Commit a41eb7a7 authored by Christoph Grüninger's avatar Christoph Grüninger
Browse files

Remove unused variables

parent 0c5d3469
......@@ -1134,10 +1134,6 @@ void FvMpfaL2dPressure2p<TypeTag>::storeInteractionVolumeInfo()
innerBoundaryVolumeFaces_[eIdxGlobal1][intersection14.indexInInside()] = true;
innerBoundaryVolumeFaces_[eIdxGlobal4][intersection14.indexInOutside()] = true;
// get absolute permeability of neighbor cell 2
DimMatrix K4(
problem_.spatialParams().intrinsicPermeability(element4));
finished = true;
break;
......
......@@ -606,10 +606,8 @@ void FvMpfaL3dInteractionVolumeContainerAdaptive<TypeTag>::storeHangingNodeInter
}
DimVector edgeCoord1(interactionVolume.getEdgePosition(0));
DimVector edgeCoord2(interactionVolume.getEdgePosition(1));
DimVector edgeCoord3(interactionVolume.getEdgePosition(2));
DimVector edgeCoord4(interactionVolume.getEdgePosition(3));
DimVector edgeCoord5(interactionVolume.getEdgePosition(4));
DimVector edgeCoord6(interactionVolume.getEdgePosition(5));
DimVector crossProductVector1(0);
......@@ -810,7 +808,6 @@ void FvMpfaL3dInteractionVolumeContainerAdaptive<TypeTag>::storeHangingNodeInter
auto element = interactionVolume.getSubVolumeElement(0);
DimVector edgeCoord1(interactionVolume.getEdgePosition(0));
DimVector edgeCoord2(interactionVolume.getEdgePosition(1));
DimVector edgeCoord3(interactionVolume.getEdgePosition(2));
DimVector edgeCoord4(interactionVolume.getEdgePosition(3));
DimVector edgeCoord5(interactionVolume.getEdgePosition(4));
......
......@@ -365,7 +365,6 @@ void FV2dTransport2P2CAdaptive<TypeTag>::getMpfaFlux(Dune::FieldVector<Scalar, 2
// get values of cell I
Scalar pressI = problem().pressureModel().pressure(globalIdxI);
Scalar pcI = cellDataI.capillaryPressure();
DimMatrix K_I(problem().spatialParams().intrinsicPermeability(elementI));
PhaseVector SmobI(0.);
using std::max;
......
......@@ -363,7 +363,6 @@ void FV3dTransport2P2CAdaptive<TypeTag>::getMpfaFlux(Dune::FieldVector<Scalar, 2
// get values of cell I
Scalar pressI = problem().pressureModel().pressure(globalIdxI);
Scalar pcI = cellDataI.capillaryPressure();
DimMatrix K_I(problem().spatialParams().intrinsicPermeability(elementI));
PhaseVector SmobI(0.);
using std::max;
......
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