source: src/config.cpp@ d7e30c

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Last change on this file since d7e30c was cdee6b, checked in by Frederik Heber <heber@…>, 17 years ago

fastparse was not yet working for more than one ion type

moved parsing of ion type numbers before the coordinates parsing loop (prescanning). Bug came due to sequential setting on fastparse

  • Property mode set to 100644
File size: 58.0 KB
Line 
1/** \file config.cpp
2 *
3 * Function implementations for the class config.
4 *
5 */
6
7#include "molecules.hpp"
8
9/************************************* Functions for class config ***************************/
10
11/** Constructor for config file class.
12 */
13config::config()
14{
15 mainname = (char *) MallocString(sizeof(char)*MAXSTRINGSIZE,"config constructor: mainname");
16 defaultpath = (char *) MallocString(sizeof(char)*MAXSTRINGSIZE,"config constructor: mainname");
17 pseudopotpath = (char *) MallocString(sizeof(char)*MAXSTRINGSIZE,"config constructor: mainname");
18 configpath = (char *) MallocString(sizeof(char)*MAXSTRINGSIZE,"config constructor: mainname");
19 configname = (char *) MallocString(sizeof(char)*MAXSTRINGSIZE,"config constructor: mainname");
20 strcpy(mainname,"pcp");
21 strcpy(defaultpath,"not specified");
22 strcpy(pseudopotpath,"not specified");
23 configpath[0]='\0';
24 configname[0]='\0';
25
26 FastParsing = false;
27 ProcPEGamma=8;
28 ProcPEPsi=1;
29 DoOutVis=0;
30 DoOutMes=1;
31 DoOutNICS=0;
32 DoOutOrbitals=0;
33 DoOutCurrent=0;
34 DoPerturbation=0;
35 DoFullCurrent=0;
36 CommonWannier=0;
37 SawtoothStart=0.01;
38 VectorPlane=0;
39 VectorCut=0;
40 UseAddGramSch=1;
41 Seed=1;
42
43 MaxOuterStep=0;
44 Deltat=0;
45 OutVisStep=10;
46 OutSrcStep=5;
47 TargetTemp=0.00095004455;
48 ScaleTempStep=25;
49 MaxPsiStep=0;
50 EpsWannier=1e-7;
51
52 MaxMinStep=100;
53 RelEpsTotalEnergy=1e-7;
54 RelEpsKineticEnergy=1e-5;
55 MaxMinStopStep=1;
56 MaxMinGapStopStep=0;
57 MaxInitMinStep=100;
58 InitRelEpsTotalEnergy=1e-5;
59 InitRelEpsKineticEnergy=1e-4;
60 InitMaxMinStopStep=1;
61 InitMaxMinGapStopStep=0;
62
63 //BoxLength[NDIM*NDIM];
64
65 ECut=128.;
66 MaxLevel=5;
67 RiemannTensor=0;
68 LevRFactor=0;
69 RiemannLevel=0;
70 Lev0Factor=2;
71 RTActualUse=0;
72 PsiType=0;
73 MaxPsiDouble=0;
74 PsiMaxNoUp=0;
75 PsiMaxNoDown=0;
76 AddPsis=0;
77
78 RCut=20.;
79 StructOpt=0;
80 IsAngstroem=1;
81 RelativeCoord=0;
82 MaxTypes=0;
83};
84
85
86/** Destructor for config file class.
87 */
88config::~config()
89{
90 Free((void **)&mainname, "config::~config: *mainname");
91 Free((void **)&defaultpath, "config::~config: *defaultpath");
92 Free((void **)&pseudopotpath, "config::~config: *pseudopotpath");
93 Free((void **)&configpath, "config::~config: *configpath");
94 Free((void **)&configname, "config::~config: *configname");
95};
96
97/** Displays menu for editing each entry of the config file.
98 * Nothing fancy here, just lots of cout << Verbose(0)s for the menu and a switch/case
99 * for each entry of the config file structure.
100 */
101void config::Edit(molecule *mol)
102{
103 char choice;
104
105 do {
106 cout << Verbose(0) << "===========EDIT CONFIGURATION============================" << endl;
107 cout << Verbose(0) << " A - mainname (prefix for all runtime files)" << endl;
108 cout << Verbose(0) << " B - Default path (for runtime files)" << endl;
109 cout << Verbose(0) << " C - Path of pseudopotential files" << endl;
110 cout << Verbose(0) << " D - Number of coefficient sharing processes" << endl;
111 cout << Verbose(0) << " E - Number of wave function sharing processes" << endl;
112 cout << Verbose(0) << " F - 0: Don't output density for OpenDX, 1: do" << endl;
113 cout << Verbose(0) << " G - 0: Don't output physical data, 1: do" << endl;
114 cout << Verbose(0) << " H - 0: Don't output densities of each unperturbed orbital for OpenDX, 1: do" << endl;
115 cout << Verbose(0) << " I - 0: Don't output current density for OpenDX, 1: do" << endl;
116 cout << Verbose(0) << " J - 0: Don't do the full current calculation, 1: do" << endl;
117 cout << Verbose(0) << " K - 0: Don't do perturbation calculation to obtain susceptibility and shielding, 1: do" << endl;
118 cout << Verbose(0) << " L - 0: Wannier centres as calculated, 1: common centre for all, 2: unite centres according to spread, 3: cell centre, 4: shifted to nearest grid point" << endl;
119 cout << Verbose(0) << " M - Absolute begin of unphysical sawtooth transfer for position operator within cell" << endl;
120 cout << Verbose(0) << " N - (0,1,2) x,y,z-plane to do two-dimensional current vector cut" << endl;
121 cout << Verbose(0) << " O - Absolute position along vector cut axis for cut plane" << endl;
122 cout << Verbose(0) << " P - Additional Gram-Schmidt-Orthonormalization to stabilize numerics" << endl;
123 cout << Verbose(0) << " Q - Initial integer value of random number generator" << endl;
124 cout << Verbose(0) << " R - for perturbation 0, for structure optimization defines upper limit of iterations" << endl;
125 cout << Verbose(0) << " T - Output visual after ...th step" << endl;
126 cout << Verbose(0) << " U - Output source densities of wave functions after ...th step" << endl;
127 cout << Verbose(0) << " X - minimization iterations per wave function, if unsure leave at default value 0" << endl;
128 cout << Verbose(0) << " Y - tolerance value for total spread in iterative Jacobi diagonalization" << endl;
129 cout << Verbose(0) << " Z - Maximum number of minimization iterations" << endl;
130 cout << Verbose(0) << " a - Relative change in total energy to stop min. iteration" << endl;
131 cout << Verbose(0) << " b - Relative change in kinetic energy to stop min. iteration" << endl;
132 cout << Verbose(0) << " c - Check stop conditions every ..th step during min. iteration" << endl;
133 cout << Verbose(0) << " e - Maximum number of minimization iterations during initial level" << endl;
134 cout << Verbose(0) << " f - Relative change in total energy to stop min. iteration during initial level" << endl;
135 cout << Verbose(0) << " g - Relative change in kinetic energy to stop min. iteration during initial level" << endl;
136 cout << Verbose(0) << " h - Check stop conditions every ..th step during min. iteration during initial level" << endl;
137 cout << Verbose(0) << " j - six lower diagonal entries of matrix, defining the unit cell" << endl;
138 cout << Verbose(0) << " k - Energy cutoff of plane wave basis in Hartree" << endl;
139 cout << Verbose(0) << " l - Maximum number of levels in multi-level-ansatz" << endl;
140 cout << Verbose(0) << " m - Factor by which grid nodes increase between standard and upper level" << endl;
141 cout << Verbose(0) << " n - 0: Don't use RiemannTensor, 1: Do" << endl;
142 cout << Verbose(0) << " o - Factor by which grid nodes increase between Riemann and standard(?) level" << endl;
143 cout << Verbose(0) << " p - Number of Riemann levels" << endl;
144 cout << Verbose(0) << " r - 0: Don't Use RiemannTensor, 1: Do" << endl;
145 cout << Verbose(0) << " s - 0: Doubly occupied orbitals, 1: Up-/Down-Orbitals" << endl;
146 cout << Verbose(0) << " t - Number of orbitals (depends pn SpinType)" << endl;
147 cout << Verbose(0) << " u - Number of SpinUp orbitals (depends on SpinType)" << endl;
148 cout << Verbose(0) << " v - Number of SpinDown orbitals (depends on SpinType)" << endl;
149 cout << Verbose(0) << " w - Number of additional, unoccupied orbitals" << endl;
150 cout << Verbose(0) << " x - radial cutoff for ewald summation in Bohrradii" << endl;
151 cout << Verbose(0) << " y - 0: Don't do structure optimization beforehand, 1: Do" << endl;
152 cout << Verbose(0) << " z - 0: Units are in Bohr radii, 1: units are in Aengstrom" << endl;
153 cout << Verbose(0) << " i - 0: Coordinates given in file are absolute, 1: ... are relative to unit cell" << endl;
154 cout << Verbose(0) << "=========================================================" << endl;
155 cout << Verbose(0) << "INPUT: ";
156 cin >> choice;
157
158 switch (choice) {
159 case 'A': // mainname
160 cout << Verbose(0) << "Old: " << config::mainname << "\t new: ";
161 cin >> config::mainname;
162 break;
163 case 'B': // defaultpath
164 cout << Verbose(0) << "Old: " << config::defaultpath << "\t new: ";
165 cin >> config::defaultpath;
166 break;
167 case 'C': // pseudopotpath
168 cout << Verbose(0) << "Old: " << config::pseudopotpath << "\t new: ";
169 cin >> config::pseudopotpath;
170 break;
171
172 case 'D': // ProcPEGamma
173 cout << Verbose(0) << "Old: " << config::ProcPEGamma << "\t new: ";
174 cin >> config::ProcPEGamma;
175 break;
176 case 'E': // ProcPEPsi
177 cout << Verbose(0) << "Old: " << config::ProcPEPsi << "\t new: ";
178 cin >> config::ProcPEPsi;
179 break;
180 case 'F': // DoOutVis
181 cout << Verbose(0) << "Old: " << config::DoOutVis << "\t new: ";
182 cin >> config::DoOutVis;
183 break;
184 case 'G': // DoOutMes
185 cout << Verbose(0) << "Old: " << config::DoOutMes << "\t new: ";
186 cin >> config::DoOutMes;
187 break;
188 case 'H': // DoOutOrbitals
189 cout << Verbose(0) << "Old: " << config::DoOutOrbitals << "\t new: ";
190 cin >> config::DoOutOrbitals;
191 break;
192 case 'I': // DoOutCurrent
193 cout << Verbose(0) << "Old: " << config::DoOutCurrent << "\t new: ";
194 cin >> config::DoOutCurrent;
195 break;
196 case 'J': // DoFullCurrent
197 cout << Verbose(0) << "Old: " << config::DoFullCurrent << "\t new: ";
198 cin >> config::DoFullCurrent;
199 break;
200 case 'K': // DoPerturbation
201 cout << Verbose(0) << "Old: " << config::DoPerturbation << "\t new: ";
202 cin >> config::DoPerturbation;
203 break;
204 case 'L': // CommonWannier
205 cout << Verbose(0) << "Old: " << config::CommonWannier << "\t new: ";
206 cin >> config::CommonWannier;
207 break;
208 case 'M': // SawtoothStart
209 cout << Verbose(0) << "Old: " << config::SawtoothStart << "\t new: ";
210 cin >> config::SawtoothStart;
211 break;
212 case 'N': // VectorPlane
213 cout << Verbose(0) << "Old: " << config::VectorPlane << "\t new: ";
214 cin >> config::VectorPlane;
215 break;
216 case 'O': // VectorCut
217 cout << Verbose(0) << "Old: " << config::VectorCut << "\t new: ";
218 cin >> config::VectorCut;
219 break;
220 case 'P': // UseAddGramSch
221 cout << Verbose(0) << "Old: " << config::UseAddGramSch << "\t new: ";
222 cin >> config::UseAddGramSch;
223 break;
224 case 'Q': // Seed
225 cout << Verbose(0) << "Old: " << config::Seed << "\t new: ";
226 cin >> config::Seed;
227 break;
228
229 case 'R': // MaxOuterStep
230 cout << Verbose(0) << "Old: " << config::MaxOuterStep << "\t new: ";
231 cin >> config::MaxOuterStep;
232 break;
233 case 'T': // OutVisStep
234 cout << Verbose(0) << "Old: " << config::OutVisStep << "\t new: ";
235 cin >> config::OutVisStep;
236 break;
237 case 'U': // OutSrcStep
238 cout << Verbose(0) << "Old: " << config::OutSrcStep << "\t new: ";
239 cin >> config::OutSrcStep;
240 break;
241 case 'X': // MaxPsiStep
242 cout << Verbose(0) << "Old: " << config::MaxPsiStep << "\t new: ";
243 cin >> config::MaxPsiStep;
244 break;
245 case 'Y': // EpsWannier
246 cout << Verbose(0) << "Old: " << config::EpsWannier << "\t new: ";
247 cin >> config::EpsWannier;
248 break;
249
250 case 'Z': // MaxMinStep
251 cout << Verbose(0) << "Old: " << config::MaxMinStep << "\t new: ";
252 cin >> config::MaxMinStep;
253 break;
254 case 'a': // RelEpsTotalEnergy
255 cout << Verbose(0) << "Old: " << config::RelEpsTotalEnergy << "\t new: ";
256 cin >> config::RelEpsTotalEnergy;
257 break;
258 case 'b': // RelEpsKineticEnergy
259 cout << Verbose(0) << "Old: " << config::RelEpsKineticEnergy << "\t new: ";
260 cin >> config::RelEpsKineticEnergy;
261 break;
262 case 'c': // MaxMinStopStep
263 cout << Verbose(0) << "Old: " << config::MaxMinStopStep << "\t new: ";
264 cin >> config::MaxMinStopStep;
265 break;
266 case 'e': // MaxInitMinStep
267 cout << Verbose(0) << "Old: " << config::MaxInitMinStep << "\t new: ";
268 cin >> config::MaxInitMinStep;
269 break;
270 case 'f': // InitRelEpsTotalEnergy
271 cout << Verbose(0) << "Old: " << config::InitRelEpsTotalEnergy << "\t new: ";
272 cin >> config::InitRelEpsTotalEnergy;
273 break;
274 case 'g': // InitRelEpsKineticEnergy
275 cout << Verbose(0) << "Old: " << config::InitRelEpsKineticEnergy << "\t new: ";
276 cin >> config::InitRelEpsKineticEnergy;
277 break;
278 case 'h': // InitMaxMinStopStep
279 cout << Verbose(0) << "Old: " << config::InitMaxMinStopStep << "\t new: ";
280 cin >> config::InitMaxMinStopStep;
281 break;
282
283 case 'j': // BoxLength
284 cout << Verbose(0) << "enter lower triadiagonalo form of basis matrix" << endl << endl;
285 for (int i=6;i--;) {
286 cout << Verbose(0) << "Cell size" << i << ": ";
287 cin >> mol->cell_size[i];
288 }
289 break;
290
291 case 'k': // ECut
292 cout << Verbose(0) << "Old: " << config::ECut << "\t new: ";
293 cin >> config::ECut;
294 break;
295 case 'l': // MaxLevel
296 cout << Verbose(0) << "Old: " << config::MaxLevel << "\t new: ";
297 cin >> config::MaxLevel;
298 break;
299 case 'm': // RiemannTensor
300 cout << Verbose(0) << "Old: " << config::RiemannTensor << "\t new: ";
301 cin >> config::RiemannTensor;
302 break;
303 case 'n': // LevRFactor
304 cout << Verbose(0) << "Old: " << config::LevRFactor << "\t new: ";
305 cin >> config::LevRFactor;
306 break;
307 case 'o': // RiemannLevel
308 cout << Verbose(0) << "Old: " << config::RiemannLevel << "\t new: ";
309 cin >> config::RiemannLevel;
310 break;
311 case 'p': // Lev0Factor
312 cout << Verbose(0) << "Old: " << config::Lev0Factor << "\t new: ";
313 cin >> config::Lev0Factor;
314 break;
315 case 'r': // RTActualUse
316 cout << Verbose(0) << "Old: " << config::RTActualUse << "\t new: ";
317 cin >> config::RTActualUse;
318 break;
319 case 's': // PsiType
320 cout << Verbose(0) << "Old: " << config::PsiType << "\t new: ";
321 cin >> config::PsiType;
322 break;
323 case 't': // MaxPsiDouble
324 cout << Verbose(0) << "Old: " << config::MaxPsiDouble << "\t new: ";
325 cin >> config::MaxPsiDouble;
326 break;
327 case 'u': // PsiMaxNoUp
328 cout << Verbose(0) << "Old: " << config::PsiMaxNoUp << "\t new: ";
329 cin >> config::PsiMaxNoUp;
330 break;
331 case 'v': // PsiMaxNoDown
332 cout << Verbose(0) << "Old: " << config::PsiMaxNoDown << "\t new: ";
333 cin >> config::PsiMaxNoDown;
334 break;
335 case 'w': // AddPsis
336 cout << Verbose(0) << "Old: " << config::AddPsis << "\t new: ";
337 cin >> config::AddPsis;
338 break;
339
340 case 'x': // RCut
341 cout << Verbose(0) << "Old: " << config::RCut << "\t new: ";
342 cin >> config::RCut;
343 break;
344 case 'y': // StructOpt
345 cout << Verbose(0) << "Old: " << config::StructOpt << "\t new: ";
346 cin >> config::StructOpt;
347 break;
348 case 'z': // IsAngstroem
349 cout << Verbose(0) << "Old: " << config::IsAngstroem << "\t new: ";
350 cin >> config::IsAngstroem;
351 break;
352 case 'i': // RelativeCoord
353 cout << Verbose(0) << "Old: " << config::RelativeCoord << "\t new: ";
354 cin >> config::RelativeCoord;
355 break;
356 };
357 } while (choice != 'q');
358};
359
360/** Tests whether a given configuration file adhears to old or new syntax.
361 * \param *filename filename of config file to be tested
362 * \param *periode pointer to a periodentafel class with all elements
363 * \param *mol pointer to molecule containing all atoms of the molecule
364 * \return 0 - old syntax, 1 - new syntax, -1 - unknown syntax
365 */
366int config::TestSyntax(char *filename, periodentafel *periode, molecule *mol)
367{
368 int test;
369 ifstream file(filename);
370
371 // search file for keyword: ProcPEGamma (new syntax)
372 if (ParseForParameter(1,&file,"ProcPEGamma", 0, 1, 1, int_type, &test, 1, optional)) {
373 file.close();
374 return 1;
375 }
376 // search file for keyword: ProcsGammaPsi (old syntax)
377 if (ParseForParameter(1,&file,"ProcsGammaPsi", 0, 1, 1, int_type, &test, 1, optional)) {
378 file.close();
379 return 0;
380 }
381 file.close();
382 return -1;
383}
384
385/** Returns private config::IsAngstroem.
386 * \return IsAngstroem
387 */
388bool config::GetIsAngstroem() const
389{
390 return (IsAngstroem == 1);
391};
392
393/** Returns private config::*defaultpath.
394 * \return *defaultpath
395 */
396char * config::GetDefaultPath() const
397{
398 return defaultpath;
399};
400
401
402/** Returns private config::*defaultpath.
403 * \return *defaultpath
404 */
405void config::SetDefaultPath(const char *path)
406{
407 strcpy(defaultpath, path);
408};
409
410/** Retrieves the path in the given config file name.
411 * \param filename config file string
412 */
413void config::RetrieveConfigPathAndName(string filename)
414{
415 char *ptr = NULL;
416 char *buffer = new char[MAXSTRINGSIZE];
417 strncpy(buffer, filename.c_str(), MAXSTRINGSIZE);
418 int last = -1;
419 for(last=MAXSTRINGSIZE;last--;) {
420 if (buffer[last] == '/')
421 break;
422 }
423 if (last == -1) { // no path in front, set to local directory.
424 strcpy(configpath, "./");
425 ptr = buffer;
426 } else {
427 strncpy(configpath, buffer, last+1);
428 ptr = &buffer[last+1];
429 if (last < 254)
430 configpath[last+1]='\0';
431 }
432 strcpy(configname, ptr);
433 cout << "Found configpath: " << configpath << ", dir slash was found at " << last << ", config name is " << configname << "." << endl;
434 delete[](buffer);
435};
436
437
438/** Initializes config file structure by loading elements from a give file.
439 * \param *file input file stream being the opened config file
440 * \param *periode pointer to a periodentafel class with all elements
441 * \param *mol pointer to molecule containing all atoms of the molecule
442 */
443void config::Load(char *filename, periodentafel *periode, molecule *mol)
444{
445 ifstream *file = new ifstream(filename);
446 if (file == NULL) {
447 cerr << "ERROR: config file " << filename << " missing!" << endl;
448 return;
449 }
450 RetrieveConfigPathAndName(filename);
451 // ParseParameters
452
453 /* Oeffne Hauptparameterdatei */
454 int di;
455 double BoxLength[9];
456 string zeile;
457 string dummy;
458 element *elementhash[MAX_ELEMENTS];
459 char name[MAX_ELEMENTS];
460 char keyword[MAX_ELEMENTS];
461 int Z, No[MAX_ELEMENTS];
462 int verbose = 0;
463
464 /* Namen einlesen */
465
466 ParseForParameter(verbose,file, "mainname", 0, 1, 1, string_type, (config::mainname), 1, critical);
467 ParseForParameter(verbose,file, "defaultpath", 0, 1, 1, string_type, (config::defaultpath), 1, critical);
468 ParseForParameter(verbose,file, "pseudopotpath", 0, 1, 1, string_type, (config::pseudopotpath), 1, critical);
469 ParseForParameter(verbose,file,"ProcPEGamma", 0, 1, 1, int_type, &(config::ProcPEGamma), 1, critical);
470 ParseForParameter(verbose,file,"ProcPEPsi", 0, 1, 1, int_type, &(config::ProcPEPsi), 1, critical);
471
472 if (!ParseForParameter(verbose,file,"Seed", 0, 1, 1, int_type, &(config::Seed), 1, optional))
473 config::Seed = 1;
474
475 if(!ParseForParameter(verbose,file,"DoOutOrbitals", 0, 1, 1, int_type, &(config::DoOutOrbitals), 1, optional)) {
476 config::DoOutOrbitals = 0;
477 } else {
478 if (config::DoOutOrbitals < 0) config::DoOutOrbitals = 0;
479 if (config::DoOutOrbitals > 1) config::DoOutOrbitals = 1;
480 }
481 ParseForParameter(verbose,file,"DoOutVis", 0, 1, 1, int_type, &(config::DoOutVis), 1, critical);
482 if (config::DoOutVis < 0) config::DoOutVis = 0;
483 if (config::DoOutVis > 1) config::DoOutVis = 1;
484 if (!ParseForParameter(verbose,file,"VectorPlane", 0, 1, 1, int_type, &(config::VectorPlane), 1, optional))
485 config::VectorPlane = -1;
486 if (!ParseForParameter(verbose,file,"VectorCut", 0, 1, 1, double_type, &(config::VectorCut), 1, optional))
487 config::VectorCut = 0.;
488 ParseForParameter(verbose,file,"DoOutMes", 0, 1, 1, int_type, &(config::DoOutMes), 1, critical);
489 if (config::DoOutMes < 0) config::DoOutMes = 0;
490 if (config::DoOutMes > 1) config::DoOutMes = 1;
491 if (!ParseForParameter(verbose,file,"DoOutCurr", 0, 1, 1, int_type, &(config::DoOutCurrent), 1, optional))
492 config::DoOutCurrent = 0;
493 if (config::DoOutCurrent < 0) config::DoOutCurrent = 0;
494 if (config::DoOutCurrent > 1) config::DoOutCurrent = 1;
495 ParseForParameter(verbose,file,"AddGramSch", 0, 1, 1, int_type, &(config::UseAddGramSch), 1, critical);
496 if (config::UseAddGramSch < 0) config::UseAddGramSch = 0;
497 if (config::UseAddGramSch > 2) config::UseAddGramSch = 2;
498 if(!ParseForParameter(verbose,file,"CommonWannier", 0, 1, 1, int_type, &(config::CommonWannier), 1, optional)) {
499 config::CommonWannier = 0;
500 } else {
501 if (config::CommonWannier < 0) config::CommonWannier = 0;
502 if (config::CommonWannier > 4) config::CommonWannier = 4;
503 }
504 if(!ParseForParameter(verbose,file,"SawtoothStart", 0, 1, 1, double_type, &(config::SawtoothStart), 1, optional)) {
505 config::SawtoothStart = 0.01;
506 } else {
507 if (config::SawtoothStart < 0.) config::SawtoothStart = 0.;
508 if (config::SawtoothStart > 1.) config::SawtoothStart = 1.;
509 }
510
511 ParseForParameter(verbose,file,"MaxOuterStep", 0, 1, 1, int_type, &(config::MaxOuterStep), 1, critical);
512 ParseForParameter(verbose,file,"Deltat", 0, 1, 1, double_type, &(config::Deltat), 1, optional);
513 ParseForParameter(verbose,file,"OutVisStep", 0, 1, 1, int_type, &(config::OutVisStep), 1, optional);
514 ParseForParameter(verbose,file,"OutSrcStep", 0, 1, 1, int_type, &(config::OutSrcStep), 1, optional);
515 ParseForParameter(verbose,file,"TargetTemp", 0, 1, 1, double_type, &(config::TargetTemp), 1, optional);
516 //ParseForParameter(verbose,file,"Thermostat", 0, 1, 1, int_type, &(config::ScaleTempStep), 1, optional);
517 if (!ParseForParameter(verbose,file,"EpsWannier", 0, 1, 1, double_type, &(config::EpsWannier), 1, optional))
518 config::EpsWannier = 1e-8;
519
520 // stop conditions
521 //if (config::MaxOuterStep <= 0) config::MaxOuterStep = 1;
522 ParseForParameter(verbose,file,"MaxPsiStep", 0, 1, 1, int_type, &(config::MaxPsiStep), 1, critical);
523 if (config::MaxPsiStep <= 0) config::MaxPsiStep = 3;
524
525 ParseForParameter(verbose,file,"MaxMinStep", 0, 1, 1, int_type, &(config::MaxMinStep), 1, critical);
526 ParseForParameter(verbose,file,"RelEpsTotalE", 0, 1, 1, double_type, &(config::RelEpsTotalEnergy), 1, critical);
527 ParseForParameter(verbose,file,"RelEpsKineticE", 0, 1, 1, double_type, &(config::RelEpsKineticEnergy), 1, critical);
528 ParseForParameter(verbose,file,"MaxMinStopStep", 0, 1, 1, int_type, &(config::MaxMinStopStep), 1, critical);
529 ParseForParameter(verbose,file,"MaxMinGapStopStep", 0, 1, 1, int_type, &(config::MaxMinGapStopStep), 1, critical);
530 if (config::MaxMinStep <= 0) config::MaxMinStep = config::MaxPsiStep;
531 if (config::MaxMinStopStep < 1) config::MaxMinStopStep = 1;
532 if (config::MaxMinGapStopStep < 1) config::MaxMinGapStopStep = 1;
533
534 ParseForParameter(verbose,file,"MaxInitMinStep", 0, 1, 1, int_type, &(config::MaxInitMinStep), 1, critical);
535 ParseForParameter(verbose,file,"InitRelEpsTotalE", 0, 1, 1, double_type, &(config::InitRelEpsTotalEnergy), 1, critical);
536 ParseForParameter(verbose,file,"InitRelEpsKineticE", 0, 1, 1, double_type, &(config::InitRelEpsKineticEnergy), 1, critical);
537 ParseForParameter(verbose,file,"InitMaxMinStopStep", 0, 1, 1, int_type, &(config::InitMaxMinStopStep), 1, critical);
538 ParseForParameter(verbose,file,"InitMaxMinGapStopStep", 0, 1, 1, int_type, &(config::InitMaxMinGapStopStep), 1, critical);
539 if (config::MaxInitMinStep <= 0) config::MaxInitMinStep = config::MaxPsiStep;
540 if (config::InitMaxMinStopStep < 1) config::InitMaxMinStopStep = 1;
541 if (config::InitMaxMinGapStopStep < 1) config::InitMaxMinGapStopStep = 1;
542
543 // Unit cell and magnetic field
544 ParseForParameter(verbose,file, "BoxLength", 0, 3, 3, lower_trigrid, BoxLength, 1, critical); /* Lattice->RealBasis */
545 mol->cell_size[0] = BoxLength[0];
546 mol->cell_size[1] = BoxLength[3];
547 mol->cell_size[2] = BoxLength[4];
548 mol->cell_size[3] = BoxLength[6];
549 mol->cell_size[4] = BoxLength[7];
550 mol->cell_size[5] = BoxLength[8];
551 if (1) fprintf(stderr,"\n");
552
553 ParseForParameter(verbose,file,"DoPerturbation", 0, 1, 1, int_type, &(config::DoPerturbation), 1, optional);
554 ParseForParameter(verbose,file,"DoOutNICS", 0, 1, 1, int_type, &(config::DoOutNICS), 1, optional);
555 if (!ParseForParameter(verbose,file,"DoFullCurrent", 0, 1, 1, int_type, &(config::DoFullCurrent), 1, optional))
556 config::DoFullCurrent = 0;
557 if (config::DoFullCurrent < 0) config::DoFullCurrent = 0;
558 if (config::DoFullCurrent > 2) config::DoFullCurrent = 2;
559 if (config::DoOutNICS < 0) config::DoOutNICS = 0;
560 if (config::DoOutNICS > 2) config::DoOutNICS = 2;
561 if (config::DoPerturbation == 0) {
562 config::DoFullCurrent = 0;
563 config::DoOutNICS = 0;
564 }
565
566 ParseForParameter(verbose,file,"ECut", 0, 1, 1, double_type, &(config::ECut), 1, critical);
567 ParseForParameter(verbose,file,"MaxLevel", 0, 1, 1, int_type, &(config::MaxLevel), 1, critical);
568 ParseForParameter(verbose,file,"Level0Factor", 0, 1, 1, int_type, &(config::Lev0Factor), 1, critical);
569 if (config::Lev0Factor < 2) {
570 config::Lev0Factor = 2;
571 }
572 ParseForParameter(verbose,file,"RiemannTensor", 0, 1, 1, int_type, &di, 1, critical);
573 if (di >= 0 && di < 2) {
574 config::RiemannTensor = di;
575 } else {
576 fprintf(stderr, "0 <= RiemanTensor < 2: 0 UseNotRT, 1 UseRT");
577 exit(1);
578 }
579 switch (config::RiemannTensor) {
580 case 0: //UseNoRT
581 if (config::MaxLevel < 2) {
582 config::MaxLevel = 2;
583 }
584 config::LevRFactor = 2;
585 config::RTActualUse = 0;
586 break;
587 case 1: // UseRT
588 if (config::MaxLevel < 3) {
589 config::MaxLevel = 3;
590 }
591 ParseForParameter(verbose,file,"RiemannLevel", 0, 1, 1, int_type, &(config::RiemannLevel), 1, critical);
592 if (config::RiemannLevel < 2) {
593 config::RiemannLevel = 2;
594 }
595 if (config::RiemannLevel > config::MaxLevel-1) {
596 config::RiemannLevel = config::MaxLevel-1;
597 }
598 ParseForParameter(verbose,file,"LevRFactor", 0, 1, 1, int_type, &(config::LevRFactor), 1, critical);
599 if (config::LevRFactor < 2) {
600 config::LevRFactor = 2;
601 }
602 config::Lev0Factor = 2;
603 config::RTActualUse = 2;
604 break;
605 }
606 ParseForParameter(verbose,file,"PsiType", 0, 1, 1, int_type, &di, 1, critical);
607 if (di >= 0 && di < 2) {
608 config::PsiType = di;
609 } else {
610 fprintf(stderr, "0 <= PsiType < 2: 0 UseSpinDouble, 1 UseSpinUpDown");
611 exit(1);
612 }
613 switch (config::PsiType) {
614 case 0: // SpinDouble
615 ParseForParameter(verbose,file,"MaxPsiDouble", 0, 1, 1, int_type, &(config::MaxPsiDouble), 1, critical);
616 ParseForParameter(verbose,file,"AddPsis", 0, 1, 1, int_type, &(config::AddPsis), 1, optional);
617 break;
618 case 1: // SpinUpDown
619 if (config::ProcPEGamma % 2) config::ProcPEGamma*=2;
620 ParseForParameter(verbose,file,"PsiMaxNoUp", 0, 1, 1, int_type, &(config::PsiMaxNoUp), 1, critical);
621 ParseForParameter(verbose,file,"PsiMaxNoDown", 0, 1, 1, int_type, &(config::PsiMaxNoDown), 1, critical);
622 ParseForParameter(verbose,file,"AddPsis", 0, 1, 1, int_type, &(config::AddPsis), 1, optional);
623 break;
624 }
625
626 // IonsInitRead
627
628 ParseForParameter(verbose,file,"RCut", 0, 1, 1, double_type, &(config::RCut), 1, critical);
629 ParseForParameter(verbose,file,"IsAngstroem", 0, 1, 1, int_type, &(config::IsAngstroem), 1, critical);
630 ParseForParameter(verbose,file,"MaxTypes", 0, 1, 1, int_type, &(config::MaxTypes), 1, critical);
631 if (!ParseForParameter(verbose,file,"RelativeCoord", 0, 1, 1, int_type, &(config::RelativeCoord) , 1, optional))
632 config::RelativeCoord = 0;
633 if (!ParseForParameter(verbose,file,"StructOpt", 0, 1, 1, int_type, &(config::StructOpt), 1, optional))
634 config::StructOpt = 0;
635 // prescan number of ions per type
636 cout << Verbose(0) << "Prescanning ions per type: " << endl;
637 for (int i=0; i < config::MaxTypes; i++) {
638 sprintf(name,"Ion_Type%i",i+1);
639 ParseForParameter(verbose,file, (const char*)name, 0, 1, 1, int_type, &No[i], 1, critical);
640 ParseForParameter(verbose,file, name, 0, 2, 1, int_type, &Z, 1, critical);
641 elementhash[i] = periode->FindElement(Z);
642 cout << Verbose(1) << i << ". Z = " << elementhash[i]->Z << " with " << No[i] << " ions." << endl;
643 }
644 for (int i=0; i < config::MaxTypes; i++) {
645 sprintf(name,"Ion_Type%i",i+1);
646 for(int j=0;j<No[i];j++) {
647 int repetition = 1; // which repeated keyword shall be read
648 sprintf(keyword,"%s_%i",name, j+1);
649 atom *neues = new atom();
650 // then parse for each atom the coordinates as often as present
651 if (!FastParsing) {
652 while (ParseForParameter(verbose,file, keyword, 0, 1, 1, double_type, &neues->x.x[0], repetition, (repetition == 1) ? critical : optional) &&
653 ParseForParameter(verbose,file, keyword, 0, 2, 1, double_type, &neues->x.x[1], repetition, (repetition == 1) ? critical : optional) &&
654 ParseForParameter(verbose,file, keyword, 0, 3, 1, double_type, &neues->x.x[2], repetition, (repetition == 1) ? critical : optional))
655 repetition++;
656 repetition--;
657 //cout << "Found " << repetition << " times of the keyword " << keyword << "." << endl;
658 }
659 ParseForParameter(verbose,file, keyword, 0, 1, 1, double_type, &neues->x.x[0], repetition,critical);
660 ParseForParameter(verbose,file, keyword, 0, 2, 1, double_type, &neues->x.x[1], repetition,critical);
661 ParseForParameter(verbose,file, keyword, 0, 3, 1, double_type, &neues->x.x[2], repetition,critical);
662 ParseForParameter(verbose,file, keyword, 0, 4, 1, int_type, &neues->FixedIon, repetition,critical);
663 if(!ParseForParameter(verbose,file, keyword, 0, 5, 1, double_type, &neues->v.x[0], repetition,optional))
664 neues->v.x[0] = 0.;
665 if(!ParseForParameter(verbose,file, keyword, 0, 6, 1, double_type, &neues->v.x[1], repetition,optional))
666 neues->v.x[1] = 0.;
667 if(!ParseForParameter(verbose,file, keyword, (int)FastParsing, 7, 1, double_type, &neues->v.x[2], repetition,optional))
668 neues->v.x[2] = 0.;
669 neues->type = elementhash[i]; // find element type
670 mol->AddAtom(neues);
671 }
672 }
673 file->close();
674 delete(file);
675};
676
677/** Initializes config file structure by loading elements from a give file with old pcp syntax.
678 * \param *file input file stream being the opened config file with old pcp syntax
679 * \param *periode pointer to a periodentafel class with all elements
680 * \param *mol pointer to molecule containing all atoms of the molecule
681 */
682void config::LoadOld(char *filename, periodentafel *periode, molecule *mol)
683{
684 ifstream *file = new ifstream(filename);
685 if (file == NULL) {
686 cerr << "ERROR: config file " << filename << " missing!" << endl;
687 return;
688 }
689 RetrieveConfigPathAndName(filename);
690 // ParseParameters
691
692 /* Oeffne Hauptparameterdatei */
693 int l, i, di;
694 double a,b;
695 double BoxLength[9];
696 string zeile;
697 string dummy;
698 element *elementhash[128];
699 int Z, No, AtomNo, found;
700 int verbose = 0;
701
702 /* Namen einlesen */
703
704 ParseForParameter(verbose,file, "mainname", 0, 1, 1, string_type, (config::mainname), 1, critical);
705 ParseForParameter(verbose,file, "defaultpath", 0, 1, 1, string_type, (config::defaultpath), 1, critical);
706 ParseForParameter(verbose,file, "pseudopotpath", 0, 1, 1, string_type, (config::pseudopotpath), 1, critical);
707 ParseForParameter(verbose,file, "ProcsGammaPsi", 0, 1, 1, int_type, &(config::ProcPEGamma), 1, critical);
708 ParseForParameter(verbose,file, "ProcsGammaPsi", 0, 2, 1, int_type, &(config::ProcPEPsi), 1, critical);
709 config::Seed = 1;
710 config::DoOutOrbitals = 0;
711 ParseForParameter(verbose,file,"DoOutVis", 0, 1, 1, int_type, &(config::DoOutVis), 1, critical);
712 if (config::DoOutVis < 0) config::DoOutVis = 0;
713 if (config::DoOutVis > 1) config::DoOutVis = 1;
714 config::VectorPlane = -1;
715 config::VectorCut = 0.;
716 ParseForParameter(verbose,file,"DoOutMes", 0, 1, 1, int_type, &(config::DoOutMes), 1, critical);
717 if (config::DoOutMes < 0) config::DoOutMes = 0;
718 if (config::DoOutMes > 1) config::DoOutMes = 1;
719 config::DoOutCurrent = 0;
720 ParseForParameter(verbose,file,"AddGramSch", 0, 1, 1, int_type, &(config::UseAddGramSch), 1, critical);
721 if (config::UseAddGramSch < 0) config::UseAddGramSch = 0;
722 if (config::UseAddGramSch > 2) config::UseAddGramSch = 2;
723 config::CommonWannier = 0;
724 config::SawtoothStart = 0.01;
725
726 ParseForParameter(verbose,file,"MaxOuterStep", 0, 1, 1, double_type, &(config::MaxOuterStep), 1, critical);
727 ParseForParameter(verbose,file,"Deltat", 0, 1, 1, double_type, &(config::Deltat), 1, optional);
728 ParseForParameter(verbose,file,"VisOuterStep", 0, 1, 1, int_type, &(config::OutVisStep), 1, optional);
729 ParseForParameter(verbose,file,"VisSrcOuterStep", 0, 1, 1, int_type, &(config::OutSrcStep), 1, optional);
730 ParseForParameter(verbose,file,"TargetTemp", 0, 1, 1, double_type, &(config::TargetTemp), 1, optional);
731 ParseForParameter(verbose,file,"ScaleTempStep", 0, 1, 1, int_type, &(config::ScaleTempStep), 1, optional);
732 config::EpsWannier = 1e-8;
733
734 // stop conditions
735 //if (config::MaxOuterStep <= 0) config::MaxOuterStep = 1;
736 ParseForParameter(verbose,file,"MaxPsiStep", 0, 1, 1, int_type, &(config::MaxPsiStep), 1, critical);
737 if (config::MaxPsiStep <= 0) config::MaxPsiStep = 3;
738
739 ParseForParameter(verbose,file,"MaxMinStep", 0, 1, 1, int_type, &(config::MaxMinStep), 1, critical);
740 ParseForParameter(verbose,file,"MaxMinStep", 0, 2, 1, double_type, &(config::RelEpsTotalEnergy), 1, critical);
741 ParseForParameter(verbose,file,"MaxMinStep", 0, 3, 1, double_type, &(config::RelEpsKineticEnergy), 1, critical);
742 ParseForParameter(verbose,file,"MaxMinStep", 0, 4, 1, int_type, &(config::MaxMinStopStep), 1, critical);
743 if (config::MaxMinStep <= 0) config::MaxMinStep = config::MaxPsiStep;
744 if (config::MaxMinStopStep < 1) config::MaxMinStopStep = 1;
745 config::MaxMinGapStopStep = 1;
746
747 ParseForParameter(verbose,file,"MaxInitMinStep", 0, 1, 1, int_type, &(config::MaxInitMinStep), 1, critical);
748 ParseForParameter(verbose,file,"MaxInitMinStep", 0, 2, 1, double_type, &(config::InitRelEpsTotalEnergy), 1, critical);
749 ParseForParameter(verbose,file,"MaxInitMinStep", 0, 3, 1, double_type, &(config::InitRelEpsKineticEnergy), 1, critical);
750 ParseForParameter(verbose,file,"MaxInitMinStep", 0, 4, 1, int_type, &(config::InitMaxMinStopStep), 1, critical);
751 if (config::MaxInitMinStep <= 0) config::MaxInitMinStep = config::MaxPsiStep;
752 if (config::InitMaxMinStopStep < 1) config::InitMaxMinStopStep = 1;
753 config::InitMaxMinGapStopStep = 1;
754
755 ParseForParameter(verbose,file, "BoxLength", 0, 3, 3, lower_trigrid, BoxLength, 1, critical); /* Lattice->RealBasis */
756 mol->cell_size[0] = BoxLength[0];
757 mol->cell_size[1] = BoxLength[3];
758 mol->cell_size[2] = BoxLength[4];
759 mol->cell_size[3] = BoxLength[6];
760 mol->cell_size[4] = BoxLength[7];
761 mol->cell_size[5] = BoxLength[8];
762 if (1) fprintf(stderr,"\n");
763 config::DoPerturbation = 0;
764 config::DoFullCurrent = 0;
765
766 ParseForParameter(verbose,file,"ECut", 0, 1, 1, double_type, &(config::ECut), 1, critical);
767 ParseForParameter(verbose,file,"MaxLevel", 0, 1, 1, int_type, &(config::MaxLevel), 1, critical);
768 ParseForParameter(verbose,file,"Level0Factor", 0, 1, 1, int_type, &(config::Lev0Factor), 1, critical);
769 if (config::Lev0Factor < 2) {
770 config::Lev0Factor = 2;
771 }
772 ParseForParameter(verbose,file,"RiemannTensor", 0, 1, 1, int_type, &di, 1, critical);
773 if (di >= 0 && di < 2) {
774 config::RiemannTensor = di;
775 } else {
776 fprintf(stderr, "0 <= RiemanTensor < 2: 0 UseNotRT, 1 UseRT");
777 exit(1);
778 }
779 switch (config::RiemannTensor) {
780 case 0: //UseNoRT
781 if (config::MaxLevel < 2) {
782 config::MaxLevel = 2;
783 }
784 config::LevRFactor = 2;
785 config::RTActualUse = 0;
786 break;
787 case 1: // UseRT
788 if (config::MaxLevel < 3) {
789 config::MaxLevel = 3;
790 }
791 ParseForParameter(verbose,file,"RiemannLevel", 0, 1, 1, int_type, &(config::RiemannLevel), 1, critical);
792 if (config::RiemannLevel < 2) {
793 config::RiemannLevel = 2;
794 }
795 if (config::RiemannLevel > config::MaxLevel-1) {
796 config::RiemannLevel = config::MaxLevel-1;
797 }
798 ParseForParameter(verbose,file,"LevRFactor", 0, 1, 1, int_type, &(config::LevRFactor), 1, critical);
799 if (config::LevRFactor < 2) {
800 config::LevRFactor = 2;
801 }
802 config::Lev0Factor = 2;
803 config::RTActualUse = 2;
804 break;
805 }
806 ParseForParameter(verbose,file,"PsiType", 0, 1, 1, int_type, &di, 1, critical);
807 if (di >= 0 && di < 2) {
808 config::PsiType = di;
809 } else {
810 fprintf(stderr, "0 <= PsiType < 2: 0 UseSpinDouble, 1 UseSpinUpDown");
811 exit(1);
812 }
813 switch (config::PsiType) {
814 case 0: // SpinDouble
815 ParseForParameter(verbose,file,"MaxPsiDouble", 0, 1, 1, int_type, &(config::MaxPsiDouble), 1, critical);
816 config::AddPsis = 0;
817 break;
818 case 1: // SpinUpDown
819 if (config::ProcPEGamma % 2) config::ProcPEGamma*=2;
820 ParseForParameter(verbose,file,"MaxPsiUp", 0, 1, 1, int_type, &(config::PsiMaxNoUp), 1, critical);
821 ParseForParameter(verbose,file,"MaxPsiDown", 0, 1, 1, int_type, &(config::PsiMaxNoDown), 1, critical);
822 config::AddPsis = 0;
823 break;
824 }
825
826 // IonsInitRead
827
828 ParseForParameter(verbose,file,"RCut", 0, 1, 1, double_type, &(config::RCut), 1, critical);
829 ParseForParameter(verbose,file,"IsAngstroem", 0, 1, 1, int_type, &(config::IsAngstroem), 1, critical);
830 config::RelativeCoord = 0;
831 config::StructOpt = 0;
832
833 // Routine from builder.cpp
834
835
836 for (i=MAX_ELEMENTS;i--;)
837 elementhash[i] = NULL;
838 cout << Verbose(0) << "Parsing Ions ..." << endl;
839 No=0;
840 found = 0;
841 while (getline(*file,zeile,'\n')) {
842 if (zeile.find("Ions_Data") == 0) {
843 cout << Verbose(1) << "found Ions_Data...begin parsing" << endl;
844 found ++;
845 }
846 if (found > 0) {
847 if (zeile.find("Ions_Data") == 0)
848 getline(*file,zeile,'\n'); // read next line and parse this one
849 istringstream input(zeile);
850 input >> AtomNo; // number of atoms
851 input >> Z; // atomic number
852 input >> a;
853 input >> l;
854 input >> l;
855 input >> b; // element mass
856 elementhash[No] = periode->FindElement(Z);
857 cout << Verbose(1) << "AtomNo: " << AtomNo << "\tZ: " << Z << "\ta:" << a << "\tl:" << l << "\b:" << b << "\tElement:" << elementhash[No] << "\t:" << endl;
858 for(i=0;i<AtomNo;i++) {
859 if (!getline(*file,zeile,'\n')) {// parse on and on
860 cout << Verbose(2) << "Error: Too few items in ionic list of element" << elementhash[No] << "." << endl << "Exiting." << endl;
861 // return 1;
862 } else {
863 //cout << Verbose(2) << "Reading line: " << zeile << endl;
864 }
865 istringstream input2(zeile);
866 atom *neues = new atom();
867 input2 >> neues->x.x[0]; // x
868 input2 >> neues->x.x[1]; // y
869 input2 >> neues->x.x[2]; // z
870 input2 >> l;
871 neues->type = elementhash[No]; // find element type
872 mol->AddAtom(neues);
873 }
874 No++;
875 }
876 }
877 file->close();
878 delete(file);
879};
880
881/** Stores all elements of config structure from which they can be re-read.
882 * \param output open output *file stream to write to
883 * \param *periode pointer to a periodentafel class with all elements
884 * \param *mol pointer to molecule containing all atoms of the molecule
885 */
886bool config::Save(ofstream *output, periodentafel *periode, molecule *mol) const
887{
888 bool result = true;
889 // bring MaxTypes up to date
890 mol->CountElements();
891 if (output != NULL) {
892 *output << "# ParallelCarParinello - main configuration file - created with molecuilder" << endl;
893 *output << endl;
894 *output << "mainname\t" << config::mainname << "\t# programm name (for runtime files)" << endl;
895 *output << "defaultpath\t" << config::defaultpath << "\t# where to put files during runtime" << endl;
896 *output << "pseudopotpath\t" << config::pseudopotpath << "\t# where to find pseudopotentials" << endl;
897 *output << endl;
898 *output << "ProcPEGamma\t" << config::ProcPEGamma << "\t# for parallel computing: share constants" << endl;
899 *output << "ProcPEPsi\t" << config::ProcPEPsi << "\t# for parallel computing: share wave functions" << endl;
900 *output << "DoOutVis\t" << config::DoOutVis << "\t# Output data for OpenDX" << endl;
901 *output << "DoOutMes\t" << config::DoOutMes << "\t# Output data for measurements" << endl;
902 *output << "DoOutOrbitals\t" << config::DoOutOrbitals << "\t# Output all Orbitals" << endl;
903 *output << "DoOutCurr\t" << config::DoOutCurrent << "\t# Ouput current density for OpenDx" << endl;
904 *output << "DoOutNICS\t" << config::DoOutNICS << "\t# Output Nucleus independent current shieldings" << endl;
905 *output << "DoPerturbation\t" << config::DoPerturbation << "\t# Do perturbation calculate and determine susceptibility and shielding" << endl;
906 *output << "DoFullCurrent\t" << config::DoFullCurrent << "\t# Do full perturbation" << endl;
907 *output << "CommonWannier\t" << config::CommonWannier << "\t# Put virtual centers at indivual orbits, all common, merged by variance, to grid point, to cell center" << endl;
908 *output << "SawtoothStart\t" << config::SawtoothStart << "\t# Absolute value for smooth transition at cell border " << endl;
909 *output << "VectorPlane\t" << config::VectorPlane << "\t# Cut plane axis (x, y or z: 0,1,2) for two-dim current vector plot" << endl;
910 *output << "VectorCut\t" << config::VectorCut << "\t# Cut plane axis value" << endl;
911 *output << "AddGramSch\t" << config::UseAddGramSch << "\t# Additional GramSchmidtOrtogonalization to be safe" << endl;
912 *output << "Seed\t\t" << config::Seed << "\t# initial value for random seed for Psi coefficients" << endl;
913 *output << endl;
914 *output << "MaxOuterStep\t" << config::MaxOuterStep << "\t# number of MolecularDynamics/Structure optimization steps" << endl;
915 *output << "Deltat\t" << config::Deltat << "\t# time per MD step" << endl;
916 *output << "OutVisStep\t" << config::OutVisStep << "\t# Output visual data every ...th step" << endl;
917 *output << "OutSrcStep\t" << config::OutSrcStep << "\t# Output \"restart\" data every ..th step" << endl;
918 *output << "TargetTemp\t" << config::TargetTemp << "\t# Target temperature" << endl;
919 *output << "MaxPsiStep\t" << config::MaxPsiStep << "\t# number of Minimisation steps per state (0 - default)" << endl;
920 *output << "EpsWannier\t" << config::EpsWannier << "\t# tolerance value for spread minimisation of orbitals" << endl;
921 *output << endl;
922 *output << "# Values specifying when to stop" << endl;
923 *output << "MaxMinStep\t" << config::MaxMinStep << "\t# Maximum number of steps" << endl;
924 *output << "RelEpsTotalE\t" << config::RelEpsTotalEnergy << "\t# relative change in total energy" << endl;
925 *output << "RelEpsKineticE\t" << config::RelEpsKineticEnergy << "\t# relative change in kinetic energy" << endl;
926 *output << "MaxMinStopStep\t" << config::MaxMinStopStep << "\t# check every ..th steps" << endl;
927 *output << "MaxMinGapStopStep\t" << config::MaxMinGapStopStep << "\t# check every ..th steps" << endl;
928 *output << endl;
929 *output << "# Values specifying when to stop for INIT, otherwise same as above" << endl;
930 *output << "MaxInitMinStep\t" << config::MaxInitMinStep << "\t# Maximum number of steps" << endl;
931 *output << "InitRelEpsTotalE\t" << config::InitRelEpsTotalEnergy << "\t# relative change in total energy" << endl;
932 *output << "InitRelEpsKineticE\t" << config::InitRelEpsKineticEnergy << "\t# relative change in kinetic energy" << endl;
933 *output << "InitMaxMinStopStep\t" << config::InitMaxMinStopStep << "\t# check every ..th steps" << endl;
934 *output << "InitMaxMinGapStopStep\t" << config::InitMaxMinGapStopStep << "\t# check every ..th steps" << endl;
935 *output << endl;
936 *output << "BoxLength\t\t\t# (Length of a unit cell)" << endl;
937 *output << mol->cell_size[0] << "\t" << endl;
938 *output << mol->cell_size[1] << "\t" << mol->cell_size[2] << "\t" << endl;
939 *output << mol->cell_size[3] << "\t" << mol->cell_size[4] << "\t" << mol->cell_size[5] << "\t" << endl;
940 // FIXME
941 *output << endl;
942 *output << "ECut\t\t" << config::ECut << "\t# energy cutoff for discretization in Hartrees" << endl;
943 *output << "MaxLevel\t" << config::MaxLevel << "\t# number of different levels in the code, >=2" << endl;
944 *output << "Level0Factor\t" << config::Lev0Factor << "\t# factor by which node number increases from S to 0 level" << endl;
945 *output << "RiemannTensor\t" << config::RiemannTensor << "\t# (Use metric)" << endl;
946 switch (config::RiemannTensor) {
947 case 0: //UseNoRT
948 break;
949 case 1: // UseRT
950 *output << "RiemannLevel\t" << config::RiemannLevel << "\t# Number of Riemann Levels" << endl;
951 *output << "LevRFactor\t" << config::LevRFactor << "\t# factor by which node number increases from 0 to R level from" << endl;
952 break;
953 }
954 *output << "PsiType\t\t" << config::PsiType << "\t# 0 - doubly occupied, 1 - SpinUp,SpinDown" << endl;
955 // write out both types for easier changing afterwards
956 // switch (PsiType) {
957 // case 0:
958 *output << "MaxPsiDouble\t" << config::MaxPsiDouble << "\t# here: specifying both maximum number of SpinUp- and -Down-states" << endl;
959 // break;
960 // case 1:
961 *output << "PsiMaxNoUp\t" << config::PsiMaxNoUp << "\t# here: specifying maximum number of SpinUp-states" << endl;
962 *output << "PsiMaxNoDown\t" << config::PsiMaxNoDown << "\t# here: specifying maximum number of SpinDown-states" << endl;
963 // break;
964 // }
965 *output << "AddPsis\t\t" << config::AddPsis << "\t# Additional unoccupied Psis for bandgap determination" << endl;
966 *output << endl;
967 *output << "RCut\t\t" << config::RCut << "\t# R-cut for the ewald summation" << endl;
968 *output << "StructOpt\t" << config::StructOpt << "\t# Do structure optimization beforehand" << endl;
969 *output << "IsAngstroem\t" << config::IsAngstroem << "\t# 0 - Bohr, 1 - Angstroem" << endl;
970 *output << "RelativeCoord\t" << config::RelativeCoord << "\t# whether ion coordinates are relative (1) or absolute (0)" << endl;
971 *output << "MaxTypes\t" << mol->ElementCount << "\t# maximum number of different ion types" << endl;
972 *output << endl;
973 result = result && mol->Checkout(output);
974 result = result && mol->Output(output);
975 return result;
976 } else
977 return false;
978};
979
980/** Reads parameter from a parsed file.
981 * The file is either parsed for a certain keyword or if null is given for
982 * the value in row yth and column xth. If the keyword was necessity#critical,
983 * then an error is thrown and the programme aborted.
984 * \warning value is modified (both in contents and position)!
985 * \param verbose 1 - print found value to stderr, 0 - don't
986 * \param file file to be parsed
987 * \param name Name of value in file (at least 3 chars!)
988 * \param sequential 1 - do not reset file pointer to begin of file, 0 - set to beginning
989 * (if file is sequentially parsed this can be way faster! However, beware of multiple values per line, as whole line is read -
990 * best approach: 0 0 0 1 (not resetted only on last value of line) - and of yth, which is now
991 * counted from this unresetted position!)
992 * \param xth Which among a number of parameters it is (in grid case it's row number as grid is read as a whole!)
993 * \param yth In grid case specifying column number, otherwise the yth \a name matching line
994 * \param type Type of the Parameter to be read
995 * \param value address of the value to be read (must have been allocated)
996 * \param repetition determines, if the keyword appears multiply in the config file, which repetition shall be parsed, i.e. 1 if not multiply
997 * \param critical necessity of this keyword being specified (optional, critical)
998 * \return 1 - found, 0 - not found
999 * \note Routine is taken from the pcp project and hack-a-slack adapted to C++
1000 */
1001int config::ParseForParameter(int verbose, ifstream *file, const char *name, int sequential, int const xth, int const yth, int type, void *value, int repetition, int critical) {
1002 int i,j; // loop variables
1003 int length = 0, maxlength = -1;
1004 long file_position = file->tellg(); // mark current position
1005 char *dummy1, *dummy, *free_dummy; // pointers in the line that is read in per step
1006 dummy1 = free_dummy = (char *) Malloc(256 * sizeof(char), "config::ParseForParameter: *free_dummy");
1007
1008 //fprintf(stderr,"Parsing for %s\n",name);
1009 if (repetition == 0)
1010 //Error(SomeError, "ParseForParameter(): argument repetition must not be 0!");
1011 return 0;
1012
1013 int line = 0; // marks line where parameter was found
1014 int found = (type >= grid) ? 0 : (-yth + 1); // marks if yth parameter name was found
1015 while((found != repetition)) {
1016 dummy1 = dummy = free_dummy;
1017 do {
1018 file->getline(dummy1, 256); // Read the whole line
1019 if (file->eof()) {
1020 if ((critical) && (found == 0)) {
1021 Free((void **)&free_dummy, "config::ParseForParameter: *free_dummy");
1022 //Error(InitReading, name);
1023 fprintf(stderr,"Error:InitReading, critical %s not found\n", name);
1024 exit(255);
1025 } else {
1026 //if (!sequential)
1027 file->clear();
1028 file->seekg(file_position, ios::beg); // rewind to start position
1029 Free((void **)&free_dummy, "config::ParseForParameter: *free_dummy");
1030 return 0;
1031 }
1032 }
1033 line++;
1034 } while (((dummy1[0] == '#') || (dummy1[0] == '\n')) && dummy != NULL); // skip commentary and empty lines
1035
1036 // C++ getline removes newline at end, thus re-add
1037 if ((dummy1 != NULL) && (strchr(dummy1,'\n') == NULL)) {
1038 i = strlen(dummy1);
1039 dummy1[i] = '\n';
1040 dummy1[i+1] = '\0';
1041 }
1042 //fprintf(stderr,"line ends at %i, newline at %i\n", strlen(dummy1), strchr(dummy1,'\n')-free_dummy);
1043 if (dummy1 == NULL) {
1044 if (verbose) fprintf(stderr,"Error reading line %i\n",line);
1045 } else {
1046 //fprintf(stderr,"Reading next line %i: %s\n", line, dummy1);
1047 }
1048 // Seek for possible end of keyword on line if given ...
1049 if (name != NULL) {
1050 dummy = strchr(dummy1,'\t'); // set dummy on first tab or space which ever's nearer
1051 if (dummy == NULL) {
1052 dummy = strchr(dummy1, ' '); // if not found seek for space
1053 while ((dummy != NULL) && ((*dummy == '\t') || (*dummy == ' '))) // skip some more tabs and spaces if necessary
1054 dummy++;
1055 }
1056 if (dummy == NULL) {
1057 dummy = strchr(dummy1, '\n'); // set on line end then (whole line = keyword)
1058 //fprintf(stderr,"Error: Cannot find tabs or spaces on line %i in search for %s\n", line, name);
1059 //Free((void **)&free_dummy);
1060 //Error(FileOpenParams, NULL);
1061 } else {
1062 //fprintf(stderr,"found tab at %i\n",(char *)dummy-(char *)dummy1);
1063 }
1064 } else dummy = dummy1;
1065 // ... and check if it is the keyword!
1066 //fprintf(stderr,"name %p, dummy %i/%c, dummy1 %i/%c, strlen(name) %i\n", &name, dummy, *dummy, dummy1, *dummy1, strlen(name));
1067 if ((name == NULL) || ((dummy-dummy1 >= 3) && (strncmp(dummy1, name, strlen(name)) == 0)) && ((unsigned int)(dummy-dummy1) == strlen(name))) {
1068 found++; // found the parameter!
1069 //fprintf(stderr,"found %s at line %i between %i and %i\n", name, line, dummy1, dummy);
1070
1071 if (found == repetition) {
1072 for (i=0;i<xth;i++) { // i = rows
1073 if (type >= grid) {
1074 // grid structure means that grid starts on the next line, not right after keyword
1075 dummy1 = dummy = free_dummy;
1076 do {
1077 file->getline(dummy1, 256); // Read the whole line, skip commentary and empty ones
1078 if (file->eof()) {
1079 if ((critical) && (found == 0)) {
1080 Free((void **)&free_dummy, "config::ParseForParameter: *free_dummy");
1081 //Error(InitReading, name);
1082 fprintf(stderr,"Error:InitReading, critical %s not found\n", name);
1083 exit(255);
1084 } else {
1085 //if (!sequential)
1086 file->clear();
1087 file->seekg(file_position, ios::beg); // rewind to start position
1088 Free((void **)&free_dummy, "config::ParseForParameter: *free_dummy");
1089 return 0;
1090 }
1091 }
1092 line++;
1093 } while ((dummy1[0] == '#') || (dummy1[0] == '\n'));
1094 if (dummy1 == NULL){
1095 if (verbose) fprintf(stderr,"Error reading line %i\n", line);
1096 } else {
1097 //fprintf(stderr,"Reading next line %i: %s\n", line, dummy1);
1098 }
1099 } else { // simple int, strings or doubles start in the same line
1100 while ((*dummy == '\t') || (*dummy == ' ')) // skip interjacent tabs and spaces
1101 dummy++;
1102 }
1103 // C++ getline removes newline at end, thus re-add
1104 if ((dummy1 != NULL) && (strchr(dummy1,'\n') == NULL)) {
1105 j = strlen(dummy1);
1106 dummy1[j] = '\n';
1107 dummy1[j+1] = '\0';
1108 }
1109
1110 int start = (type >= grid) ? 0 : yth-1 ;
1111 for (j=start;j<yth;j++) { // j = columns
1112 // check for lower triangular area and upper triangular area
1113 if ( ((i > j) && (type == upper_trigrid)) || ((j > i) && (type == lower_trigrid))) {
1114 *((double *)value) = 0.0;
1115 fprintf(stderr,"%f\t",*((double *)value));
1116 value = (void *)((long)value + sizeof(double));
1117 //value += sizeof(double);
1118 } else {
1119 // otherwise we must skip all interjacent tabs and spaces and find next value
1120 dummy1 = dummy;
1121 dummy = strchr(dummy1, '\t'); // seek for tab or space
1122 if (dummy == NULL) {
1123 dummy = strchr(dummy1, ' '); // if not found seek for space
1124 while ((dummy != NULL) && ((*dummy == '\t') || (*dummy == ' '))) // skip some more tabs and spaces if necessary
1125 dummy++;
1126 }
1127/* while ((dummy != NULL) && ((*dummy == '\t') || (*dummy == ' '))) // skip some more tabs and spaces if necessary
1128 dummy++;*/
1129 if (dummy == NULL) { // if still zero returned ...
1130 dummy = strchr(dummy1, '\n'); // ... at line end then
1131 if ((j < yth-1) && (type < 4)) { // check if xth value or not yet
1132 if (critical) {
1133 if (verbose) fprintf(stderr,"Error: EoL at %i and still missing %i value(s) for parameter %s\n", line, yth-j, name);
1134 Free((void **)&free_dummy, "config::ParseForParameter: *free_dummy");
1135 //return 0;
1136 exit(255);
1137 //Error(FileOpenParams, NULL);
1138 } else {
1139 //if (!sequential)
1140 file->clear();
1141 file->seekg(file_position, ios::beg); // rewind to start position
1142 Free((void **)&free_dummy, "config::ParseForParameter: *free_dummy");
1143 return 0;
1144 }
1145 }
1146 } else {
1147 //fprintf(stderr,"found tab at %i\n",(char *)dummy-(char *)free_dummy);
1148 }
1149 //fprintf(stderr,"value from %i to %i\n",(char *)dummy1-(char *)free_dummy,(char *)dummy-(char *)free_dummy);
1150 switch(type) {
1151 case (row_int):
1152 *((int *)value) = atoi(dummy1);
1153 if ((verbose) && (i==0) && (j==0)) fprintf(stderr,"%s = ", name);
1154 if (verbose) fprintf(stderr,"%i\t",*((int *)value));
1155 value = (void *)((long)value + sizeof(int));
1156 //value += sizeof(int);
1157 break;
1158 case(row_double):
1159 case(grid):
1160 case(lower_trigrid):
1161 case(upper_trigrid):
1162 *((double *)value) = atof(dummy1);
1163 if ((verbose) && (i==0) && (j==0)) fprintf(stderr,"%s = ", name);
1164 if (verbose) fprintf(stderr,"%lg\t",*((double *)value));
1165 value = (void *)((long)value + sizeof(double));
1166 //value += sizeof(double);
1167 break;
1168 case(double_type):
1169 *((double *)value) = atof(dummy1);
1170 if ((verbose) && (i == xth-1)) fprintf(stderr,"%s = %lg\n", name, *((double *) value));
1171 //value += sizeof(double);
1172 break;
1173 case(int_type):
1174 *((int *)value) = atoi(dummy1);
1175 if ((verbose) && (i == xth-1)) fprintf(stderr,"%s = %i\n", name, *((int *) value));
1176 //value += sizeof(int);
1177 break;
1178 default:
1179 case(string_type):
1180 if (value != NULL) {
1181 //if (maxlength == -1) maxlength = strlen((char *)value); // get maximum size of string array
1182 maxlength = MAXSTRINGSIZE;
1183 length = maxlength > (dummy-dummy1) ? (dummy-dummy1) : maxlength; // cap at maximum
1184 strncpy((char *)value, dummy1, length); // copy as much
1185 ((char *)value)[length] = '\0'; // and set end marker
1186 if ((verbose) && (i == xth-1)) fprintf(stderr,"%s is '%s' (%i chars)\n",name,((char *) value), length);
1187 //value += sizeof(char);
1188 } else {
1189 }
1190 break;
1191 }
1192 }
1193 while (*dummy == '\t')
1194 dummy++;
1195 }
1196 }
1197 }
1198 }
1199 }
1200 if ((type >= row_int) && (verbose)) fprintf(stderr,"\n");
1201 Free((void **)&free_dummy, "config::ParseForParameter: *free_dummy");
1202 if (!sequential) {
1203 file->clear();
1204 file->seekg(file_position, ios::beg); // rewind to start position
1205 }
1206 //fprintf(stderr, "End of Parsing\n\n");
1207
1208 return (found); // true if found, false if not
1209}
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