source: src/MoleculeLeafClass.cpp@ 52575c

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Last change on this file since 52575c was 0aa122, checked in by Frederik Heber <heber@…>, 13 years ago

Updated all source files's copyright note to current year 2012.

  • Property mode set to 100644
File size: 9.3 KB
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1/*
2 * Project: MoleCuilder
3 * Description: creates and alters molecular systems
4 * Copyright (C) 2010-2012 University of Bonn. All rights reserved.
5 * Please see the LICENSE file or "Copyright notice" in builder.cpp for details.
6 */
7
8/*
9 * MoleculeLeafClass.cpp
10 *
11 * Created on: Oct 20, 2011
12 * Author: heber
13 */
14
15// include config.h
16#ifdef HAVE_CONFIG_H
17#include <config.h>
18#endif
19
20#include "CodePatterns/MemDebug.hpp"
21
22#include "MoleculeLeafClass.hpp"
23
24#include "CodePatterns/Log.hpp"
25
26#include "Atom/atom.hpp"
27#include "Element/element.hpp"
28#include "Fragmentation/Graph.hpp"
29#include "Fragmentation/KeySet.hpp"
30#include "molecule.hpp"
31
32/** Constructor for MoleculeLeafClass root leaf.
33 * \param *Up Leaf on upper level
34 * \param *PreviousLeaf NULL - We are the first leaf on this level, otherwise points to previous in list
35 */
36//MoleculeLeafClass::MoleculeLeafClass(MoleculeLeafClass *Up = NULL, MoleculeLeafClass *Previous = NULL)
37MoleculeLeafClass::MoleculeLeafClass(MoleculeLeafClass *PreviousLeaf = NULL) :
38 Leaf(NULL),
39 previous(PreviousLeaf)
40{
41 // if (Up != NULL)
42 // if (Up->DownLeaf == NULL) // are we the first down leaf for the upper leaf?
43 // Up->DownLeaf = this;
44 // UpLeaf = Up;
45 // DownLeaf = NULL;
46 if (previous != NULL) {
47 MoleculeLeafClass *Walker = previous->next;
48 previous->next = this;
49 next = Walker;
50 } else {
51 next = NULL;
52 }
53};
54
55/** Destructor for MoleculeLeafClass.
56 */
57MoleculeLeafClass::~MoleculeLeafClass()
58{
59 // if (DownLeaf != NULL) {// drop leaves further down
60 // MoleculeLeafClass *Walker = DownLeaf;
61 // MoleculeLeafClass *Next;
62 // do {
63 // Next = Walker->NextLeaf;
64 // delete(Walker);
65 // Walker = Next;
66 // } while (Walker != NULL);
67 // // Last Walker sets DownLeaf automatically to NULL
68 // }
69 // remove the leaf itself
70 if (Leaf != NULL) {
71 Leaf->removeAtomsinMolecule();
72 World::getInstance().destroyMolecule(Leaf);
73 Leaf = NULL;
74 }
75 // remove this Leaf from level list
76 if (previous != NULL)
77 previous->next = next;
78 // } else { // we are first in list (connects to UpLeaf->DownLeaf)
79 // if ((NextLeaf != NULL) && (NextLeaf->UpLeaf == NULL))
80 // NextLeaf->UpLeaf = UpLeaf; // either null as we are top level or the upleaf of the first node
81 // if (UpLeaf != NULL)
82 // UpLeaf->DownLeaf = NextLeaf; // either null as we are only leaf or NextLeaf if we are just the first
83 // }
84 // UpLeaf = NULL;
85 if (next != NULL) // are we last in list
86 next->previous = previous;
87 next = NULL;
88 previous = NULL;
89};
90
91/** Adds \a molecule leaf to the tree.
92 * \param *ptr ptr to molecule to be added
93 * \param *Previous previous MoleculeLeafClass referencing level and which on the level
94 * \return true - success, false - something went wrong
95 */
96bool MoleculeLeafClass::AddLeaf(molecule *ptr, MoleculeLeafClass *Previous)
97{
98 return false;
99};
100
101/** Fills the root stack for sites to be used as root in fragmentation depending on order or adaptivity criteria
102 * Again, as in \sa FillBondStructureFromReference steps recursively through each Leaf in this chain list of molecule's.
103 * \param *out output stream for debugging
104 * \param *&RootStack stack to be filled
105 * \param *AtomMask defines true/false per global Atom::Nr to mask in/out each nuclear site
106 * \param &FragmentCounter counts through the fragments in this MoleculeLeafClass
107 * \param saturation whether to treat hydrogen special or not
108 * \return true - stack is non-empty, fragmentation necessary, false - stack is empty, no more sites to update
109 */
110bool MoleculeLeafClass::FillRootStackForSubgraphs(KeyStack *&RootStack, bool *AtomMask, int &FragmentCounter, const enum HydrogenSaturation saturation)
111{
112 if (RootStack != NULL) {
113 // find first root candidates
114 if (&(RootStack[FragmentCounter]) != NULL) {
115 RootStack[FragmentCounter].clear();
116 for(molecule::const_iterator iter = Leaf->begin(); iter != Leaf->end(); ++iter) {
117 const atom * const Father = (*iter)->GetTrueFather();
118 if (AtomMask[Father->getNr()]) // apply mask
119 if ((saturation == DontSaturate) || ((*iter)->getType()->getAtomicNumber() != 1)) // skip hydrogen
120 RootStack[FragmentCounter].push_front((*iter)->getNr());
121 }
122 if (next != NULL)
123 next->FillRootStackForSubgraphs(RootStack, AtomMask, ++FragmentCounter, saturation);
124 } else {
125 LOG(1, "Rootstack[" << FragmentCounter << "] is NULL.");
126 return false;
127 }
128 FragmentCounter--;
129 return true;
130 } else {
131 LOG(1, "Rootstack is NULL.");
132 return false;
133 }
134};
135
136/** The indices per keyset are compared to the respective father's Atom::Nr in each subgraph and thus put into \a **&FragmentList.
137 * \param *out output stream fro debugging
138 * \param *reference reference molecule with the bond structure to be copied
139 * \param *KeySetList list with all keysets
140 * \param ***ListOfLocalAtoms Lookup table for each subgraph and index of each atom in global molecule, may be NULL on start, then it is filled
141 * \param **&FragmentList list to be allocated and returned
142 * \param &FragmentCounter counts the fragments as we move along the list
143 * \param FreeList true - ***ListOfLocalAtoms is free'd before return, false - it is not
144 * \retuen true - success, false - failure
145 */
146bool MoleculeLeafClass::AssignKeySetsToFragment(molecule *reference, Graph *KeySetList, atom ***&ListOfLocalAtoms, Graph **&FragmentList, int &FragmentCounter, bool FreeList)
147{
148 bool status = true;
149 int KeySetCounter = 0;
150
151 LOG(1, "Begin of AssignKeySetsToFragment.");
152 // fill ListOfLocalAtoms if NULL was given
153 if (!Leaf->FillListOfLocalAtoms(ListOfLocalAtoms[FragmentCounter], reference->getAtomCount())) {
154 LOG(1, "Filling of ListOfLocalAtoms failed.");
155 return false;
156 }
157
158 // allocate fragment list
159 if (FragmentList == NULL) {
160 KeySetCounter = Count();
161 FragmentList = new Graph*[KeySetCounter];
162 for (int i=0;i<KeySetCounter;i++)
163 FragmentList[i] = NULL;
164 KeySetCounter = 0;
165 }
166
167 if ((KeySetList != NULL) && (KeySetList->size() != 0)) { // if there are some scanned keysets at all
168 // assign scanned keysets
169 if (FragmentList[FragmentCounter] == NULL)
170 FragmentList[FragmentCounter] = new Graph;
171 KeySet *TempSet = new KeySet;
172 for (Graph::iterator runner = KeySetList->begin(); runner != KeySetList->end(); runner++) { // key sets contain global numbers!
173 if (ListOfLocalAtoms[FragmentCounter][reference->FindAtom(*((*runner).first.begin()))->getNr()] != NULL) {// as we may assume that that bond structure is unchanged, we only test the first key in each set
174 // translate keyset to local numbers
175 for (KeySet::iterator sprinter = (*runner).first.begin(); sprinter != (*runner).first.end(); sprinter++)
176 TempSet->insert(ListOfLocalAtoms[FragmentCounter][reference->FindAtom(*sprinter)->getNr()]->getNr());
177 // insert into FragmentList
178 FragmentList[FragmentCounter]->insert(GraphPair(*TempSet, pair<int, double> (KeySetCounter++, (*runner).second.second)));
179 }
180 TempSet->clear();
181 }
182 delete (TempSet);
183 if (KeySetCounter == 0) {// if there are no keysets, delete the list
184 LOG(1, "KeySetCounter is zero, deleting FragmentList.");
185 delete (FragmentList[FragmentCounter]);
186 } else
187 LOG(1, KeySetCounter << " keysets were assigned to subgraph " << FragmentCounter << ".");
188 FragmentCounter++;
189 if (next != NULL)
190 next->AssignKeySetsToFragment(reference, KeySetList, ListOfLocalAtoms, FragmentList, FragmentCounter, FreeList);
191 FragmentCounter--;
192 } else
193 LOG(1, "KeySetList is NULL or empty.");
194
195 if ((FreeList) && (ListOfLocalAtoms != NULL)) {
196 // free the index lookup list
197 delete[](ListOfLocalAtoms[FragmentCounter]);
198 }
199 LOG(1, "End of AssignKeySetsToFragment.");
200 return status;
201};
202
203/** Translate list into global numbers (i.e. ones that are valid in "this" molecule, not in MolecularWalker->Leaf)
204 * \param *out output stream for debugging
205 * \param **FragmentList Graph with local numbers per fragment
206 * \param &FragmentCounter counts the fragments as we move along the list
207 * \param &TotalNumberOfKeySets global key set counter
208 * \param &TotalGraph Graph to be filled with global numbers
209 */
210void MoleculeLeafClass::TranslateIndicesToGlobalIDs(Graph **FragmentList, int &FragmentCounter, int &TotalNumberOfKeySets, Graph &TotalGraph)
211{
212 LOG(1, "Begin of TranslateIndicesToGlobalIDs.");
213 KeySet *TempSet = new KeySet;
214 if (FragmentList[FragmentCounter] != NULL) {
215 for (Graph::iterator runner = FragmentList[FragmentCounter]->begin(); runner != FragmentList[FragmentCounter]->end(); runner++) {
216 for (KeySet::iterator sprinter = (*runner).first.begin(); sprinter != (*runner).first.end(); sprinter++)
217 TempSet->insert((Leaf->FindAtom(*sprinter))->GetTrueFather()->getNr());
218 TotalGraph.insert(GraphPair(*TempSet, pair<int, double> (TotalNumberOfKeySets++, (*runner).second.second)));
219 TempSet->clear();
220 }
221 delete (TempSet);
222 } else {
223 LOG(1, "FragmentList is NULL.");
224 }
225 if (next != NULL)
226 next->TranslateIndicesToGlobalIDs(FragmentList, ++FragmentCounter, TotalNumberOfKeySets, TotalGraph);
227 FragmentCounter--;
228 LOG(1, "End of TranslateIndicesToGlobalIDs.");
229};
230
231/** Simply counts the number of items in the list, from given MoleculeLeafClass.
232 * \return number of items
233 */
234int MoleculeLeafClass::Count() const
235{
236 if (next != NULL)
237 return next->Count() + 1;
238 else
239 return 1;
240};
241
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