void Foam::particle::readFields(CloudType& c) { if (!c.size()) { return; } IOobject procIO(c.fieldIOobject("origProcId", IOobject::MUST_READ)); if (procIO.headerOk()) { IOField<label> origProcId(procIO); c.checkFieldIOobject(c, origProcId); IOField<label> origId(c.fieldIOobject("origId", IOobject::MUST_READ)); c.checkFieldIOobject(c, origId); label i = 0; forAllIter(typename CloudType, c, iter) { particle& p = iter(); p.origProc_ = origProcId[i]; p.origId_ = origId[i]; i++; } }
void Foam::TemplateCollidingParcel<ParcelType>::readFields(CloudType& c) { if (!c.size()) { return; } ParcelType::readFields(c); }
void Foam::WetParcel<ParcelType>::readFields(CloudType& c) { if (!c.size()) { return; } ParcelType::readFields(c); IOField<scalar> Vliq(c.fieldIOobject("Vliq", IOobject::MUST_READ)); c.checkFieldIOobject(c, Vliq); IOField<scalarField> partVliq(c.fieldIOobject("partVliq", IOobject::MUST_READ)); c.checkFieldIOobject(c, partVliq); IOField<vectorField> liquidPositions(c.fieldIOobject("liquidPositions", IOobject::MUST_READ)); c.checkFieldIOobject(c, liquidPositions); IOField<vectorField> liquidPositionVectors(c.fieldIOobject("liquidPositionVectors", IOobject::MUST_READ)); c.checkFieldIOobject(c, liquidPositionVectors); IOField<labelField> contactList(c.fieldIOobject("contactList", IOobject::MUST_READ)); c.checkFieldIOobject(c, contactList); IOField<labelField> previousContactList(c.fieldIOobject("previousContactList", IOobject::MUST_READ)); c.checkFieldIOobject(c, previousContactList); label i = 0; forAllIter(typename CloudType, c, iter) { WetParcel<ParcelType>& p = iter(); p.Vliq_ = Vliq[i]; p.partVliq_ = partVliq[i]; p.liquidPositions_ = liquidPositions[i]; p.liquidPositionVectors_ = liquidPositionVectors[i]; p.contactList_ = contactList[i]; p.previousContactList_ = previousContactList[i]; i++; } }
void Foam::WetParcel<ParcelType>::writeFields(const CloudType& c) { ParcelType::writeFields(c); label np = c.size(); IOField<scalar> Vliq(c.fieldIOobject("Vliq", IOobject::NO_READ), np); IOField<scalarField> partVliq(c.fieldIOobject("partVliq", IOobject::NO_READ), np); IOField<vectorField> liquidPositions(c.fieldIOobject("liquidPositions", IOobject::NO_READ), np); IOField<vectorField> liquidPositionVectors(c.fieldIOobject("liquidPositionVectors", IOobject::NO_READ), np); IOField<labelField> contactList(c.fieldIOobject("contactList", IOobject::NO_READ), np); IOField<labelField> previousContactList(c.fieldIOobject("previousContactList", IOobject::NO_READ), np); label i = 0; forAllConstIter(typename CloudType, c, iter) { const WetParcel<ParcelType>& p = iter(); Vliq[i] = p.Vliq(); partVliq[i] = p.partVliq(); liquidPositions[i] = p.liquidPositions(); liquidPositionVectors[i] = p.liquidPositionVectors(); contactList[i] = p.contactList(); previousContactList[i] = p.previousContactList(); i++; } Vliq.write(); partVliq.write(); liquidPositions.write(); liquidPositionVectors.write(); contactList.write(); previousContactList.write(); }
void Foam::WetParcel<ParcelType>::writeFields(const CloudType& c) { ParcelType::writeFields(c); label np = c.size(); IOField<scalar> Vliq(c.fieldIOobject("Vliq", IOobject::NO_READ), np); label i = 0; forAllConstIter(typename CloudType, c, iter) { const WetParcel<ParcelType>& p = iter(); Vliq[i] = p.Vliq(); i++; } Vliq.write(); }
void Foam::WetParcel<ParcelType>::readFields(CloudType& c) { if (!c.size()) { return; } ParcelType::readFields(c); IOField<scalar> Vliq(c.fieldIOobject("Vliq", IOobject::MUST_READ)); c.checkFieldIOobject(c, Vliq); label i = 0; forAllIter(typename CloudType, c, iter) { WetParcel<ParcelType>& p = iter(); p.Vliq_ = Vliq[i]; i++; } }