void StokesContinuityResid<EvalT, Traits>:: evaluateFields(typename Traits::EvalData workset) { typedef Intrepid::FunctionSpaceTools FST; for (std::size_t cell=0; cell < workset.numCells; ++cell) { for (std::size_t qp=0; qp < numQPs; ++qp) { divergence(cell,qp) = 0.0; for (std::size_t i=0; i < numDims; ++i) { divergence(cell,qp) += VGrad(cell,qp,i,i); } } } FST::integrate<ScalarT>(CResidual, divergence, wBF, Intrepid::COMP_CPP, false); // "false" overwrites contractDataFieldScalar<ScalarT>(CResidual, divergence, wBF,false); // "false" overwrites if (havePSPG) { for (std::size_t cell=0; cell < workset.numCells; ++cell) { for (std::size_t node=0; node < numNodes; ++node) { for (std::size_t qp=0; qp < numQPs; ++qp) { for (std::size_t j=0; j < numDims; ++j) { CResidual(cell,node) += TauM(cell,qp)*Rm(cell,qp,j)*wGradBF(cell,node,qp,j); } } } } } }
void NSMomentumResid<EvalT, Traits>:: evaluateFields(typename Traits::EvalData workset) { for (std::size_t cell=0; cell < workset.numCells; ++cell) { for (std::size_t node=0; node < numNodes; ++node) { for (std::size_t i=0; i<numDims; i++) { MResidual(cell,node,i) = 0.0; for (std::size_t qp=0; qp < numQPs; ++qp) { MResidual(cell,node,i) += (Rm(cell, qp, i)-pGrad(cell,qp,i))*wBF(cell,node,qp) - P(cell,qp)*wGradBF(cell,node,qp,i); for (std::size_t j=0; j < numDims; ++j) { MResidual(cell,node,i) += mu(cell,qp)*(VGrad(cell,qp,i,j)+VGrad(cell,qp,j,i))*wGradBF(cell,node,qp,j); // mu(cell,qp)*VGrad(cell,qp,i,j)*wGradBF(cell,node,qp,j); } } } } } if (haveSUPG) { for (std::size_t cell=0; cell < workset.numCells; ++cell) { for (std::size_t node=0; node < numNodes; ++node) { for (std::size_t i=0; i<numDims; i++) { for (std::size_t qp=0; qp < numQPs; ++qp) { for (std::size_t j=0; j < numDims; ++j) { MResidual(cell,node,i) += rho(cell,qp)*TauM(cell,qp)*Rm(cell,qp,j)*V(cell,qp,j)*wGradBF(cell,node,qp,j); } } } } } } }