source: src/Fragmentation/HessianMatrix.cpp@ 440ac3

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Last change on this file since 440ac3 was 94d5ac6, checked in by Frederik Heber <heber@…>, 12 years ago

FIX: As we use GSL internally, we are as of now required to use GPL v2 license.

  • GNU Scientific Library is used at every place in the code, especially the sub-package LinearAlgebra is based on it which in turn is used really everywhere in the remainder of MoleCuilder. Hence, we have to use the GPL license for the whole of MoleCuilder. In effect, GPL's COPYING was present all along and stated the terms of the GPL v2 license.
  • Hence, I added the default GPL v2 disclaimer to every source file and removed the note about a (actually missing) LICENSE file.
  • also, I added a help-redistribute action which again gives the disclaimer of the GPL v2.
  • also, I changed in the disclaimer that is printed at every program start in builder_init.cpp.
  • TEST: Added check on GPL statement present in every module to test CodeChecks project-disclaimer.
  • Property mode set to 100644
File size: 12.6 KB
Line 
1/*
2 * Project: MoleCuilder
3 * Description: creates and alters molecular systems
4 * Copyright (C) 2010-2012 University of Bonn. 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 * HessianMatrix.cpp
25 *
26 * Created on: Sep 15, 2011
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 <cstring>
38#include <fstream>
39
40#include "CodePatterns/Log.hpp"
41#include "KeySetsContainer.hpp"
42
43#include "Fragmentation/helpers.hpp"
44#include "Helpers/defs.hpp"
45#include "Helpers/helpers.hpp"
46
47#include "HessianMatrix.hpp"
48
49/** Parsing force Indices of each fragment
50 * \param *name directory with \a ForcesFile
51 * \return parsing successful
52 */
53bool HessianMatrix::ParseIndices(char *name)
54{
55 std::ifstream input;
56 char *FragmentNumber = NULL;
57 char filename[1023];
58 stringstream line;
59
60 LOG(0, "Parsing hessian indices for " << MatrixCounter << " matrices.");
61 Indices.resize(MatrixCounter + 1);
62 line << name << FRAGMENTPREFIX << FORCESFILE;
63 input.open(line.str().c_str(), ios::in);
64 //LOG(0, "Opening " << line.str() << " ... " << input);
65 if (input.fail()) {
66 LOG(0, endl << "HessianMatrix::ParseIndices: Unable to open " << line.str() << ", is the directory correct?");
67 return false;
68 }
69 for (int i=0;(i<MatrixCounter) && (!input.eof());i++) {
70 // get the number of atoms for this fragment
71 input.getline(filename, 1023);
72 line.str(filename);
73 // parse the values
74 Indices[i].resize(RowCounter[i]);
75 FragmentNumber = FixedDigitNumber(MatrixCounter, i);
76 //std::stringstream output;
77 //output << FRAGMENTPREFIX << FragmentNumber << "[" << RowCounter[i] << "]:";
78 delete[](FragmentNumber);
79 for(int j=0;(j<RowCounter[i]) && (!line.eof());j++) {
80 line >> Indices[i][j];
81 //output << " " << Indices[i][j];
82 }
83 //LOG(0, output.str());
84 }
85 Indices[MatrixCounter].resize(RowCounter[MatrixCounter]);
86 for(int j=RowCounter[MatrixCounter];j--;) {
87 Indices[MatrixCounter][j] = j;
88 }
89 input.close();
90 return true;
91};
92
93
94/** Sums the hessian entries and puts into last element of \a HessianMatrix::Matrix.
95 * \param Matrix MatrixContainer with matrices (LevelCounter by *ColumnCounter) with all the energies.
96 * \param KeySets KeySetContainer with bond Order and association mapping of each fragment to an order
97 * \param Order bond order
98 * \param sign +1 or -1
99 * \return true if summing was successful
100 */
101bool HessianMatrix::SumSubHessians(class HessianMatrix &Fragments, class KeySetsContainer &KeySets, int Order, double sign)
102{
103 int FragmentNr;
104 // sum forces
105 for(int i=0;i<KeySets.FragmentsPerOrder[Order];i++) {
106 FragmentNr = KeySets.OrderSet[Order][i];
107 for(int l=0;l<RowCounter[ FragmentNr ];l++) {
108 int j = Indices[ FragmentNr ][l];
109 if (j > RowCounter[MatrixCounter]) {
110 ELOG(0, "Current hessian index " << j << " is greater than " << RowCounter[MatrixCounter] << ", where i=" << i << ", Order=" << Order << ", l=" << l << " and FragmentNr=" << FragmentNr << "!");
111 performCriticalExit();
112 return false;
113 }
114 if (j != -1) {
115 for(int m=0;m<ColumnCounter[ FragmentNr ];m++) {
116 int k = Indices[ FragmentNr ][m];
117 if (k > ColumnCounter[MatrixCounter]) {
118 ELOG(0, "Current hessian index " << k << " is greater than " << ColumnCounter[MatrixCounter] << ", where m=" << m << ", j=" << j << ", i=" << i << ", Order=" << Order << ", l=" << l << " and FragmentNr=" << FragmentNr << "!");
119 performCriticalExit();
120 return false;
121 }
122 if (k != -1) {
123 //LOG(0, "Adding " << sign*Fragments.Matrix[ FragmentNr ][l][m] << " from [" << l << "][" << m << "] onto [" << j << "][" << k << "].");
124 Matrix[MatrixCounter][j][k] += sign*Fragments.Matrix[ FragmentNr ][l][m];
125 }
126 }
127 }
128 }
129 }
130 return true;
131};
132
133/** Constructor for class HessianMatrix.
134 */
135HessianMatrix::HessianMatrix() :
136 MatrixContainer(),
137 IsSymmetric(true)
138{}
139
140/** Sums the hessian entries with each factor and put into last element of \a ***Matrix.
141 * Sums over "E"-terms to create the "F"-terms
142 * \param Matrix MatrixContainer with matrices (LevelCounter by *ColumnCounter) with all the energies.
143 * \param KeySets KeySetContainer with bond Order and association mapping of each fragment to an order
144 * \param Order bond order
145 * \return true if summing was successful
146 */
147bool HessianMatrix::SumSubManyBodyTerms(class MatrixContainer &MatrixValues, class KeySetsContainer &KeySets, int Order)
148{
149 // go through each order
150 for (int CurrentFragment=0;CurrentFragment<KeySets.FragmentsPerOrder[Order];CurrentFragment++) {
151 //LOG(0, "Current Fragment is " << CurrentFragment << "/" << KeySets.OrderSet[Order][CurrentFragment] << ".");
152 // then go per order through each suborder and pick together all the terms that contain this fragment
153 for(int SubOrder=0;SubOrder<=Order;SubOrder++) { // go through all suborders up to the desired order
154 for (int j=0;j<KeySets.FragmentsPerOrder[SubOrder];j++) { // go through all possible fragments of size suborder
155 if (KeySets.Contains(KeySets.OrderSet[Order][CurrentFragment], KeySets.OrderSet[SubOrder][j])) {
156 //LOG(0, "Current other fragment is " << j << "/" << KeySets.OrderSet[SubOrder][j] << ".");
157 // if the fragment's indices are all in the current fragment
158 for(int k=0;k<RowCounter[ KeySets.OrderSet[SubOrder][j] ];k++) { // go through all atoms in this fragment
159 int m = MatrixValues.Indices[ KeySets.OrderSet[SubOrder][j] ][k];
160 //LOG(0, "Current row index is " << k << "/" << m << ".");
161 if (m != -1) { // if it's not an added hydrogen
162 for (int l=0;l<RowCounter[ KeySets.OrderSet[Order][CurrentFragment] ];l++) { // look for the corresponding index in the current fragment
163 //LOG(0, "Comparing " << m << " with " << MatrixValues.Indices[ KeySets.OrderSet[Order][CurrentFragment] ][l] << ".");
164 if (m == MatrixValues.Indices[ KeySets.OrderSet[Order][CurrentFragment] ][l]) {
165 m = l;
166 break;
167 }
168 }
169 //LOG(0, "Corresponding row index for " << k << " in CurrentFragment is " << m << ".");
170 if (m > RowCounter[ KeySets.OrderSet[Order][CurrentFragment] ]) {
171 ELOG(0, "In fragment No. " << KeySets.OrderSet[Order][CurrentFragment] << " current row index " << m << " is greater than " << RowCounter[ KeySets.OrderSet[Order][CurrentFragment] ] << "!");
172 performCriticalExit();
173 return false;
174 }
175
176 for(int l=0;l<ColumnCounter[ KeySets.OrderSet[SubOrder][j] ];l++) {
177 int n = MatrixValues.Indices[ KeySets.OrderSet[SubOrder][j] ][l];
178 //LOG(0, "Current column index is " << l << "/" << n << ".");
179 if (n != -1) { // if it's not an added hydrogen
180 for (int p=0;p<ColumnCounter[ KeySets.OrderSet[Order][CurrentFragment] ];p++) { // look for the corresponding index in the current fragment
181 //LOG(0, "Comparing " << n << " with " << MatrixValues.Indices[ KeySets.OrderSet[Order][CurrentFragment] ][p] << ".");
182 if (n == MatrixValues.Indices[ KeySets.OrderSet[Order][CurrentFragment] ][p]) {
183 n = p;
184 break;
185 }
186 }
187 //LOG(0, "Corresponding column index for " << l << " in CurrentFragment is " << n << ".");
188 if (n > ColumnCounter[ KeySets.OrderSet[Order][CurrentFragment] ]) {
189 ELOG(0, "In fragment No. " << KeySets.OrderSet[Order][CurrentFragment] << " current column index " << n << " is greater than " << ColumnCounter[ KeySets.OrderSet[Order][CurrentFragment] ] << "!");
190 performCriticalExit();
191 return false;
192 }
193 if (Order == SubOrder) { // equal order is always copy from Energies
194 //LOG(0, "Adding " << MatrixValues.Matrix[ KeySets.OrderSet[SubOrder][j] ][k][l] << " from [" << k << "][" << l << "] onto [" << m << "][" << n << "].");
195 Matrix[ KeySets.OrderSet[Order][CurrentFragment] ][m][n] += MatrixValues.Matrix[ KeySets.OrderSet[SubOrder][j] ][k][l];
196 } else {
197 //LOG(0, "Subtracting " << Matrix[ KeySets.OrderSet[SubOrder][j] ][k][l] << " from [" << k << "][" << l << "] onto [" << m << "][" << n << "].");
198 Matrix[ KeySets.OrderSet[Order][CurrentFragment] ][m][n] -= Matrix[ KeySets.OrderSet[SubOrder][j] ][k][l];
199 }
200 }
201 }
202 }
203 //if ((ColumnCounter[ KeySets.OrderSet[SubOrder][j] ]>1) && (RowCounter[0]-1 >= 1))
204 //LOG(0, "Fragments[ KeySets.OrderSet[" << Order << "][" << CurrentFragment << "]=" << KeySets.OrderSet[Order][CurrentFragment] << " ][" << RowCounter[0]-1 << "][" << 1 << "] = " << Matrix[ KeySets.OrderSet[Order][CurrentFragment] ][RowCounter[0]-1][1]);
205 }
206 } else {
207 //LOG(0, "Fragment " << KeySets.OrderSet[SubOrder][j] << " is not contained in fragment " << KeySets.OrderSet[Order][CurrentFragment] << ".");
208 }
209 }
210 }
211 //LOG(0, "Final Fragments[ KeySets.OrderSet[" << Order << "][" << CurrentFragment << "]=" << KeySets.OrderSet[Order][CurrentFragment] << " ][" << KeySets.AtomCounter[0]-1 << "][" << 1 << "] = " << Matrix[ KeySets.OrderSet[Order][CurrentFragment] ][KeySets.AtomCounter[0]-1][1]);
212 }
213
214 return true;
215};
216
217/** Calls MatrixContainer::ParseFragmentMatrix() and additionally allocates last plus one matrix.
218 * \param *name directory with files
219 * \param *prefix prefix of each matrix file
220 * \param *suffix suffix of each matrix file
221 * \param skiplines number of inital lines to skip
222 * \param skiplines number of inital columns to skip
223 * \return parsing successful
224 */
225bool HessianMatrix::ParseFragmentMatrix(const char *name, const char *prefix, std::string suffix, int skiplines, int skipcolumns)
226{
227 char filename[1023];
228 std::ifstream input;
229 stringstream file;
230 int nr;
231 bool status = MatrixContainer::ParseFragmentMatrix(name, prefix, suffix, skiplines, skipcolumns);
232
233 if (status) {
234 // count number of atoms for last plus one matrix
235 file << name << FRAGMENTPREFIX << KEYSETFILE;
236 input.open(file.str().c_str(), ios::in);
237 if (input.fail()) {
238 LOG(0, endl << "HessianMatrix::ParseFragmentMatrix: Unable to open " << file.str() << ", is the directory correct?");
239 return false;
240 }
241 RowCounter[MatrixCounter] = 0;
242 ColumnCounter[MatrixCounter] = 0;
243 while (!input.eof()) {
244 input.getline(filename, 1023);
245 stringstream zeile(filename);
246 while (!zeile.eof()) {
247 zeile >> nr;
248 //LOG(0, "Current index: " << getNr() << ".");
249 if (nr > RowCounter[MatrixCounter]) {
250 RowCounter[MatrixCounter] = nr;
251 ColumnCounter[MatrixCounter] = nr;
252 }
253 }
254 }
255 RowCounter[MatrixCounter]++; // Nr start at 0, count starts at 1
256 ColumnCounter[MatrixCounter]++; // Nr start at 0, count starts at 1
257 input.close();
258
259 // allocate last plus one matrix
260 LOG(0, "Allocating last plus one matrix with " << (RowCounter[MatrixCounter]+1) << " rows and " << ColumnCounter[MatrixCounter] << " columns.");
261 if ((int)Matrix[MatrixCounter].size() <= RowCounter[MatrixCounter] + 2)
262 Matrix[MatrixCounter].resize(RowCounter[MatrixCounter] + 1);
263 for(int j=0;j<=RowCounter[MatrixCounter];j++)
264 if ((int)Matrix[MatrixCounter][j].size() <= ColumnCounter[MatrixCounter]+1)
265 Matrix[MatrixCounter][j].resize(ColumnCounter[MatrixCounter]);
266
267 // try independently to parse global forcesuffix file if present
268 strncpy(filename, name, 1023);
269 strncat(filename, prefix, 1023-strlen(filename));
270 strncat(filename, suffix.c_str(), 1023-strlen(filename));
271 std::ifstream input(filename);
272 ParseMatrix(input, skiplines, skipcolumns, MatrixCounter);
273 input.close();
274 }
275
276
277 return status;
278};
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