source: src/Fragmentation/Interfragmenter.cpp@ 4464ef

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Last change on this file since 4464ef was d410e25, checked in by Frederik Heber <heber@…>, 9 years ago

Interfragmenter now access singleton AtomFragmentsMap.

  • i.e. we do not instantiate the map ourselves but assume that it has been filled elsewhere. We only receive a Graph ("TotalGraph") in order to add the additional fragments to it.
  • FragmentationAction fills the AtomFragmentsMap already before calling interfragmenter.
  • Property mode set to 100644
File size: 9.4 KB
Line 
1/*
2 * Project: MoleCuilder
3 * Description: creates and alters molecular systems
4 * Copyright (C) 2013 Frederik Heber. All rights reserved.
5 *
6 *
7 * This file is part of MoleCuilder.
8 *
9 * MoleCuilder is free software: you can redistribute it and/or modify
10 * it under the terms of the GNU General Public License as published by
11 * the Free Software Foundation, either version 2 of the License, or
12 * (at your option) any later version.
13 *
14 * MoleCuilder is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
17 * GNU General Public License for more details.
18 *
19 * You should have received a copy of the GNU General Public License
20 * along with MoleCuilder. If not, see <http://www.gnu.org/licenses/>.
21 */
22
23/*
24 * Interfragmenter.cpp
25 *
26 * Created on: Jul 5, 2013
27 * Author: heber
28 */
29
30// include config.h
31#ifdef HAVE_CONFIG_H
32#include <config.h>
33#endif
34
35#include "CodePatterns/MemDebug.hpp"
36
37#include "Interfragmenter.hpp"
38
39#include <algorithm>
40
41#include "CodePatterns/Assert.hpp"
42#include "CodePatterns/Log.hpp"
43
44#include "LinearAlgebra/Vector.hpp"
45
46#include "Descriptors/AtomDescriptor.hpp"
47#include "Element/element.hpp"
48#include "Fragmentation/Graph.hpp"
49#include "Fragmentation/KeySet.hpp"
50#include "LinkedCell/LinkedCell_View.hpp"
51#include "LinkedCell/types.hpp"
52#include "World.hpp"
53
54static Vector getAtomIdSetCenter(
55 const AtomIdSet &_atoms)
56{
57 const molecule * const _mol = (*_atoms.begin())->getMolecule();
58 const size_t atoms_size = _atoms.getAtomIds().size();
59 Vector center;
60 for (AtomIdSet::const_iterator iter = _atoms.begin();
61 iter != _atoms.end(); ++iter) {
62 center += (*iter)->getPosition();
63 ASSERT ( _mol == (*iter)->getMolecule(),
64 "getAtomIdSetCenter() - ids in same keyset belong to different molecule.");
65 }
66 center *= 1./(double)atoms_size;
67
68 return center;
69}
70
71Interfragmenter::candidates_t Interfragmenter::getNeighborsOutsideMolecule(
72 const AtomIdSet &_atoms,
73 double _Rcut,
74 const enum HydrogenTreatment _treatment) const
75{
76 /// go through linked cell and get all neighboring atoms up to Rcut
77 const LinkedCell::LinkedCell_View view = World::getInstance().getLinkedCell(_Rcut);
78 const Vector center = getAtomIdSetCenter(_atoms);
79 const LinkedCell::LinkedList neighbors = view.getAllNeighbors(_Rcut, center);
80 LOG(4, "DEBUG: Obtained " << neighbors.size() << " neighbors in distance of "
81 << _Rcut << " around " << center << ".");
82
83 /// remove all atoms that belong to same molecule as does one of the
84 /// fragment's atoms
85 const molecule * const _mol = (*_atoms.begin())->getMolecule();
86 candidates_t candidates;
87 candidates.reserve(neighbors.size());
88 for (LinkedCell::LinkedList::const_iterator iter = neighbors.begin();
89 iter != neighbors.end(); ++iter) {
90 const atom * const _atom = static_cast<const atom * const >(*iter);
91 ASSERT( _atom != NULL,
92 "Interfragmenter::getNeighborsOutsideMolecule() - a neighbor is not actually an atom?");
93 if ((_atom->getMolecule() != _mol)
94 && (_atom->getPosition().DistanceSquared(center) < _Rcut*_Rcut)
95 && ((_treatment == IncludeHydrogen) || (_atom->getType()->getAtomicNumber() != 1))) {
96 candidates.push_back(_atom);
97 }
98 }
99 LOG(3, "DEBUG: There remain " << candidates.size() << " candidates.");
100
101 return candidates;
102}
103
104void Interfragmenter::combineFragments(
105 const size_t _MaxOrder,
106 const candidates_t &_candidates,
107 const atomkeyset_t &_fragmentmap,
108 const KeySet &_keyset,
109 Graph &_InterFragments,
110 int &_counter)
111{
112 for (candidates_t::const_iterator candidateiter = _candidates.begin();
113 candidateiter != _candidates.end(); ++candidateiter) {
114 const atom *_atom = *candidateiter;
115 LOG(3, "DEBUG: Current candidate is " << *_atom << ".");
116 atomkeyset_t::const_iterator finditer = _fragmentmap.find(_atom->getId());
117 ASSERT( finditer != _fragmentmap.end(),
118 "Interfragmenter::combineFragments() - could not find atom "
119 +toString(_atom->getId())+" in fragment specific lookup.");
120 // copy set to allow erase
121 keysets_t othersets(finditer->second);
122 ASSERT( !othersets.empty(),
123 "Interfragmenter::combineFragments() - keysets to "+toString(_atom->getId())+
124 "is empty.");
125 keysets_t::iterator otheriter = othersets.begin();
126 while (otheriter != othersets.end()) {
127 const KeySet &otherset = *otheriter;
128 LOG(3, "DEBUG: Current keyset is " << otherset << ".");
129 // only add them one way round and not the other
130 if (otherset < _keyset) {
131 ++otheriter;
132 continue;
133 }
134 // only add if combined they don't exceed the desired maxorder
135 if (otherset.size() + _keyset.size() > _MaxOrder) {
136 LOG(3, "INFO: Rejecting " << otherset << " as in sum their orders exceed " << _MaxOrder);
137 ++otheriter;
138 continue;
139 }
140 KeySet newset(otherset);
141 newset.insert(_keyset.begin(), _keyset.end());
142 LOG(3, "DEBUG: Inserting new combined set " << newset << ".");
143 _InterFragments.insert( std::make_pair(newset, std::make_pair(++_counter, 1.)));
144 // finally, remove the set such that no other combination exists
145 otheriter = othersets.erase(otheriter);
146 }
147 }
148}
149
150void Interfragmenter::operator()(
151 Graph &TotalGraph,
152 const size_t MaxOrder,
153 const double Rcut,
154 const enum HydrogenTreatment treatment)
155{
156 AtomFragmentsMap& atomfragments_container = AtomFragmentsMap::getInstance();
157 const atomkeyset_t &atomkeyset = atomfragments_container.getMap();
158
159 Graph InterFragments;
160 int counter = atomkeyset.size();
161
162 /// go through all fragments up to MaxOrder
163 LOG(1, "INFO: Creating inter-fragments.");
164 for (atomkeyset_t::const_iterator atomiter = atomkeyset.begin();
165 atomiter != atomkeyset.end(); ++atomiter) {
166 const atomId_t &atomid = atomiter->first;
167 LOG(2, "DEBUG: Current atomid is " << atomid);
168
169 const AtomFragmentsMap::keysets_t &keysets = atomiter->second;
170 for (AtomFragmentsMap::keysets_t::const_iterator keyiter = keysets.begin();
171 keyiter != keysets.end(); ++keyiter) {
172 const KeySet &keyset = *keyiter;
173 const AtomIdSet atoms(keyset);
174 const size_t atoms_size = atoms.getAtomIds().size();
175 if ((atoms_size > MaxOrder) || (atoms_size == 0))
176 continue;
177
178 // get neighboring atoms outside the current molecule
179 candidates_t candidates = getNeighborsOutsideMolecule(atoms, Rcut, treatment);
180
181 // create a lookup specific to this fragment
182 std::vector<atomId_t> atomids(candidates.size());
183 std::transform(
184 candidates.begin(), candidates.end(),
185 atomids.begin(),
186 boost::bind(&atom::getId, _1));
187 atomkeyset_t fragmentmap = atomfragments_container.getMap(atomids, MaxOrder);
188
189 /// combine each remaining fragment with current fragment to a new fragment
190 /// if keyset is less (to prevent addding same inter-fragment twice)
191 combineFragments(MaxOrder, candidates, fragmentmap, keyset, InterFragments, counter);
192 }
193 }
194
195 /// eventually, add all new fragments to the Graph
196 counter = atomkeyset.size();
197 TotalGraph.InsertGraph(InterFragments, counter);
198}
199
200double Interfragmenter::findLargestCutoff(
201 const size_t _MaxOrder,
202 const double _upperbound,
203 const enum HydrogenTreatment _treatment) const
204{
205 double Rcut = _upperbound*_upperbound;
206 std::pair<atomId_t, atomId_t> ClosestPair;
207 // place all atoms into LC grid with some upper bound
208 const LinkedCell::LinkedCell_View view = World::getInstance().getLinkedCell(_upperbound);
209
210 // go through each atom and find closest atom not in the same keyset
211 AtomFragmentsMap& atomfragments_container = AtomFragmentsMap::getInstance();
212 const atomkeyset_t &atomkeyset = atomfragments_container.getMap();
213 for (atomkeyset_t::const_iterator atomiter = atomkeyset.begin();
214 atomiter != atomkeyset.end(); ++atomiter) {
215 const atomId_t &atomid = atomiter->first;
216 LOG(2, "DEBUG: Current atomid is " << atomid);
217
218 const AtomFragmentsMap::keysets_t &keysets = atomiter->second;
219 for (AtomFragmentsMap::keysets_t::const_iterator keyiter = keysets.begin();
220 keyiter != keysets.end(); ++keyiter) {
221 const KeySet &keyset = *keyiter;
222 const AtomIdSet atoms(keyset);
223
224 // get neighboring atoms outside the current molecule
225 const candidates_t candidates = getNeighborsOutsideMolecule(atoms, _upperbound, _treatment);
226 const Vector center = getAtomIdSetCenter(atoms);
227
228 for (candidates_t::const_iterator candidateiter = candidates.begin();
229 candidateiter != candidates.end(); ++candidateiter) {
230 atom const * const Walker = *candidateiter;
231 // go through each atom in set and pick minimal distance
232 for (AtomIdSet::const_iterator setiter = atoms.begin(); setiter != atoms.end(); ++setiter) {
233 const double distanceSquared = Walker->getPosition().DistanceSquared(center);
234 // pick the smallest compared to current Rcut if smaller
235 if (distanceSquared < Rcut) {
236 Rcut = distanceSquared;
237 ClosestPair.first = (*setiter)->getId();
238 ClosestPair.second = Walker->getId();
239 LOG(2, "DEBUG: Found new pair " << ClosestPair << " with distance " << sqrt(Rcut));
240 }
241 }
242 }
243 }
244 }
245 const double largest_distance = sqrt(Rcut);
246 LOG(1, "INFO: Largest inter-fragment distance to cause no additional fragments: "
247 << largest_distance);
248
249 return largest_distance;
250}
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