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| author |  Luca Fedeli <luca.fedeli@cea.fr>
| 2023-08-08 01:55:13 +0200 |
|---|---|---|
| committer |  GitHub <noreply@github.com>
| 2023-08-07 16:55:13 -0700 |
| commit | fa5dc424956cae58ec910bee49e1b9118fc1feb0 (patch) | |
| tree | 7c7cb88fb407806235878004d12f1c6d3d9b3274 /Source/Evolve/WarpXEvolve.cpp | |
| parent | fb33708501b986922066f332afa76ea8610ba31a (diff) | |
| download | WarpX-fa5dc424956cae58ec910bee49e1b9118fc1feb0.tar.gz WarpX-fa5dc424956cae58ec910bee49e1b9118fc1feb0.tar.zst WarpX-fa5dc424956cae58ec910bee49e1b9118fc1feb0.zip | |
Clang-tidy CI test: add 4 new readability checks (#4163)
Diffstat (limited to 'Source/Evolve/WarpXEvolve.cpp')
| -rw-r--r-- | Source/Evolve/WarpXEvolve.cpp | 16 |
1 files changed, 8 insertions, 8 deletions
diff --git a/Source/Evolve/WarpXEvolve.cpp b/Source/Evolve/WarpXEvolve.cpp index 37023c8dd..40df059ad 100644 --- a/Source/Evolve/WarpXEvolve.cpp +++ b/Source/Evolve/WarpXEvolve.cpp @@ -564,7 +564,7 @@ void WarpX::SyncCurrentAndRho () // Reflect charge and current density over PEC boundaries, if needed. for (int lev = 0; lev <= finest_level; ++lev) { - if (rho_fp[lev].get()) { + if (rho_fp[lev]) { ApplyRhofieldBoundary(lev, rho_fp[lev].get(), PatchType::fine); } ApplyJfieldBoundary( @@ -572,7 +572,7 @@ void WarpX::SyncCurrentAndRho () current_fp[lev][2].get(), PatchType::fine ); if (lev > 0) { - if (rho_cp[lev].get()) { + if (rho_cp[lev]) { ApplyRhofieldBoundary(lev, rho_cp[lev].get(), PatchType::coarse); } ApplyJfieldBoundary( @@ -1016,9 +1016,9 @@ WarpX::PushParticlesandDepose (int lev, amrex::Real cur_time, DtType a_dt_type, if (current_buf[lev][0].get()) { ApplyInverseVolumeScalingToCurrentDensity(current_buf[lev][0].get(), current_buf[lev][1].get(), current_buf[lev][2].get(), lev-1); } - if (rho_fp[lev].get()) { + if (rho_fp[lev]) { ApplyInverseVolumeScalingToChargeDensity(rho_fp[lev].get(), lev); - if (charge_buf[lev].get()) { + if (charge_buf[lev]) { ApplyInverseVolumeScalingToChargeDensity(charge_buf[lev].get(), lev-1); } } @@ -1079,8 +1079,8 @@ WarpX::applyMirrors(Real time) NullifyMF(Bz, lev, z_min, z_max); // If div(E)/div(B) cleaning are used, set F/G field to zero - if (F_fp[lev]) NullifyMF(*F_fp[lev].get(), lev, z_min, z_max); - if (G_fp[lev]) NullifyMF(*G_fp[lev].get(), lev, z_min, z_max); + if (F_fp[lev]) NullifyMF(*F_fp[lev], lev, z_min, z_max); + if (G_fp[lev]) NullifyMF(*G_fp[lev], lev, z_min, z_max); if (lev>0) { @@ -1101,8 +1101,8 @@ WarpX::applyMirrors(Real time) NullifyMF(cBz, lev, z_min, z_max); // If div(E)/div(B) cleaning are used, set F/G field to zero - if (F_cp[lev]) NullifyMF(*F_cp[lev].get(), lev, z_min, z_max); - if (G_cp[lev]) NullifyMF(*G_cp[lev].get(), lev, z_min, z_max); + if (F_cp[lev]) NullifyMF(*F_cp[lev], lev, z_min, z_max); + if (G_cp[lev]) NullifyMF(*G_cp[lev], lev, z_min, z_max); } } } |