void CustomBondForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 3); const CustomBondForce& force = *reinterpret_cast<const CustomBondForce*>(object); node.setIntProperty("forceGroup", force.getForceGroup()); node.setBoolProperty("usesPeriodic", force.usesPeriodicBoundaryConditions()); node.setStringProperty("energy", force.getEnergyFunction()); SerializationNode& perBondParams = node.createChildNode("PerBondParameters"); for (int i = 0; i < force.getNumPerBondParameters(); i++) { perBondParams.createChildNode("Parameter").setStringProperty("name", force.getPerBondParameterName(i)); } SerializationNode& globalParams = node.createChildNode("GlobalParameters"); for (int i = 0; i < force.getNumGlobalParameters(); i++) { globalParams.createChildNode("Parameter").setStringProperty("name", force.getGlobalParameterName(i)).setDoubleProperty("default", force.getGlobalParameterDefaultValue(i)); } SerializationNode& energyDerivs = node.createChildNode("EnergyParameterDerivatives"); for (int i = 0; i < force.getNumEnergyParameterDerivatives(); i++) { energyDerivs.createChildNode("Parameter").setStringProperty("name", force.getEnergyParameterDerivativeName(i)); } SerializationNode& bonds = node.createChildNode("Bonds"); for (int i = 0; i < force.getNumBonds(); i++) { int p1, p2; vector<double> params; force.getBondParameters(i, p1, p2, params); SerializationNode& node = bonds.createChildNode("Bond").setIntProperty("p1", p1).setIntProperty("p2", p2); for (int j = 0; j < (int) params.size(); j++) { stringstream key; key << "param"; key << j+1; node.setDoubleProperty(key.str(), params[j]); } } }
void GayBerneForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 1); const GayBerneForce& force = *reinterpret_cast<const GayBerneForce*>(object); node.setIntProperty("forceGroup", force.getForceGroup()); node.setIntProperty("method", (int) force.getNonbondedMethod()); node.setDoubleProperty("cutoff", force.getCutoffDistance()); node.setBoolProperty("useSwitchingFunction", force.getUseSwitchingFunction()); node.setDoubleProperty("switchingDistance", force.getSwitchingDistance()); SerializationNode& particles = node.createChildNode("Particles"); for (int i = 0; i < force.getNumParticles(); i++) { double sigma, epsilon, sx, sy, sz, ex, ey, ez; int xparticle, yparticle; force.getParticleParameters(i, sigma, epsilon, xparticle, yparticle, sx, sy, sz, ex, ey, ez); particles.createChildNode("Particle").setDoubleProperty("sig", sigma).setDoubleProperty("eps", epsilon).setDoubleProperty("sx", sx) .setDoubleProperty("sy", sy).setDoubleProperty("sz", sz).setDoubleProperty("ex", ex).setDoubleProperty("ey", ey).setDoubleProperty("ez", ez) .setIntProperty("xparticle", xparticle).setIntProperty("yparticle", yparticle); } SerializationNode& exceptions = node.createChildNode("Exceptions"); for (int i = 0; i < force.getNumExceptions(); i++) { int particle1, particle2; double sigma, epsilon; force.getExceptionParameters(i, particle1, particle2, sigma, epsilon); exceptions.createChildNode("Exception").setIntProperty("p1", particle1).setIntProperty("p2", particle2).setDoubleProperty("sig", sigma).setDoubleProperty("eps", epsilon); } }
void CustomNonbondedForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 2); const CustomNonbondedForce& force = *reinterpret_cast<const CustomNonbondedForce*>(object); node.setIntProperty("forceGroup", force.getForceGroup()); node.setStringProperty("energy", force.getEnergyFunction()); node.setIntProperty("method", (int) force.getNonbondedMethod()); node.setDoubleProperty("cutoff", force.getCutoffDistance()); node.setBoolProperty("useSwitchingFunction", force.getUseSwitchingFunction()); node.setDoubleProperty("switchingDistance", force.getSwitchingDistance()); node.setBoolProperty("useLongRangeCorrection", force.getUseLongRangeCorrection()); SerializationNode& perParticleParams = node.createChildNode("PerParticleParameters"); for (int i = 0; i < force.getNumPerParticleParameters(); i++) { perParticleParams.createChildNode("Parameter").setStringProperty("name", force.getPerParticleParameterName(i)); } SerializationNode& globalParams = node.createChildNode("GlobalParameters"); for (int i = 0; i < force.getNumGlobalParameters(); i++) { globalParams.createChildNode("Parameter").setStringProperty("name", force.getGlobalParameterName(i)).setDoubleProperty("default", force.getGlobalParameterDefaultValue(i)); } SerializationNode& energyDerivs = node.createChildNode("EnergyParameterDerivatives"); for (int i = 0; i < force.getNumEnergyParameterDerivatives(); i++) { energyDerivs.createChildNode("Parameter").setStringProperty("name", force.getEnergyParameterDerivativeName(i)); } SerializationNode& particles = node.createChildNode("Particles"); for (int i = 0; i < force.getNumParticles(); i++) { vector<double> params; force.getParticleParameters(i, params); SerializationNode& node = particles.createChildNode("Particle"); for (int j = 0; j < (int) params.size(); j++) { stringstream key; key << "param"; key << j+1; node.setDoubleProperty(key.str(), params[j]); } } SerializationNode& exclusions = node.createChildNode("Exclusions"); for (int i = 0; i < force.getNumExclusions(); i++) { int particle1, particle2; force.getExclusionParticles(i, particle1, particle2); exclusions.createChildNode("Exclusion").setIntProperty("p1", particle1).setIntProperty("p2", particle2); } SerializationNode& functions = node.createChildNode("Functions"); for (int i = 0; i < force.getNumTabulatedFunctions(); i++) functions.createChildNode("Function", &force.getTabulatedFunction(i)).setStringProperty("name", force.getTabulatedFunctionName(i)); SerializationNode& interactionGroups = node.createChildNode("InteractionGroups"); for (int i = 0; i < force.getNumInteractionGroups(); i++) { SerializationNode& interactionGroup = interactionGroups.createChildNode("InteractionGroup"); std::set<int> set1; std::set<int> set2; force.getInteractionGroupParameters(i, set1, set2); SerializationNode& set1node = interactionGroup.createChildNode("Set1"); for (std::set<int>::iterator it = set1.begin(); it != set1.end(); ++it) set1node.createChildNode("Particle").setIntProperty("index", *it); SerializationNode& set2node = interactionGroup.createChildNode("Set2"); for (std::set<int>::iterator it = set2.begin(); it != set2.end(); ++it) set2node.createChildNode("Particle").setIntProperty("index", *it); } }
void MonteCarloBarostatProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 1); const MonteCarloBarostat& force = *reinterpret_cast<const MonteCarloBarostat*>(object); node.setIntProperty("forceGroup", force.getForceGroup()); node.setDoubleProperty("pressure", force.getDefaultPressure()); node.setDoubleProperty("temperature", force.getTemperature()); node.setIntProperty("frequency", force.getFrequency()); node.setIntProperty("randomSeed", force.getRandomNumberSeed()); }
void BrownianIntegratorProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 1); const BrownianIntegrator& integrator = *reinterpret_cast<const BrownianIntegrator*>(object); node.setDoubleProperty("stepSize", integrator.getStepSize()); node.setDoubleProperty("constraintTolerance", integrator.getConstraintTolerance()); node.setDoubleProperty("temperature", integrator.getTemperature()); node.setDoubleProperty("friction", integrator.getFriction()); node.setIntProperty("randomSeed", integrator.getRandomNumberSeed()); }
void AmoebaMultipoleForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 2); const AmoebaMultipoleForce& force = *reinterpret_cast<const AmoebaMultipoleForce*>(object); node.setIntProperty("nonbondedMethod", force.getNonbondedMethod()); node.setIntProperty("polarizationType", force.getPolarizationType()); //node.setIntProperty("pmeBSplineOrder", force.getPmeBSplineOrder()); //node.setIntProperty("mutualInducedIterationMethod", force.getMutualInducedIterationMethod()); node.setIntProperty("mutualInducedMaxIterations", force.getMutualInducedMaxIterations()); node.setDoubleProperty("cutoffDistance", force.getCutoffDistance()); node.setDoubleProperty("aEwald", force.getAEwald()); node.setDoubleProperty("mutualInducedTargetEpsilon", force.getMutualInducedTargetEpsilon()); //node.setDoubleProperty("electricConstant", force.getElectricConstant()); node.setDoubleProperty("ewaldErrorTolerance", force.getEwaldErrorTolerance()); std::vector<int> gridDimensions; force.getPmeGridDimensions(gridDimensions); SerializationNode& gridDimensionsNode = node.createChildNode("MultipoleParticleGridDimension"); gridDimensionsNode.setIntProperty("d0", gridDimensions[0]).setIntProperty("d1", gridDimensions[1]).setIntProperty("d2", gridDimensions[2]); std::vector<std::string> covalentTypes; getCovalentTypes(covalentTypes); SerializationNode& particles = node.createChildNode("MultipoleParticles"); for (unsigned int ii = 0; ii < static_cast<unsigned int>(force.getNumMultipoles()); ii++) { int axisType, multipoleAtomZ, multipoleAtomX, multipoleAtomY; double charge, thole, dampingFactor, polarity; std::vector<double> molecularDipole; std::vector<double> molecularQuadrupole; force.getMultipoleParameters(ii, charge, molecularDipole, molecularQuadrupole, axisType, multipoleAtomZ, multipoleAtomX, multipoleAtomY, thole, dampingFactor, polarity); SerializationNode& particle = particles.createChildNode("Particle"); particle.setIntProperty("axisType", axisType).setIntProperty("multipoleAtomZ", multipoleAtomZ).setIntProperty("multipoleAtomX", multipoleAtomX).setIntProperty("multipoleAtomY", multipoleAtomY); particle.setDoubleProperty("charge", charge).setDoubleProperty("thole", thole).setDoubleProperty("damp", dampingFactor).setDoubleProperty("polarity", polarity); SerializationNode& dipole = particle.createChildNode("Dipole"); dipole.setDoubleProperty("d0", molecularDipole[0]).setDoubleProperty("d1", molecularDipole[1]).setDoubleProperty("d2", molecularDipole[2]); SerializationNode& quadrupole = particle.createChildNode("Quadrupole"); quadrupole.setDoubleProperty("q0", molecularQuadrupole[0]).setDoubleProperty("q1", molecularQuadrupole[1]).setDoubleProperty("q2", molecularQuadrupole[2]); quadrupole.setDoubleProperty("q3", molecularQuadrupole[3]).setDoubleProperty("q4", molecularQuadrupole[4]).setDoubleProperty("q5", molecularQuadrupole[5]); quadrupole.setDoubleProperty("q6", molecularQuadrupole[6]).setDoubleProperty("q7", molecularQuadrupole[7]).setDoubleProperty("q8", molecularQuadrupole[8]); for (unsigned int jj = 0; jj < covalentTypes.size(); jj++) { std::vector< int > covalentMap; force.getCovalentMap(ii, static_cast<AmoebaMultipoleForce::CovalentType>(jj), covalentMap); addCovalentMap(particle, ii, covalentTypes[jj], covalentMap); } } }
void CustomGBForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 2); const CustomGBForce& force = *reinterpret_cast<const CustomGBForce*>(object); node.setIntProperty("forceGroup", force.getForceGroup()); node.setIntProperty("method", (int) force.getNonbondedMethod()); node.setDoubleProperty("cutoff", force.getCutoffDistance()); SerializationNode& perParticleParams = node.createChildNode("PerParticleParameters"); for (int i = 0; i < force.getNumPerParticleParameters(); i++) { perParticleParams.createChildNode("Parameter").setStringProperty("name", force.getPerParticleParameterName(i)); } SerializationNode& globalParams = node.createChildNode("GlobalParameters"); for (int i = 0; i < force.getNumGlobalParameters(); i++) { globalParams.createChildNode("Parameter").setStringProperty("name", force.getGlobalParameterName(i)).setDoubleProperty("default", force.getGlobalParameterDefaultValue(i)); } SerializationNode& energyDerivs = node.createChildNode("EnergyParameterDerivatives"); for (int i = 0; i < force.getNumEnergyParameterDerivatives(); i++) { energyDerivs.createChildNode("Parameter").setStringProperty("name", force.getEnergyParameterDerivativeName(i)); } SerializationNode& computedValues = node.createChildNode("ComputedValues"); for (int i = 0; i < force.getNumComputedValues(); i++) { string name, expression; CustomGBForce::ComputationType type; force.getComputedValueParameters(i, name, expression, type); computedValues.createChildNode("Value").setStringProperty("name", name).setStringProperty("expression", expression).setIntProperty("type", (int) type); } SerializationNode& energyTerms = node.createChildNode("EnergyTerms"); for (int i = 0; i < force.getNumEnergyTerms(); i++) { string expression; CustomGBForce::ComputationType type; force.getEnergyTermParameters(i, expression, type); energyTerms.createChildNode("Term").setStringProperty("expression", expression).setIntProperty("type", (int) type); } SerializationNode& particles = node.createChildNode("Particles"); for (int i = 0; i < force.getNumParticles(); i++) { vector<double> params; force.getParticleParameters(i, params); SerializationNode& node = particles.createChildNode("Particle"); for (int j = 0; j < (int) params.size(); j++) { stringstream key; key << "param"; key << j+1; node.setDoubleProperty(key.str(), params[j]); } } SerializationNode& exclusions = node.createChildNode("Exclusions"); for (int i = 0; i < force.getNumExclusions(); i++) { int particle1, particle2; force.getExclusionParticles(i, particle1, particle2); exclusions.createChildNode("Exclusion").setIntProperty("p1", particle1).setIntProperty("p2", particle2); } SerializationNode& functions = node.createChildNode("Functions"); for (int i = 0; i < force.getNumTabulatedFunctions(); i++) functions.createChildNode("Function", &force.getTabulatedFunction(i)).setStringProperty("name", force.getTabulatedFunctionName(i)); }
void RMSDForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 0); const RMSDForce& force = *reinterpret_cast<const RMSDForce*>(object); node.setIntProperty("forceGroup", force.getForceGroup()); SerializationNode& positionsNode = node.createChildNode("ReferencePositions"); for (const Vec3& pos : force.getReferencePositions()) positionsNode.createChildNode("Position").setDoubleProperty("x", pos[0]).setDoubleProperty("y", pos[1]).setDoubleProperty("z", pos[2]); SerializationNode& particlesNode = node.createChildNode("Particles"); for (int i : force.getParticles()) particlesNode.createChildNode("Particle").setIntProperty("index", i); }
void StateProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 1); const State& s = *reinterpret_cast<const State*>(object); node.setDoubleProperty("time", s.getTime()); Vec3 a,b,c; s.getPeriodicBoxVectors(a,b,c); SerializationNode& boxVectorsNode = node.createChildNode("PeriodicBoxVectors"); boxVectorsNode.createChildNode("A").setDoubleProperty("x", a[0]).setDoubleProperty("y", a[1]).setDoubleProperty("z", a[2]); boxVectorsNode.createChildNode("B").setDoubleProperty("x", b[0]).setDoubleProperty("y", b[1]).setDoubleProperty("z", b[2]); boxVectorsNode.createChildNode("C").setDoubleProperty("x", c[0]).setDoubleProperty("y", c[1]).setDoubleProperty("z", c[2]); try { s.getParameters(); SerializationNode& parametersNode = node.createChildNode("Parameters"); map<string, double> stateParams = s.getParameters(); map<string, double>::const_iterator it; for (it = stateParams.begin(); it!=stateParams.end();it++) { parametersNode.setDoubleProperty(it->first, it->second); } } catch (const OpenMMException &) { // do nothing } try { s.getPotentialEnergy(); SerializationNode& energiesNode = node.createChildNode("Energies"); energiesNode.setDoubleProperty("PotentialEnergy", s.getPotentialEnergy()); energiesNode.setDoubleProperty("KineticEnergy", s.getKineticEnergy()); } catch (const OpenMMException &) { // do nothing } try { s.getPositions(); SerializationNode& positionsNode = node.createChildNode("Positions"); vector<Vec3> statePositions = s.getPositions(); for (int i=0; i<statePositions.size();i++) { positionsNode.createChildNode("Position").setDoubleProperty("x", statePositions[i][0]).setDoubleProperty("y", statePositions[i][1]).setDoubleProperty("z", statePositions[i][2]); } } catch (const OpenMMException &) { // do nothing } try { s.getVelocities(); SerializationNode& velocitiesNode = node.createChildNode("Velocities"); vector<Vec3> stateVelocities = s.getVelocities(); for (int i=0; i<stateVelocities.size();i++) { velocitiesNode.createChildNode("Velocity").setDoubleProperty("x", stateVelocities[i][0]).setDoubleProperty("y", stateVelocities[i][1]).setDoubleProperty("z", stateVelocities[i][2]); } } catch (const OpenMMException &) { // do nothing } try { s.getForces(); SerializationNode& forcesNode = node.createChildNode("Forces"); vector<Vec3> stateForces = s.getForces(); for (int i=0; i<stateForces.size();i++) { forcesNode.createChildNode("Force").setDoubleProperty("x", stateForces[i][0]).setDoubleProperty("y", stateForces[i][1]).setDoubleProperty("z", stateForces[i][2]); } } catch (const OpenMMException &) { // do nothing } }
void CustomNonbondedForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 1); const CustomNonbondedForce& force = *reinterpret_cast<const CustomNonbondedForce*>(object); node.setStringProperty("energy", force.getEnergyFunction()); node.setIntProperty("method", (int) force.getNonbondedMethod()); node.setDoubleProperty("cutoff", force.getCutoffDistance()); SerializationNode& perParticleParams = node.createChildNode("PerParticleParameters"); for (int i = 0; i < force.getNumPerParticleParameters(); i++) { perParticleParams.createChildNode("Parameter").setStringProperty("name", force.getPerParticleParameterName(i)); } SerializationNode& globalParams = node.createChildNode("GlobalParameters"); for (int i = 0; i < force.getNumGlobalParameters(); i++) { globalParams.createChildNode("Parameter").setStringProperty("name", force.getGlobalParameterName(i)).setDoubleProperty("default", force.getGlobalParameterDefaultValue(i)); } SerializationNode& particles = node.createChildNode("Particles"); for (int i = 0; i < force.getNumParticles(); i++) { vector<double> params; force.getParticleParameters(i, params); SerializationNode& node = particles.createChildNode("Particle"); for (int j = 0; j < (int) params.size(); j++) { stringstream key; key << "param"; key << j+1; node.setDoubleProperty(key.str(), params[j]); } } SerializationNode& exclusions = node.createChildNode("Exclusions"); for (int i = 0; i < force.getNumExclusions(); i++) { int particle1, particle2; force.getExclusionParticles(i, particle1, particle2); exclusions.createChildNode("Exclusion").setIntProperty("p1", particle1).setIntProperty("p2", particle2); } SerializationNode& functions = node.createChildNode("Functions"); for (int i = 0; i < force.getNumFunctions(); i++) { string name; vector<double> values; double min, max; force.getFunctionParameters(i, name, values, min, max); SerializationNode& node = functions.createChildNode("Function").setStringProperty("name", name).setDoubleProperty("min", min).setDoubleProperty("max", max); SerializationNode& valuesNode = node.createChildNode("Values"); for (int j = 0; j < (int) values.size(); j++) valuesNode.createChildNode("Value").setDoubleProperty("v", values[j]); } }
void AmoebaTorsionTorsionForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 1); const AmoebaTorsionTorsionForce& force = *reinterpret_cast<const AmoebaTorsionTorsionForce*>(object); // grid[xIdx][yIdx][6 values] // value0 = x-Grid value // value1 = y-Grid value // value2 = F function value // value3 = F_x partial f wrt x // value4 = F_y partial f wrt y // value5 = F_xy partial f wrt x,y SerializationNode& grids = node.createChildNode("TorsionTorsionGrids"); for (unsigned int kk = 0; kk < static_cast<unsigned int>(force.getNumTorsionTorsionGrids()); kk++) { const std::vector< std::vector< std::vector<double> > > grid = force.getTorsionTorsionGrid(kk); unsigned int gridCount = 0; unsigned int gridYsize = grid[0].size(); for (unsigned int ii = 0; ii < grid.size(); ii++) { gridCount += grid[ii].size(); } SerializationNode& gridNode = grids.createChildNode("TorsionTorsionGrid"); for (unsigned int ii = 0; ii < grid.size(); ii++) { SerializationNode& gridSerializationRow = gridNode.createChildNode("RowNode"); gridSerializationRow.setIntProperty("dim", ii); for (unsigned int jj = 0; jj < grid[ii].size(); jj++) { SerializationNode& gridSerializationColumnNode = gridSerializationRow.createChildNode("ColumnNode"); gridSerializationColumnNode.setIntProperty("dim", jj); unsigned int index = 0; gridSerializationColumnNode.setDoubleProperty("x", grid[ii][jj][index++]); gridSerializationColumnNode.setDoubleProperty("y", grid[ii][jj][index++]); gridSerializationColumnNode.setDoubleProperty("f", grid[ii][jj][index++]); gridSerializationColumnNode.setDoubleProperty("fx", grid[ii][jj][index++]); gridSerializationColumnNode.setDoubleProperty("fy", grid[ii][jj][index++]); gridSerializationColumnNode.setDoubleProperty("fxy", grid[ii][jj][index++]); } } } SerializationNode& bonds = node.createChildNode("TorsionTorsion"); for (unsigned int ii = 0; ii < static_cast<unsigned int>(force.getNumTorsionTorsions()); ii++) { int particle1, particle2, particle3, particle4, particle5; int chiralCheckAtomIndex, gridIndex; force.getTorsionTorsionParameters(ii, particle1, particle2, particle3, particle4, particle5, chiralCheckAtomIndex, gridIndex); bonds.createChildNode("TorsionTorsion").setIntProperty("p1", particle1).setIntProperty("p2", particle2).setIntProperty("p3", particle3).setIntProperty("p4", particle4).setIntProperty("p5", particle5).setIntProperty("chiralCheckAtomIndex", chiralCheckAtomIndex).setIntProperty("gridIndex", gridIndex); } }
void CMAPTorsionForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 1); const CMAPTorsionForce& force = *reinterpret_cast<const CMAPTorsionForce*>(object); SerializationNode& maps = node.createChildNode("Maps"); for (int i = 0; i < force.getNumMaps(); i++) { int size; vector<double> energy; force.getMapParameters(i, size, energy); SerializationNode& map = maps.createChildNode("Map").setIntProperty("size", size); for (int i = 0; i < (int) energy.size(); i++) map.createChildNode("Energy").setDoubleProperty("e", energy[i]); } SerializationNode& torsions = node.createChildNode("Torsions"); for (int i = 0; i < force.getNumTorsions(); i++) { int map, a1, a2, a3, a4, b1, b2, b3, b4; force.getTorsionParameters(i, map, a1, a2, a3, a4, b1, b2, b3, b4); torsions.createChildNode("Torsion").setIntProperty("a1", a1).setIntProperty("a2", a2).setIntProperty("a3", a3).setIntProperty("a4", a4).setIntProperty("b1", b1).setIntProperty("b2", b2).setIntProperty("b3", b3).setIntProperty("b4", b4).setIntProperty("map", map); } }
void AmoebaWcaDispersionForceProxy::serialize(const void* object, SerializationNode& node) const { node.setIntProperty("version", 1); const AmoebaWcaDispersionForce& force = *reinterpret_cast<const AmoebaWcaDispersionForce*>(object); node.setDoubleProperty("Epso", force.getEpso()); node.setDoubleProperty("Epsh", force.getEpsh()); node.setDoubleProperty("Rmino", force.getRmino()); node.setDoubleProperty("Rminh", force.getRminh()); node.setDoubleProperty("Awater", force.getAwater()); node.setDoubleProperty("Shctd", force.getShctd()); node.setDoubleProperty("Dispoff", force.getDispoff()); node.setDoubleProperty("Slevy", force.getSlevy()); SerializationNode& particles = node.createChildNode("WcaDispersionParticles"); for (unsigned int ii = 0; ii < static_cast<unsigned int>(force.getNumParticles()); ii++) { double radius, epsilon; force.getParticleParameters( ii, radius, epsilon ); particles.createChildNode("Particle").setDoubleProperty("radius", radius).setDoubleProperty("epsilon", epsilon); } }