grad_phys_by_nodes.cpp

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// Copyright (c) 2010-2024, Lawrence Livermore National Security, LLC. Produced
// at the Lawrence Livermore National Laboratory. All Rights reserved. See files
// LICENSE and NOTICE for details. LLNL-CODE-806117.
//
// This file is part of the MFEM library. For more information and source code
// availability visit https://mfem.org.
//
// MFEM is free software; you can redistribute it and/or modify it under the
// terms of the BSD-3 license. We welcome feedback and contributions, see file
// CONTRIBUTING.md for details.
 
#include "dispatch.hpp"
#include "grad.hpp"
 
namespace mfem
{
 
namespace internal
{
 
namespace quadrature_interpolator
{
 
// Tensor-product evaluation of quadrature point physical derivatives: dispatch
// function.
// Instantiation for the case QVectorLayout::byNODES.
template<>
void TensorPhysDerivatives<QVectorLayout::byNODES>(const int NE,
                                                   const int vdim,
                                                   const DofToQuad &maps,
                                                   const GeometricFactors &geom,
                                                   const Vector &e_vec,
                                                   Vector &q_der)
{
   if (NE == 0) { return; }
   const int dim = maps.FE->GetDim();
   const int D1D = maps.ndof;
   const int Q1D = maps.nqpt;
 
   const int sdim = geom.mesh->SpaceDimension();
 
   const real_t *B = maps.B.Read();
   const real_t *G = maps.G.Read();
   const real_t *J = geom.J.Read();
   const real_t *X = e_vec.Read();
   real_t *Y = q_der.Write();
 
   constexpr QVectorLayout L = QVectorLayout::byNODES;
   constexpr bool P = true; // GRAD_PHYS
 
   const int id = (vdim<<8) | (D1D<<4) | Q1D;
 
   if (dim == 1)
   {
      return Derivatives1D<L,P>(NE,G,J,X,Y,sdim,vdim,D1D,Q1D);
   }
   if (dim == 2)
   {
      switch (id)
      {
         case 0x133: return Derivatives2D<L,P,1,3,3,8>(NE,B,G,J,X,Y,sdim);
         case 0x134: return Derivatives2D<L,P,1,3,4,8>(NE,B,G,J,X,Y,sdim);
         case 0x143: return Derivatives2D<L,P,1,4,3,4>(NE,B,G,J,X,Y,sdim);
         case 0x144: return Derivatives2D<L,P,1,4,4,4>(NE,B,G,J,X,Y,sdim);
         case 0x146: return Derivatives2D<L,P,1,4,6,4>(NE,B,G,J,X,Y,sdim);
         case 0x158: return Derivatives2D<L,P,1,5,8,2>(NE,B,G,J,X,Y,sdim);
 
         case 0x233: return Derivatives2D<L,P,2,3,3,8>(NE,B,G,J,X,Y,sdim);
         case 0x234: return Derivatives2D<L,P,2,3,4,8>(NE,B,G,J,X,Y,sdim);
         case 0x243: return Derivatives2D<L,P,2,4,3,4>(NE,B,G,J,X,Y,sdim);
         case 0x244: return Derivatives2D<L,P,2,4,4,4>(NE,B,G,J,X,Y,sdim);
         case 0x246: return Derivatives2D<L,P,2,4,6,4>(NE,B,G,J,X,Y,sdim);
         case 0x258: return Derivatives2D<L,P,2,5,8,2>(NE,B,G,J,X,Y,sdim);
         default:
         {
            const int MD = DeviceDofQuadLimits::Get().MAX_D1D;
            const int MQ = DeviceDofQuadLimits::Get().MAX_Q1D;
            MFEM_VERIFY(D1D <= MD, "Orders higher than " << MD-1
                        << " are not supported!");
            MFEM_VERIFY(Q1D <= MQ, "Quadrature rules with more than "
                        << MQ << " 1D points are not supported!");
            Derivatives2D<L,P>(NE,B,G,J,X,Y,sdim,vdim,D1D,Q1D);
            return;
         }
      }
   }
   if (dim == 3)
   {
      switch (id)
      {
         case 0x133: return Derivatives3D<L,P,1,3,3>(NE,B,G,J,X,Y);
         case 0x134: return Derivatives3D<L,P,1,3,4>(NE,B,G,J,X,Y);
         case 0x144: return Derivatives3D<L,P,1,4,4>(NE,B,G,J,X,Y);
         case 0x146: return Derivatives3D<L,P,1,4,6>(NE,B,G,J,X,Y);
         case 0x158: return Derivatives3D<L,P,1,5,8>(NE,B,G,J,X,Y);
 
         case 0x333: return Derivatives3D<L,P,3,3,3>(NE,B,G,J,X,Y);
         case 0x334: return Derivatives3D<L,P,3,3,4>(NE,B,G,J,X,Y);
         case 0x344: return Derivatives3D<L,P,3,4,4>(NE,B,G,J,X,Y);
         case 0x346: return Derivatives3D<L,P,3,4,6>(NE,B,G,J,X,Y);
         case 0x358: return Derivatives3D<L,P,3,5,8>(NE,B,G,J,X,Y);
         default:
         {
            const int MD = DeviceDofQuadLimits::Get().MAX_INTERP_1D;
            const int MQ = DeviceDofQuadLimits::Get().MAX_INTERP_1D;
            MFEM_VERIFY(D1D <= MD, "Orders higher than " << MD-1
                        << " are not supported!");
            MFEM_VERIFY(Q1D <= MQ, "Quadrature rules with more than "
                        << MQ << " 1D points are not supported!");
            Derivatives3D<L,P>(NE,B,G,J,X,Y,vdim,D1D,Q1D);
            return;
         }
      }
   }
   mfem::out << "Unknown kernel 0x" << std::hex << id << std::endl;
   MFEM_ABORT("Unknown kernel");
}
 
} // namespace quadrature_interpolator
 
} // namespace internal
 
} // namespace mfem