source: src/analysis_bonds.cpp@ a0064e

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Last change on this file since a0064e was 83f176, checked in by Frederik Heber <heber@…>, 14 years ago

Made all member variables of class element private, added accessor functions and periodentafel is friend.

  • Property mode set to 100644
File size: 11.8 KB
Line 
1/*
2 * Project: MoleCuilder
3 * Description: creates and alters molecular systems
4 * Copyright (C) 2010 University of Bonn. All rights reserved.
5 * Please see the LICENSE file or "Copyright notice" in builder.cpp for details.
6 */
7
8/*
9 * analysis_bonds.cpp
10 *
11 * Created on: Nov 7, 2009
12 * Author: heber
13 */
14
15// include config.h
16#ifdef HAVE_CONFIG_H
17#include <config.h>
18#endif
19
20#include "Helpers/MemDebug.hpp"
21
22#include "analysis_bonds.hpp"
23#include "atom.hpp"
24#include "bond.hpp"
25#include "element.hpp"
26#include "Helpers/Info.hpp"
27#include "Helpers/Verbose.hpp"
28#include "Helpers/Log.hpp"
29#include "molecule.hpp"
30
31/** Calculates the min, mean and maximum bond counts for the given molecule.
32 * \param *mol molecule with atoms and atom::ListOfBonds
33 * \param &Min minimum count on return
34 * \param &Mean mean count on return
35 * \param &Max maximum count on return
36 */
37void GetMaxMinMeanBondCount(const molecule * const mol, double &Min, double &Mean, double &Max)
38{
39 Min = 2e+6;
40 Max = -2e+5;
41 Mean = 0.;
42
43 int AtomCount = 0;
44 for (molecule::const_iterator iter = mol->begin(); iter != mol->end(); ++iter) {
45 const int count = (*iter)->ListOfBonds.size();
46 if (Max < count)
47 Max = count;
48 if (Min > count)
49 Min = count;
50 Mean += count;
51 AtomCount++;
52 }
53 if (((int)Mean % 2) != 0)
54 DoeLog(1) && (eLog()<< Verbose(1) << "Something is wrong with the bond structure, the number of bonds is not even!" << endl);
55 Mean /= (double)AtomCount;
56};
57
58/** Calculates the min and max bond distance of all atoms of two given elements.
59 * \param *mol molecule with atoms
60 * \param *type1 one element
61 * \param *type2 other element
62 * \param &Min minimum distance on return, 0 if no bond between the two elements
63 * \param &Mean mean distance (i.e. sum of distance for matching element pairs, divided by number) on return, 0 if no bond between the two elements
64 * \param &Max maximum distance on return, 0 if no bond between the two elements
65 */
66void MinMeanMaxBondDistanceBetweenElements(const molecule *mol, const element *type1, const element *type2, double &Min, double &Mean, double &Max)
67{
68 Min = 2e+6;
69 Mean = 0.;
70 Max = -2e+6;
71
72 int AtomNo = 0;
73 for (molecule::const_iterator iter = mol->begin(); iter != mol->end(); ++iter) {
74 if ((*iter)->getType() == type1)
75 for (BondList::const_iterator BondRunner = (*iter)->ListOfBonds.begin(); BondRunner != (*iter)->ListOfBonds.end(); BondRunner++)
76 if ((*BondRunner)->GetOtherAtom((*iter))->getType() == type2) {
77 const double distance = (*BondRunner)->GetDistanceSquared();
78 if (Min > distance)
79 Min = distance;
80 if (Max < distance)
81 Max = distance;
82 Mean += sqrt(distance);
83 AtomNo++;
84 }
85 }
86 if (Max < 0) {
87 Max = Min = 0.;
88 } else {
89 Max = sqrt(Max);
90 Min = sqrt(Min);
91 Mean = Mean/(double)AtomNo;
92 }
93};
94
95/** Calculate the angle between \a *first and \a *origin and \a *second and \a *origin.
96 * \param *first first Vector
97 * \param *origin origin of angle taking
98 * \param *second second Vector
99 * \return angle between \a *first and \a *second, both relative to origin at \a *origin.
100 */
101double CalculateAngle(const Vector &first, const Vector &central, const Vector &second)
102{
103 Vector OHBond;
104 Vector OOBond;
105
106 OHBond = first - central;
107 OOBond = second - central;
108 const double angle = OHBond.Angle(OOBond);
109 return angle;
110};
111
112/** Checks whether the angle between \a *Oxygen and \a *Hydrogen and \a *Oxygen and \a *OtherOxygen is less than 30 degrees.
113 * Note that distance criterion is not checked.
114 * \param *Oxygen first oxygen atom, bonded to \a *Hydrogen
115 * \param *Hydrogen hydrogen bonded to \a *Oxygen
116 * \param *OtherOxygen other oxygen atom
117 * \return true - angle criteria fulfilled, false - criteria not fulfilled, angle greater than 30 degrees.
118 */
119bool CheckHydrogenBridgeBondAngle(atom *Oxygen, atom *Hydrogen, atom *OtherOxygen)
120{
121 Info FunctionInfo(__func__);
122
123 // check angle
124 if (CalculateAngle(Hydrogen->getPosition(), Oxygen->getPosition(), OtherOxygen->getPosition()) < M_PI*(30./180.)) {
125 return true;
126 } else {
127 return false;
128 }
129};
130
131/** Counts the number of hydrogen bridge bonds.
132 * With \a *InterfaceElement an extra element can be specified that identifies some boundary.
133 * Then, counting is for the h-bridges that connect to interface only.
134 * \param *molecules molecules to count bonds
135 * \param *InterfaceElement or NULL
136 * \param *Interface2Element or NULL
137 */
138int CountHydrogenBridgeBonds(MoleculeListClass *molecules, const element * InterfaceElement = NULL, const element * Interface2Element = NULL)
139{
140 int count = 0;
141 int OtherHydrogens = 0;
142 double Otherangle = 0.;
143 bool InterfaceFlag = false;
144 bool Interface2Flag = false;
145 bool OtherHydrogenFlag = true;
146 for (MoleculeList::const_iterator MolWalker = molecules->ListOfMolecules.begin();MolWalker != molecules->ListOfMolecules.end(); ++MolWalker) {
147 molecule::iterator Walker = (*MolWalker)->begin();
148 for(;Walker!=(*MolWalker)->end();++Walker){
149 for (MoleculeList::const_iterator MolRunner = molecules->ListOfMolecules.begin();MolRunner != molecules->ListOfMolecules.end(); ++MolRunner) {
150 molecule::iterator Runner = (*MolRunner)->begin();
151 for(;Runner!=(*MolRunner)->end();++Runner){
152 if (((*Walker)->getType()->getAtomicNumber() == 8) && ((*Runner)->getType()->getAtomicNumber() == 8)) {
153 // check distance
154 const double distance = (*Runner)->DistanceSquared(*(*Walker));
155 if ((distance > MYEPSILON) && (distance < HBRIDGEDISTANCE*HBRIDGEDISTANCE)) { // distance >0 means different atoms
156 // on other atom(Runner) we check for bond to interface element and
157 // check that O-O line is not in between the shanks of the two connected hydrogens (Otherangle > 104.5)
158 OtherHydrogenFlag = true;
159 Otherangle = 0.;
160 OtherHydrogens = 0;
161 InterfaceFlag = (InterfaceElement == NULL);
162 Interface2Flag = (Interface2Element == NULL);
163 for (BondList::const_iterator BondRunner = (*Runner)->ListOfBonds.begin(); BondRunner != (*Runner)->ListOfBonds.end(); BondRunner++) {
164 atom * const OtherAtom = (*BondRunner)->GetOtherAtom(*Runner);
165 // if hydrogen, check angle to be greater(!) than 30 degrees
166 if (OtherAtom->getType()->getAtomicNumber() == 1) {
167 const double angle = CalculateAngle(OtherAtom->getPosition(), (*Runner)->getPosition(), (*Walker)->getPosition());
168 OtherHydrogenFlag = OtherHydrogenFlag && (angle > M_PI*(30./180.) + MYEPSILON);
169 Otherangle += angle;
170 OtherHydrogens++;
171 }
172 InterfaceFlag = InterfaceFlag || (OtherAtom->getType() == InterfaceElement);
173 Interface2Flag = Interface2Flag || (OtherAtom->getType() == Interface2Element);
174 }
175 DoLog(1) && (Log() << Verbose(1) << "Otherangle is " << Otherangle << " for " << OtherHydrogens << " hydrogens." << endl);
176 switch (OtherHydrogens) {
177 case 0:
178 case 1:
179 break;
180 case 2:
181 OtherHydrogenFlag = OtherHydrogenFlag && (Otherangle > M_PI*(104.5/180.) + MYEPSILON);
182 break;
183 default: // 3 or more hydrogens ...
184 OtherHydrogenFlag = false;
185 break;
186 }
187 if (InterfaceFlag && Interface2Flag && OtherHydrogenFlag) {
188 // on this element (Walker) we check for bond to hydrogen, i.e. part of water molecule
189 for (BondList::const_iterator BondRunner = (*Walker)->ListOfBonds.begin(); BondRunner != (*Walker)->ListOfBonds.end(); BondRunner++) {
190 atom * const OtherAtom = (*BondRunner)->GetOtherAtom(*Walker);
191 if (OtherAtom->getType()->getAtomicNumber() == 1) {
192 // check angle
193 if (CheckHydrogenBridgeBondAngle(*Walker, OtherAtom, *Runner)) {
194 DoLog(1) && (Log() << Verbose(1) << (*Walker)->getName() << ", " << OtherAtom->getName() << " and " << (*Runner)->getName() << " has a hydrogen bridge bond with distance " << sqrt(distance) << " and angle " << CalculateAngle(OtherAtom->getPosition(), (*Walker)->getPosition(), (*Runner)->getPosition())*(180./M_PI) << "." << endl);
195 count++;
196 break;
197 }
198 }
199 }
200 }
201 }
202 }
203 }
204 }
205 }
206 }
207 return count;
208}
209
210/** Counts the number of bonds between two given elements.
211 * \param *molecules list of molecules with all atoms
212 * \param *first pointer to first element
213 * \param *second pointer to second element
214 * \return number of found bonds (\a *first-\a *second)
215 */
216int CountBondsOfTwo(MoleculeListClass * const molecules, const element * const first, const element * const second)
217{
218 int count = 0;
219
220 for (MoleculeList::const_iterator MolWalker = molecules->ListOfMolecules.begin();MolWalker != molecules->ListOfMolecules.end(); MolWalker++) {
221 molecule::iterator Walker = (*MolWalker)->begin();
222 for(;Walker!=(*MolWalker)->end();++Walker){
223 atom * theAtom = *Walker;
224 if ((theAtom->getType() == first) || (theAtom->getType() == second)) { // first element matches
225 for (BondList::const_iterator BondRunner = theAtom->ListOfBonds.begin(); BondRunner != theAtom->ListOfBonds.end(); BondRunner++) {
226 atom * const OtherAtom = (*BondRunner)->GetOtherAtom(theAtom);
227 if (((OtherAtom->getType() == first) || (OtherAtom->getType() == second)) && (theAtom->nr < OtherAtom->nr)) {
228 count++;
229 DoLog(1) && (Log() << Verbose(1) << *first << "-" << *second << " bond found between " << *Walker << " and " << *OtherAtom << "." << endl);
230 }
231 }
232 }
233 }
234 }
235 return count;
236};
237
238/** Counts the number of bonds between three given elements.
239 * Note that we do not look for arbitrary sequence of given bonds, but \a *second will be the central atom and we check
240 * whether it has bonds to both \a *first and \a *third.
241 * \param *molecules list of molecules with all atoms
242 * \param *first pointer to first element
243 * \param *second pointer to second element
244 * \param *third pointer to third element
245 * \return number of found bonds (\a *first-\a *second-\a *third, \a *third-\a *second-\a *first, respectively)
246 */
247int CountBondsOfThree(MoleculeListClass * const molecules, const element * const first, const element * const second, const element * const third)
248{
249 int count = 0;
250 bool MatchFlag[2];
251 bool result = false;
252 const element * ElementArray[2];
253 ElementArray[0] = first;
254 ElementArray[1] = third;
255
256 for (MoleculeList::const_iterator MolWalker = molecules->ListOfMolecules.begin();MolWalker != molecules->ListOfMolecules.end(); MolWalker++) {
257 molecule::iterator Walker = (*MolWalker)->begin();
258 for(;Walker!=(*MolWalker)->end();++Walker){
259 atom *theAtom = *Walker;
260 if (theAtom->getType() == second) { // first element matches
261 for (int i=0;i<2;i++)
262 MatchFlag[i] = false;
263 for (BondList::const_iterator BondRunner = theAtom->ListOfBonds.begin(); BondRunner != theAtom->ListOfBonds.end(); BondRunner++) {
264 atom * const OtherAtom = (*BondRunner)->GetOtherAtom(theAtom);
265 for (int i=0;i<2;i++)
266 if ((!MatchFlag[i]) && (OtherAtom->getType() == ElementArray[i])) {
267 MatchFlag[i] = true;
268 break; // each bonding atom can match at most one element we are looking for
269 }
270 }
271 result = true;
272 for (int i=0;i<2;i++) // gather results
273 result = result && MatchFlag[i];
274 if (result) { // check results
275 count++;
276 DoLog(1) && (Log() << Verbose(1) << *first << "-" << *second << "-" << *third << " bond found at " << *Walker << "." << endl);
277 }
278 }
279 }
280 }
281 return count;
282};
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