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-rw-r--r--Source/Parallelization/WarpXComm.cpp52
1 files changed, 26 insertions, 26 deletions
diff --git a/Source/Parallelization/WarpXComm.cpp b/Source/Parallelization/WarpXComm.cpp
index 3492baf7c..67a6557b7 100644
--- a/Source/Parallelization/WarpXComm.cpp
+++ b/Source/Parallelization/WarpXComm.cpp
@@ -79,7 +79,7 @@ WarpX::UpdateAuxilaryData ()
MultiFab::Subtract(dBz, *Bfield_cp[lev][2], 0, 0, Bfield_cp[lev][2]->nComp(), ng);
const Real* dx = Geom(lev-1).CellSize();
- const int ref_ratio = refRatio(lev-1)[0];
+ const int refinement_ratio = refRatio(lev-1)[0];
#ifdef _OPENMP
#pragma omp parallel
#endif
@@ -89,7 +89,7 @@ WarpX::UpdateAuxilaryData ()
{
Box ccbx = mfi.fabbox();
ccbx.enclosedCells();
- ccbx.coarsen(ref_ratio).refine(ref_ratio); // so that ccbx is coarsenable
+ ccbx.coarsen(refinement_ratio).refine(refinement_ratio); // so that ccbx is coarsenable
const FArrayBox& cxfab = dBx[mfi];
const FArrayBox& cyfab = dBy[mfi];
@@ -106,18 +106,18 @@ WarpX::UpdateAuxilaryData ()
BL_TO_FORTRAN_ANYD(cxfab),
BL_TO_FORTRAN_ANYD(cyfab),
BL_TO_FORTRAN_ANYD(czfab),
- dx, &ref_ratio,&use_limiter);
+ dx, &refinement_ratio,&use_limiter);
#else
amrex_interp_div_free_bfield(ccbx.loVect(), ccbx.hiVect(),
BL_TO_FORTRAN_ANYD(bfab[0]),
BL_TO_FORTRAN_ANYD(bfab[2]),
BL_TO_FORTRAN_ANYD(cxfab),
BL_TO_FORTRAN_ANYD(czfab),
- dx, &ref_ratio,&use_limiter);
+ dx, &refinement_ratio,&use_limiter);
amrex_interp_cc_bfield(ccbx.loVect(), ccbx.hiVect(),
BL_TO_FORTRAN_ANYD(bfab[1]),
BL_TO_FORTRAN_ANYD(cyfab),
- &ref_ratio,&use_limiter);
+ &refinement_ratio,&use_limiter);
#endif
for (int idim = 0; idim < 3; ++idim)
@@ -153,7 +153,7 @@ WarpX::UpdateAuxilaryData ()
MultiFab::Subtract(dEy, *Efield_cp[lev][1], 0, 0, Efield_cp[lev][1]->nComp(), ng);
MultiFab::Subtract(dEz, *Efield_cp[lev][2], 0, 0, Efield_cp[lev][2]->nComp(), ng);
- const int ref_ratio = refRatio(lev-1)[0];
+ const int refinement_ratio = refRatio(lev-1)[0];
#ifdef _OPEMP
#pragma omp parallel
#endif
@@ -163,7 +163,7 @@ WarpX::UpdateAuxilaryData ()
{
Box ccbx = mfi.fabbox();
ccbx.enclosedCells();
- ccbx.coarsen(ref_ratio).refine(ref_ratio); // so that ccbx is coarsenable
+ ccbx.coarsen(refinement_ratio).refine(refinement_ratio); // so that ccbx is coarsenable
const FArrayBox& cxfab = dEx[mfi];
const FArrayBox& cyfab = dEy[mfi];
@@ -180,18 +180,18 @@ WarpX::UpdateAuxilaryData ()
BL_TO_FORTRAN_ANYD(cxfab),
BL_TO_FORTRAN_ANYD(cyfab),
BL_TO_FORTRAN_ANYD(czfab),
- &ref_ratio,&use_limiter);
+ &refinement_ratio,&use_limiter);
#else
amrex_interp_efield(ccbx.loVect(), ccbx.hiVect(),
BL_TO_FORTRAN_ANYD(efab[0]),
BL_TO_FORTRAN_ANYD(efab[2]),
BL_TO_FORTRAN_ANYD(cxfab),
BL_TO_FORTRAN_ANYD(czfab),
- &ref_ratio,&use_limiter);
+ &refinement_ratio,&use_limiter);
amrex_interp_nd_efield(ccbx.loVect(), ccbx.hiVect(),
BL_TO_FORTRAN_ANYD(efab[1]),
BL_TO_FORTRAN_ANYD(cyfab),
- &ref_ratio);
+ &refinement_ratio);
#endif
for (int idim = 0; idim < 3; ++idim)
@@ -364,7 +364,7 @@ WarpX::SyncCurrent ()
current_cp[lev][1]->setVal(0.0);
current_cp[lev][2]->setVal(0.0);
- const IntVect& ref_ratio = refRatio(lev-1);
+ const IntVect& refinement_ratio = refRatio(lev-1);
std::array<const MultiFab*,3> fine { current_fp[lev][0].get(),
current_fp[lev][1].get(),
@@ -372,7 +372,7 @@ WarpX::SyncCurrent ()
std::array< MultiFab*,3> crse { current_cp[lev][0].get(),
current_cp[lev][1].get(),
current_cp[lev][2].get() };
- SyncCurrent(fine, crse, ref_ratio[0]);
+ SyncCurrent(fine, crse, refinement_ratio[0]);
}
Vector<Array<std::unique_ptr<MultiFab>,3> > j_fp(finest_level+1);
@@ -524,10 +524,10 @@ WarpX::SyncCurrent ()
void
WarpX::SyncCurrent (const std::array<const amrex::MultiFab*,3>& fine,
const std::array< amrex::MultiFab*,3>& crse,
- int ref_ratio)
+ int refinement_ratio)
{
- BL_ASSERT(ref_ratio == 2);
- const IntVect& ng = (fine[0]->nGrowVect() + 1) /ref_ratio;
+ BL_ASSERT(refinement_ratio == 2);
+ const IntVect& ng = (fine[0]->nGrowVect() + 1) /refinement_ratio;
#ifdef _OPEMP
#pragma omp parallel
@@ -539,7 +539,7 @@ WarpX::SyncCurrent (const std::array<const amrex::MultiFab*,3>& fine,
for (MFIter mfi(*crse[idim],true); mfi.isValid(); ++mfi)
{
const Box& bx = mfi.growntilebox(ng);
- Box fbx = amrex::grow(amrex::refine(bx,ref_ratio),1);
+ Box fbx = amrex::grow(amrex::refine(bx,refinement_ratio),1);
ffab.resize(fbx);
fbx &= (*fine[idim])[mfi].box();
ffab.setVal(0.0);
@@ -564,8 +564,8 @@ WarpX::SyncRho (amrex::Vector<std::unique_ptr<amrex::MultiFab> >& rhof,
for (int lev = 1; lev <= finest_level; ++lev)
{
rhoc[lev]->setVal(0.0);
- const IntVect& ref_ratio = refRatio(lev-1);
- SyncRho(*rhof[lev], *rhoc[lev], ref_ratio[0]);
+ const IntVect& refinement_ratio = refRatio(lev-1);
+ SyncRho(*rhof[lev], *rhoc[lev], refinement_ratio[0]);
}
Vector<std::unique_ptr<MultiFab> > rho_f_g(finest_level+1);
@@ -673,10 +673,10 @@ WarpX::SyncRho (amrex::Vector<std::unique_ptr<amrex::MultiFab> >& rhof,
* averaging the values of the charge density of the fine patch (on the same level).
*/
void
-WarpX::SyncRho (const MultiFab& fine, MultiFab& crse, int ref_ratio)
+WarpX::SyncRho (const MultiFab& fine, MultiFab& crse, int refinement_ratio)
{
- BL_ASSERT(ref_ratio == 2);
- const IntVect& ng = (fine.nGrowVect()+1)/ref_ratio;
+ BL_ASSERT(refinement_ratio == 2);
+ const IntVect& ng = (fine.nGrowVect()+1)/refinement_ratio;
const int nc = fine.nComp();
#ifdef _OPEMP
@@ -687,7 +687,7 @@ WarpX::SyncRho (const MultiFab& fine, MultiFab& crse, int ref_ratio)
for (MFIter mfi(crse,true); mfi.isValid(); ++mfi)
{
const Box& bx = mfi.growntilebox(ng);
- Box fbx = amrex::grow(amrex::refine(bx,ref_ratio),1);
+ Box fbx = amrex::grow(amrex::refine(bx,refinement_ratio),1);
ffab.resize(fbx, nc);
fbx &= fine[mfi].box();
ffab.setVal(0.0);
@@ -710,7 +710,7 @@ WarpX::RestrictCurrentFromFineToCoarsePatch (int lev)
current_cp[lev][1]->setVal(0.0);
current_cp[lev][2]->setVal(0.0);
- const IntVect& ref_ratio = refRatio(lev-1);
+ const IntVect& refinement_ratio = refRatio(lev-1);
std::array<const MultiFab*,3> fine { current_fp[lev][0].get(),
current_fp[lev][1].get(),
@@ -718,7 +718,7 @@ WarpX::RestrictCurrentFromFineToCoarsePatch (int lev)
std::array< MultiFab*,3> crse { current_cp[lev][0].get(),
current_cp[lev][1].get(),
current_cp[lev][2].get() };
- SyncCurrent(fine, crse, ref_ratio[0]);
+ SyncCurrent(fine, crse, refinement_ratio[0]);
}
void
@@ -824,8 +824,8 @@ WarpX::RestrictRhoFromFineToCoarsePatch (int lev)
{
if (rho_fp[lev]) {
rho_cp[lev]->setVal(0.0);
- const IntVect& ref_ratio = refRatio(lev-1);
- SyncRho(*rho_fp[lev], *rho_cp[lev], ref_ratio[0]);
+ const IntVect& refinement_ratio = refRatio(lev-1);
+ SyncRho(*rho_fp[lev], *rho_cp[lev], refinement_ratio[0]);
}
}