[ViewVC] Diff of: OpenMD/trunk/src/io/DumpWriter.cpp

Comparing trunk/src/io/DumpWriter.cpp (file contents):
Revision 395 by tim, Thu Mar 3 14:40:20 2005 UTC vs.
Revision 966 by chrisfen, Fri May 19 21:26:41 2006 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 43 \| Line 43
43		#include "primitives/Molecule.hpp"
44		#include "utils/simError.h"
45		#include "io/basic_teebuf.hpp"
46	+	#include "io/gzstream.hpp"
47	+	#include "io/Globals.hpp"
48	+
49		#ifdef IS_MPI
50		#include <mpi.h>
51		#endif //is_mpi
52
53		namespace oopse {
54
55	<	DumpWriter::DumpWriter(SimInfo* info)
56	<	: info_(info), filename_(info->getDumpFileName()), eorFilename_(info->getFinalConfigFileName()){
55	>	DumpWriter::DumpWriter(SimInfo* info)
56	>	: info_(info), filename_(info->getDumpFileName()), eorFilename_(info->getFinalConfigFileName()){
57	>
58	>	Globals* simParams = info->getSimParams();
59	>	needCompression_ = simParams->getCompressDumpFile();
60	>	needForceVector_ = simParams->getOutputForceVector();
61	>	createDumpFile_ = true;
62	>	#ifdef HAVE_LIBZ
63	>	if (needCompression_) {
64	>	filename_ += ".gz";
65	>	eorFilename_ += ".gz";
66	>	}
67	>	#endif
68	>
69		#ifdef IS_MPI
70
71	<	if (worldRank == 0) {
71	>	if (worldRank == 0) {
72		#endif // is_mpi
73
74	<	dumpFile_.open(filename_.c_str(), std::ios::out \| std::ios::trunc);
74	>
75	>	dumpFile_ = createOStream(filename_);
76
77		if (!dumpFile_) {
78	<	sprintf(painCave.errMsg, "Could not open \"%s\" for dump output.\n",
79	<	filename_.c_str());
80	<	painCave.isFatal = 1;
81	<	simError();
78	>	sprintf(painCave.errMsg, "Could not open \"%s\" for dump output.\n",
79	>	filename_.c_str());
80	>	painCave.isFatal = 1;
81	>	simError();
82		}
83
84		#ifdef IS_MPI
85
86	<	}
86	>	}
87
88	<	sprintf(checkPointMsg, "Sucessfully opened output file for dumping.\n");
89	<	MPIcheckPoint();
88	>	sprintf(checkPointMsg, "Sucessfully opened output file for dumping.\n");
89	>	MPIcheckPoint();
90
91		#endif // is_mpi
92
93	<	}
93	>	}
94
95
96	<	DumpWriter::DumpWriter(SimInfo* info, const std::string& filename)
97	<	: info_(info), filename_(filename){
96	>	DumpWriter::DumpWriter(SimInfo* info, const std::string& filename)
97	>	: info_(info), filename_(filename){
98	>
99	>	Globals* simParams = info->getSimParams();
100	>	eorFilename_ = filename_.substr(0, filename_.rfind(".")) + ".eor";
101	>
102	>	needCompression_ = simParams->getCompressDumpFile();
103	>	needForceVector_ = simParams->getOutputForceVector();
104	>	createDumpFile_ = true;
105	>	#ifdef HAVE_LIBZ
106	>	if (needCompression_) {
107	>	filename_ += ".gz";
108	>	eorFilename_ += ".gz";
109	>	}
110	>	#endif
111	>
112		#ifdef IS_MPI
113
114	<	if (worldRank == 0) {
114	>	if (worldRank == 0) {
115		#endif // is_mpi
116
117	<	eorFilename_ = filename_.substr(0, filename_.rfind(".")) + ".eor";
118	<	dumpFile_.open(filename_.c_str(), std::ios::out \| std::ios::trunc);
117	>
118	>	dumpFile_ = createOStream(filename_);
119
120		if (!dumpFile_) {
121	<	sprintf(painCave.errMsg, "Could not open \"%s\" for dump output.\n",
122	<	filename_.c_str());
123	<	painCave.isFatal = 1;
124	<	simError();
121	>	sprintf(painCave.errMsg, "Could not open \"%s\" for dump output.\n",
122	>	filename_.c_str());
123	>	painCave.isFatal = 1;
124	>	simError();
125		}
126
127		#ifdef IS_MPI
128
129	<	}
129	>	}
130
131	+	sprintf(checkPointMsg, "Sucessfully opened output file for dumping.\n");
132	+	MPIcheckPoint();
133	+
134	+	#endif // is_mpi
135	+
136	+	}
137	+
138	+	DumpWriter::DumpWriter(SimInfo* info, const std::string& filename, bool writeDumpFile)
139	+	: info_(info), filename_(filename){
140	+
141	+	Globals* simParams = info->getSimParams();
142	+	eorFilename_ = filename_.substr(0, filename_.rfind(".")) + ".eor";
143	+
144	+	needCompression_ = simParams->getCompressDumpFile();
145	+	needForceVector_ = simParams->getOutputForceVector();
146	+
147	+	#ifdef HAVE_LIBZ
148	+	if (needCompression_) {
149	+	filename_ += ".gz";
150	+	eorFilename_ += ".gz";
151	+	}
152	+	#endif
153	+
154	+	#ifdef IS_MPI
155	+
156	+	if (worldRank == 0) {
157	+	#endif // is_mpi
158	+
159	+	createDumpFile_ = writeDumpFile;
160	+	if (createDumpFile_) {
161	+	dumpFile_ = createOStream(filename_);
162	+
163	+	if (!dumpFile_) {
164	+	sprintf(painCave.errMsg, "Could not open \"%s\" for dump output.\n",
165	+	filename_.c_str());
166	+	painCave.isFatal = 1;
167	+	simError();
168	+	}
169	+	}
170	+	#ifdef IS_MPI
171	+
172	+	}
173	+
174		sprintf(checkPointMsg, "Sucessfully opened output file for dumping.\n");
175		MPIcheckPoint();
176	<
176	>
177		#endif // is_mpi
178	+
179	+	}
180	+
181	+
182	+
183	+
184	+
185
186	<	}
186	>	DumpWriter::~DumpWriter() {
187
108	–	DumpWriter::~DumpWriter() {
109	–
188		#ifdef IS_MPI
189
190		if (worldRank == 0) {
191		#endif // is_mpi
192	<
193	<	dumpFile_.close();
194	<
192	>	if (createDumpFile_){
193	>	delete dumpFile_;
194	>	}
195		#ifdef IS_MPI
196
197		}
198
199		#endif // is_mpi
200
201	<	}
201	>	}
202
203	<	void DumpWriter::writeCommentLine(std::ostream& os, Snapshot* s) {
203	>	void DumpWriter::writeCommentLine(std::ostream& os, Snapshot* s) {
204
205	<	double currentTime;
205	>	RealType currentTime;
206		Mat3x3d hmat;
207	<	double chi;
208	<	double integralOfChiDt;
207	>	RealType chi;
208	>	RealType integralOfChiDt;
209		Mat3x3d eta;
210
211		currentTime = s->getTime();
#	Line 137 \| Line 215 \| void DumpWriter::writeCommentLine(std::ostream& os, Sn
215		eta = s->getEta();
216
217		os << currentTime << ";\t"
218	<	<< hmat(0, 0) << "\t" << hmat(1, 0) << "\t" << hmat(2, 0) << ";\t"
219	<	<< hmat(0, 1) << "\t" << hmat(1, 1) << "\t" << hmat(2, 1) << ";\t"
220	<	<< hmat(0, 2) << "\t" << hmat(1, 2) << "\t" << hmat(2, 2) << ";\t";
218	>	<< hmat(0, 0) << "\t" << hmat(1, 0) << "\t" << hmat(2, 0) << ";\t"
219	>	<< hmat(0, 1) << "\t" << hmat(1, 1) << "\t" << hmat(2, 1) << ";\t"
220	>	<< hmat(0, 2) << "\t" << hmat(1, 2) << "\t" << hmat(2, 2) << ";\t";
221
222		//write out additional parameters, such as chi and eta
223
224	<	os << chi << "\t" << integralOfChiDt << "\t;";
224	>	os << chi << "\t" << integralOfChiDt << ";\t";
225
226		os << eta(0, 0) << "\t" << eta(1, 0) << "\t" << eta(2, 0) << ";\t"
227	<	<< eta(0, 1) << "\t" << eta(1, 1) << "\t" << eta(2, 1) << ";\t"
228	<	<< eta(0, 2) << "\t" << eta(1, 2) << "\t" << eta(2, 2) << ";";
227	>	<< eta(0, 1) << "\t" << eta(1, 1) << "\t" << eta(2, 1) << ";\t"
228	>	<< eta(0, 2) << "\t" << eta(1, 2) << "\t" << eta(2, 2) << ";";
229
230		os << "\n";
231	<	}
231	>	}
232
233	<	void DumpWriter::writeFrame(std::ostream& os) {
233	>	void DumpWriter::writeFrame(std::ostream& os) {
234		const int BUFFERSIZE = 2000;
235		const int MINIBUFFERSIZE = 100;
236
#	Line 163 \| Line 241 \| void DumpWriter::writeFrame(std::ostream& os) {
241		Vector3d ji;
242		Vector3d pos;
243		Vector3d vel;
244	+	Vector3d frc;
245	+	Vector3d trq;
246
247		Molecule* mol;
248		StuntDouble* integrableObject;
#	Line 181 \| Line 261 \| void DumpWriter::writeFrame(std::ostream& os) {
261
262		for (mol = info_->beginMolecule(mi); mol != NULL; mol = info_->nextMolecule(mi)) {
263
264	<	for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
265	<	integrableObject = mol->nextIntegrableObject(ii)) {
264	>	for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
265	>	integrableObject = mol->nextIntegrableObject(ii)) {
266
267
268	<	pos = integrableObject->getPos();
269	<	vel = integrableObject->getVel();
268	>	pos = integrableObject->getPos();
269	>	vel = integrableObject->getVel();
270
271	<	sprintf(tempBuffer, "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t",
272	<	integrableObject->getType().c_str(),
273	<	pos[0], pos[1], pos[2],
274	<	vel[0], vel[1], vel[2]);
271	>	sprintf(tempBuffer, "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t",
272	>	integrableObject->getType().c_str(),
273	>	pos[0], pos[1], pos[2],
274	>	vel[0], vel[1], vel[2]);
275
276	<	strcpy(writeLine, tempBuffer);
276	>	strcpy(writeLine, tempBuffer);
277
278	<	if (integrableObject->isDirectional()) {
279	<	q = integrableObject->getQ();
280	<	ji = integrableObject->getJ();
278	>	if (integrableObject->isDirectional()) {
279	>	q = integrableObject->getQ();
280	>	ji = integrableObject->getJ();
281
282	<	sprintf(tempBuffer, "%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\n",
283	<	q[0], q[1], q[2], q[3],
284	<	ji[0], ji[1], ji[2]);
285	<	strcat(writeLine, tempBuffer);
286	<	} else {
287	<	strcat(writeLine, "0.0\t0.0\t0.0\t0.0\t0.0\t0.0\t0.0\n");
288	<	}
282	>	sprintf(tempBuffer, "%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
283	>	q[0], q[1], q[2], q[3],
284	>	ji[0], ji[1], ji[2]);
285	>	strcat(writeLine, tempBuffer);
286	>	} else {
287	>	strcat(writeLine, "0.0\t0.0\t0.0\t0.0\t0.0\t0.0\t0.0");
288	>	}
289
290	<	os << writeLine;
290	>	if (needForceVector_) {
291	>	frc = integrableObject->getFrc();
292	>	trq = integrableObject->getTrq();
293	>
294	>	sprintf(tempBuffer, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
295	>	frc[0], frc[1], frc[2],
296	>	trq[0], trq[1], trq[2]);
297	>	strcat(writeLine, tempBuffer);
298	>	}
299	>
300	>	strcat(writeLine, "\n");
301	>	os << writeLine;
302
303	<	}
303	>	}
304		}
305
306		os.flush();
#	Line 256 \| Line 347 \| void DumpWriter::writeFrame(std::ostream& os) {
347		int myPotato;
348		int nProc;
349		int which_node;
350	<	double atomData[13];
350	>	RealType atomData[19];
351		int isDirectional;
352		char MPIatomTypeString[MINIBUFFERSIZE];
353		int msgLen; // the length of message actually recieved at master nodes
#	Line 271 \| Line 362 \| void DumpWriter::writeFrame(std::ostream& os) {
362		MPI_Attr_get(MPI_COMM_WORLD, MPI_TAG_UB, &tagub, &flag);
363
364		if (flag) {
365	<	MAXTAG = *tagub;
365	>	MAXTAG = *tagub;
366		} else {
367	<	MAXTAG = 32767;
367	>	MAXTAG = 32767;
368		}
369
370		if (worldRank == masterNode) { //master node (node 0) is responsible for writing the dump file
371
372	<	// Node 0 needs a list of the magic potatoes for each processor;
372	>	// Node 0 needs a list of the magic potatoes for each processor;
373
374	<	MPI_Comm_size(MPI_COMM_WORLD, &nProc);
375	<	potatoes = new int[nProc];
374	>	MPI_Comm_size(MPI_COMM_WORLD, &nProc);
375	>	potatoes = new int[nProc];
376
377	<	//write out the comment lines
378	<	for(int i = 0; i < nProc; i++) {
379	<	potatoes[i] = 0;
380	<	}
377	>	//write out the comment lines
378	>	for(int i = 0; i < nProc; i++) {
379	>	potatoes[i] = 0;
380	>	}
381
382
383	<	os << nTotObjects << "\n";
384	<	writeCommentLine(os, info_->getSnapshotManager()->getCurrentSnapshot());
383	>	os << nTotObjects << "\n";
384	>	writeCommentLine(os, info_->getSnapshotManager()->getCurrentSnapshot());
385
386	<	for(int i = 0; i < info_->getNGlobalMolecules(); i++) {
386	>	for(int i = 0; i < info_->getNGlobalMolecules(); i++) {
387
388	<	// Get the Node number which has this atom;
388	>	// Get the Node number which has this atom;
389
390	<	which_node = info_->getMolToProc(i);
300	<
301	<	if (which_node != masterNode) { //current molecule is in slave node
302	<	if (potatoes[which_node] + 1 >= MAXTAG) {
303	<	// The potato was going to exceed the maximum value,
304	<	// so wrap this processor potato back to 0:
390	>	which_node = info_->getMolToProc(i);
391
392	<	potatoes[which_node] = 0;
393	<	MPI_Send(&potatoes[which_node], 1, MPI_INT, which_node, 0,
394	<	MPI_COMM_WORLD);
395	<	}
392	>	if (which_node != masterNode) { //current molecule is in slave node
393	>	if (potatoes[which_node] + 1 >= MAXTAG) {
394	>	// The potato was going to exceed the maximum value,
395	>	// so wrap this processor potato back to 0:
396
397	<	myPotato = potatoes[which_node];
397	>	potatoes[which_node] = 0;
398	>	MPI_Send(&potatoes[which_node], 1, MPI_INT, which_node, 0,
399	>	MPI_COMM_WORLD);
400	>	}
401
402	<	//recieve the number of integrableObject in current molecule
314	<	MPI_Recv(&nCurObj, 1, MPI_INT, which_node, myPotato,
315	<	MPI_COMM_WORLD, &istatus);
316	<	myPotato++;
402	>	myPotato = potatoes[which_node];
403
404	<	for(int l = 0; l < nCurObj; l++) {
405	<	if (potatoes[which_node] + 2 >= MAXTAG) {
406	<	// The potato was going to exceed the maximum value,
407	<	// so wrap this processor potato back to 0:
404	>	//recieve the number of integrableObject in current molecule
405	>	MPI_Recv(&nCurObj, 1, MPI_INT, which_node, myPotato,
406	>	MPI_COMM_WORLD, &istatus);
407	>	myPotato++;
408
409	<	potatoes[which_node] = 0;
410	<	MPI_Send(&potatoes[which_node], 1, MPI_INT, which_node,
411	<	0, MPI_COMM_WORLD);
412	<	}
409	>	for(int l = 0; l < nCurObj; l++) {
410	>	if (potatoes[which_node] + 2 >= MAXTAG) {
411	>	// The potato was going to exceed the maximum value,
412	>	// so wrap this processor potato back to 0:
413
414	<	MPI_Recv(MPIatomTypeString, MINIBUFFERSIZE, MPI_CHAR,
415	<	which_node, myPotato, MPI_COMM_WORLD,
416	<	&istatus);
414	>	potatoes[which_node] = 0;
415	>	MPI_Send(&potatoes[which_node], 1, MPI_INT, which_node,
416	>	0, MPI_COMM_WORLD);
417	>	}
418
419	<	myPotato++;
419	>	MPI_Recv(MPIatomTypeString, MINIBUFFERSIZE, MPI_CHAR,
420	>	which_node, myPotato, MPI_COMM_WORLD,
421	>	&istatus);
422
423	<	MPI_Recv(atomData, 13, MPI_DOUBLE, which_node, myPotato,
335	<	MPI_COMM_WORLD, &istatus);
336	<	myPotato++;
423	>	myPotato++;
424
425	<	MPI_Get_count(&istatus, MPI_DOUBLE, &msgLen);
425	>	MPI_Recv(atomData, 19, MPI_REALTYPE, which_node, myPotato,
426	>	MPI_COMM_WORLD, &istatus);
427	>	myPotato++;
428
429	<	if (msgLen == 13)
341	<	isDirectional = 1;
342	<	else
343	<	isDirectional = 0;
429	>	MPI_Get_count(&istatus, MPI_REALTYPE, &msgLen);
430
431	<	// If we've survived to here, format the line:
431	>	if (msgLen == 13 \|\| msgLen == 19)
432	>	isDirectional = 1;
433	>	else
434	>	isDirectional = 0;
435
436	<	if (!isDirectional) {
348	<	sprintf(writeLine, "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t",
349	<	MPIatomTypeString, atomData[0],
350	<	atomData[1], atomData[2],
351	<	atomData[3], atomData[4],
352	<	atomData[5]);
436	>	// If we've survived to here, format the line:
437
438	<	strcat(writeLine,
439	<	"0.0\t0.0\t0.0\t0.0\t0.0\t0.0\t0.0\n");
440	<	} else {
441	<	sprintf(writeLine,
442	<	"%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\n",
443	<	MPIatomTypeString,
360	<	atomData[0],
361	<	atomData[1],
362	<	atomData[2],
363	<	atomData[3],
364	<	atomData[4],
365	<	atomData[5],
366	<	atomData[6],
367	<	atomData[7],
368	<	atomData[8],
369	<	atomData[9],
370	<	atomData[10],
371	<	atomData[11],
372	<	atomData[12]);
373	<	}
438	>	if (!isDirectional) {
439	>	sprintf(writeLine, "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t",
440	>	MPIatomTypeString, atomData[0],
441	>	atomData[1], atomData[2],
442	>	atomData[3], atomData[4],
443	>	atomData[5]);
444
445	<	os << writeLine;
445	>	strcat(writeLine,
446	>	"0.0\t0.0\t0.0\t0.0\t0.0\t0.0\t0.0");
447	>	} else {
448	>	sprintf(writeLine,
449	>	"%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
450	>	MPIatomTypeString,
451	>	atomData[0],
452	>	atomData[1],
453	>	atomData[2],
454	>	atomData[3],
455	>	atomData[4],
456	>	atomData[5],
457	>	atomData[6],
458	>	atomData[7],
459	>	atomData[8],
460	>	atomData[9],
461	>	atomData[10],
462	>	atomData[11],
463	>	atomData[12]);
464	>	}
465	>
466	>	if (needForceVector_) {
467	>	if (!isDirectional) {
468	>	sprintf(writeLine, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
469	>	atomData[6],
470	>	atomData[7],
471	>	atomData[8],
472	>	atomData[9],
473	>	atomData[10],
474	>	atomData[11]);
475	>	} else {
476	>	sprintf(writeLine, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
477	>	atomData[13],
478	>	atomData[14],
479	>	atomData[15],
480	>	atomData[16],
481	>	atomData[17],
482	>	atomData[18]);
483	>	}
484	>	}
485
486	<	} // end for(int l =0)
486	>	os << writeLine << "\n";
487
488	<	potatoes[which_node] = myPotato;
380	<	} else { //master node has current molecule
488	>	} // end for(int l =0)
489
490	<	mol = info_->getMoleculeByGlobalIndex(i);
490	>	potatoes[which_node] = myPotato;
491	>	} else { //master node has current molecule
492
493	<	if (mol == NULL) {
494	<	sprintf(painCave.errMsg, "Molecule not found on node %d!", worldRank);
495	<	painCave.isFatal = 1;
496	<	simError();
497	<	}
493	>	mol = info_->getMoleculeByGlobalIndex(i);
494	>
495	>	if (mol == NULL) {
496	>	sprintf(painCave.errMsg, "Molecule not found on node %d!", worldRank);
497	>	painCave.isFatal = 1;
498	>	simError();
499	>	}
500
501	<	for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
502	<	integrableObject = mol->nextIntegrableObject(ii)) {
501	>	for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
502	>	integrableObject = mol->nextIntegrableObject(ii)) {
503
504	<	pos = integrableObject->getPos();
505	<	vel = integrableObject->getVel();
504	>	pos = integrableObject->getPos();
505	>	vel = integrableObject->getVel();
506
507	<	atomData[0] = pos[0];
508	<	atomData[1] = pos[1];
509	<	atomData[2] = pos[2];
507	>	atomData[0] = pos[0];
508	>	atomData[1] = pos[1];
509	>	atomData[2] = pos[2];
510
511	<	atomData[3] = vel[0];
512	<	atomData[4] = vel[1];
513	<	atomData[5] = vel[2];
511	>	atomData[3] = vel[0];
512	>	atomData[4] = vel[1];
513	>	atomData[5] = vel[2];
514
515	<	isDirectional = 0;
515	>	isDirectional = 0;
516
517	<	if (integrableObject->isDirectional()) {
518	<	isDirectional = 1;
517	>	if (integrableObject->isDirectional()) {
518	>	isDirectional = 1;
519
520	<	q = integrableObject->getQ();
521	<	ji = integrableObject->getJ();
520	>	q = integrableObject->getQ();
521	>	ji = integrableObject->getJ();
522
523	<	for(int j = 0; j < 6; j++) {
524	<	atomData[j] = atomData[j];
525	<	}
523	>	for(int j = 0; j < 6; j++) {
524	>	atomData[j] = atomData[j];
525	>	}
526
527	<	atomData[6] = q[0];
528	<	atomData[7] = q[1];
529	<	atomData[8] = q[2];
530	<	atomData[9] = q[3];
527	>	atomData[6] = q[0];
528	>	atomData[7] = q[1];
529	>	atomData[8] = q[2];
530	>	atomData[9] = q[3];
531
532	<	atomData[10] = ji[0];
533	<	atomData[11] = ji[1];
534	<	atomData[12] = ji[2];
535	<	}
532	>	atomData[10] = ji[0];
533	>	atomData[11] = ji[1];
534	>	atomData[12] = ji[2];
535	>	}
536
537	<	// If we've survived to here, format the line:
537	>	if (needForceVector_) {
538	>	frc = integrableObject->getFrc();
539	>	trq = integrableObject->getTrq();
540
541	<	if (!isDirectional) {
542	<	sprintf(writeLine, "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t",
543	<	integrableObject->getType().c_str(), atomData[0],
544	<	atomData[1], atomData[2],
545	<	atomData[3], atomData[4],
546	<	atomData[5]);
541	>	if (!isDirectional) {
542	>	atomData[6] = frc[0];
543	>	atomData[7] = frc[1];
544	>	atomData[8] = frc[2];
545	>	atomData[9] = trq[0];
546	>	atomData[10] = trq[1];
547	>	atomData[11] = trq[2];
548	>	} else {
549	>	atomData[13] = frc[0];
550	>	atomData[14] = frc[1];
551	>	atomData[15] = frc[2];
552	>	atomData[16] = trq[0];
553	>	atomData[17] = trq[1];
554	>	atomData[18] = trq[2];
555	>	}
556	>	}
557
558	<	strcat(writeLine,
436	<	"0.0\t0.0\t0.0\t0.0\t0.0\t0.0\t0.0\n");
437	<	} else {
438	<	sprintf(writeLine,
439	<	"%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\n",
440	<	integrableObject->getType().c_str(),
441	<	atomData[0],
442	<	atomData[1],
443	<	atomData[2],
444	<	atomData[3],
445	<	atomData[4],
446	<	atomData[5],
447	<	atomData[6],
448	<	atomData[7],
449	<	atomData[8],
450	<	atomData[9],
451	<	atomData[10],
452	<	atomData[11],
453	<	atomData[12]);
454	<	}
558	>	// If we've survived to here, format the line:
559
560	+	if (!isDirectional) {
561	+	sprintf(writeLine, "%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t",
562	+	integrableObject->getType().c_str(), atomData[0],
563	+	atomData[1], atomData[2],
564	+	atomData[3], atomData[4],
565	+	atomData[5]);
566
567	<	os << writeLine;
567	>	strcat(writeLine,
568	>	"0.0\t0.0\t0.0\t0.0\t0.0\t0.0\t0.0");
569	>	} else {
570	>	sprintf(writeLine,
571	>	"%s\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
572	>	integrableObject->getType().c_str(),
573	>	atomData[0],
574	>	atomData[1],
575	>	atomData[2],
576	>	atomData[3],
577	>	atomData[4],
578	>	atomData[5],
579	>	atomData[6],
580	>	atomData[7],
581	>	atomData[8],
582	>	atomData[9],
583	>	atomData[10],
584	>	atomData[11],
585	>	atomData[12]);
586	>	}
587
588	<	} //end for(iter = integrableObject.begin())
589	<	}
590	<	} //end for(i = 0; i < mpiSim->getNmol())
588	>	if (needForceVector_) {
589	>	if (!isDirectional) {
590	>	sprintf(writeLine, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
591	>	atomData[6],
592	>	atomData[7],
593	>	atomData[8],
594	>	atomData[9],
595	>	atomData[10],
596	>	atomData[11]);
597	>	} else {
598	>	sprintf(writeLine, "\t%lf\t%lf\t%lf\t%lf\t%lf\t%lf",
599	>	atomData[13],
600	>	atomData[14],
601	>	atomData[15],
602	>	atomData[16],
603	>	atomData[17],
604	>	atomData[18]);
605	>	}
606	>	}
607
608	<	os.flush();
608	>	os << writeLine << "\n";
609	>
610	>	} //end for(iter = integrableObject.begin())
611	>	}
612	>	} //end for(i = 0; i < mpiSim->getNmol())
613	>
614	>	os.flush();
615
616	<	sprintf(checkPointMsg, "Sucessfully took a dump.\n");
617	<	MPIcheckPoint();
616	>	sprintf(checkPointMsg, "Sucessfully took a dump.\n");
617	>	MPIcheckPoint();
618
619	<	delete [] potatoes;
619	>	delete [] potatoes;
620		} else {
621
622	<	// worldRank != 0, so I'm a remote node.
622	>	// worldRank != 0, so I'm a remote node.
623
624	<	// Set my magic potato to 0:
624	>	// Set my magic potato to 0:
625
626	<	myPotato = 0;
626	>	myPotato = 0;
627
628	<	for(int i = 0; i < info_->getNGlobalMolecules(); i++) {
628	>	for(int i = 0; i < info_->getNGlobalMolecules(); i++) {
629
630	<	// Am I the node which has this integrableObject?
631	<	int whichNode = info_->getMolToProc(i);
632	<	if (whichNode == worldRank) {
633	<	if (myPotato + 1 >= MAXTAG) {
630	>	// Am I the node which has this integrableObject?
631	>	int whichNode = info_->getMolToProc(i);
632	>	if (whichNode == worldRank) {
633	>	if (myPotato + 1 >= MAXTAG) {
634
635	<	// The potato was going to exceed the maximum value,
636	<	// so wrap this processor potato back to 0 (and block until
637	<	// node 0 says we can go:
635	>	// The potato was going to exceed the maximum value,
636	>	// so wrap this processor potato back to 0 (and block until
637	>	// node 0 says we can go:
638
639	<	MPI_Recv(&myPotato, 1, MPI_INT, 0, 0, MPI_COMM_WORLD,
640	<	&istatus);
641	<	}
639	>	MPI_Recv(&myPotato, 1, MPI_INT, 0, 0, MPI_COMM_WORLD,
640	>	&istatus);
641	>	}
642
643	<	mol = info_->getMoleculeByGlobalIndex(i);
643	>	mol = info_->getMoleculeByGlobalIndex(i);
644
645
646	<	nCurObj = mol->getNIntegrableObjects();
646	>	nCurObj = mol->getNIntegrableObjects();
647
648	<	MPI_Send(&nCurObj, 1, MPI_INT, 0, myPotato, MPI_COMM_WORLD);
649	<	myPotato++;
648	>	MPI_Send(&nCurObj, 1, MPI_INT, 0, myPotato, MPI_COMM_WORLD);
649	>	myPotato++;
650
651	<	for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
652	<	integrableObject = mol->nextIntegrableObject(ii)) {
651	>	for (integrableObject = mol->beginIntegrableObject(ii); integrableObject != NULL;
652	>	integrableObject = mol->nextIntegrableObject(ii)) {
653
654	<	if (myPotato + 2 >= MAXTAG) {
654	>	if (myPotato + 2 >= MAXTAG) {
655
656	<	// The potato was going to exceed the maximum value,
657	<	// so wrap this processor potato back to 0 (and block until
658	<	// node 0 says we can go:
656	>	// The potato was going to exceed the maximum value,
657	>	// so wrap this processor potato back to 0 (and block until
658	>	// node 0 says we can go:
659
660	<	MPI_Recv(&myPotato, 1, MPI_INT, 0, 0, MPI_COMM_WORLD,
661	<	&istatus);
662	<	}
660	>	MPI_Recv(&myPotato, 1, MPI_INT, 0, 0, MPI_COMM_WORLD,
661	>	&istatus);
662	>	}
663
664	<	pos = integrableObject->getPos();
665	<	vel = integrableObject->getVel();
664	>	pos = integrableObject->getPos();
665	>	vel = integrableObject->getVel();
666
667	<	atomData[0] = pos[0];
668	<	atomData[1] = pos[1];
669	<	atomData[2] = pos[2];
667	>	atomData[0] = pos[0];
668	>	atomData[1] = pos[1];
669	>	atomData[2] = pos[2];
670
671	<	atomData[3] = vel[0];
672	<	atomData[4] = vel[1];
673	<	atomData[5] = vel[2];
671	>	atomData[3] = vel[0];
672	>	atomData[4] = vel[1];
673	>	atomData[5] = vel[2];
674
675	<	isDirectional = 0;
675	>	isDirectional = 0;
676
677	<	if (integrableObject->isDirectional()) {
678	<	isDirectional = 1;
677	>	if (integrableObject->isDirectional()) {
678	>	isDirectional = 1;
679
680	<	q = integrableObject->getQ();
681	<	ji = integrableObject->getJ();
680	>	q = integrableObject->getQ();
681	>	ji = integrableObject->getJ();
682
683	<	atomData[6] = q[0];
684	<	atomData[7] = q[1];
685	<	atomData[8] = q[2];
686	<	atomData[9] = q[3];
683	>	atomData[6] = q[0];
684	>	atomData[7] = q[1];
685	>	atomData[8] = q[2];
686	>	atomData[9] = q[3];
687
688	<	atomData[10] = ji[0];
689	<	atomData[11] = ji[1];
690	<	atomData[12] = ji[2];
691	<	}
688	>	atomData[10] = ji[0];
689	>	atomData[11] = ji[1];
690	>	atomData[12] = ji[2];
691	>	}
692
693	<	strncpy(MPIatomTypeString, integrableObject->getType().c_str(), MINIBUFFERSIZE);
693	>	if (needForceVector_) {
694	>	frc = integrableObject->getFrc();
695	>	trq = integrableObject->getTrq();
696	>
697	>	if (!isDirectional) {
698	>	atomData[6] = frc[0];
699	>	atomData[7] = frc[1];
700	>	atomData[8] = frc[2];
701	>
702	>	atomData[9] = trq[0];
703	>	atomData[10] = trq[1];
704	>	atomData[11] = trq[2];
705	>	} else {
706	>	atomData[13] = frc[0];
707	>	atomData[14] = frc[1];
708	>	atomData[15] = frc[2];
709	>
710	>	atomData[16] = trq[0];
711	>	atomData[17] = trq[1];
712	>	atomData[18] = trq[2];
713	>	}
714	>	}
715
716	<	// null terminate the std::string before sending (just in case):
545	<	MPIatomTypeString[MINIBUFFERSIZE - 1] = '\0';
716	>	strncpy(MPIatomTypeString, integrableObject->getType().c_str(), MINIBUFFERSIZE);
717
718	<	MPI_Send(MPIatomTypeString, MINIBUFFERSIZE, MPI_CHAR, 0,
719	<	myPotato, MPI_COMM_WORLD);
718	>	// null terminate the std::string before sending (just in case):
719	>	MPIatomTypeString[MINIBUFFERSIZE - 1] = '\0';
720
721	<	myPotato++;
721	>	MPI_Send(MPIatomTypeString, MINIBUFFERSIZE, MPI_CHAR, 0,
722	>	myPotato, MPI_COMM_WORLD);
723
724	<	if (isDirectional) {
553	<	MPI_Send(atomData, 13, MPI_DOUBLE, 0, myPotato,
554	<	MPI_COMM_WORLD);
555	<	} else {
556	<	MPI_Send(atomData, 6, MPI_DOUBLE, 0, myPotato,
557	<	MPI_COMM_WORLD);
558	<	}
724	>	myPotato++;
725
726	<	myPotato++;
727	<	}
726	>	if (isDirectional && needForceVector_) {
727	>	MPI_Send(atomData, 19, MPI_REALTYPE, 0, myPotato,
728	>	MPI_COMM_WORLD);
729	>	} else if (isDirectional) {
730	>	MPI_Send(atomData, 13, MPI_REALTYPE, 0, myPotato,
731	>	MPI_COMM_WORLD);
732	>	} else if (needForceVector_) {
733	>	MPI_Send(atomData, 12, MPI_REALTYPE, 0, myPotato,
734	>	MPI_COMM_WORLD);
735	>	} else {
736	>	MPI_Send(atomData, 6, MPI_REALTYPE, 0, myPotato,
737	>	MPI_COMM_WORLD);
738	>	}
739	>
740	>	myPotato++;
741	>	}
742
743	<	}
743	>	}
744
745	<	}
746	<	sprintf(checkPointMsg, "Sucessfully took a dump.\n");
747	<	MPIcheckPoint();
745	>	}
746	>	sprintf(checkPointMsg, "Sucessfully took a dump.\n");
747	>	MPIcheckPoint();
748		}
749
750		#endif // is_mpi
751
752	<	}
752	>	}
753
754	<	void DumpWriter::writeDump() {
755	<	writeFrame(dumpFile_);
754	>	void DumpWriter::writeDump() {
755	>	writeFrame(*dumpFile_);
756	>	}
757
758	<	}
759	<
579	<	void DumpWriter::writeEor() {
580	<	std::ofstream eorStream;
758	>	void DumpWriter::writeEor() {
759	>	std::ostream* eorStream;
760
761		#ifdef IS_MPI
762		if (worldRank == 0) {
763		#endif // is_mpi
764
765	<	eorStream.open(eorFilename_.c_str());
587	<	if (!eorStream.is_open()) {
588	<	sprintf(painCave.errMsg, "DumpWriter : Could not open \"%s\" for writing.\n",
589	<	eorFilename_.c_str());
590	<	painCave.isFatal = 1;
591	<	simError();
592	<	}
765	>	eorStream = createOStream(eorFilename_);
766
767		#ifdef IS_MPI
768		}
769		#endif // is_mpi
770
771	<	writeFrame(eorStream);
599	<	}
771	>	writeFrame(*eorStream);
772
773	+	#ifdef IS_MPI
774	+	if (worldRank == 0) {
775	+	#endif // is_mpi
776	+	delete eorStream;
777
778	<	void DumpWriter::writeDumpAndEor() {
779	<	std::ofstream eorStream;
778	>	#ifdef IS_MPI
779	>	}
780	>	#endif // is_mpi
781	>
782	>	}
783	>
784	>
785	>	void DumpWriter::writeDumpAndEor() {
786		std::vector<std::streambuf*> buffers;
787	+	std::ostream* eorStream;
788		#ifdef IS_MPI
789		if (worldRank == 0) {
790		#endif // is_mpi
791
792	<	buffers.push_back(dumpFile_.rdbuf());
792	>	buffers.push_back(dumpFile_->rdbuf());
793
794	<	eorStream.open(eorFilename_.c_str());
612	<	if (!eorStream.is_open()) {
613	<	sprintf(painCave.errMsg, "DumpWriter : Could not open \"%s\" for writing.\n",
614	<	eorFilename_.c_str());
615	<	painCave.isFatal = 1;
616	<	simError();
617	<	}
794	>	eorStream = createOStream(eorFilename_);
795
796	<	buffers.push_back(eorStream.rdbuf());
796	>	buffers.push_back(eorStream->rdbuf());
797
798		#ifdef IS_MPI
799		}
#	Line 626 \| Line 803 \| void DumpWriter::writeDumpAndEor() {
803		std::ostream os(&tbuf);
804
805		writeFrame(os);
806	+
807	+	#ifdef IS_MPI
808	+	if (worldRank == 0) {
809	+	#endif // is_mpi
810	+	delete eorStream;
811	+
812	+	#ifdef IS_MPI
813	+	}
814	+	#endif // is_mpi
815
816	<	}
816	>	}
817
818	+	std::ostream* DumpWriter::createOStream(const std::string& filename) {
819
820	+	std::ostream* newOStream;
821	+	#ifdef HAVE_LIBZ
822	+	if (needCompression_) {
823	+	newOStream = new ogzstream(filename.c_str());
824	+	} else {
825	+	newOStream = new std::ofstream(filename.c_str());
826	+	}
827	+	#else
828	+	newOStream = new std::ofstream(filename.c_str());
829	+	#endif
830	+	return newOStream;
831	+	}
832
833		}//end namespace oopse

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Comparing trunk/src/io/DumpWriter.cpp (file contents): Revision 395 by tim, Thu Mar 3 14:40:20 2005 UTC vs. Revision 966 by chrisfen, Fri May 19 21:26:41 2006 UTC

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Comparing trunk/src/io/DumpWriter.cpp (file contents):
Revision 395 by tim, Thu Mar 3 14:40:20 2005 UTC vs.
Revision 966 by chrisfen, Fri May 19 21:26:41 2006 UTC