source: src/LinearAlgebra/RealSpaceMatrix.cpp@ b4cf2b

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Last change on this file since b4cf2b was bbf1bd, checked in by Frederik Heber <heber@…>, 15 years ago

Extended VectorContent class.

  • VectorContent formerly has been just a structure to contain the gsl_vector due to forward declaration reasons.
  • now VectorContent is a true wrapper to gsl_vector, i.e. all functionality that is now specific to 3 dimensions has been shifted from GSLVector over to VectorContent.
  • VectorContentView is preserved to allow for VectorContent as a view on a row or column of a matrix.
  • changed and renamed unit test gslvectorunittest -> VectorContentUnitTest
  • GSLVector is not used anymore anywhere
  • one long-sough error was a missing assignment operator filled-in in a wrong manner by the compiler for VectorContent.

Note that:

  • gsl_vector is still used at many places
  • Property mode set to 100644
File size: 8.2 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 * RealSpaceMatrix.cpp
10 *
11 * Created on: Jun 25, 2010
12 * Author: crueger
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 "LinearAlgebra/RealSpaceMatrix.hpp"
23#include "Helpers/Assert.hpp"
24#include "Exceptions/NotInvertibleException.hpp"
25#include "Helpers/fast_functions.hpp"
26#include "Helpers/Assert.hpp"
27#include "LinearAlgebra/Vector.hpp"
28#include "LinearAlgebra/VectorContent.hpp"
29#include "LinearAlgebra/MatrixContent.hpp"
30
31#include <gsl/gsl_blas.h>
32#include <gsl/gsl_eigen.h>
33#include <gsl/gsl_matrix.h>
34#include <gsl/gsl_multimin.h>
35#include <gsl/gsl_vector.h>
36#include <cmath>
37#include <iostream>
38
39using namespace std;
40
41RealSpaceMatrix::RealSpaceMatrix()
42{
43 content = new MatrixContent(NDIM, NDIM);
44 createViews();
45}
46
47RealSpaceMatrix::RealSpaceMatrix(const double* src)
48{
49 content = new MatrixContent(NDIM, NDIM, src);
50 createViews();
51}
52
53RealSpaceMatrix::RealSpaceMatrix(const RealSpaceMatrix &src)
54{
55 content = new MatrixContent(src.content);
56 createViews();
57}
58
59RealSpaceMatrix::RealSpaceMatrix(const MatrixContent &src)
60{
61 content = new MatrixContent(src);
62 createViews();
63}
64
65RealSpaceMatrix::RealSpaceMatrix(MatrixContent* _content)
66{
67 content = new MatrixContent(_content);
68 createViews();
69}
70
71RealSpaceMatrix::~RealSpaceMatrix()
72{
73 // delete all views
74 for(int i=NDIM;i--;){
75 delete rows_ptr[i];
76 }
77 for(int i=NDIM;i--;){
78 delete columns_ptr[i];
79 }
80 delete diagonal_ptr;
81 delete content;
82}
83
84void RealSpaceMatrix::createViews(){
85 // create row views
86 for(int i=NDIM;i--;){
87 VectorContent *rowContent = new VectorViewContent(gsl_matrix_row(content->content,i));
88 rows_ptr[i] = new Vector(rowContent);
89 ASSERT(rowContent == NULL, "RealSpaceMatrix::createViews() - rowContent was not taken over as supposed to happen!");
90 }
91 // create column views
92 for(int i=NDIM;i--;){
93 VectorContent *columnContent = new VectorViewContent(gsl_matrix_column(content->content,i));
94 columns_ptr[i] = new Vector(columnContent);
95 ASSERT(columnContent == NULL, "RealSpaceMatrix::createViews() - columnContent was not taken over as supposed to happen!");
96 }
97 // create diagonal view
98 VectorContent *diagonalContent = new VectorViewContent(gsl_matrix_diagonal(content->content));
99 diagonal_ptr = new Vector(diagonalContent);
100 ASSERT(diagonalContent == NULL, "RealSpaceMatrix::createViews() - diagonalContent was not taken over as supposed to happen!");
101}
102
103void RealSpaceMatrix::setIdentity(){
104 content->setIdentity();
105}
106
107void RealSpaceMatrix::setZero(){
108 content->setZero();
109}
110
111void RealSpaceMatrix::setRotation(const double x, const double y, const double z)
112{
113 set(0,0, cos(y)*cos(z));
114 set(0,1, cos(z)*sin(x)*sin(y) - cos(x)*sin(z));
115 set(0,2, cos(x)*cos(z)*sin(y) + sin(x) * sin(z));
116 set(1,0, cos(y)*sin(z));
117 set(1,1, cos(x)*cos(z) + sin(x)*sin(y)*sin(z));
118 set(1,2, -cos(z)*sin(x) + cos(x)*sin(y)*sin(z));
119 set(2,0, -sin(y));
120 set(2,1, cos(y)*sin(x));
121 set(2,2, cos(x)*cos(y));
122}
123
124RealSpaceMatrix &RealSpaceMatrix::operator=(const RealSpaceMatrix &src)
125{
126 // MatrixContent checks for self-assignment
127 *content = *(src.content);
128 return *this;
129}
130
131const RealSpaceMatrix &RealSpaceMatrix::operator+=(const RealSpaceMatrix &rhs)
132{
133 *content += *(rhs.content);
134 return *this;
135}
136
137const RealSpaceMatrix &RealSpaceMatrix::operator-=(const RealSpaceMatrix &rhs)
138{
139 *content -= *(rhs.content);
140 return *this;
141}
142
143const RealSpaceMatrix &RealSpaceMatrix::operator*=(const RealSpaceMatrix &rhs)
144{
145 (*content) *= (*rhs.content);
146 return *this;
147}
148
149const RealSpaceMatrix RealSpaceMatrix::operator+(const RealSpaceMatrix &rhs) const
150{
151 RealSpaceMatrix tmp = *this;
152 tmp+=rhs;
153 return tmp;
154}
155
156const RealSpaceMatrix RealSpaceMatrix::operator-(const RealSpaceMatrix &rhs) const
157{
158 RealSpaceMatrix tmp = *this;
159 tmp-=rhs;
160 return tmp;
161}
162
163const RealSpaceMatrix RealSpaceMatrix::operator*(const RealSpaceMatrix &rhs) const
164{
165 RealSpaceMatrix tmp(content);
166 tmp *= rhs;
167 return tmp;
168}
169
170double &RealSpaceMatrix::at(size_t i, size_t j)
171{
172 return content->at(i,j);
173}
174
175const double RealSpaceMatrix::at(size_t i, size_t j) const
176{
177 return content->at(i,j);
178}
179
180Vector &RealSpaceMatrix::row(size_t i)
181{
182 ASSERT(i>=0&&i<NDIM,"Index i for Matrix access out of range");
183 return *rows_ptr[i];
184}
185
186const Vector &RealSpaceMatrix::row(size_t i) const
187{
188 ASSERT(i>=0&&i<NDIM,"Index i for Matrix access out of range");
189 return *rows_ptr[i];
190}
191
192Vector &RealSpaceMatrix::column(size_t i)
193{
194 ASSERT(i>=0&&i<NDIM,"Index i for Matrix access out of range");
195 return *columns_ptr[i];
196}
197
198const Vector &RealSpaceMatrix::column(size_t i) const
199{
200 ASSERT(i>=0&&i<NDIM,"Index i for Matrix access out of range");
201 return *columns_ptr[i];
202}
203
204Vector &RealSpaceMatrix::diagonal()
205{
206 return *diagonal_ptr;
207}
208
209const Vector &RealSpaceMatrix::diagonal() const
210{
211 return *diagonal_ptr;
212}
213
214void RealSpaceMatrix::set(size_t i, size_t j, const double value)
215{
216 content->set(i,j, value);
217}
218
219double RealSpaceMatrix::determinant() const{
220 return at(0,0)*at(1,1)*at(2,2)
221 + at(0,1)*at(1,2)*at(2,0)
222 + at(0,2)*at(1,0)*at(2,1)
223 - at(2,0)*at(1,1)*at(0,2)
224 - at(2,1)*at(1,2)*at(0,0)
225 - at(2,2)*at(1,0)*at(0,1);
226}
227
228
229RealSpaceMatrix RealSpaceMatrix::invert() const{
230 double det = determinant();
231 if(fabs(det)<MYEPSILON){
232 throw NotInvertibleException(__FILE__,__LINE__);
233 }
234
235 double detReci = 1./det;
236 RealSpaceMatrix res;
237 res.set(0,0, detReci*RDET2(at(1,1),at(2,1),at(1,2),at(2,2))); // A_11
238 res.set(1,0, -detReci*RDET2(at(1,0),at(2,0),at(1,2),at(2,2))); // A_21
239 res.set(2,0, detReci*RDET2(at(1,0),at(2,0),at(1,1),at(2,1))); // A_31
240 res.set(0,1, -detReci*RDET2(at(0,1),at(2,1),at(0,2),at(2,2))); // A_12
241 res.set(1,1, detReci*RDET2(at(0,0),at(2,0),at(0,2),at(2,2))); // A_22
242 res.set(2,1, -detReci*RDET2(at(0,0),at(2,0),at(0,1),at(2,1))); // A_32
243 res.set(0,2, detReci*RDET2(at(0,1),at(1,1),at(0,2),at(1,2))); // A_13
244 res.set(1,2, -detReci*RDET2(at(0,0),at(1,0),at(0,2),at(1,2))); // A_23
245 res.set(2,2, detReci*RDET2(at(0,0),at(1,0),at(0,1),at(1,1))); // A_33
246 return res;
247}
248
249RealSpaceMatrix RealSpaceMatrix::transpose() const
250{
251 RealSpaceMatrix res = RealSpaceMatrix(const_cast<const MatrixContent *>(content)->transpose());
252 return res;
253}
254
255RealSpaceMatrix &RealSpaceMatrix::transpose()
256{
257 content->transpose();
258 return *this;
259}
260
261Vector RealSpaceMatrix::transformToEigenbasis()
262{
263 gsl_vector *eval = content->transformToEigenbasis();
264 Vector evalues(gsl_vector_get(eval,0), gsl_vector_get(eval,1), gsl_vector_get(eval,2));
265 gsl_vector_free(eval);
266 return evalues;
267}
268
269const RealSpaceMatrix &RealSpaceMatrix::operator*=(const double factor)
270 {
271 *content *= factor;
272 return *this;
273}
274
275const RealSpaceMatrix operator*(const double factor,const RealSpaceMatrix& mat)
276{
277 RealSpaceMatrix tmp = mat;
278 return tmp *= factor;
279}
280
281const RealSpaceMatrix operator*(const RealSpaceMatrix &mat,const double factor)
282{
283 return factor*mat;
284}
285
286bool RealSpaceMatrix::operator==(const RealSpaceMatrix &rhs) const
287{
288 return (*content == *(rhs.content));
289}
290
291/** Blows the 6-dimensional \a cell_size array up to a full NDIM by NDIM matrix.
292 * \param *symm 6-dim array of unique symmetric matrix components
293 * \return allocated NDIM*NDIM array with the symmetric matrix
294 */
295RealSpaceMatrix ReturnFullMatrixforSymmetric(const double * const symm)
296{
297 RealSpaceMatrix matrix;
298 matrix.set(0,0, symm[0]);
299 matrix.set(1,0, symm[1]);
300 matrix.set(2,0, symm[3]);
301 matrix.set(0,1, symm[1]);
302 matrix.set(1,1, symm[2]);
303 matrix.set(2,1, symm[4]);
304 matrix.set(0,2, symm[3]);
305 matrix.set(1,2, symm[4]);
306 matrix.set(2,2, symm[5]);
307 return matrix;
308};
309
310ostream &operator<<(ostream &ost,const RealSpaceMatrix &mat)
311{
312 for(int i = 0;i<NDIM;++i){
313 ost << "\n";
314 for(int j = 0; j<NDIM;++j){
315 ost << mat.at(i,j);
316 if(j!=NDIM-1)
317 ost << "; ";
318 }
319 }
320 return ost;
321}
322
323Vector operator*(const RealSpaceMatrix &mat,const Vector &vec)
324{
325 return (*mat.content) * vec;
326}
327
328Vector &operator*=(Vector& lhs,const RealSpaceMatrix &mat)
329{
330 lhs = mat*lhs;
331 return lhs;
332}
333
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