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Revision 1719 by tim, Fri Nov 5 23:38:27 2004 UTC vs.
Revision 1807 by tim, Tue Nov 30 22:43:51 2004 UTC

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1 < /*
2 < * Copyright (C) 2000-2004  Object Oriented Parallel Simulation Engine (OOPSE) project
3 < *
4 < * Contact: oopse@oopse.org
5 < *
6 < * This program is free software; you can redistribute it and/or
7 < * modify it under the terms of the GNU Lesser General Public License
8 < * as published by the Free Software Foundation; either version 2.1
9 < * of the License, or (at your option) any later version.
10 < * All we ask is that proper credit is given for our work, which includes
11 < * - but is not limited to - adding the above copyright notice to the beginning
12 < * of your source code files, and to any copyright notice that you may distribute
13 < * with programs based on this work.
14 < *
15 < * This program is distributed in the hope that it will be useful,
16 < * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 < * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
18 < * GNU Lesser General Public License for more details.
19 < *
20 < * You should have received a copy of the GNU Lesser General Public License
21 < * along with this program; if not, write to the Free Software
22 < * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
23 < *
24 < */
25 <
26 < /**
27 < * @file SimInfo.hpp
28 < * @author    tlin
29 < * @date  11/02/2004
30 < * @version 1.0
31 < */
32 <
33 < #ifndef BRAINS_SIMMODEL_HPP
34 < #define BRAINS_SIMMODEL_HPP
35 <
36 < #include <iostream>
37 < #include <vector>
38 < #include <utility>
39 <
40 < #include "brains/fSimulation.h"
41 < #include "primitives/Molecule.hpp"
42 < #include "types/MoleculeStamp.hpp"
43 < #include "utils/PropertyMap.hpp"
44 < #include "io/Globals.hpp"
45 <
46 < namespace oopse{
47 <
48 < /**
49 < * @class SimInfo SimInfo.hpp "brains/SimInfo.hpp"
50 < * @brief
51 < */
52 < class SimInfo {
53 <    public:
54 <        SimInfo();
55 <        virtual ~SimInfo();
56 <
57 <        /**
58 <         * Adds a molecule
59 <         * @return return true if adding successfully, return false if the molecule is already in SimInfo
60 <         * @param mol molecule to be added
61 <         */
62 <        bool addMolecule(Molecule* mol);
63 <
64 <        /**
65 <         * Removes a molecule from SimInfo
66 <         * @return true if removing successfully, return false if molecule is not in this SimInfo
67 <         */
68 <        bool removeMolecule(Molecule* mol);
69 <
70 <        /**
71 <         * Returns the number of molecules.
72 <         * @return the number of molecules in this SimInfo
73 <         */
74 <        int getNMolecules() {
75 <            return molecules_.size();
76 <        }
77 <
78 <        /** Returns the total number of atoms in this SimInfo */
79 <        unsigned int getNAtoms() {
80 <            return nAtoms_;
81 <        }
82 <
83 <        /** Returns the total number of bonds in this SimInfo */        
84 <        unsigned int getNBonds(){
85 <            return nBonds_;
86 <        }
87 <
88 <        /** Returns the total number of bends in this SimInfo */        
89 <        unsigned int getNBends() {
90 <            return nBends_;
91 <        }
92 <
93 <        /** Returns the total number of torsions in this SimInfo */        
94 <        unsigned int getNTorsions() {
95 <            return nTorsions_;
96 <        }
97 <
98 <        /** Returns the total number of rigid bodies in this SimInfo */        
99 <        unsigned int getNRigidBodies() {
100 <            return nRigidBodies_;
101 <        }
102 <
103 <        /** Returns the total number of integrable objects in this SimInfo */
104 <        unsigned int getNIntegrableObjects() {
105 <            return nIntegrableObjects_;
106 <        }
107 <
108 <        /** Returns the total number of cutoff groups in this SimInfo */
109 <        unsigned int getNCutoffGroups() {
110 <            return nCutoffGroups_;
111 <        }
112 <
113 <        /** Returns the total number of constraints in this SimInfo */
114 <        unsigned int getNConstraints() {
115 <            return nConstraints_;
116 <        }
117 <        
118 <        /**
119 <         * Returns the first molecule in this SimInfo and intialize the iterator.
120 <         * @return the first molecule, return NULL if there is not molecule in this SimInfo
121 <         * @param i the iterator of molecule array (user shouldn't change it)
122 <         */
123 <        Molecule* beginMolecule(std::vector<Molecule*>::iterator& i);
124 <
125 <        /**
126 <          * Returns the next avaliable Molecule based on the iterator.
127 <          * @return the next avaliable molecule, return NULL if reaching the end of the array
128 <          * @param i the iterator of molecule array
129 <          */
130 <        Molecule* nextMolecule(std::vector<Molecule*>::iterator& i);
131 <
132 <        /** Returns the number of degrees of freedom */
133 <        int getNDF() {
134 <            return ndf_;
135 <        }
136 <
137 <        /** Returns the number of raw degrees of freedom */
138 <        int getNDFRaw() {
139 <            return ndfRaw_;
140 <        }
141 <
142 <        /** Returns the number of translational degrees of freedom */
143 <        int getNDFTrans() {
144 <            return ndfTrans_;
145 <        }
146 <
147 <        /** Returns the snapshot manager. */
148 <        SnapshotManager* getSnapshotManager() {
149 <            return sman_;
150 <        }
151 <
152 <        /** Sets the snapshot manager. */
153 <        void setSnapshotManager(SnapshotManager* sman) {
154 <            sman_ = sman;
155 <        }
156 <
157 <        /** Returns the force field */
158 <        ForceField* getForceField() {
159 <            return forceField_;
160 <        }
161 <
162 <        /** Sets the force field */
163 <        void setForceField(ForceField* ff) {
164 <            forceField_ = ff;
165 <        }
166 <
167 <        Globals* getGlobals() {
168 <            return globals_;
169 <        }
170 <        
171 <        void setGlobals(Globals* globals) {
172 <            globals_ = globals;
173 <        }
174 <
175 <        int* getExcludeList() {
176 <            return exclude_.getExcludeList();
177 <        }
178 <        
179 <    private:
180 <
181 <        void calcNDF();
182 <        void calcNDFRaw();
183 <        void calcNDFTrans();
184 <
185 <        void addExcludePairs(Molecule* mol);
186 <        void removeExcludePairs(Molecule* mol);
187 <
188 <        int ndf_;
189 <        int ndfRaw_;
190 <        int ndfTrans_;
191 <        
192 <        int nAtoms_;
193 <        int nBonds_;
194 <        int nBends_;
195 <        int nTorsions_;
196 <        int nRigidBodies_;
197 <        int nIntegrableObjects_;
198 <        int nCutoffGroups_;
199 <        int nConstraints_;
200 <
201 <        simtype fInfo_;
202 <        Exclude exclude_;
203 <        ForceField* forceField_;
204 <        
205 <        std::vector<Molecule*> molecules_; /**< Molecule array */
206 <        PropertyMap properties_;                  /** Generic Property */
207 <        SnapshotManager* sman_;               /** SnapshotManager */
208 <
209 <        std::vector<std::pair<MoleculeStamp*, int> > moleculeStamps_;
210 <        Globals* globals_;
211 < };
212 <
213 < } //namespace oopse
214 < #endif //BRAINS_SIMMODEL_HPP
1 > /*
2 > * Copyright (C) 2000-2004  Object Oriented Parallel Simulation Engine (OOPSE) project
3 > *
4 > * Contact: oopse@oopse.org
5 > *
6 > * This program is free software; you can redistribute it and/or
7 > * modify it under the terms of the GNU Lesser General Public License
8 > * as published by the Free Software Foundation; either version 2.1
9 > * of the License, or (at your option) any later version.
10 > * All we ask is that proper credit is given for our work, which includes
11 > * - but is not limited to - adding the above copyright notice to the beginning
12 > * of your source code files, and to any copyright notice that you may distribute
13 > * with programs based on this work.
14 > *
15 > * This program is distributed in the hope that it will be useful,
16 > * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 > * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
18 > * GNU Lesser General Public License for more details.
19 > *
20 > * You should have received a copy of the GNU Lesser General Public License
21 > * along with this program; if not, write to the Free Software
22 > * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
23 > *
24 > */
25 >
26 > /**
27 > * @file SimInfo.hpp
28 > * @author    tlin
29 > * @date  11/02/2004
30 > * @version 1.0
31 > */
32 >
33 > #ifndef BRAINS_SIMMODEL_HPP
34 > #define BRAINS_SIMMODEL_HPP
35 >
36 > #include <iostream>
37 > #include <set>
38 > #include <utility>
39 > #include <vector>
40 >
41 > #include "brains/Exclude.hpp"
42 > #include "io/Globals.hpp"
43 > #include "math/Vector3.hpp"
44 > #include "types/MoleculeStamp.hpp"
45 > #include "UseTheForce/ForceField.hpp"
46 > #include "utils/PropertyMap.hpp"
47 > #include "utils/LocalIndexManager.hpp"
48 >
49 > //another nonsense macro declaration
50 > #define __C
51 > #include "brains/fSimulation.h"
52 >
53 > namespace oopse{
54 >
55 > //forward decalration
56 > class SnapshotManager;
57 > class Molecule;
58 >
59 > /**
60 > * @class SimInfo SimInfo.hpp "brains/SimInfo.hpp"
61 > * @brief As one of the heavy weight class of OOPSE, SimInfo
62 > * One of the major changes in SimInfo class is the data struct. It only maintains a list of molecules.
63 > * And the Molecule class will maintain all of the concrete objects (atoms, bond, bend, torsions, rigid bodies,
64 > * cutoff groups, constrains).
65 > * Another major change is the index. No matter single version or parallel version,  atoms and
66 > * rigid bodies have both global index and local index. Local index is not important to molecule as well as
67 > * cutoff group.
68 > */
69 > class SimInfo {
70 >    public:
71 >        typedef std::map<int, Molecule*>::iterator  MoleculeIterator;
72 >
73 >        /**
74 >         * Constructor of SimInfo
75 >         * @param molStampPairs MoleculeStamp Array. The first element of the pair is molecule stamp, the
76 >         * second element is the total number of molecules with the same molecule stamp in the system
77 >         * @param ff pointer of a concrete ForceField instance
78 >         * @param globals
79 >         * @note
80 >         */
81 >        SimInfo(std::vector<std::pair<MoleculeStamp*, int> >& molStampPairs, ForceField* ff, Globals* globals);
82 >        virtual ~SimInfo();
83 >
84 >        /**
85 >         * Adds a molecule
86 >         * @return return true if adding successfully, return false if the molecule is already in SimInfo
87 >         * @param mol molecule to be added
88 >         */
89 >        bool addMolecule(Molecule* mol);
90 >
91 >        /**
92 >         * Removes a molecule from SimInfo
93 >         * @return true if removing successfully, return false if molecule is not in this SimInfo
94 >         */
95 >        bool removeMolecule(Molecule* mol);
96 >
97 >        /** Returns the total number of molecules in the system. */
98 >        int getNGlobalMolecules() {
99 >            return nGlobalMols_;
100 >        }
101 >
102 >        /** Returns the total number of atoms in the system. */
103 >        int getNGlobalAtoms() {
104 >            return nGlobalAtoms_;
105 >        }
106 >
107 >        /** Returns the total number of cutoff groups in the system. */
108 >        int getNGlobalCutoffGroups() {
109 >            return nGlobalCutoffGroups_;
110 >        }
111 >
112 >        /**
113 >         * Returns the total number of integrable objects (total number of rigid bodies plus the total number
114 >         * of atoms which do not belong to the rigid bodies) in the system
115 >         */
116 >        int getNGlobalIntegrableObjects() {
117 >            return nGlobalIntegrableObjects_;
118 >        }
119 >        
120 >        /**
121 >         * Returns the number of local molecules.
122 >         * @return the number of local molecules
123 >         */
124 >        int getNMolecules() {
125 >            return molecules_.size();
126 >        }
127 >
128 >        /** Returns the number of local atoms */
129 >        unsigned int getNAtoms() {
130 >            return nAtoms_;
131 >        }
132 >
133 >        /** Returns the number of local bonds */        
134 >        unsigned int getNBonds(){
135 >            return nBonds_;
136 >        }
137 >
138 >        /** Returns the number of local bends */        
139 >        unsigned int getNBends() {
140 >            return nBends_;
141 >        }
142 >
143 >        /** Returns the number of local torsions */        
144 >        unsigned int getNTorsions() {
145 >            return nTorsions_;
146 >        }
147 >
148 >        /** Returns the number of local rigid bodies */        
149 >        unsigned int getNRigidBodies() {
150 >            return nRigidBodies_;
151 >        }
152 >
153 >        /** Returns the number of local integrable objects */
154 >        unsigned int getNIntegrableObjects() {
155 >            return nIntegrableObjects_;
156 >        }
157 >
158 >        /** Returns the number of local cutoff groups */
159 >        unsigned int getNCutoffGroups() {
160 >            return nCutoffGroups_;
161 >        }
162 >
163 >        /** Returns the total number of constraints in this SimInfo */
164 >        unsigned int getNConstraints() {
165 >            return nConstraints_;
166 >        }
167 >        
168 >        /**
169 >         * Returns the first molecule in this SimInfo and intialize the iterator.
170 >         * @return the first molecule, return NULL if there is not molecule in this SimInfo
171 >         * @param i the iterator of molecule array (user shouldn't change it)
172 >         */
173 >        Molecule* beginMolecule(MoleculeIterator& i);
174 >
175 >        /**
176 >          * Returns the next avaliable Molecule based on the iterator.
177 >          * @return the next avaliable molecule, return NULL if reaching the end of the array
178 >          * @param i the iterator of molecule array
179 >          */
180 >        Molecule* nextMolecule(MoleculeIterator& i);
181 >
182 >        /** Returns the number of degrees of freedom */
183 >        int getNdf() {
184 >            return ndf_;
185 >        }
186 >
187 >        /** Returns the number of raw degrees of freedom */
188 >        int getNdfRaw() {
189 >            return ndfRaw_;
190 >        }
191 >
192 >        /** Returns the number of translational degrees of freedom */
193 >        int getNdfTrans() {
194 >            return ndfTrans_;
195 >        }
196 >
197 >        //getNZconstraint and setNZconstraint ruin the coherent of SimInfo class, need refactorying
198 >        
199 >        /** Returns the total number of z-constraint molecules in the system */
200 >        int getNZconstraint() {
201 >            return nZconstraint_;
202 >        }
203 >
204 >        /**
205 >         * Sets the number of z-constraint molecules in the system.
206 >         */
207 >        void setNZconstraint(int nZconstraint) {
208 >            nZconstraint_ = nZconstraint;
209 >        }
210 >        
211 >        /** Returns the snapshot manager. */
212 >        SnapshotManager* getSnapshotManager() {
213 >            return sman_;
214 >        }
215 >
216 >        /** Sets the snapshot manager. */
217 >        void setSnapshotManager(SnapshotManager* sman);
218 >        
219 >        /** Returns the force field */
220 >        ForceField* getForceField() {
221 >            return forceField_;
222 >        }
223 >
224 >        Globals* getGlobals() {
225 >            return globals_;
226 >        }
227 >
228 >        /** Returns the velocity of center of mass of the whole system.*/
229 >        Vector3d getComVel();
230 >
231 >        /** Returns the center of the mass of the whole system.*/
232 >        Vector3d getCom();
233 >
234 >        /** Returns the seed (used for random number generator) */
235 >        int getSeed() {
236 >            return seed_;
237 >        }
238 >
239 >        /** Sets the seed*/
240 >        void setSeed(int seed) {
241 >            seed_ = seed;
242 >        }
243 >
244 >        /** main driver function to interact with fortran during the initialization and molecule migration */
245 >        void update();
246 >
247 >        /** Returns the local index manager */
248 >        LocalIndexManager* getLocalIndexManager() {
249 >            return &localIndexMan_;
250 >        }
251 >
252 >        int getMoleculeStampId(int globalIndex) {
253 >            //assert(globalIndex < molStampIds_.size())
254 >            return molStampIds_[globalIndex];
255 >        }
256 >
257 >        /** Returns the molecule stamp */
258 >        MoleculeStamp* getMoleculeStamp(int id) {
259 >            return moleculeStamps_[id];
260 >        }
261 >        
262 >        /**
263 >         * Finds a molecule with a specified global index
264 >         * @return a pointer point to found molecule
265 >         * @param index
266 >         */
267 >        Molecule* getMoleculeByGlobalIndex(int index) {
268 >            MoleculeIterator i;
269 >            i = molecules_.find(index);
270 >
271 >            return i != molecules_.end() ? i->second : NULL;
272 >        }
273 >
274 >        /** Calculate the maximum cutoff radius based on the atom types */
275 >        double calcMaxCutoffRadius();
276 >
277 >        double getRcut() {
278 >            return rcut_;
279 >        }
280 >
281 >        double getRsw() {
282 >            return rsw_;
283 >        }
284 >        
285 >        std::string getFinalConfigFileName() {
286 >            return finalConfigFileName_;
287 >        }
288 >        
289 >        void setFinalConfigFileName(const std::string& fileName) {
290 >            finalConfigFileName_ = fileName;
291 >        }
292 >
293 >        std::string getDumpFileName() {
294 >            return dumpFileName_;
295 >        }
296 >        
297 >        void setDumpFileName(const std::string& fileName) {
298 >            dumpFileName_ = fileName;
299 >        }
300 >
301 >        std::string getStatFileName() {
302 >            return statFileName_;
303 >        }
304 >        
305 >        void setStatFileName(const std::string& fileName) {
306 >            statFileName_ = fileName;
307 >        }
308 >
309 >        /**
310 >         * Returns the pointer of internal globalGroupMembership_ array. This array will be filled by SimCreator class
311 >         * @see #SimCreator::setGlobalIndex
312 >         */  
313 >        int* getGlobalGroupMembershipPointer() {
314 >            return &globalGroupMembership_[0];
315 >        }
316 >
317 >        /**
318 >         * Returns the pointer of internal globalMolMembership_ array. This array will be filled by SimCreator class
319 >         * @see #SimCreator::setGlobalIndex
320 >         */        
321 >        int* getGlobalMolMembershipPointer() {
322 >            return &globalMolMembership_[0];
323 >        }
324 >
325 >
326 >        bool isFortranInitialized() {
327 >            return fortranInitialized_;
328 >        }
329 >        
330 >        //below functions are just forward functions
331 >        //To compose or to inherit is always a hot debate. In general, is-a relation need subclassing, in the
332 >        //the other hand, has-a relation need composing.
333 >        /**
334 >         * Adds property into property map
335 >         * @param genData GenericData to be added into PropertyMap
336 >         */
337 >        void addProperty(GenericData* genData);
338 >
339 >        /**
340 >         * Removes property from PropertyMap by name
341 >         * @param propName the name of property to be removed
342 >         */
343 >        void removeProperty(const std::string& propName);
344 >
345 >        /**
346 >         * clear all of the properties
347 >         */
348 >        void clearProperties();
349 >
350 >        /**
351 >         * Returns all names of properties
352 >         * @return all names of properties
353 >         */
354 >        std::vector<std::string> getPropertyNames();
355 >
356 >        /**
357 >         * Returns all of the properties in PropertyMap
358 >         * @return all of the properties in PropertyMap
359 >         */      
360 >        std::vector<GenericData*> getProperties();
361 >
362 >        /**
363 >         * Returns property
364 >         * @param propName name of property
365 >         * @return a pointer point to property with propName. If no property named propName
366 >         * exists, return NULL
367 >         */      
368 >        GenericData* getPropertyByName(const std::string& propName);
369 >                
370 >        friend std::ostream& operator <<(ostream& o, SimInfo& info);
371 >        
372 >    private:
373 >
374 >        
375 >        /** Returns the unique atom types of local processor in an array */
376 >        std::set<AtomType*> getUniqueAtomTypes();
377 >
378 >        /** fill up the simtype struct*/
379 >        void setupSimType();
380 >
381 >        /**
382 >         * Setup Fortran Simulation
383 >         * @see #setupFortranParallel
384 >         */
385 >        void setupFortranSim();
386 >
387 >        /** Figure out the radius of cutoff, radius of switching function and pass them to fortran */
388 >        void setupCutoff();
389 >
390 >        /** Calculates the number of degress of freedom in the whole system */
391 >        void calcNdf();
392 >        void calcNdfRaw();
393 >        void calcNdfTrans();
394 >
395 >        void addExcludePairs(Molecule* mol);
396 >        void removeExcludePairs(Molecule* mol);
397 >
398 >        /**
399 >         * Adds molecule stamp and the total number of the molecule with same molecule stamp in the whole
400 >         * system.
401 >         */
402 >        void addMoleculeStamp(MoleculeStamp* molStamp, int nmol);
403 >
404 >        std::map<int, Molecule*>  molecules_; /**< Molecule array */
405 >        
406 >        //degress of freedom
407 >        int ndf_;           /**< number of degress of freedom (excludes constraints),  ndf_ is local */
408 >        int ndfRaw_;    /**< number of degress of freedom (includes constraints),  ndfRaw_ is local */
409 >        int ndfTrans_; /**< number of translation degress of freedom, ndfTrans_ is local */
410 >        int nZconstraint_; /** number of  z-constraint molecules, nZconstraint_ is global */
411 >        
412 >        //number of global objects
413 >        int nGlobalMols_;       /**< number of molecules in the system */
414 >        int nGlobalAtoms_;   /**< number of atoms in the system */
415 >        int nGlobalCutoffGroups_; /**< number of cutoff groups in this system */
416 >        int nGlobalIntegrableObjects_; /**< number of integrable objects in this system */
417 >
418 >        /**
419 >         * the size of globalGroupMembership_  is nGlobalAtoms. Its index is  global index of an atom, and the
420 >         * corresponding content is the global index of cutoff group this atom belong to.
421 >         * It is filled by SimCreator once and only once, since it is never changed during the simulation.
422 >         */
423 >        std::vector<int> globalGroupMembership_;
424 >
425 >        /**
426 >         * the size of globalGroupMembership_  is nGlobalAtoms. Its index is  global index of an atom, and the
427 >         * corresponding content is the global index of molecule this atom belong to.
428 >         * It is filled by SimCreator once and only once, since it is never changed during the simulation.
429 >         */
430 >        std::vector<int> globalMolMembership_;        
431 >
432 >        
433 >        std::vector<int> molStampIds_;                                /**< stamp id array of all molecules in the system */
434 >        std::vector<MoleculeStamp*> moleculeStamps_;      /**< molecule stamps array */        
435 >        
436 >        //number of local objects
437 >        int nAtoms_;                        /**< number of atoms in local processor */
438 >        int nBonds_;                        /**< number of bonds in local processor */
439 >        int nBends_;                        /**< number of bends in local processor */
440 >        int nTorsions_;                    /**< number of torsions in local processor */
441 >        int nRigidBodies_;              /**< number of rigid bodies in local processor */
442 >        int nIntegrableObjects_;    /**< number of integrable objects in local processor */
443 >        int nCutoffGroups_;             /**< number of cutoff groups in local processor */
444 >        int nConstraints_;              /**< number of constraints in local processors */
445 >
446 >        simtype fInfo_; /**< A dual struct shared by c++/fortran which indicates the atom types in simulation*/
447 >        Exclude exclude_;
448 >        ForceField* forceField_;            
449 >        PropertyMap properties_;                  /**< Generic Property */
450 >        SnapshotManager* sman_;               /**< SnapshotManager */
451 >        Globals* globals_;
452 >        int seed_; /**< seed for random number generator */
453 >
454 >        /**
455 >         * The reason to have a local index manager is that when molecule is migrating to other processors,
456 >         * the atoms and the rigid-bodies will release their local indices to LocalIndexManager. Combining the
457 >         * information of molecule migrating to current processor, Migrator class can query  the LocalIndexManager
458 >         * to make a efficient data moving plan.
459 >         */        
460 >        LocalIndexManager localIndexMan_;
461 >
462 >        //file names
463 >        std::string finalConfigFileName_;
464 >        std::string dumpFileName_;
465 >        std::string statFileName_;
466 >
467 >        double rcut_;       /**< cutoff radius*/
468 >        double rsw_;        /**< radius of switching function*/
469 >
470 >        bool fortranInitialized_; /**< flag indicate whether fortran side is initialized */
471 >        
472 > #ifdef IS_MPI
473 >    //in Parallel version, we need MolToProc
474 >    public:
475 >                
476 >        /**
477 >         * Finds the processor where a molecule resides
478 >         * @return the id of the processor which contains the molecule
479 >         * @param globalIndex global Index of the molecule
480 >         */
481 >        int getMolToProc(int globalIndex) {
482 >            //assert(globalIndex < molToProcMap_.size());
483 >            return molToProcMap_[globalIndex];
484 >        }
485 >
486 >        /**
487 >         * Returns the pointer of internal molToProcMap array. This array will be filled by SimCreator class
488 >         * @see #SimCreator::divideMolecules
489 >         */
490 >        int* getMolToProcMapPointer() {
491 >            return &molToProcMap_[0];
492 >        }
493 >        
494 >    private:
495 >
496 >        void setupFortranParallel();
497 >        
498 >        /**
499 >         * The size of molToProcMap_ is equal to total number of molecules in the system.
500 >         *  It maps a molecule to the processor on which it resides. it is filled by SimCreator once and only
501 >         * once.
502 >         */        
503 >        std::vector<int> molToProcMap_;
504 > #endif
505 >
506 > };
507 >
508 > } //namespace oopse
509 > #endif //BRAINS_SIMMODEL_HPP

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