示例#1
0
文件: CommTester.C 项目: LLNL/SAMRAI
void
CommTester::putCoordinatesToDatabase(
   std::shared_ptr<tbox::Database>& coords_db,
   const hier::Patch& patch)
{

   std::shared_ptr<geom::CartesianPatchGeometry> pgeom(
      SAMRAI_SHARED_PTR_CAST<geom::CartesianPatchGeometry, hier::PatchGeometry>(
         patch.getPatchGeometry()));
/*
   if (pgeom) {
      pgeom->putBlueprintCoords(coords_db, patch.getBox());
   }
*/
   const tbox::Dimension& dim(patch.getDim());

   pdat::NodeData<double> coords(patch.getBox(), dim.getValue(),
                                 hier::IntVector::getZero(dim));

   const hier::Index& box_lo = patch.getBox().lower();
   const double* x_lo = pgeom->getXLower();
   const double* dx = pgeom->getDx();
   
   pdat::NodeIterator nend = pdat::NodeGeometry::end(patch.getBox());
   for (pdat::NodeIterator itr(pdat::NodeGeometry::begin(patch.getBox())); itr != nend; ++itr) {
      const pdat::NodeIndex& ni = *itr;
      for (int d = 0; d < dim.getValue(); ++d) {
         coords(ni, d) = x_lo[d] + (ni(d)-box_lo(d))*dx[d];
      }
   }

   coords_db->putString("type", "explicit");

   std::shared_ptr<tbox::Database> values_db = coords_db->putDatabase("values");

   int data_size = coords.getArrayData().getBox().size();

   values_db->putDoubleArray("x", coords.getPointer(0), data_size);
   if (dim.getValue() > 1) {
      values_db->putDoubleArray("y", coords.getPointer(1), data_size);
   }
   if (dim.getValue() > 2) {
      values_db->putDoubleArray("z", coords.getPointer(2), data_size);
   }
}
void
CartesianCellDoubleConservativeLinearRefine::refine(
   hier::Patch& fine,
   const hier::Patch& coarse,
   const int dst_component,
   const int src_component,
   const hier::Box& fine_box,
   const hier::IntVector& ratio) const
{
   const tbox::Dimension& dim(fine.getDim());
   TBOX_ASSERT_DIM_OBJDIM_EQUALITY3(dim, coarse, fine_box, ratio);

   std::shared_ptr<pdat::CellData<double> > cdata(
      SAMRAI_SHARED_PTR_CAST<pdat::CellData<double>, hier::PatchData>(
         coarse.getPatchData(src_component)));
   std::shared_ptr<pdat::CellData<double> > fdata(
      SAMRAI_SHARED_PTR_CAST<pdat::CellData<double>, hier::PatchData>(
         fine.getPatchData(dst_component)));
   TBOX_ASSERT(cdata);
   TBOX_ASSERT(fdata);
   TBOX_ASSERT(cdata->getDepth() == fdata->getDepth());

   const hier::Box cgbox(cdata->getGhostBox());

   const hier::Index& cilo = cgbox.lower();
   const hier::Index& cihi = cgbox.upper();
   const hier::Index& filo = fdata->getGhostBox().lower();
   const hier::Index& fihi = fdata->getGhostBox().upper();

   const std::shared_ptr<CartesianPatchGeometry> cgeom(
      SAMRAI_SHARED_PTR_CAST<CartesianPatchGeometry, hier::PatchGeometry>(
         coarse.getPatchGeometry()));
   const std::shared_ptr<CartesianPatchGeometry> fgeom(
      SAMRAI_SHARED_PTR_CAST<CartesianPatchGeometry, hier::PatchGeometry>(
         fine.getPatchGeometry()));

   TBOX_ASSERT(cgeom);
   TBOX_ASSERT(fgeom);

   const hier::Box coarse_box = hier::Box::coarsen(fine_box, ratio);
   const hier::Index& ifirstc = coarse_box.lower();
   const hier::Index& ilastc = coarse_box.upper();
   const hier::Index& ifirstf = fine_box.lower();
   const hier::Index& ilastf = fine_box.upper();

   const hier::IntVector tmp_ghosts(dim, 0);
   std::vector<double> diff0(cgbox.numberCells(0) + 1);
   pdat::CellData<double> slope0(cgbox, 1, tmp_ghosts);

   for (int d = 0; d < fdata->getDepth(); ++d) {
      if ((dim == tbox::Dimension(1))) {
         SAMRAI_F77_FUNC(cartclinrefcelldoub1d, CARTCLINREFCELLDOUB1D) (ifirstc(0),
            ilastc(0),
            ifirstf(0), ilastf(0),
            cilo(0), cihi(0),
            filo(0), fihi(0),
            &ratio[0],
            cgeom->getDx(),
            fgeom->getDx(),
            cdata->getPointer(d),
            fdata->getPointer(d),
            &diff0[0], slope0.getPointer());
      } else if ((dim == tbox::Dimension(2))) {

         std::vector<double> diff1(cgbox.numberCells(1) + 1);
         pdat::CellData<double> slope1(cgbox, 1, tmp_ghosts);

         SAMRAI_F77_FUNC(cartclinrefcelldoub2d, CARTCLINREFCELLDOUB2D) (ifirstc(0),
            ifirstc(1), ilastc(0), ilastc(1),
            ifirstf(0), ifirstf(1), ilastf(0), ilastf(1),
            cilo(0), cilo(1), cihi(0), cihi(1),
            filo(0), filo(1), fihi(0), fihi(1),
            &ratio[0],
            cgeom->getDx(),
            fgeom->getDx(),
            cdata->getPointer(d),
            fdata->getPointer(d),
            &diff0[0], slope0.getPointer(),
            &diff1[0], slope1.getPointer());
      } else if ((dim == tbox::Dimension(3))) {

         std::vector<double> diff1(cgbox.numberCells(1) + 1);
         pdat::CellData<double> slope1(cgbox, 1, tmp_ghosts);

         std::vector<double> diff2(cgbox.numberCells(2) + 1);
         pdat::CellData<double> slope2(cgbox, 1, tmp_ghosts);

         SAMRAI_F77_FUNC(cartclinrefcelldoub3d, CARTCLINREFCELLDOUB3D) (ifirstc(0),
            ifirstc(1), ifirstc(2),
            ilastc(0), ilastc(1), ilastc(2),
            ifirstf(0), ifirstf(1), ifirstf(2),
            ilastf(0), ilastf(1), ilastf(2),
            cilo(0), cilo(1), cilo(2),
            cihi(0), cihi(1), cihi(2),
            filo(0), filo(1), filo(2),
            fihi(0), fihi(1), fihi(2),
            &ratio[0],
            cgeom->getDx(),
            fgeom->getDx(),
            cdata->getPointer(d),
            fdata->getPointer(d),
            &diff0[0], slope0.getPointer(),
            &diff1[0], slope1.getPointer(),
            &diff2[0], slope2.getPointer());
      } else {
         TBOX_ERROR("CartesianCellDoubleConservativeLinearRefine error...\n"
            << "dim > 3 not supported." << std::endl);

      }
   }
}
void
CartesianFaceDoubleWeightedAverage::coarsen(
   hier::Patch& coarse,
   const hier::Patch& fine,
   const int dst_component,
   const int src_component,
   const hier::Box& coarse_box,
   const hier::IntVector& ratio) const
{
   const tbox::Dimension& dim(fine.getDim());

   TBOX_ASSERT_DIM_OBJDIM_EQUALITY3(dim, coarse, coarse_box, ratio);

   std::shared_ptr<pdat::FaceData<double> > fdata(
      SAMRAI_SHARED_PTR_CAST<pdat::FaceData<double>, hier::PatchData>(
         fine.getPatchData(src_component)));
   std::shared_ptr<pdat::FaceData<double> > cdata(
      SAMRAI_SHARED_PTR_CAST<pdat::FaceData<double>, hier::PatchData>(
         coarse.getPatchData(dst_component)));
   TBOX_ASSERT(fdata);
   TBOX_ASSERT(cdata);
   TBOX_ASSERT(cdata->getDepth() == fdata->getDepth());

   const hier::Index& filo = fdata->getGhostBox().lower();
   const hier::Index& fihi = fdata->getGhostBox().upper();
   const hier::Index& cilo = cdata->getGhostBox().lower();
   const hier::Index& cihi = cdata->getGhostBox().upper();

   const std::shared_ptr<CartesianPatchGeometry> fgeom(
      SAMRAI_SHARED_PTR_CAST<CartesianPatchGeometry, hier::PatchGeometry>(
         fine.getPatchGeometry()));
   const std::shared_ptr<CartesianPatchGeometry> cgeom(
      SAMRAI_SHARED_PTR_CAST<CartesianPatchGeometry, hier::PatchGeometry>(
         coarse.getPatchGeometry()));

   TBOX_ASSERT(fgeom);
   TBOX_ASSERT(cgeom);

   const hier::Index& ifirstc = coarse_box.lower();
   const hier::Index& ilastc = coarse_box.upper();

   for (int d = 0; d < cdata->getDepth(); ++d) {
      if ((dim == tbox::Dimension(1))) {
         SAMRAI_F77_FUNC(cartwgtavgfacedoub1d, CARTWGTAVGFACEDOUB1D) (ifirstc(0),
            ilastc(0),
            filo(0), fihi(0),
            cilo(0), cihi(0),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(0, d),
            cdata->getPointer(0, d));
      } else if ((dim == tbox::Dimension(2))) {
         SAMRAI_F77_FUNC(cartwgtavgfacedoub2d0, CARTWGTAVGFACEDOUB2D0) (ifirstc(0),
            ifirstc(1), ilastc(0), ilastc(1),
            filo(0), filo(1), fihi(0), fihi(1),
            cilo(0), cilo(1), cihi(0), cihi(1),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(0, d),
            cdata->getPointer(0, d));
         SAMRAI_F77_FUNC(cartwgtavgfacedoub2d1, CARTWGTAVGFACEDOUB2D1) (ifirstc(0),
            ifirstc(1), ilastc(0), ilastc(1),
            filo(0), filo(1), fihi(0), fihi(1),
            cilo(0), cilo(1), cihi(0), cihi(1),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(1, d),
            cdata->getPointer(1, d));
      } else if ((dim == tbox::Dimension(3))) {
         SAMRAI_F77_FUNC(cartwgtavgfacedoub3d0, CARTWGTAVGFACEDOUB3D0) (ifirstc(0),
            ifirstc(1), ifirstc(2),
            ilastc(0), ilastc(1), ilastc(2),
            filo(0), filo(1), filo(2),
            fihi(0), fihi(1), fihi(2),
            cilo(0), cilo(1), cilo(2),
            cihi(0), cihi(1), cihi(2),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(0, d),
            cdata->getPointer(0, d));
         SAMRAI_F77_FUNC(cartwgtavgfacedoub3d1, CARTWGTAVGFACEDOUB3D1) (ifirstc(0),
            ifirstc(1), ifirstc(2),
            ilastc(0), ilastc(1), ilastc(2),
            filo(0), filo(1), filo(2),
            fihi(0), fihi(1), fihi(2),
            cilo(0), cilo(1), cilo(2),
            cihi(0), cihi(1), cihi(2),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(1, d),
            cdata->getPointer(1, d));
         SAMRAI_F77_FUNC(cartwgtavgfacedoub3d2, CARTWGTAVGFACEDOUB3D2) (ifirstc(0),
            ifirstc(1), ifirstc(2),
            ilastc(0), ilastc(1), ilastc(2),
            filo(0), filo(1), filo(2),
            fihi(0), fihi(1), fihi(2),
            cilo(0), cilo(1), cilo(2),
            cihi(0), cihi(1), cihi(2),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(2, d),
            cdata->getPointer(2, d));
      } else if ((dim == tbox::Dimension(4))) {
         SAMRAI_F77_FUNC(cartwgtavgfacedoub4d0, CARTWGTAVGFACEDOUB4D0) (ifirstc(0),
            ifirstc(1), ifirstc(2), ifirstc(3),
            ilastc(0), ilastc(1), ilastc(2), ilastc(3),
            filo(0), filo(1), filo(2), filo(3),
            fihi(0), fihi(1), fihi(2), fihi(3),
            cilo(0), cilo(1), cilo(2), cilo(3),
            cihi(0), cihi(1), cihi(2), cihi(3),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(0, d),
            cdata->getPointer(0, d));
         SAMRAI_F77_FUNC(cartwgtavgfacedoub4d1, CARTWGTAVGFACEDOUB4D1) (ifirstc(0),
            ifirstc(1), ifirstc(2), ifirstc(3),
            ilastc(0), ilastc(1), ilastc(2), ilastc(3),
            filo(0), filo(1), filo(2), filo(3),
            fihi(0), fihi(1), fihi(2), fihi(3),
            cilo(0), cilo(1), cilo(2), cilo(3),
            cihi(0), cihi(1), cihi(2), cihi(3),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(1, d),
            cdata->getPointer(1, d));
         SAMRAI_F77_FUNC(cartwgtavgfacedoub4d2, CARTWGTAVGFACEDOUB4D2) (ifirstc(0),
            ifirstc(1), ifirstc(2), ifirstc(3),
            ilastc(0), ilastc(1), ilastc(2), ilastc(3),
            filo(0), filo(1), filo(2), filo(3),
            fihi(0), fihi(1), fihi(2), fihi(3),
            cilo(0), cilo(1), cilo(2), cilo(3),
            cihi(0), cihi(1), cihi(2), cihi(3),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(2, d),
            cdata->getPointer(2, d));
         SAMRAI_F77_FUNC(cartwgtavgfacedoub4d3, CARTWGTAVGFACEDOUB4D3) (ifirstc(0),
            ifirstc(1), ifirstc(2), ifirstc(3),
            ilastc(0), ilastc(1), ilastc(2), ilastc(3),
            filo(0), filo(1), filo(2), filo(3),
            fihi(0), fihi(1), fihi(2), fihi(3),
            cilo(0), cilo(1), cilo(2), cilo(3),
            cihi(0), cihi(1), cihi(2), cihi(3),
            &ratio[0],
            fgeom->getDx(),
            cgeom->getDx(),
            fdata->getPointer(3, d),
            cdata->getPointer(3, d));
      } else {
         TBOX_ERROR("CartesianFaceDoubleWeightedAverage error...\n"
            << "dim > 4 not supported." << std::endl);
      }
   }
}
void
CartesianSideFloatWeightedAverage::coarsen(
   hier::Patch& coarse,
   const hier::Patch& fine,
   const int dst_component,
   const int src_component,
   const hier::Box& coarse_box,
   const hier::IntVector& ratio) const
{
   const tbox::Dimension& dim(fine.getDim());

   TBOX_ASSERT_DIM_OBJDIM_EQUALITY3(dim, coarse, coarse_box, ratio);

   std::shared_ptr<pdat::SideData<float> > fdata(
      SAMRAI_SHARED_PTR_CAST<pdat::SideData<float>, hier::PatchData>(
         fine.getPatchData(src_component)));
   std::shared_ptr<pdat::SideData<float> > cdata(
      SAMRAI_SHARED_PTR_CAST<pdat::SideData<float>, hier::PatchData>(
         coarse.getPatchData(dst_component)));
   TBOX_ASSERT(fdata);
   TBOX_ASSERT(cdata);
   TBOX_ASSERT(cdata->getDepth() == fdata->getDepth());
   const hier::IntVector& directions = cdata->getDirectionVector();
   TBOX_ASSERT(directions ==
      hier::IntVector::min(directions, fdata->getDirectionVector()));

   const hier::Index& filo = fdata->getGhostBox().lower();
   const hier::Index& fihi = fdata->getGhostBox().upper();
   const hier::Index& cilo = cdata->getGhostBox().lower();
   const hier::Index& cihi = cdata->getGhostBox().upper();

   const std::shared_ptr<CartesianPatchGeometry> fgeom(
      SAMRAI_SHARED_PTR_CAST<CartesianPatchGeometry, hier::PatchGeometry>(
         fine.getPatchGeometry()));
   const std::shared_ptr<CartesianPatchGeometry> cgeom(
      SAMRAI_SHARED_PTR_CAST<CartesianPatchGeometry, hier::PatchGeometry>(
         coarse.getPatchGeometry()));

   TBOX_ASSERT(fgeom);
   TBOX_ASSERT(cgeom);

   const hier::Index& ifirstc = coarse_box.lower();
   const hier::Index& ilastc = coarse_box.upper();

   for (int d = 0; d < cdata->getDepth(); ++d) {
      if ((dim == tbox::Dimension(1))) {
         if (directions(0)) {
            SAMRAI_F77_FUNC(cartwgtavgsideflot1d, CARTWGTAVGSIDEFLOT1D) (ifirstc(0),
               ilastc(0),
               filo(0), fihi(0),
               cilo(0), cihi(0),
               &ratio[0],
               fgeom->getDx(),
               cgeom->getDx(),
               fdata->getPointer(0, d),
               cdata->getPointer(0, d));
         }
      } else if ((dim == tbox::Dimension(2))) {
         if (directions(0)) {
            SAMRAI_F77_FUNC(cartwgtavgsideflot2d0, CARTWGTAVGSIDEFLOT2D0) (ifirstc(0),
               ifirstc(1), ilastc(0), ilastc(1),
               filo(0), filo(1), fihi(0), fihi(1),
               cilo(0), cilo(1), cihi(0), cihi(1),
               &ratio[0],
               fgeom->getDx(),
               cgeom->getDx(),
               fdata->getPointer(0, d),
               cdata->getPointer(0, d));
         }
         if (directions(1)) {
            SAMRAI_F77_FUNC(cartwgtavgsideflot2d1, CARTWGTAVGSIDEFLOT2D1) (ifirstc(0),
               ifirstc(1), ilastc(0), ilastc(1),
               filo(0), filo(1), fihi(0), fihi(1),
               cilo(0), cilo(1), cihi(0), cihi(1),
               &ratio[0],
               fgeom->getDx(),
               cgeom->getDx(),
               fdata->getPointer(1, d),
               cdata->getPointer(1, d));
         }
      } else if ((dim == tbox::Dimension(3))) {
         if (directions(0)) {
            SAMRAI_F77_FUNC(cartwgtavgsideflot3d0, CARTWGTAVGSIDEFLOT3D0) (ifirstc(0),
               ifirstc(1), ifirstc(2),
               ilastc(0), ilastc(1), ilastc(2),
               filo(0), filo(1), filo(2),
               fihi(0), fihi(1), fihi(2),
               cilo(0), cilo(1), cilo(2),
               cihi(0), cihi(1), cihi(2),
               &ratio[0],
               fgeom->getDx(),
               cgeom->getDx(),
               fdata->getPointer(0, d),
               cdata->getPointer(0, d));
         }
         if (directions(1)) {
            SAMRAI_F77_FUNC(cartwgtavgsideflot3d1, CARTWGTAVGSIDEFLOT3D1) (ifirstc(0),
               ifirstc(1), ifirstc(2),
               ilastc(0), ilastc(1), ilastc(2),
               filo(0), filo(1), filo(2),
               fihi(0), fihi(1), fihi(2),
               cilo(0), cilo(1), cilo(2),
               cihi(0), cihi(1), cihi(2),
               &ratio[0],
               fgeom->getDx(),
               cgeom->getDx(),
               fdata->getPointer(1, d),
               cdata->getPointer(1, d));
         }
         if (directions(2)) {
            SAMRAI_F77_FUNC(cartwgtavgsideflot3d2, CARTWGTAVGSIDEFLOT3D2) (ifirstc(0),
               ifirstc(1), ifirstc(2),
               ilastc(0), ilastc(1), ilastc(2),
               filo(0), filo(1), filo(2),
               fihi(0), fihi(1), fihi(2),
               cilo(0), cilo(1), cilo(2),
               cihi(0), cihi(1), cihi(2),
               &ratio[0],
               fgeom->getDx(),
               cgeom->getDx(),
               fdata->getPointer(2, d),
               cdata->getPointer(2, d));
         }
      } else {
         TBOX_ERROR("CartesianSideFloatWeightedAverage error...\n"
            << "dim > 3 not supported." << std::endl);
      }
   }
}
void
CartesianNodeComplexLinearRefine::refine(
   hier::Patch& fine,
   const hier::Patch& coarse,
   const int dst_component,
   const int src_component,
   const hier::Box& fine_box,
   const hier::IntVector& ratio) const
{
   const tbox::Dimension& dim(fine.getDim());
   TBOX_ASSERT_DIM_OBJDIM_EQUALITY3(dim, coarse, fine_box, ratio);

   boost::shared_ptr<pdat::NodeData<dcomplex> > cdata(
      BOOST_CAST<pdat::NodeData<dcomplex>, hier::PatchData>(
         coarse.getPatchData(src_component)));
   boost::shared_ptr<pdat::NodeData<dcomplex> > fdata(
      BOOST_CAST<pdat::NodeData<dcomplex>, hier::PatchData>(
         fine.getPatchData(dst_component)));
   TBOX_ASSERT(cdata);
   TBOX_ASSERT(fdata);
   TBOX_ASSERT(cdata->getDepth() == fdata->getDepth());

   const hier::Box cgbox(cdata->getGhostBox());

   const hier::Index cilo = cgbox.lower();
   const hier::Index cihi = cgbox.upper();
   const hier::Index filo = fdata->getGhostBox().lower();
   const hier::Index fihi = fdata->getGhostBox().upper();

   const boost::shared_ptr<CartesianPatchGeometry> cgeom(
      BOOST_CAST<CartesianPatchGeometry, hier::PatchGeometry>(
         coarse.getPatchGeometry()));
   const boost::shared_ptr<CartesianPatchGeometry> fgeom(
      BOOST_CAST<CartesianPatchGeometry, hier::PatchGeometry>(
         fine.getPatchGeometry()));

   TBOX_ASSERT(cgeom);
   TBOX_ASSERT(fgeom);

   const hier::Box coarse_box = hier::Box::coarsen(fine_box, ratio);
   const hier::Index ifirstc = coarse_box.lower();
   const hier::Index ilastc = coarse_box.upper();
   const hier::Index ifirstf = fine_box.lower();
   const hier::Index ilastf = fine_box.upper();

   for (int d = 0; d < fdata->getDepth(); ++d) {
      if ((dim == tbox::Dimension(1))) {
         SAMRAI_F77_FUNC(cartlinrefnodecplx1d, CARTLINREFNODECPLX1D) (ifirstc(0),
            ilastc(0),
            ifirstf(0), ilastf(0),
            cilo(0), cihi(0),
            filo(0), fihi(0),
            &ratio[0],
            cgeom->getDx(),
            fgeom->getDx(),
            cdata->getPointer(d),
            fdata->getPointer(d));
      } else if ((dim == tbox::Dimension(2))) {
         SAMRAI_F77_FUNC(cartlinrefnodecplx2d, CARTLINREFNODECPLX2D) (ifirstc(0),
            ifirstc(1), ilastc(0), ilastc(1),
            ifirstf(0), ifirstf(1), ilastf(0), ilastf(1),
            cilo(0), cilo(1), cihi(0), cihi(1),
            filo(0), filo(1), fihi(0), fihi(1),
            &ratio[0],
            cgeom->getDx(),
            fgeom->getDx(),
            cdata->getPointer(d),
            fdata->getPointer(d));
      } else if ((dim == tbox::Dimension(3))) {
         SAMRAI_F77_FUNC(cartlinrefnodecplx3d, CARTLINREFNODECPLX3D) (ifirstc(0),
            ifirstc(1), ifirstc(2),
            ilastc(0), ilastc(1), ilastc(2),
            ifirstf(0), ifirstf(1), ifirstf(2),
            ilastf(0), ilastf(1), ilastf(2),
            cilo(0), cilo(1), cilo(2),
            cihi(0), cihi(1), cihi(2),
            filo(0), filo(1), filo(2),
            fihi(0), fihi(1), fihi(2),
            &ratio[0],
            cgeom->getDx(),
            fgeom->getDx(),
            cdata->getPointer(d),
            fdata->getPointer(d));
      } else {
         TBOX_ERROR("CartesianNodeComplexLinearRefine error...\n"
            << "dim > 3 not supported." << std::endl);
      }
   }
}
示例#6
0
void
EdgeFloatConstantRefine::refine(
   hier::Patch& fine,
   const hier::Patch& coarse,
   const int dst_component,
   const int src_component,
   const hier::BoxOverlap& fine_overlap,
   const hier::IntVector& ratio) const
{
   const tbox::Dimension& dim(fine.getDim());

   std::shared_ptr<EdgeData<float> > cdata(
      SAMRAI_SHARED_PTR_CAST<EdgeData<float>, hier::PatchData>(
         coarse.getPatchData(src_component)));
   std::shared_ptr<EdgeData<float> > fdata(
      SAMRAI_SHARED_PTR_CAST<EdgeData<float>, hier::PatchData>(
         fine.getPatchData(dst_component)));

   const EdgeOverlap* t_overlap = CPP_CAST<const EdgeOverlap *>(&fine_overlap);

   TBOX_ASSERT(t_overlap != 0);

   TBOX_ASSERT(cdata);
   TBOX_ASSERT(fdata);
   TBOX_ASSERT(cdata->getDepth() == fdata->getDepth());
   TBOX_ASSERT_OBJDIM_EQUALITY3(fine, coarse, ratio);

   const hier::Box& cgbox(cdata->getGhostBox());

   const hier::Index& cilo = cgbox.lower();
   const hier::Index& cihi = cgbox.upper();
   const hier::Index& filo = fdata->getGhostBox().lower();
   const hier::Index& fihi = fdata->getGhostBox().upper();

   for (int axis = 0; axis < dim.getValue(); ++axis) {
      const hier::BoxContainer& boxes = t_overlap->getDestinationBoxContainer(axis);

      for (hier::BoxContainer::const_iterator b = boxes.begin();
           b != boxes.end(); ++b) {

         hier::Box fine_box(*b);
         TBOX_ASSERT_DIM_OBJDIM_EQUALITY1(dim, fine_box);

         for (tbox::Dimension::dir_t i = 0; i < dim.getValue(); ++i) {
            if (i != axis) {
               fine_box.setUpper(i, fine_box.upper(i) - 1);
            }
         }

         const hier::Box coarse_box = hier::Box::coarsen(fine_box, ratio);
         const hier::Index& ifirstc = coarse_box.lower();
         const hier::Index& ilastc = coarse_box.upper();
         const hier::Index& ifirstf = fine_box.lower();
         const hier::Index& ilastf = fine_box.upper();

         for (int d = 0; d < fdata->getDepth(); ++d) {
            if (dim == tbox::Dimension(1)) {
               SAMRAI_F77_FUNC(conrefedgeflot1d, CONREFEDGEFLOT1D) (
                  ifirstc(0), ilastc(0),
                  ifirstf(0), ilastf(0),
                  cilo(0), cihi(0),
                  filo(0), fihi(0),
                  &ratio[0],
                  cdata->getPointer(0, d),
                  fdata->getPointer(0, d));
            } else if (dim == tbox::Dimension(2)) {
               if (axis == 0) {
                  SAMRAI_F77_FUNC(conrefedgeflot2d0, CONREFEDGEFLOT2D0) (
                     ifirstc(0), ifirstc(1), ilastc(0), ilastc(1),
                     ifirstf(0), ifirstf(1), ilastf(0), ilastf(1),
                     cilo(0), cilo(1), cihi(0), cihi(1),
                     filo(0), filo(1), fihi(0), fihi(1),
                     &ratio[0],
                     cdata->getPointer(0, d),
                     fdata->getPointer(0, d));
               } else if (axis == 1) {
                  SAMRAI_F77_FUNC(conrefedgeflot2d1, CONREFEDGEFLOT2D1) (
                     ifirstc(0), ifirstc(1), ilastc(0), ilastc(1),
                     ifirstf(0), ifirstf(1), ilastf(0), ilastf(1),
                     cilo(0), cilo(1), cihi(0), cihi(1),
                     filo(0), filo(1), fihi(0), fihi(1),
                     &ratio[0],
                     cdata->getPointer(1, d),
                     fdata->getPointer(1, d));
               }
            } else if (dim == tbox::Dimension(3)) {
               if (axis == 0) {
                  SAMRAI_F77_FUNC(conrefedgeflot3d0, CONREFEDGEFLOT3D0) (
                     ifirstc(0), ifirstc(1), ifirstc(2),
                     ilastc(0), ilastc(1), ilastc(2),
                     ifirstf(0), ifirstf(1), ifirstf(2),
                     ilastf(0), ilastf(1), ilastf(2),
                     cilo(0), cilo(1), cilo(2),
                     cihi(0), cihi(1), cihi(2),
                     filo(0), filo(1), filo(2),
                     fihi(0), fihi(1), fihi(2),
                     &ratio[0],
                     cdata->getPointer(0, d),
                     fdata->getPointer(0, d));
               } else if (axis == 1) {
                  SAMRAI_F77_FUNC(conrefedgeflot3d1, CONREFEDGEFLOT3D1) (
                     ifirstc(0), ifirstc(1), ifirstc(2),
                     ilastc(0), ilastc(1), ilastc(2),
                     ifirstf(0), ifirstf(1), ifirstf(2),
                     ilastf(0), ilastf(1), ilastf(2),
                     cilo(0), cilo(1), cilo(2),
                     cihi(0), cihi(1), cihi(2),
                     filo(0), filo(1), filo(2),
                     fihi(0), fihi(1), fihi(2),
                     &ratio[0],
                     cdata->getPointer(1, d),
                     fdata->getPointer(1, d));
               } else if (axis == 2) {
                  SAMRAI_F77_FUNC(conrefedgeflot3d2, CONREFEDGEFLOT3D2) (
                     ifirstc(0), ifirstc(1), ifirstc(2),
                     ilastc(0), ilastc(1), ilastc(2),
                     ifirstf(0), ifirstf(1), ifirstf(2),
                     ilastf(0), ilastf(1), ilastf(2),
                     cilo(0), cilo(1), cilo(2),
                     cihi(0), cihi(1), cihi(2),
                     filo(0), filo(1), filo(2),
                     fihi(0), fihi(1), fihi(2),
                     &ratio[0],
                     cdata->getPointer(2, d),
                     fdata->getPointer(2, d));
               }
            } else {
               TBOX_ERROR(
                  "EdgeFloatConstantRefine::refine dimension > 3 not supported"
                  << std::endl);
            }
         }
      }
   }
}
示例#7
0
void
OuternodeDoubleInjection::coarsen(
   hier::Patch& coarse,
   const hier::Patch& fine,
   const int dst_component,
   const int src_component,
   const hier::Box& coarse_box,
   const hier::IntVector& ratio) const
{
   const tbox::Dimension& dim(fine.getDim());

   boost::shared_ptr<OuternodeData<double> > fdata(
      BOOST_CAST<OuternodeData<double>, hier::PatchData>(
         fine.getPatchData(src_component)));
   boost::shared_ptr<OuternodeData<double> > cdata(
      BOOST_CAST<OuternodeData<double>, hier::PatchData>(
         coarse.getPatchData(dst_component)));

   TBOX_ASSERT(fdata);
   TBOX_ASSERT(cdata);
   TBOX_ASSERT(cdata->getDepth() == fdata->getDepth());
   TBOX_ASSERT_OBJDIM_EQUALITY4(coarse, fine, coarse_box, ratio);

   const hier::Index filo = fine.getBox().lower();
   const hier::Index fihi = fine.getBox().upper();
   const hier::Index cilo = coarse.getBox().lower();
   const hier::Index cihi = coarse.getBox().upper();

   const hier::Index ifirstc = coarse_box.lower();
   const hier::Index ilastc = coarse_box.upper();

   for (int i = 0; i < 2; ++i) {

      for (int axis = 0; axis < dim.getValue(); ++axis) {

         if (cdata->dataExists(axis)) {

            for (int d = 0; d < cdata->getDepth(); ++d) {

               if (dim == tbox::Dimension(1)) {
                  SAMRAI_F77_FUNC(conavgouternodedoub1d,
                     CONAVGOUTERNODEDOUB1D) (ifirstc(0), ilastc(0),
                     filo(0), fihi(0),
                     cilo(0), cihi(0),
                     &ratio[0],
                     fdata->getPointer(axis, i, d),
                     cdata->getPointer(axis, i, d));
               } else if (dim == tbox::Dimension(2)) {
                  if (axis == 0) {
                     SAMRAI_F77_FUNC(conavgouternodedoub2d0,
                        CONAVGOUTERNODEDOUB2D0) (ifirstc(0), ifirstc(1),
                        ilastc(0), ilastc(1),
                        filo(0), filo(1),
                        fihi(0), fihi(1),
                        cilo(0), cilo(1),
                        cihi(0), cihi(1),
                        &ratio[0],
                        fdata->getPointer(axis, i, d),
                        cdata->getPointer(axis, i, d));
                  }

                  if (axis == 1) {
                     SAMRAI_F77_FUNC(conavgouternodedoub2d1,
                        CONAVGOUTERNODEDOUB2D1) (ifirstc(0), ifirstc(1),
                        ilastc(0), ilastc(1),
                        filo(0), filo(1),
                        fihi(0), fihi(1),
                        cilo(0), cilo(1),
                        cihi(0), cihi(1),
                        &ratio[0],
                        fdata->getPointer(axis, i, d),
                        cdata->getPointer(axis, i, d));
                  }
               } else if (dim == tbox::Dimension(3)) {
                  if (axis == 0) {
                     SAMRAI_F77_FUNC(conavgouternodedoub3d0,
                        CONAVGOUTERNODEDOUB3D0) (ifirstc(0), ifirstc(1),
                        ifirstc(2),
                        ilastc(0), ilastc(1), ilastc(2),
                        filo(0), filo(1), filo(2),
                        fihi(0), fihi(1), fihi(2),
                        cilo(0), cilo(1), cilo(2),
                        cihi(0), cihi(1), cihi(2),
                        &ratio[0],
                        fdata->getPointer(axis, i, d),
                        cdata->getPointer(axis, i, d));
                  }
                  if (axis == 1) {
                     SAMRAI_F77_FUNC(conavgouternodedoub3d1,
                        CONAVGOUTERNODEDOUB3D1) (ifirstc(0), ifirstc(1),
                        ifirstc(2),
                        ilastc(0), ilastc(1), ilastc(2),
                        filo(0), filo(1), filo(2),
                        fihi(0), fihi(1), fihi(2),
                        cilo(0), cilo(1), cilo(2),
                        cihi(0), cihi(1), cihi(2),
                        &ratio[0],
                        fdata->getPointer(axis, i, d),
                        cdata->getPointer(axis, i, d));
                  }
                  if (axis == 2) {
                     SAMRAI_F77_FUNC(conavgouternodedoub3d2,
                        CONAVGOUTERNODEDOUB3D2) (ifirstc(0), ifirstc(1),
                        ifirstc(2),
                        ilastc(0), ilastc(1), ilastc(2),
                        filo(0), filo(1), filo(2),
                        fihi(0), fihi(1), fihi(2),
                        cilo(0), cilo(1), cilo(2),
                        cihi(0), cihi(1), cihi(2),
                        &ratio[0],
                        fdata->getPointer(axis, i, d),
                        cdata->getPointer(axis, i, d));
                  }
               }

            }
         }
      }
   }
}