[ViewVC] Diff of: OpenMD/trunk/src/applications/staticProps/Hxy.cpp

Comparing trunk/src/applications/staticProps/Hxy.cpp (file contents):
Revision 957 by gezelter, Tue May 16 20:38:23 2006 UTC vs.
Revision 967 by xsun, Mon May 22 15:30:42 2006 UTC

#	Line 44 \| Line 44
44		*
45		* Created by Xiuquan Sun on 05/09/06.
46		* @author Xiuquan Sun
47	<	* @version $Id: Hxy.cpp,v 1.3 2006-05-16 20:38:23 gezelter Exp $
47	>	* @version $Id: Hxy.cpp,v 1.5 2006-05-22 15:30:42 xsun Exp $
48		*
49		*/
50
#	Line 73 \| Line 73 \| namespace oopse {
73
74		gridsample_.resize(nBinsX_*nBinsY_);
75		gridZ_.resize(nBinsX_*nBinsY_);
76	+	mag.resize(nBinsX_*nBinsY_);
77	+	newmag.resize(nBinsX_*nBinsY_);
78
79		sum_bin.resize(nbins_);
80		avg_bin.resize(nbins_);
#	Line 83 \| Line 85 \| namespace oopse {
85		errbin_sum_sq.resize(nbins_);
86		errbin_sq.resize(nbins_);
87
88	+	bin.resize(nbins_);
89	+	samples.resize(nbins_);
90	+
91		setOutputName(getPrefix(filename) + ".Hxy");
92		}
93
94	+	Hxy::~Hxy(){
95	+	gridsample_.clear();
96	+	gridZ_.clear();
97	+	sum_bin.clear();
98	+	avg_bin.clear();
99	+	errbin_sum.clear();
100	+	errbin.clear();
101	+	sum_bin_sq.clear();
102	+	avg_bin_sq.clear();
103	+	errbin_sum_sq.clear();
104	+	errbin_sq.clear();
105	+
106	+	for(int i=0; i < bin.size(); i++)
107	+	bin[i].clear();
108	+	for(int i=0; i < samples.size(); i++)
109	+	samples[i].clear();
110	+
111	+	mag.clear();
112	+	newmag.clear();
113	+	}
114	+
115		void Hxy::process() {
116		#if defined(HAVE_FFTW_H) \|\| defined(HAVE_DFFTW_H) \|\| defined(HAVE_FFTW3_H)
117		DumpReader reader(info_, dumpFilename_);
118		int nFrames = reader.getNFrames();
119		nProcessed_ = nFrames/step_;
120
121	<	std::vector<double> mag, newmag;
122	<	double lenX_, lenY_;
123	<	double gridX_, gridY_;
124	<	double halfBoxX_, halfBoxY_;
121	>	for(int k=0; k < bin.size(); k++)
122	>	bin[k].resize(nFrames);
123	>	for(int k=0; k < samples.size(); k++)
124	>	samples[k].resize(nFrames);
125	>
126	>	RealType lenX_, lenY_;
127	>	RealType gridX_, gridY_;
128	>	RealType halfBoxX_, halfBoxY_;
129	>
130		int binNoX, binNoY;
131	<	double interpsum, value;
131	>	RealType interpsum, value;
132		int ninterp, px, py, newp;
133		int newx, newy, newindex, index;
134		int new_i, new_j, new_index;
135	<	double freq_x, freq_y, zero_freq_x, zero_freq_y, freq;
136	<	double maxfreqx, maxfreqy, maxfreq, dfreq;
135	>
136	>	RealType freq_x, freq_y, zero_freq_x, zero_freq_y, freq;
137	>	RealType maxfreqx, maxfreqy, maxfreq;
138	>
139		int whichbin;
140		int nMolecules;
141	<
141	>
142		for (int istep = 0; istep < nFrames; istep += step_) {
143
144		reader.readFrame(istep);
#	Line 120 \| Line 153 \| namespace oopse {
153		fftwnd_plan p;
154		#endif
155		fftw_complex in, out;
123	–
156
157		in = (fftw_complex) fftw_malloc(sizeof(fftw_complex) (nBinsX_*nBinsY_));
158		out = (fftw_complex) fftw_malloc(sizeof(fftw_complex) (nBinsX_*nBinsY_));
#	Line 134 \| Line 166 \| namespace oopse {
166
167		int i, j;
168
169	<	gridsample_.clear();
170	<	gridZ_.clear();
171	<	sum_bin.clear();
172	<	avg_bin.clear();
173	<	errbin_sum.clear();
174	<	errbin.clear();
175	<	sum_bin_sq.clear();
176	<	avg_bin_sq.clear();
177	<	errbin_sum_sq.clear();
178	<	errbin_sq.clear();
179	<
180	<	mag.resize(nBinsX_*nBinsY_);
181	<	newmag.resize(nBinsX_*nBinsY_);
182	<	mag.clear();
183	<	newmag.clear();
169	>	std::fill(gridsample_.begin(), gridsample_.end(), 0);
170	>	std::fill(gridZ_.begin(), gridZ_.end(), 0.0);
171	>	std::fill(sum_bin.begin(), sum_bin.end(), 0.0);
172	>	std::fill(avg_bin.begin(), avg_bin.end(), 0.0);
173	>	std::fill(errbin_sum.begin(), errbin_sum.end(), 0.0);
174	>	std::fill(errbin.begin(), errbin.end(), 0.0);
175	>	std::fill(sum_bin_sq.begin(), sum_bin_sq.end(), 0.0);
176	>	std::fill(avg_bin_sq.begin(), avg_bin_sq.end(), 0.0);
177	>	std::fill(errbin_sum_sq.begin(), errbin_sum_sq.end(), 0.0);
178	>	std::fill(errbin_sq.begin(), errbin_sq.end(), 0.0);
179	>	std::fill(mag.begin(), mag.end(), 0.0);
180	>	std::fill(newmag.begin(), newmag.end(), 0.0);
181	>
182	>	for(i=0; i < bin.size(); i++)
183	>	std::fill(bin[i].begin(), bin[i].end(), 0.0);
184	>
185	>	for(i=0; i < samples.size(); i++)
186	>	std::fill(samples[i].begin(), samples[i].end(), 0);
187
188		StuntDouble* sd;
189
#	Line 158 \| Line 193 \| namespace oopse {
193		gridX_ = lenX_ /(nBinsX_);
194		gridY_ = lenY_ /(nBinsY_);
195
196	<	double halfBoxX_ = lenX_ / 2.0;
197	<	double halfBoxY_ = lenY_ / 2.0;
196	>	halfBoxX_ = lenX_ / 2.0;
197	>	halfBoxY_ = lenY_ / 2.0;
198
199		if (evaluator_.isDynamic()) {
200		seleMan_.setSelectionSet(evaluator_.evaluate());
#	Line 170 \| Line 205 \| namespace oopse {
205		Vector3d pos = sd->getPos();
206		currentSnapshot_->wrapVector(pos);
207		sd->setPos(pos);
208	<	}
208	>	}
209
210		//determine which atom belongs to which grid
211		for (sd = seleMan_.beginSelected(i); sd != NULL; sd = seleMan_.nextSelected(i)) {
212		Vector3d pos = sd->getPos();
213		//int binNo = (pos.z() /deltaR_) - 1;
214	<	int binNoX = (pos.x() + halfBoxX_) /gridX_;
215	<	int binNoY = (pos.y() + halfBoxY_) /gridY_;
214	>	int binNoX = (int) ((pos.x() + halfBoxX_) / gridX_);
215	>	int binNoY = (int) ((pos.y() + halfBoxY_) / gridY_);
216		//std::cout << "pos.z = " << pos.z() << " halfBoxZ_ = " << halfBoxZ_ << " deltaR_ = " << deltaR_ << " binNo = " << binNo << "\n";
217		gridZ_[binNoX*nBinsY_+binNoY] += pos.z();
218		gridsample_[binNoX*nBinsY_+binNoY]++;
#	Line 186 \| Line 221 \| namespace oopse {
221		// FFT stuff depends on nx and ny, so delay allocation until we have
222		// that information
223
189	–	for (i=0; i< nBinsX_; i++) {
190	–	for(j=0; j< nBinsY_; j++) {
191	–	newindex = i*nBinsY_ + j;
192	–	mag[newindex] = 0.0;
193	–	newmag[newindex] = 0.0;
194	–	}
195	–	}
196	–
224		for(i = 0; i < nBinsX_; i++){
225		for(j = 0; j < nBinsY_; j++){
226		newindex = i * nBinsY_ + j;
227		if(gridsample_[newindex] > 0){
228	<	gridZ_[newindex] = gridZ_[newindex] / (double)gridsample_[newindex];
228	>	gridZ_[newindex] = gridZ_[newindex] / (RealType)gridsample_[newindex];
229		}
230		}
231		}
#	Line 252 \| Line 279 \| namespace oopse {
279		ninterp++;
280		}
281
282	<	value = interpsum / (double)ninterp;
282	>	value = interpsum / (RealType)ninterp;
283
284		gridZ_[newindex] = value;
285		}
#	Line 267 \| Line 294 \| namespace oopse {
294		c_im(in[newindex]) = 0.0;
295		}
296		}
297	+
298		#ifdef HAVE_FFTW3_H
299		fftw_execute(p);
300		#else
#	Line 279 \| Line 307 \| namespace oopse {
307		mag[newindex] = pow(c_re(out[newindex]),2) + pow(c_im(out[newindex]),2);
308		}
309		}
310	+
311		#ifdef HAVE_FFTW3_H
312		fftw_destroy_plan(p);
313		#else
#	Line 333 \| Line 362 \| namespace oopse {
362		// printf("%lf\t%lf\t%lf\t%lf\n", dx, dy, maxfreqx, maxfreqy);
363
364		maxfreq = sqrt(maxfreqxmaxfreqx + maxfreqymaxfreqy);
365	<	dfreq = maxfreq/(double)(nbins_-1);
365	>	dfreq = maxfreq/(RealType)(nbins_-1);
366
367		//printf("%lf\n", dfreq);
368
#	Line 343 \| Line 372 \| namespace oopse {
372		for (i=0; i< nBinsX_; i++) {
373		for(j=0; j< nBinsY_; j++) {
374
375	<	freq_x = (double)(i - zero_freq_x)maxfreqx2 / nBinsX_;
376	<	freq_y = (double)(j - zero_freq_y)maxfreqy2 / nBinsY_;
375	>	freq_x = (RealType)(i - zero_freq_x)maxfreqx2 / nBinsX_;
376	>	freq_y = (RealType)(j - zero_freq_y)maxfreqy2 / nBinsY_;
377
378		freq = sqrt(freq_xfreq_x + freq_yfreq_y);
379
#	Line 358 \| Line 387 \| namespace oopse {
387
388		for ( i = 0; i < nbins_; i++) {
389		if ( samples[i][istep] > 0) {
390	<	bin[i][istep] = 4.0 * sqrt(bin[i][istep] / (double)samples[i][istep]) / (double)nMolecules;
390	>	bin[i][istep] = 4.0 * sqrt(bin[i][istep] / (RealType)samples[i][istep]) / (RealType)nMolecules;
391		}
392		}
364	–
393		}
394	<
394	>
395		for (int i = 0; i < nbins_; i++) {
396		for (int j = 0; j < nFrames; j++) {
397		sum_bin[i] += bin[i][j];
398		sum_bin_sq[i] += bin[i][j] * bin[i][j];
399		}
400	<	avg_bin[i] = sum_bin[i] / (double)nFrames;
401	<	avg_bin_sq[i] = sum_bin_sq[i] / (double)nFrames;
400	>	avg_bin[i] = sum_bin[i] / (RealType)nFrames;
401	>	avg_bin_sq[i] = sum_bin_sq[i] / (RealType)nFrames;
402		for (int j = 0; j < nFrames; j++) {
403		errbin_sum[i] += pow((bin[i][j] - avg_bin[i]), 2);
404		errbin_sum_sq[i] += pow((bin[i][j] * bin[i][j] - avg_bin_sq[i]), 2);
405		}
406	<	errbin[i] = sqrt( errbin_sum[i] / (double)nFrames );
407	<	errbin_sq[i] = sqrt( errbin_sum_sq[i] / (double)nFrames );
406	>	errbin[i] = sqrt( errbin_sum[i] / (RealType)nFrames );
407	>	errbin_sq[i] = sqrt( errbin_sum_sq[i] / (RealType)nFrames );
408		}
409	<
409	>
410		printSpectrum();
411	+
412		#else
413		sprintf(painCave.errMsg, "Hxy: FFTW support was not compiled in!\n");
414		painCave.isFatal = 1;
415		simError();
416
417		#endif
418	<
390	<	}
418	>	}
419
420		void Hxy::printSpectrum() {
421		std::ofstream rdfStream(outputFilename_.c_str());
422		if (rdfStream.is_open()) {
423	<
424	<	for (int i = 0; i < nbins_; i++) {
423	>
424	>	for (int i = 0; i < nbins_; ++i) {
425		if ( avg_bin[i] > 0 ){
426	<	rdfStream << i*dfreq << "\t"
426	>	rdfStream << (RealType)i * dfreq << "\t"
427		<<pow(avg_bin[i], 2)<<"\t"
428		<<errbin_sq[i]<<"\t"
429		<<avg_bin[i]<<"\t"
#	Line 408 \| Line 436 \| namespace oopse {
436		painCave.isFatal = 1;
437		simError();
438		}
439	<
439	>
440		rdfStream.close();
441	+
442		}
443
444		}

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Comparing trunk/src/applications/staticProps/Hxy.cpp (file contents): Revision 957 by gezelter, Tue May 16 20:38:23 2006 UTC vs. Revision 967 by xsun, Mon May 22 15:30:42 2006 UTC

Diff Legend

Comparing trunk/src/applications/staticProps/Hxy.cpp (file contents):
Revision 957 by gezelter, Tue May 16 20:38:23 2006 UTC vs.
Revision 967 by xsun, Mon May 22 15:30:42 2006 UTC