source: src/analysis_bonds.cpp@ cb2146

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Last change on this file since cb2146 was 220cf37, checked in by Frederik Heber <heber@…>, 15 years ago

Two new bond analysis functions.
  • Property mode set to 100644
File size: 2.4 KB
RevLine 
[96c961]1/*
2 * analysis_bonds.cpp
3 *
4 * Created on: Nov 7, 2009
5 * Author: heber
6 */
7
[220cf37]8#include "analysis_bonds.hpp"
9#include "atom.hpp"
10#include "bond.hpp"
11#include "log.hpp"
12#include "molecule.hpp"
13
14/** Calculates the min, mean and maximum bond counts for the given molecule.
15 * \param *mol molecule with atoms and atom::ListOfBonds
16 * \param &Min minimum count on return
17 * \param &Mean mean count on return
18 * \param &Max maximum count on return
19 */
20void GetMaxMinMeanBondCount(const molecule * const mol, double &Min, double &Mean, double &Max)
21{
22 Min = 2e+6;
23 Max = -2e+5;
24 Mean = 0.;
25
26 atom *Walker = mol->start;
27 int AtomCount = 0;
28 while (Walker->next != mol->end) {
29 Walker = Walker->next;
30 const int count = Walker->ListOfBonds.size();
31 if (Max < count)
32 Max = count;
33 if (Min > count)
34 Min = count;
35 Mean += count;
36 AtomCount++;
37 }
38 if (((int)Mean % 2) != 0)
39 eLog() << Verbose(1) << "Something is wrong with the bond structure, the number of bonds is not even!" << endl;
40 Mean /= (double)AtomCount;
41};
42
43/** Calculates the min and max bond distance of all atoms of two given elements.
44 * \param *mol molecule with atoms
45 * \param *type1 one element
46 * \param *type2 other element
47 * \param &Min minimum distance on return, 0 if no bond between the two elements
48 * \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
49 * \param &Max maximum distance on return, 0 if no bond between the two elements
50 */
51void MinMeanMaxBondDistanceBetweenElements(const molecule *mol, element *type1, element *type2, double &Min, double &Mean, double &Max)
52{
53 Min = 2e+6;
54 Mean = 0.;
55 Max = -2e+6;
56
57 int AtomNo = 0;
58 atom *Walker = mol->start;
59 while (Walker->next != mol->end) {
60 Walker = Walker->next;
61 if (Walker->type == type1)
62 for (BondList::const_iterator BondRunner = Walker->ListOfBonds.begin(); BondRunner != Walker->ListOfBonds.end(); BondRunner++)
63 if ((*BondRunner)->GetOtherAtom(Walker)->type == type2) {
64 const double distance = (*BondRunner)->GetDistanceSquared();
65 if (Min > distance)
66 Min = distance;
67 if (Max < distance)
68 Max = distance;
69 Mean += sqrt(distance);
70 AtomNo++;
71 }
72 }
73 if (Max < 0) {
74 Max = Min = 0.;
75 } else {
76 Max = sqrt(Max);
77 Min = sqrt(Min);
78 Mean = Mean/(double)AtomNo;
79 }
80};
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