[ViewVC] Diff of: group/trunk/OOPSE-2.0/src/brains/SimCreator.cpp

Comparing trunk/OOPSE-2.0/src/brains/SimCreator.cpp (file contents):
Revision 1981 by tim, Mon Feb 7 19:14:26 2005 UTC vs.
Revision 2364 by tim, Thu Oct 13 22:26:47 2005 UTC

#	Line 1 \| Line 1
1	<	/*
1	>	/*
2		* Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
3		*
4		* The University of Notre Dame grants you ("Licensee") a
#	Line 47 \| Line 47
47		* @version 1.0
48		*/
49
50	–	#include <sprng.h>
51	–
50		#include "brains/MoleculeCreator.hpp"
51		#include "brains/SimCreator.hpp"
52		#include "brains/SimSnapshotManager.hpp"
#	Line 57 \| Line 55
55		#include "UseTheForce/ForceFieldFactory.hpp"
56		#include "utils/simError.h"
57		#include "utils/StringUtils.hpp"
58	+	#include "math/SeqRandNumGen.hpp"
59		#ifdef IS_MPI
60		#include "io/mpiBASS.h"
61	<	#include "math/randomSPRNG.hpp"
61	>	#include "math/ParallelRandNumGen.hpp"
62		#endif
63
64		namespace oopse {
65	<
66	<	void SimCreator::parseFile(const std::string mdFileName, MakeStamps* stamps, Globals* simParams){
67	<
65	>
66	>	void SimCreator::parseFile(const std::string mdFileName, MakeStamps* stamps,
67	>	Globals* simParams){
68	>
69		#ifdef IS_MPI
70	<
70	>
71		if (worldRank == 0) {
72		#endif // is_mpi
73	<
74	<	simParams->initalize();
75	<	set_interface_stamps(stamps, simParams);
76	<
73	>
74	>	set_interface_stamps(stamps, simParams);
75	>
76		#ifdef IS_MPI
77	<
78	<	mpiEventInit();
79	<
77	>
78	>	mpiEventInit();
79	>
80		#endif
81	<
82	<	yacc_BASS(mdFileName.c_str());
83	<
81	>
82	>	yacc_BASS(mdFileName.c_str());
83	>
84		#ifdef IS_MPI
85	<
86	<	throwMPIEvent(NULL);
85	>
86	>	throwMPIEvent(NULL);
87		} else {
88	<	set_interface_stamps(stamps, simParams);
89	<	mpiEventInit();
90	<	MPIcheckPoint();
91	<	mpiEventLoop();
88	>	set_interface_stamps(stamps, simParams);
89	>	mpiEventInit();
90	>	MPIcheckPoint();
91	>	mpiEventLoop();
92		}
93	<
93	>
94		#endif
96	–
97	–	}
98	–
99	–	SimInfo* SimCreator::createSim(const std::string & mdFileName, bool loadInitCoords) {
95
96	+	}
97	+
98	+	SimInfo* SimCreator::createSim(const std::string & mdFileName,
99	+	bool loadInitCoords) {
100	+
101		MakeStamps * stamps = new MakeStamps();
102	<
102	>
103		Globals * simParams = new Globals();
104	<
104	>
105		//parse meta-data file
106		parseFile(mdFileName, stamps, simParams);
107	<
107	>
108		//create the force field
109	<	ForceField * ff = ForceFieldFactory::getInstance()->createForceField(
110	<	simParams->getForceField());
109	>	ForceField * ff = ForceFieldFactory::getInstance()
110	>	->createForceField(simParams->getForceField());
111
112		if (ff == NULL) {
113	<	sprintf(painCave.errMsg, "ForceField Factory can not create %s force field\n",
114	<	simParams->getForceField());
115	<	painCave.isFatal = 1;
116	<	simError();
113	>	sprintf(painCave.errMsg,
114	>	"ForceField Factory can not create %s force field\n",
115	>	simParams->getForceField().c_str());
116	>	painCave.isFatal = 1;
117	>	simError();
118		}
119	<
119	>
120		if (simParams->haveForceFieldFileName()) {
121	<	ff->setForceFieldFileName(simParams->getForceFieldFileName());
121	>	ff->setForceFieldFileName(simParams->getForceFieldFileName());
122		}
123
124		std::string forcefieldFileName;
125		forcefieldFileName = ff->getForceFieldFileName();
126	<
126	>
127		if (simParams->haveForceFieldVariant()) {
128	<	//If the force field has variant, the variant force field name will be
129	<	//Base.variant.frc. For exampel EAM.u6.frc
130	<
131	<	std::string variant = simParams->getForceFieldVariant();
132	<
133	<	std::string::size_type pos = forcefieldFileName.rfind(".frc");
134	<	variant = "." + variant;
135	<	if (pos != std::string::npos) {
136	<	forcefieldFileName.insert(pos, variant);
137	<	} else {
138	<	//If the default force field file name does not containt .frc suffix, just append the .variant
139	<	forcefieldFileName.append(variant);
140	<	}
128	>	//If the force field has variant, the variant force field name will be
129	>	//Base.variant.frc. For exampel EAM.u6.frc
130	>
131	>	std::string variant = simParams->getForceFieldVariant();
132	>
133	>	std::string::size_type pos = forcefieldFileName.rfind(".frc");
134	>	variant = "." + variant;
135	>	if (pos != std::string::npos) {
136	>	forcefieldFileName.insert(pos, variant);
137	>	} else {
138	>	//If the default force field file name does not containt .frc suffix, just append the .variant
139	>	forcefieldFileName.append(variant);
140	>	}
141		}
142
143		ff->parse(forcefieldFileName);
#	Line 144 \| Line 145 \| *SimInfo SimCreator::createSim(const std::string & md**
145		//extract the molecule stamps
146		std::vector < std::pair<MoleculeStamp *, int> > moleculeStampPairs;
147		compList(stamps, simParams, moleculeStampPairs);
148	<
148	>
149		//create SimInfo
150	<	SimInfo * info = new SimInfo(moleculeStampPairs, ff, simParams);
151	<
150	>	SimInfo * info = new SimInfo(stamps, moleculeStampPairs, ff, simParams);
151	>
152		//gather parameters (SimCreator only retrieves part of the parameters)
153		gatherParameters(info, mdFileName);
154	<
154	>
155		//divide the molecules and determine the global index of molecules
156		#ifdef IS_MPI
157		divideMolecules(info);
158		#endif
159	<
159	>
160		//create the molecules
161		createMolecules(info);
162	<
163	<
162	>
163	>
164		//allocate memory for DataStorage(circular reference, need to break it)
165		info->setSnapshotManager(new SimSnapshotManager(info));
166
#	Line 167 \| Line 168 \| *SimInfo SimCreator::createSim(const std::string & md**
168		//global index will never change again). Local indices of atoms and rigidbodies are already set by
169		//MoleculeCreator class which actually delegates the responsibility to LocalIndexManager.
170		setGlobalIndex(info);
171	<
171	>
172		//Alought addExculdePairs is called inside SimInfo's addMolecule method, at that point
173		//atoms don't have the global index yet (their global index are all initialized to -1).
174		//Therefore we have to call addExcludePairs explicitly here. A way to work around is that
#	Line 175 \| Line 176 \| *SimInfo SimCreator::createSim(const std::string & md**
176		SimInfo::MoleculeIterator mi;
177		Molecule* mol;
178		for (mol= info->beginMolecule(mi); mol != NULL; mol = info->nextMolecule(mi)) {
179	<	info->addExcludePairs(mol);
179	>	info->addExcludePairs(mol);
180		}
181
181	–
182	–	//load initial coordinates, some extra information are pushed into SimInfo's property map ( such as
183	–	//eta, chi for NPT integrator)
182		if (loadInitCoords)
183	<	loadCoordinates(info);
183	>	loadCoordinates(info);
184
185		return info;
186	<	}
187	<
188	<	void SimCreator::gatherParameters(SimInfo *info, const std::string& mdfile) {
189	<
192	<	//setup seed for random number generator
193	<	int seedValue;
194	<	Globals * simParams = info->getSimParams();
195	<
196	<	if (simParams->haveSeed()) {
197	<	seedValue = simParams->getSeed();
198	<
199	<	if (seedValue < 100000000 ) {
200	<	sprintf(painCave.errMsg,
201	<	"Seed for sprng library should contain at least 9 digits\n"
202	<	"OOPSE will generate a seed for user\n");
203	<
204	<	painCave.isFatal = 0;
205	<	simError();
206	<
207	<	//using seed generated by system instead of invalid seed set by user
208	<
209	<	#ifndef IS_MPI
210	<
211	<	seedValue = make_sprng_seed();
212	<
213	<	#else
214	<
215	<	if (worldRank == 0) {
216	<	seedValue = make_sprng_seed();
217	<	}
218	<
219	<	MPI_Bcast(&seedValue, 1, MPI_INT, 0, MPI_COMM_WORLD);
220	<
221	<	#endif
222	<
223	<	} //end if (seedValue /1000000000 == 0)
224	<	} else {
225	<
226	<	#ifndef IS_MPI
227	<
228	<	seedValue = make_sprng_seed();
229	<
230	<	#else
231	<
232	<	if (worldRank == 0) {
233	<	seedValue = make_sprng_seed();
234	<	}
235	<
236	<	MPI_Bcast(&seedValue, 1, MPI_INT, 0, MPI_COMM_WORLD);
237	<
238	<	#endif
239	<
240	<	} //end of simParams->haveSeed()
241	<
242	<	info->setSeed(seedValue);
243	<
244	<
186	>	}
187	>
188	>	void SimCreator::gatherParameters(SimInfo *info, const std::string& mdfile) {
189	>
190		//figure out the ouput file names
191		std::string prefix;
192	<
192	>
193		#ifdef IS_MPI
194	<
194	>
195		if (worldRank == 0) {
196		#endif // is_mpi
197	<
198	<	if (simParams->haveFinalConfig()) {
199	<	prefix = getPrefix(simParams->getFinalConfig());
200	<	} else {
201	<	prefix = getPrefix(mdfile);
202	<	}
203	<
204	<	info->setFinalConfigFileName(prefix + ".eor");
205	<	info->setDumpFileName(prefix + ".dump");
206	<	info->setStatFileName(prefix + ".stat");
207	<
197	>	Globals * simParams = info->getSimParams();
198	>	if (simParams->haveFinalConfig()) {
199	>	prefix = getPrefix(simParams->getFinalConfig());
200	>	} else {
201	>	prefix = getPrefix(mdfile);
202	>	}
203	>
204	>	info->setFinalConfigFileName(prefix + ".eor");
205	>	info->setDumpFileName(prefix + ".dump");
206	>	info->setStatFileName(prefix + ".stat");
207	>	info->setRestFileName(prefix + ".zang");
208	>
209		#ifdef IS_MPI
210	<
210	>
211		}
212	<
212	>
213		#endif
214	<
215	<	}
216	<
214	>
215	>	}
216	>
217		#ifdef IS_MPI
218	<	void SimCreator::divideMolecules(SimInfo *info) {
218	>	void SimCreator::divideMolecules(SimInfo *info) {
219		double numerator;
220		double denominator;
221		double precast;
#	Line 287 \| Line 233 \| *void SimCreator::divideMolecules(SimInfo info) {**
233		int which_proc;
234		int nProcessors;
235		std::vector<int> atomsPerProc;
290	–	randomSPRNG myRandom(info->getSeed());
236		int nGlobalMols = info->getNGlobalMolecules();
237		std::vector<int> molToProcMap(nGlobalMols, -1); // default to an error condition:
238
239		MPI_Comm_size(MPI_COMM_WORLD, &nProcessors);
240	<
240	>
241		if (nProcessors > nGlobalMols) {
242	<	sprintf(painCave.errMsg,
243	<	"nProcessors (%d) > nMol (%d)\n"
244	<	"\tThe number of processors is larger than\n"
245	<	"\tthe number of molecules. This will not result in a \n"
246	<	"\tusable division of atoms for force decomposition.\n"
247	<	"\tEither try a smaller number of processors, or run the\n"
248	<	"\tsingle-processor version of OOPSE.\n", nProcessors, nGlobalMols);
249	<
250	<	painCave.isFatal = 1;
251	<	simError();
242	>	sprintf(painCave.errMsg,
243	>	"nProcessors (%d) > nMol (%d)\n"
244	>	"\tThe number of processors is larger than\n"
245	>	"\tthe number of molecules. This will not result in a \n"
246	>	"\tusable division of atoms for force decomposition.\n"
247	>	"\tEither try a smaller number of processors, or run the\n"
248	>	"\tsingle-processor version of OOPSE.\n", nProcessors, nGlobalMols);
249	>
250	>	painCave.isFatal = 1;
251	>	simError();
252		}
253	<
253	>
254	>	int seedValue;
255	>	Globals * simParams = info->getSimParams();
256	>	SeqRandNumGen* myRandom; //divide labor does not need Parallel random number generator
257	>	if (simParams->haveSeed()) {
258	>	seedValue = simParams->getSeed();
259	>	myRandom = new SeqRandNumGen(seedValue);
260	>	}else {
261	>	myRandom = new SeqRandNumGen();
262	>	}
263	>
264	>
265		a = 3.0 * nGlobalMols / info->getNGlobalAtoms();
266	<
266	>
267		//initialize atomsPerProc
268		atomsPerProc.insert(atomsPerProc.end(), nProcessors, 0);
269	<
269	>
270		if (worldRank == 0) {
271	<	numerator = info->getNGlobalAtoms();
272	<	denominator = nProcessors;
273	<	precast = numerator / denominator;
274	<	nTarget = (int)(precast + 0.5);
275	<
276	<	for(i = 0; i < nGlobalMols; i++) {
277	<	done = 0;
278	<	loops = 0;
279	<
280	<	while (!done) {
281	<	loops++;
282	<
283	<	// Pick a processor at random
284	<
285	<	which_proc = (int) (myRandom.getRandom() * nProcessors);
286	<
287	<	//get the molecule stamp first
288	<	int stampId = info->getMoleculeStampId(i);
289	<	MoleculeStamp * moleculeStamp = info->getMoleculeStamp(stampId);
290	<
291	<	// How many atoms does this processor have so far?
292	<	old_atoms = atomsPerProc[which_proc];
293	<	add_atoms = moleculeStamp->getNAtoms();
294	<	new_atoms = old_atoms + add_atoms;
295	<
296	<	// If we've been through this loop too many times, we need
297	<	// to just give up and assign the molecule to this processor
298	<	// and be done with it.
299	<
300	<	if (loops > 100) {
301	<	sprintf(painCave.errMsg,
302	<	"I've tried 100 times to assign molecule %d to a "
303	<	" processor, but can't find a good spot.\n"
304	<	"I'm assigning it at random to processor %d.\n",
305	<	i, which_proc);
306	<
307	<	painCave.isFatal = 0;
308	<	simError();
309	<
310	<	molToProcMap[i] = which_proc;
311	<	atomsPerProc[which_proc] += add_atoms;
312	<
313	<	done = 1;
314	<	continue;
315	<	}
316	<
317	<	// If we can add this molecule to this processor without sending
318	<	// it above nTarget, then go ahead and do it:
319	<
320	<	if (new_atoms <= nTarget) {
321	<	molToProcMap[i] = which_proc;
322	<	atomsPerProc[which_proc] += add_atoms;
323	<
324	<	done = 1;
325	<	continue;
326	<	}
327	<
328	<	// The only situation left is when new_atoms > nTarget. We
329	<	// want to accept this with some probability that dies off the
330	<	// farther we are from nTarget
331	<
332	<	// roughly: x = new_atoms - nTarget
333	<	// Pacc(x) = exp(- a * x)
334	<	// where a = penalty / (average atoms per molecule)
335	<
336	<	x = (double)(new_atoms - nTarget);
337	<	y = myRandom.getRandom();
338	<
339	<	if (y < exp(- a * x)) {
340	<	molToProcMap[i] = which_proc;
341	<	atomsPerProc[which_proc] += add_atoms;
342	<
343	<	done = 1;
344	<	continue;
345	<	} else {
346	<	continue;
347	<	}
348	<	}
349	<	}
350	<
351	<	// Spray out this nonsense to all other processors:
352	<
353	<	MPI_Bcast(&molToProcMap[0], nGlobalMols, MPI_INT, 0, MPI_COMM_WORLD);
354	<	} else {
355	<
356	<	// Listen to your marching orders from processor 0:
357	<
358	<	MPI_Bcast(&molToProcMap[0], nGlobalMols, MPI_INT, 0, MPI_COMM_WORLD);
271	>	numerator = info->getNGlobalAtoms();
272	>	denominator = nProcessors;
273	>	precast = numerator / denominator;
274	>	nTarget = (int)(precast + 0.5);
275	>
276	>	for(i = 0; i < nGlobalMols; i++) {
277	>	done = 0;
278	>	loops = 0;
279	>
280	>	while (!done) {
281	>	loops++;
282	>
283	>	// Pick a processor at random
284	>
285	>	which_proc = (int) (myRandom->rand() * nProcessors);
286	>
287	>	//get the molecule stamp first
288	>	int stampId = info->getMoleculeStampId(i);
289	>	MoleculeStamp * moleculeStamp = info->getMoleculeStamp(stampId);
290	>
291	>	// How many atoms does this processor have so far?
292	>	old_atoms = atomsPerProc[which_proc];
293	>	add_atoms = moleculeStamp->getNAtoms();
294	>	new_atoms = old_atoms + add_atoms;
295	>
296	>	// If we've been through this loop too many times, we need
297	>	// to just give up and assign the molecule to this processor
298	>	// and be done with it.
299	>
300	>	if (loops > 100) {
301	>	sprintf(painCave.errMsg,
302	>	"I've tried 100 times to assign molecule %d to a "
303	>	" processor, but can't find a good spot.\n"
304	>	"I'm assigning it at random to processor %d.\n",
305	>	i, which_proc);
306	>
307	>	painCave.isFatal = 0;
308	>	simError();
309	>
310	>	molToProcMap[i] = which_proc;
311	>	atomsPerProc[which_proc] += add_atoms;
312	>
313	>	done = 1;
314	>	continue;
315	>	}
316	>
317	>	// If we can add this molecule to this processor without sending
318	>	// it above nTarget, then go ahead and do it:
319	>
320	>	if (new_atoms <= nTarget) {
321	>	molToProcMap[i] = which_proc;
322	>	atomsPerProc[which_proc] += add_atoms;
323	>
324	>	done = 1;
325	>	continue;
326	>	}
327	>
328	>	// The only situation left is when new_atoms > nTarget. We
329	>	// want to accept this with some probability that dies off the
330	>	// farther we are from nTarget
331	>
332	>	// roughly: x = new_atoms - nTarget
333	>	// Pacc(x) = exp(- a * x)
334	>	// where a = penalty / (average atoms per molecule)
335	>
336	>	x = (double)(new_atoms - nTarget);
337	>	y = myRandom->rand();
338	>
339	>	if (y < exp(- a * x)) {
340	>	molToProcMap[i] = which_proc;
341	>	atomsPerProc[which_proc] += add_atoms;
342	>
343	>	done = 1;
344	>	continue;
345	>	} else {
346	>	continue;
347	>	}
348	>	}
349	>	}
350	>
351	>	delete myRandom;
352	>
353	>	// Spray out this nonsense to all other processors:
354	>
355	>	MPI_Bcast(&molToProcMap[0], nGlobalMols, MPI_INT, 0, MPI_COMM_WORLD);
356	>	} else {
357	>
358	>	// Listen to your marching orders from processor 0:
359	>
360	>	MPI_Bcast(&molToProcMap[0], nGlobalMols, MPI_INT, 0, MPI_COMM_WORLD);
361		}
362	<
362	>
363		info->setMolToProcMap(molToProcMap);
364		sprintf(checkPointMsg,
365		"Successfully divided the molecules among the processors.\n");
366		MPIcheckPoint();
367	<	}
368	<
367	>	}
368	>
369		#endif
370	<
371	<	void SimCreator::createMolecules(SimInfo *info) {
370	>
371	>	void SimCreator::createMolecules(SimInfo *info) {
372		MoleculeCreator molCreator;
373		int stampId;
374	<
374	>
375		for(int i = 0; i < info->getNGlobalMolecules(); i++) {
376	<
376	>
377		#ifdef IS_MPI
378	<
379	<	if (info->getMolToProc(i) == worldRank) {
378	>
379	>	if (info->getMolToProc(i) == worldRank) {
380		#endif
381	<
382	<	stampId = info->getMoleculeStampId(i);
383	<	Molecule * mol = molCreator.createMolecule(info->getForceField(), info->getMoleculeStamp(stampId),
384	<	stampId, i, info->getLocalIndexManager());
385	<
386	<	info->addMolecule(mol);
387	<
381	>
382	>	stampId = info->getMoleculeStampId(i);
383	>	Molecule * mol = molCreator.createMolecule(info->getForceField(), info->getMoleculeStamp(stampId),
384	>	stampId, i, info->getLocalIndexManager());
385	>
386	>	info->addMolecule(mol);
387	>
388		#ifdef IS_MPI
389	<
390	<	}
391	<
389	>
390	>	}
391	>
392		#endif
393	<
393	>
394		} //end for(int i=0)
395	<	}
396	<
397	<	void SimCreator::compList(MakeStamps stamps, Globals simParams,
398	<	std::vector < std::pair<MoleculeStamp *, int> > &moleculeStampPairs) {
395	>	}
396	>
397	>	void SimCreator::compList(MakeStamps stamps, Globals simParams,
398	>	std::vector < std::pair<MoleculeStamp *, int> > &moleculeStampPairs) {
399		int i;
400		char * id;
401		MoleculeStamp * currentStamp;
402		Component** the_components = simParams->getComponents();
403		int n_components = simParams->getNComponents();
404	<
404	>
405		if (!simParams->haveNMol()) {
406	<	// we don't have the total number of molecules, so we assume it is
407	<	// given in each component
406	>	// we don't have the total number of molecules, so we assume it is
407	>	// given in each component
408	>
409	>	for(i = 0; i < n_components; i++) {
410	>	if (!the_components[i]->haveNMol()) {
411	>	// we have a problem
412	>	sprintf(painCave.errMsg,
413	>	"SimCreator Error. No global NMol or component NMol given.\n"
414	>	"\tCannot calculate the number of atoms.\n");
415	>
416	>	painCave.isFatal = 1;
417	>	simError();
418	>	}
419	>
420	>	id = the_components[i]->getType();
421
422	<	for(i = 0; i < n_components; i++) {
423	<	if (!the_components[i]->haveNMol()) {
424	<	// we have a problem
425	<	sprintf(painCave.errMsg,
426	<	"SimCreator Error. No global NMol or component NMol given.\n"
427	<	"\tCannot calculate the number of atoms.\n");
428	<
429	<	painCave.isFatal = 1;
430	<	simError();
431	<	}
432	<
433	<	id = the_components[i]->getType();
434	<	currentStamp = (stamps->extractMolStamp(id))->getStamp();
464	<
465	<	if (currentStamp == NULL) {
466	<	sprintf(painCave.errMsg,
467	<	"SimCreator error: Component \"%s\" was not found in the "
468	<	"list of declared molecules\n", id);
469	<
470	<	painCave.isFatal = 1;
471	<	simError();
472	<	}
473	<
474	<	moleculeStampPairs.push_back(
475	<	std::make_pair(currentStamp, the_components[i]->getNMol()));
476	<	} //end for (i = 0; i < n_components; i++)
422	>	currentStamp = stamps->getMolStamp(id);
423	>	if (currentStamp == NULL) {
424	>	sprintf(painCave.errMsg,
425	>	"SimCreator error: Component \"%s\" was not found in the "
426	>	"list of declared molecules\n", id);
427	>
428	>	painCave.isFatal = 1;
429	>	simError();
430	>	}
431	>
432	>	moleculeStampPairs.push_back(
433	>	std::make_pair(currentStamp, the_components[i]->getNMol()));
434	>	} //end for (i = 0; i < n_components; i++)
435		} else {
436	<	sprintf(painCave.errMsg, "SimSetup error.\n"
437	<	"\tSorry, the ability to specify total"
438	<	" nMols and then give molfractions in the components\n"
439	<	"\tis not currently supported."
440	<	" Please give nMol in the components.\n");
441	<
442	<	painCave.isFatal = 1;
443	<	simError();
444	<	}
445	<
436	>	sprintf(painCave.errMsg, "SimSetup error.\n"
437	>	"\tSorry, the ability to specify total"
438	>	" nMols and then give molfractions in the components\n"
439	>	"\tis not currently supported."
440	>	" Please give nMol in the components.\n");
441	>
442	>	painCave.isFatal = 1;
443	>	simError();
444	>	}
445	>
446		#ifdef IS_MPI
447	<
447	>
448		strcpy(checkPointMsg, "Component stamps successfully extracted\n");
449		MPIcheckPoint();
450	<
450	>
451		#endif // is_mpi
452	<
453	<	}
454	<
455	<	void SimCreator::setGlobalIndex(SimInfo *info) {
452	>
453	>	}
454	>
455	>	void SimCreator::setGlobalIndex(SimInfo *info) {
456		SimInfo::MoleculeIterator mi;
457		Molecule::AtomIterator ai;
458		Molecule::RigidBodyIterator ri;
#	Line 509 \| Line 467 \| *void SimCreator::setGlobalIndex(SimInfo info) {**
467		int nGlobalAtoms = info->getNGlobalAtoms();
468
469		#ifndef IS_MPI
470	<
470	>
471		beginAtomIndex = 0;
472		beginRigidBodyIndex = 0;
473		beginCutoffGroupIndex = 0;
474	<
474	>
475		#else
476	<
476	>
477		int nproc;
478		int myNode;
479	<
479	>
480		myNode = worldRank;
481		MPI_Comm_size(MPI_COMM_WORLD, &nproc);
482	<
482	>
483		std::vector < int > tmpAtomsInProc(nproc, 0);
484		std::vector < int > tmpRigidBodiesInProc(nproc, 0);
485		std::vector < int > tmpCutoffGroupsInProc(nproc, 0);
486		std::vector < int > NumAtomsInProc(nproc, 0);
487		std::vector < int > NumRigidBodiesInProc(nproc, 0);
488		std::vector < int > NumCutoffGroupsInProc(nproc, 0);
489	<
489	>
490		tmpAtomsInProc[myNode] = info->getNAtoms();
491		tmpRigidBodiesInProc[myNode] = info->getNRigidBodies();
492		tmpCutoffGroupsInProc[myNode] = info->getNCutoffGroups();
493	<
493	>
494		//do MPI_ALLREDUCE to exchange the total number of atoms, rigidbodies and cutoff groups
495		MPI_Allreduce(&tmpAtomsInProc[0], &NumAtomsInProc[0], nproc, MPI_INT,
496		MPI_SUM, MPI_COMM_WORLD);
#	Line 540 \| Line 498 \| *void SimCreator::setGlobalIndex(SimInfo info) {**
498		MPI_INT, MPI_SUM, MPI_COMM_WORLD);
499		MPI_Allreduce(&tmpCutoffGroupsInProc[0], &NumCutoffGroupsInProc[0], nproc,
500		MPI_INT, MPI_SUM, MPI_COMM_WORLD);
501	<
501	>
502		beginAtomIndex = 0;
503		beginRigidBodyIndex = 0;
504		beginCutoffGroupIndex = 0;
505	<
505	>
506		for(int i = 0; i < myNode; i++) {
507	<	beginAtomIndex += NumAtomsInProc[i];
508	<	beginRigidBodyIndex += NumRigidBodiesInProc[i];
509	<	beginCutoffGroupIndex += NumCutoffGroupsInProc[i];
507	>	beginAtomIndex += NumAtomsInProc[i];
508	>	beginRigidBodyIndex += NumRigidBodiesInProc[i];
509	>	beginCutoffGroupIndex += NumCutoffGroupsInProc[i];
510		}
511	<
511	>
512		#endif
513	<
513	>
514		//rigidbody's index begins right after atom's
515		beginRigidBodyIndex += info->getNGlobalAtoms();
516	<
516	>
517		for(mol = info->beginMolecule(mi); mol != NULL;
518		mol = info->nextMolecule(mi)) {
519	<
520	<	//local index(index in DataStorge) of atom is important
521	<	for(atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) {
522	<	atom->setGlobalIndex(beginAtomIndex++);
523	<	}
524	<
525	<	for(rb = mol->beginRigidBody(ri); rb != NULL;
526	<	rb = mol->nextRigidBody(ri)) {
527	<	rb->setGlobalIndex(beginRigidBodyIndex++);
528	<	}
529	<
530	<	//local index of cutoff group is trivial, it only depends on the order of travesing
531	<	for(cg = mol->beginCutoffGroup(ci); cg != NULL;
532	<	cg = mol->nextCutoffGroup(ci)) {
533	<	cg->setGlobalIndex(beginCutoffGroupIndex++);
534	<	}
519	>
520	>	//local index(index in DataStorge) of atom is important
521	>	for(atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) {
522	>	atom->setGlobalIndex(beginAtomIndex++);
523	>	}
524	>
525	>	for(rb = mol->beginRigidBody(ri); rb != NULL;
526	>	rb = mol->nextRigidBody(ri)) {
527	>	rb->setGlobalIndex(beginRigidBodyIndex++);
528	>	}
529	>
530	>	//local index of cutoff group is trivial, it only depends on the order of travesing
531	>	for(cg = mol->beginCutoffGroup(ci); cg != NULL;
532	>	cg = mol->nextCutoffGroup(ci)) {
533	>	cg->setGlobalIndex(beginCutoffGroupIndex++);
534	>	}
535		}
536	<
536	>
537		//fill globalGroupMembership
538		std::vector<int> globalGroupMembership(info->getNGlobalAtoms(), 0);
539		for(mol = info->beginMolecule(mi); mol != NULL; mol = info->nextMolecule(mi)) {
540	<	for (cg = mol->beginCutoffGroup(ci); cg != NULL; cg = mol->nextCutoffGroup(ci)) {
541	<
542	<	for(atom = cg->beginAtom(ai); atom != NULL; atom = cg->nextAtom(ai)) {
543	<	globalGroupMembership[atom->getGlobalIndex()] = cg->getGlobalIndex();
544	<	}
545	<
546	<	}
540	>	for (cg = mol->beginCutoffGroup(ci); cg != NULL; cg = mol->nextCutoffGroup(ci)) {
541	>
542	>	for(atom = cg->beginAtom(ai); atom != NULL; atom = cg->nextAtom(ai)) {
543	>	globalGroupMembership[atom->getGlobalIndex()] = cg->getGlobalIndex();
544	>	}
545	>
546	>	}
547		}
548	<
548	>
549		#ifdef IS_MPI
550		// Since the globalGroupMembership has been zero filled and we've only
551		// poked values into the atoms we know, we can do an Allreduce
#	Line 597 \| Line 555 \| *void SimCreator::setGlobalIndex(SimInfo info) {**
555		std::vector<int> tmpGroupMembership(nGlobalAtoms, 0);
556		MPI_Allreduce(&globalGroupMembership[0], &tmpGroupMembership[0], nGlobalAtoms,
557		MPI_INT, MPI_SUM, MPI_COMM_WORLD);
558	<	info->setGlobalGroupMembership(tmpGroupMembership);
558	>	info->setGlobalGroupMembership(tmpGroupMembership);
559		#else
560		info->setGlobalGroupMembership(globalGroupMembership);
561		#endif
562	<
562	>
563		//fill molMembership
564		std::vector<int> globalMolMembership(info->getNGlobalAtoms(), 0);
565
566		for(mol = info->beginMolecule(mi); mol != NULL; mol = info->nextMolecule(mi)) {
567	<
568	<	for(atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) {
569	<	globalMolMembership[atom->getGlobalIndex()] = mol->getGlobalIndex();
570	<	}
567	>
568	>	for(atom = mol->beginAtom(ai); atom != NULL; atom = mol->nextAtom(ai)) {
569	>	globalMolMembership[atom->getGlobalIndex()] = mol->getGlobalIndex();
570	>	}
571		}
572	<
572	>
573		#ifdef IS_MPI
574		std::vector<int> tmpMolMembership(nGlobalAtoms, 0);
575	<
575	>
576		MPI_Allreduce(&globalMolMembership[0], &tmpMolMembership[0], nGlobalAtoms,
577		MPI_INT, MPI_SUM, MPI_COMM_WORLD);
578
#	Line 622 \| Line 580 \| *void SimCreator::setGlobalIndex(SimInfo info) {**
580		#else
581		info->setGlobalMolMembership(globalMolMembership);
582		#endif
583	<
584	<	}
585	<
586	<	void SimCreator::loadCoordinates(SimInfo* info) {
583	>
584	>	}
585	>
586	>	void SimCreator::loadCoordinates(SimInfo* info) {
587		Globals* simParams;
588		simParams = info->getSimParams();
589
590		if (!simParams->haveInitialConfig()) {
591	<	sprintf(painCave.errMsg,
592	<	"Cannot intialize a simulation without an initial configuration file.\n");
593	<	painCave.isFatal = 1;;
594	<	simError();
591	>	sprintf(painCave.errMsg,
592	>	"Cannot intialize a simulation without an initial configuration file.\n");
593	>	painCave.isFatal = 1;;
594	>	simError();
595		}
596	<
596	>
597		DumpReader reader(info, simParams->getInitialConfig());
598		int nframes = reader.getNFrames();
599	<
599	>
600		if (nframes > 0) {
601	<	reader.readFrame(nframes - 1);
601	>	reader.readFrame(nframes - 1);
602		} else {
603	<	//invalid initial coordinate file
604	<	sprintf(painCave.errMsg, "Initial configuration file %s should at least contain one frame\n",
605	<	simParams->getInitialConfig());
606	<	painCave.isFatal = 1;
607	<	simError();
603	>	//invalid initial coordinate file
604	>	sprintf(painCave.errMsg,
605	>	"Initial configuration file %s should at least contain one frame\n",
606	>	simParams->getInitialConfig().c_str());
607	>	painCave.isFatal = 1;
608	>	simError();
609		}
610	<
610	>
611		//copy the current snapshot to previous snapshot
612		info->getSnapshotManager()->advance();
613	<	}
614	<
613	>	}
614	>
615		} //end namespace oopse
616
617

Diff Legend

-–
+Removed lines
-+
+Added lines
-<
+Changed lines
->
+Changed lines

Comparing trunk/OOPSE-2.0/src/brains/SimCreator.cpp (file contents): Revision 1981 by tim, Mon Feb 7 19:14:26 2005 UTC vs. Revision 2364 by tim, Thu Oct 13 22:26:47 2005 UTC

Diff Legend

Comparing trunk/OOPSE-2.0/src/brains/SimCreator.cpp (file contents):
Revision 1981 by tim, Mon Feb 7 19:14:26 2005 UTC vs.
Revision 2364 by tim, Thu Oct 13 22:26:47 2005 UTC