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namespace OpenMD { |
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< |
GofAngle2::GofAngle2(SimInfo* info, const std::string& filename, const std::string& sele1, |
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> |
GofAngle2::GofAngle2(SimInfo* info, const std::string& filename, |
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> |
const std::string& sele1, |
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const std::string& sele2, int nangleBins) |
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< |
: RadialDistrFunc(info, filename, sele1, sele2), nAngleBins_(nangleBins) { |
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> |
: RadialDistrFunc(info, filename, sele1, sele2), nAngleBins_(nangleBins), |
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> |
evaluator3_(info), |
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> |
seleMan3_(info), doSele3_(false) { |
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> |
|
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> |
setOutputName(getPrefix(filename) + ".gto"); |
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|
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> |
deltaCosAngle_ = 2.0 / nAngleBins_; |
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> |
|
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> |
histogram_.resize(nAngleBins_); |
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> |
avgGofr_.resize(nAngleBins_); |
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> |
for (int i = 0 ; i < nAngleBins_; ++i) { |
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> |
histogram_[i].resize(nAngleBins_); |
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> |
avgGofr_[i].resize(nAngleBins_); |
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} |
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} |
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|
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< |
setOutputName(getPrefix(filename) + ".gto"); |
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> |
GofAngle2::GofAngle2(SimInfo* info, const std::string& filename, |
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> |
const std::string& sele1, |
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const std::string& sele2, |
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> |
const std::string& sele3, int nangleBins) |
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: RadialDistrFunc(info, filename, sele1, sele2), nAngleBins_(nangleBins), |
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> |
evaluator3_(info), selectionScript3_(sele3), |
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seleMan3_(info), doSele3_(true) { |
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> |
|
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> |
setOutputName(getPrefix(filename) + ".gto"); |
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< |
deltaCosAngle_ = 2.0 / nAngleBins_; |
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> |
deltaCosAngle_ = 2.0 / nAngleBins_; |
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> |
|
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> |
histogram_.resize(nAngleBins_); |
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avgGofr_.resize(nAngleBins_); |
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for (int i = 0 ; i < nAngleBins_; ++i) { |
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histogram_[i].resize(nAngleBins_); |
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> |
avgGofr_[i].resize(nAngleBins_); |
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> |
} |
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> |
evaluator3_.loadScriptString(sele3); |
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> |
if (!evaluator3_.isDynamic()) { |
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seleMan3_.setSelectionSet(evaluator3_.evaluate()); |
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} |
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} |
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|
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< |
histogram_.resize(nAngleBins_); |
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avgGofr_.resize(nAngleBins_); |
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for (int i = 0 ; i < nAngleBins_; ++i) { |
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histogram_[i].resize(nAngleBins_); |
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avgGofr_[i].resize(nAngleBins_); |
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} |
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> |
void GofAngle2::processNonOverlapping( SelectionManager& sman1, |
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> |
SelectionManager& sman2) { |
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StuntDouble* sd1; |
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StuntDouble* sd2; |
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StuntDouble* sd3; |
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> |
int i; |
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int j; |
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int k; |
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|
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// This is the same as a non-overlapping pairwise loop structure: |
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// for (int i = 0; i < ni ; ++i ) { |
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// for (int j = 0; j < nj; ++j) {} |
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// } |
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|
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if (doSele3_) { |
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if (evaluator3_.isDynamic()) { |
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seleMan3_.setSelectionSet(evaluator3_.evaluate()); |
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} |
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if (sman1.getSelectionCount() != seleMan3_.getSelectionCount() ) { |
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RadialDistrFunc::processNonOverlapping( sman1, sman2 ); |
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} |
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|
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for (sd1 = sman1.beginSelected(i), sd3 = seleMan3_.beginSelected(k); |
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sd1 != NULL && sd3 != NULL; |
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sd1 = sman1.nextSelected(i), sd3 = seleMan3_.nextSelected(k)) { |
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for (sd2 = sman2.beginSelected(j); sd2 != NULL; |
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sd2 = sman2.nextSelected(j)) { |
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collectHistogram(sd1, sd2, sd3); |
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} |
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} |
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} else { |
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RadialDistrFunc::processNonOverlapping( sman1, sman2 ); |
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} |
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} |
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void GofAngle2::processOverlapping( SelectionManager& sman) { |
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StuntDouble* sd1; |
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StuntDouble* sd2; |
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StuntDouble* sd3; |
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int i; |
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int j; |
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int k; |
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// This is the same as a pairwise loop structure: |
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// for (int i = 0; i < n-1 ; ++i ) { |
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// for (int j = i + 1; j < n; ++j) {} |
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// } |
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|
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if (doSele3_) { |
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if (evaluator3_.isDynamic()) { |
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seleMan3_.setSelectionSet(evaluator3_.evaluate()); |
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} |
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if (sman.getSelectionCount() != seleMan3_.getSelectionCount() ) { |
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RadialDistrFunc::processOverlapping( sman); |
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} |
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for (sd1 = sman.beginSelected(i), sd3 = seleMan3_.beginSelected(k); |
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sd1 != NULL && sd3 != NULL; |
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sd1 = sman.nextSelected(i), sd3 = seleMan3_.nextSelected(k)) { |
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for (j = i, sd2 = sman.nextSelected(j); sd2 != NULL; |
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sd2 = sman.nextSelected(j)) { |
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collectHistogram(sd1, sd2, sd3); |
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} |
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} |
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} else { |
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RadialDistrFunc::processOverlapping( sman); |
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} |
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} |
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|
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|
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void GofAngle2::preProcess() { |
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for (unsigned int i = 0; i < avgGofr_.size(); ++i) { |
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MultipoleAdapter ma1 = MultipoleAdapter(atype1); |
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MultipoleAdapter ma2 = MultipoleAdapter(atype2); |
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if (!sd1->isDirectional()) { |
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sprintf(painCave.errMsg, |
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"GofAngle2: attempted to use a non-directional object: %s\n", |
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sd1->getType().c_str()); |
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painCave.isFatal = 1; |
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simError(); |
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} |
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|
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if (!sd2->isDirectional()) { |
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sprintf(painCave.errMsg, |
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"GofAngle2: attempted to use a non-directional object: %s\n", |
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sd2->getType().c_str()); |
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painCave.isFatal = 1; |
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simError(); |
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} |
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|
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Vector3d dipole1, dipole2; |
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if (ma1.isDipole()) |
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dipole1 = sd1->getDipole(); |
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++npairs_; |
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} |
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+ |
void GofAngle2::collectHistogram(StuntDouble* sd1, StuntDouble* sd2, |
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StuntDouble* sd3) { |
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|
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if (sd1 == sd2) { |
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return; |
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} |
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|
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Vector3d p1 = sd1->getPos(); |
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Vector3d p3 = sd3->getPos(); |
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|
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Vector3d c = 0.5 * (p1 + p3); |
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Vector3d r13 = p3 - p1; |
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|
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Vector3d r12 = sd2->getPos() - c; |
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|
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if (usePeriodicBoundaryConditions_) { |
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currentSnapshot_->wrapVector(r12); |
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currentSnapshot_->wrapVector(r13); |
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} |
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r12.normalize(); |
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r13.normalize(); |
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|
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if (!sd2->isDirectional()) { |
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sprintf(painCave.errMsg, |
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"GofAngle2: attempted to use a non-directional object: %s\n", |
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sd2->getType().c_str()); |
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painCave.isFatal = 1; |
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simError(); |
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} |
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|
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AtomType* atype2 = static_cast<Atom*>(sd2)->getAtomType(); |
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MultipoleAdapter ma2 = MultipoleAdapter(atype2); |
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|
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Vector3d dipole2; |
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if (ma2.isDipole()) |
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dipole2 = sd2->getDipole(); |
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else |
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dipole2 = sd2->getA().transpose() * V3Z; |
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|
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dipole2.normalize(); |
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|
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RealType cosAngle1 = dot(r12, r13); |
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RealType cosAngle2 = dot(r13, dipole2); |
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|
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RealType halfBin = (nAngleBins_ - 1) * 0.5; |
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int angleBin1 = int(halfBin * (cosAngle1 + 1.0)); |
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int angleBin2 = int(halfBin * (cosAngle2 + 1.0)); |
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|
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+ |
++histogram_[angleBin1][angleBin2]; |
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++npairs_; |
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|
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} |
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|
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void GofAngle2::writeRdf() { |
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std::ofstream rdfStream(outputFilename_.c_str()); |
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if (rdfStream.is_open()) { |
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rdfStream << "#radial distribution function\n"; |
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rdfStream << "#selection1: (" << selectionScript1_ << ")\t"; |
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< |
rdfStream << "selection2: (" << selectionScript2_ << ")\n"; |
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< |
rdfStream << "#nAngleBins =" << nAngleBins_ << "deltaCosAngle = " << deltaCosAngle_ << "\n"; |
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> |
rdfStream << "selection2: (" << selectionScript2_ << ")"; |
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> |
if (doSele3_) { |
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> |
rdfStream << "\tselection3: (" << selectionScript3_ << ")\n"; |
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> |
} else { |
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> |
rdfStream << "\n"; |
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> |
} |
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> |
rdfStream << "#nAngleBins =" << nAngleBins_ << "deltaCosAngle = " |
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> |
<< deltaCosAngle_ << "\n"; |
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for (unsigned int i = 0; i < avgGofr_.size(); ++i) { |
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// RealType cosAngle1 = -1.0 + (i + 0.5)*deltaCosAngle_; |
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|
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// RealType cosAngle2 = -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 << "\n"; |
| 318 |
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} |
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} else { |
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< |
sprintf(painCave.errMsg, "GofAngle2: unable to open %s\n", outputFilename_.c_str()); |
| 322 |
> |
sprintf(painCave.errMsg, "GofAngle2: unable to open %s\n", |
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> |
outputFilename_.c_str()); |
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painCave.isFatal = 1; |
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simError(); |
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} |
