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namespace oopse { |
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GofRAngle::GofRAngle(SimInfo* info, const std::string& filename, const std::string& sele1, |
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< |
const std::string& sele2, double len, int nrbins, int nangleBins) |
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> |
const std::string& sele2, RealType len, int nrbins, int nangleBins) |
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: RadialDistrFunc(info, filename, sele1, sele2), len_(len), nRBins_(nrbins), nAngleBins_(nangleBins){ |
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deltaR_ = len_ /nRBins_; |
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void GofRAngle::processHistogram() { |
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int nPairs = getNPairs(); |
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< |
double volume = info_->getSnapshotManager()->getCurrentSnapshot()->getVolume(); |
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< |
double pairDensity = nPairs /volume; |
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< |
double pairConstant = ( 4.0 * NumericConstant::PI * pairDensity ) / 3.0; |
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> |
RealType volume = info_->getSnapshotManager()->getCurrentSnapshot()->getVolume(); |
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> |
RealType pairDensity = nPairs /volume; |
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> |
RealType pairConstant = ( 4.0 * NumericConstant::PI * pairDensity ) / 3.0; |
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for(int i = 0 ; i < histogram_.size(); ++i){ |
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< |
double rLower = i * deltaR_; |
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< |
double rUpper = rLower + deltaR_; |
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< |
double volSlice = ( rUpper * rUpper * rUpper ) - ( rLower * rLower * rLower ); |
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< |
double nIdeal = volSlice * pairConstant; |
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> |
RealType rLower = i * deltaR_; |
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> |
RealType rUpper = rLower + deltaR_; |
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> |
RealType volSlice = ( rUpper * rUpper * rUpper ) - ( rLower * rLower * rLower ); |
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> |
RealType nIdeal = volSlice * pairConstant; |
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for (int j = 0; j < histogram_[i].size(); ++j){ |
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avgGofr_[i][j] += histogram_[i][j] / nIdeal; |
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Vector3d pos1 = sd1->getPos(); |
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Vector3d pos2 = sd2->getPos(); |
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Vector3d r12 = pos2 - pos1; |
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< |
currentSnapshot_->wrapVector(r12); |
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> |
if (usePeriodicBoundaryConditions_) |
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> |
currentSnapshot_->wrapVector(r12); |
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|
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< |
double distance = r12.length(); |
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> |
RealType distance = r12.length(); |
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int whichRBin = distance / deltaR_; |
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if (distance <= len_) { |
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< |
double cosAngle = evaluateAngle(sd1, sd2); |
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< |
double halfBin = (nAngleBins_ - 1) * 0.5; |
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> |
RealType cosAngle = evaluateAngle(sd1, sd2); |
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> |
RealType halfBin = (nAngleBins_ - 1) * 0.5; |
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int whichThetaBin = halfBin * (cosAngle + 1.0); |
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++histogram_[whichRBin][whichThetaBin]; |
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rdfStream << "#nRBins = " << nRBins_ << "\t maxLen = " << len_ << "deltaR = " << deltaR_ <<"\n"; |
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rdfStream << "#nAngleBins =" << nAngleBins_ << "deltaCosAngle = " << deltaCosAngle_ << "\n"; |
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for (int i = 0; i < avgGofr_.size(); ++i) { |
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< |
double r = deltaR_ * (i + 0.5); |
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> |
RealType r = deltaR_ * (i + 0.5); |
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for(int j = 0; j < avgGofr_[i].size(); ++j) { |
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< |
double cosAngle = -1.0 + (j + 0.5)*deltaCosAngle_; |
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> |
RealType cosAngle = -1.0 + (j + 0.5)*deltaCosAngle_; |
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rdfStream << avgGofr_[i][j]/nProcessed_ << "\t"; |
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} |
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rdfStream.close(); |
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} |
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< |
double GofRTheta::evaluateAngle(StuntDouble* sd1, StuntDouble* sd2) { |
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> |
RealType GofRTheta::evaluateAngle(StuntDouble* sd1, StuntDouble* sd2) { |
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Vector3d pos1 = sd1->getPos(); |
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Vector3d pos2 = sd2->getPos(); |
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Vector3d r12 = pos2 - pos1; |
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< |
currentSnapshot_->wrapVector(r12); |
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> |
|
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> |
if (usePeriodicBoundaryConditions_) |
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> |
currentSnapshot_->wrapVector(r12); |
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> |
|
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r12.normalize(); |
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Vector3d dipole = sd1->getElectroFrame().getColumn(2); |
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dipole.normalize(); |
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return dot(r12, dipole); |
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} |
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< |
double GofROmega::evaluateAngle(StuntDouble* sd1, StuntDouble* sd2) { |
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> |
RealType GofROmega::evaluateAngle(StuntDouble* sd1, StuntDouble* sd2) { |
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Vector3d v1 = sd1->getElectroFrame().getColumn(2); |
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Vector3d v2 = sd2->getElectroFrame().getColumn(2); |
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v1.normalize(); |
