); if (it != dependencies.end()) { outps = outps + it->second; } } std::sort(outps.begin(), outps.end()); outps.erase(std::unique(outps.begin(), outps.end()), outps.end()); return Subset(outps); }
InteractionGraph get_interaction_graph(ScoringFunctionAdaptor rsi, const ParticlesTemp &ps) { if (ps.empty()) return InteractionGraph(); InteractionGraph ret(ps.size()); Restraints rs = create_decomposition(rsi->create_restraints()); // Model *m= ps[0]->get_model(); boost::unordered_map<ModelObject *, int> map; InteractionGraphVertexName pm = boost::get(boost::vertex_name, ret); DependencyGraph dg = get_dependency_graph(ps[0]->get_model()); DependencyGraphVertexIndex index = IMP::get_vertex_index(dg); /*IMP_IF_LOG(VERBOSE) { IMP_LOG_VERBOSE( "dependency graph is \n"); IMP::internal::show_as_graphviz(dg, std::cout); }*/ for (unsigned int i = 0; i < ps.size(); ++i) { ParticlesTemp t = get_dependent_particles( ps[i], ParticlesTemp(ps.begin(), ps.end()), dg, index); for (unsigned int j = 0; j < t.size(); ++j) { IMP_USAGE_CHECK(map.find(t[j]) == map.end(), "Currently particles which depend on more " << "than one particle " << "from the input set are not supported." << " Particle \"" << t[j]->get_name() << "\" depends on \"" << ps[i]->get_name() << "\" and \"" << ps[map.find(t[j])->second]->get_name() << "\""); map[t[j]] = i; } IMP_IF_LOG(VERBOSE) { IMP_LOG_VERBOSE("Particle \"" << ps[i]->get_name() << "\" controls "); for (unsigned int i = 0; i < t.size(); ++i) { IMP_LOG_VERBOSE("\"" << t[i]->get_name() << "\" "); } IMP_LOG_VERBOSE(std::endl); } pm[i] = ps[i]; } IMP::Restraints all_rs = IMP::get_restraints(rs); for (Restraints::const_iterator it = all_rs.begin(); it != all_rs.end(); ++it) { ModelObjectsTemp pl = (*it)->get_inputs(); add_edges(ps, pl, map, *it, ret); } /* Make sure that composite score states (eg the normalizer for rigid body rotations) don't induce interactions among unconnected particles.*/ ScoreStatesTemp ss = get_required_score_states(rs); for (ScoreStatesTemp::const_iterator it = ss.begin(); it != ss.end(); ++it) { ModelObjectsTemps interactions = (*it)->get_interactions(); for (unsigned int i = 0; i < interactions.size(); ++i) { add_edges(ps, interactions[i], map, *it, ret); } } IMP_INTERNAL_CHECK(boost::num_vertices(ret) == ps.size(), "Wrong number of vertices " << boost::num_vertices(ret) << " vs " << ps.size()); return ret; }
IMPATOM_BEGIN_NAMESPACE RemoveRigidMotionOptimizerState::RemoveRigidMotionOptimizerState( const ParticlesTemp &pis, unsigned skip_steps) : pis_(pis.begin(), pis.end()), skip_steps_(skip_steps), call_number_(0) { vs_[0] = FloatKey("vx"); vs_[1] = FloatKey("vy"); vs_[2] = FloatKey("vz"); }
const ParticlesTemp RigidLeavesRefiner::get_refined(Particle *p) const { ParticlesTemp members = core::RigidBody(p).get_rigid_members(); ParticlesTemp ret; for (ParticlesTemp::const_iterator it = members.begin(); it != members.end(); ++it) { if (atom::Hierarchy::get_is_setup(*it) && atom::Hierarchy(*it).get_number_of_children() == 0) { ret.push_back(*it); } } return ret; }
Float MolecularDynamics::get_kinetic_energy() const { // Conversion factor to get energy in kcal/mol from velocities in A/fs and // mass in g/mol static const Float conversion = 1.0 / 4.1868e-4; Float ekinetic = 0.; ParticlesTemp ps = get_simulation_particles(); for (ParticlesTemp::iterator iter = ps.begin(); iter != ps.end(); ++iter) { Particle *p = *iter; algebra::Vector3D v = LinearVelocity(p).get_velocity(); Float mass = Mass(p).get_mass(); ekinetic += mass * (v[0] * v[0] + v[1] * v[1] + v[2] * v[2]); } return 0.5 * ekinetic * conversion; }
ExampleSubsetFilterTable::ExampleSubsetFilterTable( unsigned int max_diff, const ParticlesTemp& ps) : domino::SubsetFilterTable("ExampleSubsetFilterTable%1%"), max_diff_(max_diff), ps_(ps.begin(), ps.end()) {}
SubsetGraph get_restraint_graph(ScoringFunctionAdaptor in, const ParticleStatesTable *pst) { RestraintsTemp rs = IMP::create_decomposition(in->create_restraints()); // ScoreStatesTemp ss= get_required_score_states(rs); SubsetGraph ret(rs.size()); // + ss.size()); IMP_LOG_TERSE("Creating restraint graph on " << rs.size() << " restraints." << std::endl); boost::unordered_map<Particle *, int> map; SubsetGraphVertexName pm = boost::get(boost::vertex_name, ret); DependencyGraph dg = get_dependency_graph(rs[0]->get_model()); DependencyGraphVertexIndex index = IMP::get_vertex_index(dg); /*IMP_IF_LOG(VERBOSE) { IMP_LOG_VERBOSE( "dependency graph is \n"); IMP::internal::show_as_graphviz(dg, std::cout); }*/ Subset ps = pst->get_subset(); for (unsigned int i = 0; i < ps.size(); ++i) { ParticlesTemp t = get_dependent_particles( ps[i], ParticlesTemp(ps.begin(), ps.end()), dg, index); for (unsigned int j = 0; j < t.size(); ++j) { IMP_USAGE_CHECK(map.find(t[j]) == map.end(), "Currently particles which depend on more " << "than one particle " << "from the input set are not supported." << " Particle \"" << t[j]->get_name() << "\" depends on \"" << ps[i]->get_name() << "\" and \"" << ps[map.find(t[j])->second]->get_name() << "\""); map[t[j]] = i; } IMP_IF_LOG(VERBOSE) { IMP_LOG_VERBOSE("Particle \"" << ps[i]->get_name() << "\" controls "); for (unsigned int i = 0; i < t.size(); ++i) { IMP_LOG_VERBOSE("\"" << t[i]->get_name() << "\" "); } IMP_LOG_VERBOSE(std::endl); } } for (unsigned int i = 0; i < rs.size(); ++i) { ParticlesTemp pl = IMP::get_input_particles(rs[i]->get_inputs()); std::sort(pl.begin(), pl.end()); pl.erase(std::unique(pl.begin(), pl.end()), pl.end()); Subset os(pl); for (unsigned int j = 0; j < pl.size(); ++j) { pl[j] = ps[map[pl[j]]]; } std::sort(pl.begin(), pl.end()); pl.erase(std::unique(pl.begin(), pl.end()), pl.end()); Subset s(pl); IMP_LOG_VERBOSE("Subset for restraint " << rs[i]->get_name() << " is " << s << " from " << os << std::endl); pm[i] = s; } /*ScoreStatesTemp ss= get_required_score_states(rs); for (ScoreStatesTemp::const_iterator it= ss.begin(); it != ss.end(); ++it) { ParticlesTemp pl= (*it)->get_input_particles(); add_edges(ps, pl, map, *it, ret); ParticlesTemp opl= (*it)->get_output_particles(); add_edges(ps, opl, map, *it, ret); } IMP_INTERNAL_CHECK(boost::num_vertices(ret) == ps.size(), "Wrong number of vertices " << boost::num_vertices(ret) << " vs " << ps.size());*/ for (unsigned int i = 0; i < boost::num_vertices(ret); ++i) { for (unsigned int j = 0; j < i; ++j) { if (get_intersection(pm[i], pm[j]).size() > 0) { boost::add_edge(i, j, ret); IMP_LOG_VERBOSE("Connecting " << rs[i]->get_name() << " with " << rs[j]->get_name() << std::endl); } } } return ret; }
void CoreClosePairContainer::check_duplicates_input() const { ParticlesTemp ps = c_->get_particles(); std::sort(ps.begin(), ps.end()); IMP_USAGE_CHECK(std::unique(ps.begin(), ps.end()) == ps.end(), "Duplicates in input"); }