diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressure2p.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressure2p.hh
index adcc40751fff8212fe910b8ef29ca4c972d3d5e7..6da5c55b3b58d63088360d4fe3c944bfa0ccfb65 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressure2p.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressure2p.hh
@@ -1283,9 +1283,9 @@ void FvMpfaL2dPressure2p<TypeTag>::assemble()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = interactionVolumes_[vIdxGlobal];
if (interactionVolume.isInnerVolume())
{
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressure2padaptive.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressure2padaptive.hh
index 07808a32011ede28925890007bc55f0e2cbe813f..e0766cf07e81142103b84dcf7a727dd8dbbe914e 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressure2padaptive.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressure2padaptive.hh
@@ -1655,14 +1655,14 @@ void FvMpfaL2dPressure2pAdaptive<TypeTag>::printInteractionVolumes()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = interactionVolumes_[vIdxGlobal];
if (interactionVolume.getElementNumber() > 2)
{
interactionVolume.printInteractionVolumeInfo();
- std::cout << "global vertex index: " << globalVertIdx << "\n";
+ std::cout << "global vertex index: " << vIdxGlobal << "\n";
if (interactionVolume.getElementNumber() == 3)
{
ElementPointer& elementPointer1 = interactionVolume.getSubVolumeElement(0);
@@ -1710,9 +1710,9 @@ void FvMpfaL2dPressure2pAdaptive<TypeTag>::assemble()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = interactionVolumes_[vIdxGlobal];
if (interactionVolume.isInnerVolume())
{
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressurevelocity2p.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressurevelocity2p.hh
index fb5076f9c9ee71b17490d5feb1b3acfbc8d871f1..b891bff5569776e8aa0b30babafc033d71d4b788 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressurevelocity2p.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressurevelocity2p.hh
@@ -223,9 +223,9 @@ void FvMpfaL2dPressureVelocity2p<TypeTag>::calculateVelocity()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = this->interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = this->interactionVolumes_[vIdxGlobal];
if (interactionVolume.isInnerVolume())
{
@@ -318,10 +318,10 @@ void FvMpfaL2dPressureVelocity2p<TypeTag>::calculateVelocity(const Intersection&
{
int localVertIdx = referenceElement.subEntity(indexInInside, dim - 1, vIdx, dim);
- int globalVertIdx = problem_.variables().index(
+ int vIdxGlobal = problem_.variables().index(
*((*elementPtrI).template subEntity < dim > (localVertIdx)));
- InteractionVolume& interactionVolume = this->interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = this->interactionVolumes_[vIdxGlobal];
if (interactionVolume.isInnerVolume())
{
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressurevelocity2padaptive.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressurevelocity2padaptive.hh
index 97e7247d5dfd56cf0be64c6cce378785561642dc..c2e8c2434073ab12678bd48a554bbdcfc1ea190e 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressurevelocity2padaptive.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal2dpressurevelocity2padaptive.hh
@@ -232,9 +232,9 @@ void FvMpfaL2dPressureVelocity2pAdaptive<TypeTag>::calculateVelocity()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = this->interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = this->interactionVolumes_[vIdxGlobal];
if (interactionVolume.isInnerVolume())
{
@@ -375,19 +375,19 @@ void FvMpfaL2dPressureVelocity2pAdaptive<TypeTag>::calculateVelocity(const Inter
{
int localVertIdx = referenceElement.subEntity(faceIdx, dim - 1, vIdx, dim);
- int globalVertIdx = 0;
+ int vIdxGlobal = 0;
if (levelI >= levelJ)
{
- globalVertIdx = problem_.variables().index(
+ vIdxGlobal = problem_.variables().index(
*((*elementPtrI).template subEntity < dim > (localVertIdx)));
}
else
{
- globalVertIdx = problem_.variables().index(
+ vIdxGlobal = problem_.variables().index(
*((*elementPtrJ).template subEntity < dim > (localVertIdx)));
}
- InteractionVolume& interactionVolume = this->interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = this->interactionVolumes_[vIdxGlobal];
if (interactionVolume.isInnerVolume())
{
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dinteractionvolumecontainer.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dinteractionvolumecontainer.hh
index ebe4a7b4503ea1a90c2c1b334a59522e8307554c..2b4695928470657b566b31bad34f94194ccea47c 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dinteractionvolumecontainer.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dinteractionvolumecontainer.hh
@@ -320,37 +320,37 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeSubVolumeElements(const
{
int globalIdx = problem_.variables().index(element);
- int globalVertIdx = problem_.variables().vertexMapper().map(element, 0, dim);
- interactionVolumes_[globalVertIdx].setSubVolumeElement(element, 7);
- elemVertMap[globalVertIdx][7] = globalIdx;
+ int vIdxGlobal = problem_.variables().vertexMapper().map(element, 0, dim);
+ interactionVolumes_[vIdxGlobal].setSubVolumeElement(element, 7);
+ elemVertMap[vIdxGlobal][7] = globalIdx;
- globalVertIdx = problem_.variables().vertexMapper().map(element, 1, dim);
- interactionVolumes_[globalVertIdx].setSubVolumeElement(element, 6);
- elemVertMap[globalVertIdx][6] = globalIdx;
+ vIdxGlobal = problem_.variables().vertexMapper().map(element, 1, dim);
+ interactionVolumes_[vIdxGlobal].setSubVolumeElement(element, 6);
+ elemVertMap[vIdxGlobal][6] = globalIdx;
- globalVertIdx = problem_.variables().vertexMapper().map(element, 2, dim);
- interactionVolumes_[globalVertIdx].setSubVolumeElement(element, 5);
- elemVertMap[globalVertIdx][5] = globalIdx;
+ vIdxGlobal = problem_.variables().vertexMapper().map(element, 2, dim);
+ interactionVolumes_[vIdxGlobal].setSubVolumeElement(element, 5);
+ elemVertMap[vIdxGlobal][5] = globalIdx;
- globalVertIdx = problem_.variables().vertexMapper().map(element, 3, dim);
- interactionVolumes_[globalVertIdx].setSubVolumeElement(element, 4);
- elemVertMap[globalVertIdx][4] = globalIdx;
+ vIdxGlobal = problem_.variables().vertexMapper().map(element, 3, dim);
+ interactionVolumes_[vIdxGlobal].setSubVolumeElement(element, 4);
+ elemVertMap[vIdxGlobal][4] = globalIdx;
- globalVertIdx = problem_.variables().vertexMapper().map(element, 4, dim);
- interactionVolumes_[globalVertIdx].setSubVolumeElement(element, 3);
- elemVertMap[globalVertIdx][3] = globalIdx;
+ vIdxGlobal = problem_.variables().vertexMapper().map(element, 4, dim);
+ interactionVolumes_[vIdxGlobal].setSubVolumeElement(element, 3);
+ elemVertMap[vIdxGlobal][3] = globalIdx;
- globalVertIdx = problem_.variables().vertexMapper().map(element, 5, dim);
- interactionVolumes_[globalVertIdx].setSubVolumeElement(element, 2);
- elemVertMap[globalVertIdx][2] = globalIdx;
+ vIdxGlobal = problem_.variables().vertexMapper().map(element, 5, dim);
+ interactionVolumes_[vIdxGlobal].setSubVolumeElement(element, 2);
+ elemVertMap[vIdxGlobal][2] = globalIdx;
- globalVertIdx = problem_.variables().vertexMapper().map(element, 6, dim);
- interactionVolumes_[globalVertIdx].setSubVolumeElement(element, 1);
- elemVertMap[globalVertIdx][1] = globalIdx;
+ vIdxGlobal = problem_.variables().vertexMapper().map(element, 6, dim);
+ interactionVolumes_[vIdxGlobal].setSubVolumeElement(element, 1);
+ elemVertMap[vIdxGlobal][1] = globalIdx;
- globalVertIdx = problem_.variables().vertexMapper().map(element, 7, dim);
- interactionVolumes_[globalVertIdx].setSubVolumeElement(element, 0);
- elemVertMap[globalVertIdx][0] = globalIdx;
+ vIdxGlobal = problem_.variables().vertexMapper().map(element, 7, dim);
+ interactionVolumes_[vIdxGlobal].setSubVolumeElement(element, 0);
+ elemVertMap[vIdxGlobal][0] = globalIdx;
}
/*! \brief Stores information with respect to DUNE intersections in the interaction volumes
@@ -418,11 +418,11 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
{
int localVertIdx = referenceElement.subEntity(indexInInside, 1, i, dim);
- int globalVertIdx = problem_.variables().vertexMapper().map(element, localVertIdx, dim);
+ int vIdxGlobal = problem_.variables().vertexMapper().map(element, localVertIdx, dim);
- InteractionVolume& interactionVolume = interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = interactionVolumes_[vIdxGlobal];
- if (elemVertMap[globalVertIdx][0] == globalIdx)
+ if (elemVertMap[vIdxGlobal][0] == globalIdx)
{
if (indexInInside == 1)
{
@@ -476,7 +476,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][1] == globalIdx)
+ if (elemVertMap[vIdxGlobal][1] == globalIdx)
{
if (indexInInside == 3)
{
@@ -530,7 +530,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][2] == globalIdx)
+ if (elemVertMap[vIdxGlobal][2] == globalIdx)
{
if (indexInInside == 2)
{
@@ -584,7 +584,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][3] == globalIdx)
+ if (elemVertMap[vIdxGlobal][3] == globalIdx)
{
if (indexInInside == 0)
{
@@ -638,7 +638,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][4] == globalIdx)
+ if (elemVertMap[vIdxGlobal][4] == globalIdx)
{
if (indexInInside == 4)
{
@@ -692,7 +692,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][5] == globalIdx)
+ if (elemVertMap[vIdxGlobal][5] == globalIdx)
{
if (indexInInside == 4)
{
@@ -747,7 +747,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][6] == globalIdx)
+ if (elemVertMap[vIdxGlobal][6] == globalIdx)
{
if (indexInInside == 4)
{
@@ -801,7 +801,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][7] == globalIdx)
+ if (elemVertMap[vIdxGlobal][7] == globalIdx)
{
if (indexInInside == 4)
{
@@ -857,7 +857,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
if (isIt->boundary())
{
- if (elemVertMap[globalVertIdx][0] == globalIdx)
+ if (elemVertMap[vIdxGlobal][0] == globalIdx)
{
if (indexInInside == 1)
{
@@ -914,7 +914,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][1] == globalIdx)
+ if (elemVertMap[vIdxGlobal][1] == globalIdx)
{
if (indexInInside == 3)
{
@@ -971,7 +971,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][2] == globalIdx)
+ if (elemVertMap[vIdxGlobal][2] == globalIdx)
{
if (indexInInside == 2)
{
@@ -1028,7 +1028,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][3] == globalIdx)
+ if (elemVertMap[vIdxGlobal][3] == globalIdx)
{
if (indexInInside == 0)
{
@@ -1085,7 +1085,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][4] == globalIdx)
+ if (elemVertMap[vIdxGlobal][4] == globalIdx)
{
if (indexInInside == 4)
{
@@ -1142,7 +1142,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][5] == globalIdx)
+ if (elemVertMap[vIdxGlobal][5] == globalIdx)
{
if (indexInInside == 4)
{
@@ -1199,7 +1199,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][6] == globalIdx)
+ if (elemVertMap[vIdxGlobal][6] == globalIdx)
{
if (indexInInside == 4)
{
@@ -1256,7 +1256,7 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeIntersectionInfo(const E
}
}
}
- if (elemVertMap[globalVertIdx][7] == globalIdx)
+ if (elemVertMap[vIdxGlobal][7] == globalIdx)
{
if (indexInInside == 4)
{
@@ -2064,9 +2064,9 @@ void FvMpfaL3dInteractionVolumeContainer<TypeTag>::storeInteractionVolumeInfo()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = interactionVolumes_[vIdxGlobal];
if (interactionVolume.getElementNumber() == 8)
{
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dinteractionvolumecontaineradaptive.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dinteractionvolumecontaineradaptive.hh
index 1bd1698d11c7dc68be90a0207ebd0329c8565a2b..eb3d3f6dbb16d33d75284dd06bf8b2e8c7db6002 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dinteractionvolumecontaineradaptive.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dinteractionvolumecontaineradaptive.hh
@@ -107,9 +107,9 @@ public:
* have to be updated in an implicit treatment of the transport equation, it is necessary to get
* the complete set of vertices on a face: 4 corners + all hanging nodes.
*/
- std::set<int>& faceVerticeIndices(int globalElemIdx, int faceIdx)
+ std::set<int>& faceVerticeIndices(int eIdxGlobal, int faceIdx)
{
- return faceVertices_[globalElemIdx][faceIdx];
+ return faceVertices_[eIdxGlobal][faceIdx];
}
//! Constructs a FvMpfaL3dInteractionVolumeContainerAdaptive object
@@ -1651,9 +1651,9 @@ void FvMpfaL3dInteractionVolumeContainerAdaptive<TypeTag>::storeInteractionVolum
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = asImp_().interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = asImp_().interactionVolumes_[vIdxGlobal];
if (interactionVolume.getElementNumber() == 8)
{
@@ -1700,16 +1700,16 @@ void FvMpfaL3dInteractionVolumeContainerAdaptive<TypeTag>::storeInteractionVolum
asImp_().addRealFluxFaceArea_(interactionVolume.getFaceArea(4, 0), globalIdx5, interactionVolume.getIndexOnElement(4, 0));
asImp_().addRealFluxFaceArea_(interactionVolume.getFaceArea(5, 0), globalIdx6, interactionVolume.getIndexOnElement(5, 0));
- faceVertices_[globalIdx1][interactionVolume.getIndexOnElement(0, 0)].insert(globalVertIdx);
- faceVertices_[globalIdx1][interactionVolume.getIndexOnElement(0, 1)].insert(globalVertIdx);
- faceVertices_[globalIdx1][interactionVolume.getIndexOnElement(0, 2)].insert(globalVertIdx);
- faceVertices_[globalIdx2][interactionVolume.getIndexOnElement(1, 0)].insert(globalVertIdx);
- faceVertices_[globalIdx2][interactionVolume.getIndexOnElement(1, 1)].insert(globalVertIdx);
- faceVertices_[globalIdx2][interactionVolume.getIndexOnElement(1, 2)].insert(globalVertIdx);
- faceVertices_[globalIdx3][interactionVolume.getIndexOnElement(2, 0)].insert(globalVertIdx);
- faceVertices_[globalIdx4][interactionVolume.getIndexOnElement(3, 1)].insert(globalVertIdx);
- faceVertices_[globalIdx5][interactionVolume.getIndexOnElement(4, 0)].insert(globalVertIdx);
- faceVertices_[globalIdx6][interactionVolume.getIndexOnElement(5, 0)].insert(globalVertIdx);
+ faceVertices_[globalIdx1][interactionVolume.getIndexOnElement(0, 0)].insert(vIdxGlobal);
+ faceVertices_[globalIdx1][interactionVolume.getIndexOnElement(0, 1)].insert(vIdxGlobal);
+ faceVertices_[globalIdx1][interactionVolume.getIndexOnElement(0, 2)].insert(vIdxGlobal);
+ faceVertices_[globalIdx2][interactionVolume.getIndexOnElement(1, 0)].insert(vIdxGlobal);
+ faceVertices_[globalIdx2][interactionVolume.getIndexOnElement(1, 1)].insert(vIdxGlobal);
+ faceVertices_[globalIdx2][interactionVolume.getIndexOnElement(1, 2)].insert(vIdxGlobal);
+ faceVertices_[globalIdx3][interactionVolume.getIndexOnElement(2, 0)].insert(vIdxGlobal);
+ faceVertices_[globalIdx4][interactionVolume.getIndexOnElement(3, 1)].insert(vIdxGlobal);
+ faceVertices_[globalIdx5][interactionVolume.getIndexOnElement(4, 0)].insert(vIdxGlobal);
+ faceVertices_[globalIdx6][interactionVolume.getIndexOnElement(5, 0)].insert(vIdxGlobal);
if (interactionVolume.getHangingNodeType() != InteractionVolume::twoSmallCells)
{
@@ -1728,20 +1728,20 @@ void FvMpfaL3dInteractionVolumeContainerAdaptive<TypeTag>::storeInteractionVolum
asImp_().addRealFluxFaceArea_(interactionVolume.getFaceArea(7, 1), globalIdx8, interactionVolume.getIndexOnElement(7, 1));
asImp_().addRealFluxFaceArea_(interactionVolume.getFaceArea(7, 2), globalIdx8, interactionVolume.getIndexOnElement(7, 2));
- faceVertices_[globalIdx3][interactionVolume.getIndexOnElement(2, 1)].insert(globalVertIdx);
- faceVertices_[globalIdx3][interactionVolume.getIndexOnElement(2, 2)].insert(globalVertIdx);
- faceVertices_[globalIdx4][interactionVolume.getIndexOnElement(3, 0)].insert(globalVertIdx);
- faceVertices_[globalIdx4][interactionVolume.getIndexOnElement(3, 2)].insert(globalVertIdx);
- faceVertices_[globalIdx5][interactionVolume.getIndexOnElement(4, 1)].insert(globalVertIdx);
- faceVertices_[globalIdx5][interactionVolume.getIndexOnElement(4, 2)].insert(globalVertIdx);
- faceVertices_[globalIdx6][interactionVolume.getIndexOnElement(5, 1)].insert(globalVertIdx);
- faceVertices_[globalIdx6][interactionVolume.getIndexOnElement(5, 2)].insert(globalVertIdx);
- faceVertices_[globalIdx7][interactionVolume.getIndexOnElement(6, 0)].insert(globalVertIdx);
- faceVertices_[globalIdx7][interactionVolume.getIndexOnElement(6, 1)].insert(globalVertIdx);
- faceVertices_[globalIdx7][interactionVolume.getIndexOnElement(6, 2)].insert(globalVertIdx);
- faceVertices_[globalIdx8][interactionVolume.getIndexOnElement(7, 0)].insert(globalVertIdx);
- faceVertices_[globalIdx8][interactionVolume.getIndexOnElement(7, 1)].insert(globalVertIdx);
- faceVertices_[globalIdx8][interactionVolume.getIndexOnElement(7, 2)].insert(globalVertIdx);
+ faceVertices_[globalIdx3][interactionVolume.getIndexOnElement(2, 1)].insert(vIdxGlobal);
+ faceVertices_[globalIdx3][interactionVolume.getIndexOnElement(2, 2)].insert(vIdxGlobal);
+ faceVertices_[globalIdx4][interactionVolume.getIndexOnElement(3, 0)].insert(vIdxGlobal);
+ faceVertices_[globalIdx4][interactionVolume.getIndexOnElement(3, 2)].insert(vIdxGlobal);
+ faceVertices_[globalIdx5][interactionVolume.getIndexOnElement(4, 1)].insert(vIdxGlobal);
+ faceVertices_[globalIdx5][interactionVolume.getIndexOnElement(4, 2)].insert(vIdxGlobal);
+ faceVertices_[globalIdx6][interactionVolume.getIndexOnElement(5, 1)].insert(vIdxGlobal);
+ faceVertices_[globalIdx6][interactionVolume.getIndexOnElement(5, 2)].insert(vIdxGlobal);
+ faceVertices_[globalIdx7][interactionVolume.getIndexOnElement(6, 0)].insert(vIdxGlobal);
+ faceVertices_[globalIdx7][interactionVolume.getIndexOnElement(6, 1)].insert(vIdxGlobal);
+ faceVertices_[globalIdx7][interactionVolume.getIndexOnElement(6, 2)].insert(vIdxGlobal);
+ faceVertices_[globalIdx8][interactionVolume.getIndexOnElement(7, 0)].insert(vIdxGlobal);
+ faceVertices_[globalIdx8][interactionVolume.getIndexOnElement(7, 1)].insert(vIdxGlobal);
+ faceVertices_[globalIdx8][interactionVolume.getIndexOnElement(7, 2)].insert(vIdxGlobal);
}
}
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressure2p.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressure2p.hh
index 9b98243fe80bf4a901d2c2dca0f450f4a8560cb6..db1b1c6238d6314cc85e8b6126eff656ad9a1d1a 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressure2p.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressure2p.hh
@@ -568,9 +568,9 @@ void FvMpfaL3dPressure2p<TypeTag>::initializeMatrixRowSize()
for (int vIdx = 0; vIdx < numVertices; vIdx++)
{
- int globalVertIdx = problem_.variables().vertexMapper().map(*eIt, vIdx, dim);
+ int vIdxGlobal = problem_.variables().vertexMapper().map(*eIt, vIdx, dim);
- InteractionVolume& interactionVolume = interactionVolumes_.interactionVolume(globalVertIdx);
+ InteractionVolume& interactionVolume = interactionVolumes_.interactionVolume(vIdxGlobal);
for (int subVolumeIdx = 0; subVolumeIdx < InteractionVolume::subVolumeTotalNum; subVolumeIdx++)
{
@@ -609,9 +609,9 @@ void FvMpfaL3dPressure2p<TypeTag>::initializeMatrixIndices()
for (int vIdx = 0; vIdx < numVertices; vIdx++)
{
- int globalVertIdx = problem_.variables().vertexMapper().map(*eIt, vIdx, dim);
+ int vIdxGlobal = problem_.variables().vertexMapper().map(*eIt, vIdx, dim);
- InteractionVolume& interactionVolume = interactionVolumes_.interactionVolume(globalVertIdx);
+ InteractionVolume& interactionVolume = interactionVolumes_.interactionVolume(vIdxGlobal);
for (int subVolumeIdx = 0; subVolumeIdx < InteractionVolume::subVolumeTotalNum; subVolumeIdx++)
{
if (interactionVolume.hasSubVolumeElement(subVolumeIdx))
@@ -639,9 +639,9 @@ void FvMpfaL3dPressure2p<TypeTag>::assemble()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = interactionVolumes_.interactionVolume(globalVertIdx);
+ InteractionVolume& interactionVolume = interactionVolumes_.interactionVolume(vIdxGlobal);
// inner interactionvolume
if (interactionVolume.isInnerVolume())
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressure2padaptive.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressure2padaptive.hh
index 5fa5d4d54756bd0f82874bfd22b2641f7598ebdc..1e44a01c11443c53922b9b376a0a94dd9219e202 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressure2padaptive.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressure2padaptive.hh
@@ -300,9 +300,9 @@ void FvMpfaL3dPressure2pAdaptive<TypeTag>::initializeMatrixRowSize()
for (int vIdx = 0; vIdx < numVertices; vIdx++)
{
- int globalVertIdx = problem_.variables().vertexMapper().map(*eIt, vIdx, dim);
+ int vIdxGlobal = problem_.variables().vertexMapper().map(*eIt, vIdx, dim);
- InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(globalVertIdx);
+ InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(vIdxGlobal);
for (int subVolumeIdx = 0; subVolumeIdx < InteractionVolume::subVolumeTotalNum; subVolumeIdx++)
{
@@ -321,7 +321,7 @@ void FvMpfaL3dPressure2pAdaptive<TypeTag>::initializeMatrixRowSize()
{
int globalVertIdxJ = problem_.variables().vertexMapper().map(*neighbor, vIdx, dim);
- if (globalVertIdxJ != globalVertIdx)
+ if (globalVertIdxJ != vIdxGlobal)
{
InteractionVolume& interactionVolumeJ = this->interactionVolumes_.interactionVolume(
globalVertIdxJ);
@@ -389,9 +389,9 @@ void FvMpfaL3dPressure2pAdaptive<TypeTag>::initializeMatrixIndices()
for (int vIdx = 0; vIdx < numVertices; vIdx++)
{
- int globalVertIdx = problem_.variables().vertexMapper().map(*eIt, vIdx, dim);
+ int vIdxGlobal = problem_.variables().vertexMapper().map(*eIt, vIdx, dim);
- InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(globalVertIdx);
+ InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(vIdxGlobal);
for (int subVolumeIdx = 0; subVolumeIdx < InteractionVolume::subVolumeTotalNum; subVolumeIdx++)
{
if (interactionVolume.hasSubVolumeElement(subVolumeIdx))
@@ -435,9 +435,9 @@ void FvMpfaL3dPressure2pAdaptive<TypeTag>::assemble()
continue;
}
#endif
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(globalVertIdx);
+ InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(vIdxGlobal);
// inner interactionvolume
if (interactionVolume.isInnerVolume())
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressurevelocity2p.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressurevelocity2p.hh
index c16a3b4764b9b0433979055cd817e7fb91765ff7..232a4dba4c99c6bee259f61edcd05d1b6d25465f 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressurevelocity2p.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressurevelocity2p.hh
@@ -218,9 +218,9 @@ void FvMpfaL3dPressureVelocity2p<TypeTag>::calculateVelocity()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(globalVertIdx);
+ InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(vIdxGlobal);
// inner interactionvolume
if (interactionVolume.isInnerVolume())
@@ -318,10 +318,10 @@ void FvMpfaL3dPressureVelocity2p<TypeTag>::calculateVelocity(const Intersection&
{
int localVertIdx = referenceElement.subEntity(indexInInside, 1, vIdx, dim);
- int globalVertIdx = problem_.variables().index(
+ int vIdxGlobal = problem_.variables().index(
*((*elementPtrI).template subEntity < dim > (localVertIdx)));
- InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(globalVertIdx);
+ InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(vIdxGlobal);
if (interactionVolume.isInnerVolume())
{
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressurevelocity2padaptive.hh b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressurevelocity2padaptive.hh
index fe2a15eff64fdf34b56bd7cde137852924b40340..5bebaee54da2ad71b44865b706e36259f265dded 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressurevelocity2padaptive.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/lmethod/fvmpfal3dpressurevelocity2padaptive.hh
@@ -219,9 +219,9 @@ void FvMpfaL3dPressureVelocity2pAdaptive<TypeTag>::calculateVelocity()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(globalVertIdx);
+ InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(vIdxGlobal);
// inner interactionvolume
if (interactionVolume.isInnerVolume())
@@ -337,20 +337,20 @@ void FvMpfaL3dPressureVelocity2pAdaptive<TypeTag>::calculateVelocity(const Inter
cellDataJ.fluxData().setUpwindPotential(nPhaseIdx, indexInOutside, 0);
}
- std::set<int> globalVertIdx;
+ std::set<int> vIdxGlobal;
if (levelI >= levelJ)
{
- globalVertIdx = this->interactionVolumes_.faceVerticeIndices(globalIdxI, indexInInside);
+ vIdxGlobal = this->interactionVolumes_.faceVerticeIndices(globalIdxI, indexInInside);
}
else
{
- globalVertIdx = this->interactionVolumes_.faceVerticeIndices(globalIdxJ, indexInOutside);
+ vIdxGlobal = this->interactionVolumes_.faceVerticeIndices(globalIdxJ, indexInOutside);
}
- std::set<int>::iterator itEnd = globalVertIdx.end();
+ std::set<int>::iterator itEnd = vIdxGlobal.end();
- for (std::set<int>::iterator vIdxIt = globalVertIdx.begin(); vIdxIt != itEnd; ++vIdxIt)
+ for (std::set<int>::iterator vIdxIt = vIdxGlobal.begin(); vIdxIt != itEnd; ++vIdxIt)
{
InteractionVolume& interactionVolume = this->interactionVolumes_.interactionVolume(*vIdxIt);
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/omethod/fvmpfao2dpressure2p.hh b/dumux/decoupled/2p/diffusion/fvmpfa/omethod/fvmpfao2dpressure2p.hh
index 435f3409b51aa6a8e259986645538b2da7e0a500..8588f180902845438ec25548dfb15cf8ec4c26de 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/omethod/fvmpfao2dpressure2p.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/omethod/fvmpfao2dpressure2p.hh
@@ -1355,9 +1355,9 @@ void FvMpfaO2dPressure2p<TypeTag>::assemble()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = interactionVolumes_[vIdxGlobal];
if (interactionVolume.isInnerVolume())
{
diff --git a/dumux/decoupled/2p/diffusion/fvmpfa/omethod/fvmpfao2dpressurevelocity2p.hh b/dumux/decoupled/2p/diffusion/fvmpfa/omethod/fvmpfao2dpressurevelocity2p.hh
index 66973867e83a0d636a050bf0990a6f6c69c89849..c5a50f7cb24ddb276dca25248245d25d8cefef80 100644
--- a/dumux/decoupled/2p/diffusion/fvmpfa/omethod/fvmpfao2dpressurevelocity2p.hh
+++ b/dumux/decoupled/2p/diffusion/fvmpfa/omethod/fvmpfao2dpressurevelocity2p.hh
@@ -225,9 +225,9 @@ void FvMpfaO2dPressureVelocity2p<TypeTag>::calculateVelocity()
VertexIterator vEndIt = problem_.gridView().template end<dim>();
for (VertexIterator vIt = problem_.gridView().template begin<dim>(); vIt != vEndIt; ++vIt)
{
- int globalVertIdx = problem_.variables().index(*vIt);
+ int vIdxGlobal = problem_.variables().index(*vIt);
- InteractionVolume& interactionVolume = this->interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = this->interactionVolumes_[vIdxGlobal];
if (interactionVolume.isInnerVolume())
{
@@ -317,10 +317,10 @@ void FvMpfaO2dPressureVelocity2p<TypeTag>::calculateVelocity(const Intersection&
{
int localVertIdx = referenceElement.subEntity(indexInInside, dim - 1, vIdx, dim);
- int globalVertIdx = problem_.variables().index(
+ int vIdxGlobal = problem_.variables().index(
*((*elementPtrI).template subEntity < dim > (localVertIdx)));
- InteractionVolume& interactionVolume = this->interactionVolumes_[globalVertIdx];
+ InteractionVolume& interactionVolume = this->interactionVolumes_[vIdxGlobal];
if (interactionVolume.isInnerVolume())
{
diff --git a/dumux/decoupled/2p2c/fv3dpressure2p2cadaptive.hh b/dumux/decoupled/2p2c/fv3dpressure2p2cadaptive.hh
index c217bde8165ba9006e349d1415283912e2a539f2..a6b100bfe8197546b74018c2663d4c108e0f76e0 100644
--- a/dumux/decoupled/2p2c/fv3dpressure2p2cadaptive.hh
+++ b/dumux/decoupled/2p2c/fv3dpressure2p2cadaptive.hh
@@ -1684,9 +1684,9 @@ int FV3dPressure2P2CAdaptive<TypeTag>::computeTransmissibilities(const Intersect
#endif
// get Interaction Volume object
- int globalVertIdx = problem().variables().index(*outerCornerPtr);
+ int vIdxGlobal = problem().variables().index(*outerCornerPtr);
InteractionVolume& interactionVolume
- = interactionVolumesContainer_->interactionVolume(globalVertIdx);
+ = interactionVolumesContainer_->interactionVolume(vIdxGlobal);
// abort if we are on boundary
if(interactionVolume.isBoundaryInteractionVolume())
@@ -1754,10 +1754,10 @@ int FV3dPressure2P2CAdaptive<TypeTag>::computeTransmissibilities(const Intersect
if(vPtrSmall != outerCornerPtr
&& ((vertexOnInterface - vertexOnElement).two_norm()<1e-5))
{
- int globalVertIdx = problem().variables().index(*vPtrSmall);
+ int vIdxGlobal = problem().variables().index(*vPtrSmall);
// acess interactionVolume
InteractionVolume& interactionVolume
- = interactionVolumesContainer_->interactionVolume(globalVertIdx);
+ = interactionVolumesContainer_->interactionVolume(vIdxGlobal);
if(interactionVolume.isBoundaryInteractionVolume())
continue;
diff --git a/dumux/freeflow/stokes/stokesvolumevariables.hh b/dumux/freeflow/stokes/stokesvolumevariables.hh
index aa84b6b2e09409253f3bb49ecef11fa35d22871f..4ffffb350e66349cfe37322fee17af424585e8f4 100644
--- a/dumux/freeflow/stokes/stokesvolumevariables.hh
+++ b/dumux/freeflow/stokes/stokesvolumevariables.hh
@@ -126,7 +126,7 @@ public:
Scalar h = Implementation::enthalpy_(fluidState, paramCache, phaseIdx);
fluidState.setEnthalpy(phaseIdx, h);
-// int globalVertIdx = problem.model().dofMapper().map(element, scvIdx, dim);
+// int vIdxGlobal = problem.model().dofMapper().map(element, scvIdx, dim);
}
/*!
diff --git a/dumux/geomechanics/el2p/el2passembler.hh b/dumux/geomechanics/el2p/el2passembler.hh
index 9f9fb05424cc26c6641fef71942534eb9ffe804d..6fd017151f37fdf5e8769dc03d7b1c4a0dd6c7b8 100644
--- a/dumux/geomechanics/el2p/el2passembler.hh
+++ b/dumux/geomechanics/el2p/el2passembler.hh
@@ -341,11 +341,11 @@ public:
// if yes, the element color is also red, else it is not
// red, i.e. green for the mean time
- int globalElemIdx = elementMapper_().map(*eIt);
+ int eIdxGlobal = elementMapper_().map(*eIt);
if (isRed)
- elementColor_[globalElemIdx] = Red;
+ elementColor_[eIdxGlobal] = Red;
else
- elementColor_[globalElemIdx] = Green;
+ elementColor_[eIdxGlobal] = Green;
}
// Mark yellow vertices (as orange for the mean time)
@@ -442,13 +442,13 @@ public:
/*!
* \brief Returns the reassemble color of a vertex
*
- * \param globalVertIdx The global index of the vertex.
+ * \param vIdxGlobal The global index of the vertex.
*/
- int vertexColor(int globalVertIdx) const
+ int vertexColor(int vIdxGlobal) const
{
if (!enablePartialReassemble)
return Red; // reassemble unconditionally!
- return vertexColor_[globalVertIdx];
+ return vertexColor_[vIdxGlobal];
}
/*!
diff --git a/dumux/geomechanics/el2p/el2pbasemodel.hh b/dumux/geomechanics/el2p/el2pbasemodel.hh
index 62ebbee0ebb7e1afdcc47b4ef4f9ceb28a36c6dc..a54accc6b08c12f3c57273cfc465d5fd41e4b357 100644
--- a/dumux/geomechanics/el2p/el2pbasemodel.hh
+++ b/dumux/geomechanics/el2p/el2pbasemodel.hh
@@ -396,12 +396,12 @@ public:
* \brief Returns the relative error between two vectors of
* primary variables.
*
- * \param dofIdx The global index of the control volume's
- * associated degree of freedom
+ * \param dofIdxGlobal The global index of the control volume's
+ * associated degree of freedom
* \param priVars1 The first vector of primary variables
* \param priVars2 The second vector of primary variables
*/
- Scalar relativeErrorDof(const int dofIdx,
+ Scalar relativeErrorDof(const int dofIdxGlobal,
const PrimaryVariables &priVars1,
const PrimaryVariables &priVars2)
{
@@ -558,17 +558,17 @@ public:
void serializeEntity(std::ostream &outstream,
const Entity &entity)
{
- int dofIdx = dofMapper().map(entity);
+ int dofIdxGlobal = dofMapper().map(entity);
// write phase state
if (!outstream.good()) {
DUNE_THROW(Dune::IOError,
"Could not serialize vertex "
- << dofIdx);
+ << dofIdxGlobal);
}
for (int eqIdx = 0; eqIdx < numEq; ++eqIdx) {
- outstream << curSol()[dofIdx][eqIdx] << " ";
+ outstream << curSol()[dofIdxGlobal][eqIdx] << " ";
}
}
@@ -586,14 +586,14 @@ public:
void deserializeEntity(std::istream &instream,
const Entity &entity)
{
- int dofIdx = dofMapper().map(entity);
+ int dofIdxGlobal = dofMapper().map(entity);
for (int eqIdx = 0; eqIdx < numEq; ++eqIdx) {
if (!instream.good())
DUNE_THROW(Dune::IOError,
"Could not deserialize vertex "
- << dofIdx);
- instream >> curSol()[dofIdx][eqIdx];
+ << dofIdxGlobal);
+ instream >> curSol()[dofIdxGlobal][eqIdx];
}
}
@@ -979,8 +979,8 @@ protected:
1,
faceVertIdx,
dim);
- int globalVertIdx = vertexMapper().map(*eIt, elemVertIdx, dim);
- boundaryIndices_[globalVertIdx] = true;
+ int vIdxGlobal = vertexMapper().map(*eIt, elemVertIdx, dim);
+ boundaryIndices_[vIdxGlobal] = true;
}
}
else
diff --git a/dumux/geomechanics/el2p/el2pmodel.hh b/dumux/geomechanics/el2p/el2pmodel.hh
index f3ad422ebd9662770135e0ee985fe06e5acddaf2..a89c99e33a9c44e8b235e25322c56d1112a8b422 100644
--- a/dumux/geomechanics/el2p/el2pmodel.hh
+++ b/dumux/geomechanics/el2p/el2pmodel.hh
@@ -152,26 +152,26 @@ public:
const Entity &entity)
{
// vertex index
- int dofIdx = this->dofMapper().map(entity);
+ int dofIdxGlobal = this->dofMapper().map(entity);
// write phase state
if (!outStream.good()) {
DUNE_THROW(Dune::IOError,
"Could not serialize vertex "
- << dofIdx);
+ << dofIdxGlobal);
}
int numScv = this->gridView().size(dim);
// get p and S entries for this vertex
for (int eqIdx = 0; eqIdx < numEq-dim; ++eqIdx) {
- outStream << this->curSol().base()[dofIdx*(numEq-dim) + eqIdx][0]<<" ";
+ outStream << this->curSol().base()[dofIdxGlobal*(numEq-dim) + eqIdx][0]<<" ";
}
// get ux, uy, uz entries for this vertex
for (int j = 0; j< dim; ++j)
- outStream << this->curSol().base()[numScv*(numEq-dim) + dofIdx*dim + j][0] <<" ";
+ outStream << this->curSol().base()[numScv*(numEq-dim) + dofIdxGlobal*dim + j][0] <<" ";
- int vIdx = this->dofMapper().map(entity);
+ int vIdxGlobal = this->dofMapper().map(entity);
if (!outStream.good())
- DUNE_THROW(Dune::IOError, "Could not serialize vertex " << vIdx);
+ DUNE_THROW(Dune::IOError, "Could not serialize vertex " << vIdxGlobal);
}
/*!
@@ -192,20 +192,20 @@ public:
template<class Entity>
void deserializeEntity(std::istream &inStream, const Entity &entity)
{
- int dofIdx = this->dofMapper().map(entity);
+ int dofIdxGlobal = this->dofMapper().map(entity);
if (!inStream.good()){
DUNE_THROW(Dune::IOError,
"Could not deserialize vertex "
- << dofIdx);
+ << dofIdxGlobal);
}
int numScv = this->gridView().size(dim);
for (int eqIdx = 0; eqIdx < numEq-dim; ++eqIdx) {
// read p and S entries for this vertex
- inStream >> this->curSol().base()[dofIdx*(numEq-dim) + eqIdx][0];}
+ inStream >> this->curSol().base()[dofIdxGlobal*(numEq-dim) + eqIdx][0];}
for (int j = 0; j< dim; ++j){
// read ux, uy, uz entries for this vertex
- inStream >> this->curSol().base()[numScv*(numEq-dim) + dofIdx*dim + j][0];}
+ inStream >> this->curSol().base()[numScv*(numEq-dim) + dofIdxGlobal*dim + j][0];}
}
diff --git a/dumux/implicit/box/boxassembler.hh b/dumux/implicit/box/boxassembler.hh
index 1b25654d9f5729088e99148da33d172ec79024f6..5e79e0376c06aa5ab1c94c07ef1e1436f335ab0a 100644
--- a/dumux/implicit/box/boxassembler.hh
+++ b/dumux/implicit/box/boxassembler.hh
@@ -119,11 +119,11 @@ private:
// if yes, the element color is also red, else it is not
// red, i.e. green for the mean time
- int globalElemIdx = this->elementMapper_().map(*eIt);
+ int eIdxGlobal = this->elementMapper_().map(*eIt);
if (isRed)
- this->elementColor_[globalElemIdx] = ParentType::Red;
+ this->elementColor_[eIdxGlobal] = ParentType::Red;
else
- this->elementColor_[globalElemIdx] = ParentType::Green;
+ this->elementColor_[eIdxGlobal] = ParentType::Green;
}
// Mark yellow vertices (as orange for the mean time)
@@ -309,8 +309,8 @@ private:
void assembleElement_(const Element &element)
{
if (this->enablePartialReassemble_()) {
- int globalElemIdx = this->model_().elementMapper().map(element);
- if (this->elementColor_[globalElemIdx] == ParentType::Green) {
+ int eIdxGlobal = this->model_().elementMapper().map(element);
+ if (this->elementColor_[eIdxGlobal] == ParentType::Green) {
++this->greenElems_;
assembleGreenElement_(element);
diff --git a/dumux/implicit/box/intersectiontovertexbc.hh b/dumux/implicit/box/intersectiontovertexbc.hh
index 970343ba9f91c55155f67064a451b5f39e177821..fc9f5bc6b5a2520fd58eb5b34b70bd5ce5185840 100644
--- a/dumux/implicit/box/intersectiontovertexbc.hh
+++ b/dumux/implicit/box/intersectiontovertexbc.hh
@@ -83,11 +83,11 @@ public:
for (int faceVertIdx = 0; faceVertIdx < numFaceVerts; ++faceVertIdx)
{
int elemVertIdx = refElement.subEntity(faceIdx, 1, faceVertIdx, dim);
- int globalVertIdx = problem.vertexMapper().map(*eIt, elemVertIdx, dim);
+ int vIdxGlobal = problem.vertexMapper().map(*eIt, elemVertIdx, dim);
for (int eqIdx = 0; eqIdx < numEq; eqIdx++)
if (bcTypes.isDirichlet(eqIdx))
- vertexBC[globalVertIdx].setDirichlet(eqIdx);
+ vertexBC[vIdxGlobal].setDirichlet(eqIdx);
}
}
}
diff --git a/dumux/implicit/cellcentered/ccassembler.hh b/dumux/implicit/cellcentered/ccassembler.hh
index a94a61a0dbde70c0a49944a15331ed4ef304eb5b..228b9ca708c1fac0c70a8a6a52679f7e88e042ed 100644
--- a/dumux/implicit/cellcentered/ccassembler.hh
+++ b/dumux/implicit/cellcentered/ccassembler.hh
@@ -182,8 +182,8 @@ private:
void assembleElement_(const Element &element)
{
if (this->enablePartialReassemble_()) {
- int globalElemIdx = this->model_().elementMapper().map(element);
- if (this->elementColor_[globalElemIdx] == ParentType::Green) {
+ int eIdxGlobal = this->model_().elementMapper().map(element);
+ if (this->elementColor_[eIdxGlobal] == ParentType::Green) {
++this->greenElems_;
assembleGreenElement_(element);
diff --git a/dumux/implicit/common/implicitassembler.hh b/dumux/implicit/common/implicitassembler.hh
index 6bfc13b9de8f0e74aa694edfe7c3fd7e6ba33d56..7e7e27ac01d958f801fca276dccc9b237a36642b 100644
--- a/dumux/implicit/common/implicitassembler.hh
+++ b/dumux/implicit/common/implicitassembler.hh
@@ -340,13 +340,13 @@ public:
/*!
* \brief Returns the reassemble color of a vertex
*
- * \param globalVertIdx The global index of the vertex.
+ * \param vIdxGlobal The global index of the vertex.
*/
- int vertexColor(const int globalVertIdx) const
+ int vertexColor(const int vIdxGlobal) const
{
if (!enablePartialReassemble_())
return Red; // reassemble unconditionally!
- return vertexColor_[globalVertIdx];
+ return vertexColor_[vIdxGlobal];
}
/*!
diff --git a/dumux/implicit/common/implicitmodel.hh b/dumux/implicit/common/implicitmodel.hh
index 2954f01a3f6d16fa8f49c3101027acac421f05ef..82bbfa61ac6121bb746473ec0e65e05bd6a2faaf 100644
--- a/dumux/implicit/common/implicitmodel.hh
+++ b/dumux/implicit/common/implicitmodel.hh
@@ -397,12 +397,12 @@ public:
* \brief Returns the relative error between two vectors of
* primary variables.
*
- * \param dofIdx The global index of the control volume's
- * associated degree of freedom
+ * \param dofIdxGlobal The global index of the control volume's
+ * associated degree of freedom
* \param priVars1 The first vector of primary variables
* \param priVars2 The second vector of primary variables
*/
- Scalar relativeErrorDof(const int dofIdx,
+ Scalar relativeErrorDof(const int dofIdxGlobal,
const PrimaryVariables &priVars1,
const PrimaryVariables &priVars2)
{
@@ -559,17 +559,17 @@ public:
void serializeEntity(std::ostream &outstream,
const Entity &entity)
{
- int dofIdx = dofMapper().map(entity);
+ int dofIdxGlobal = dofMapper().map(entity);
// write phase state
if (!outstream.good()) {
DUNE_THROW(Dune::IOError,
"Could not serialize vertex "
- << dofIdx);
+ << dofIdxGlobal);
}
for (int eqIdx = 0; eqIdx < numEq; ++eqIdx) {
- outstream << curSol()[dofIdx][eqIdx] << " ";
+ outstream << curSol()[dofIdxGlobal][eqIdx] << " ";
}
}
@@ -587,14 +587,14 @@ public:
void deserializeEntity(std::istream &instream,
const Entity &entity)
{
- int dofIdx = dofMapper().map(entity);
+ int dofIdxGlobal = dofMapper().map(entity);
for (int eqIdx = 0; eqIdx < numEq; ++eqIdx) {
if (!instream.good())
DUNE_THROW(Dune::IOError,
"Could not deserialize vertex "
- << dofIdx);
- instream >> curSol()[dofIdx][eqIdx];
+ << dofIdxGlobal);
+ instream >> curSol()[dofIdxGlobal][eqIdx];
}
}
@@ -980,8 +980,8 @@ protected:
1,
faceVertIdx,
dim);
- int globalVertIdx = vertexMapper().map(*eIt, elemVertIdx, dim);
- boundaryIndices_[globalVertIdx] = true;
+ int vIdxGlobal = vertexMapper().map(*eIt, elemVertIdx, dim);
+ boundaryIndices_[vIdxGlobal] = true;
}
}
else
diff --git a/dumux/io/artgridcreator.hh b/dumux/io/artgridcreator.hh
index 42271888547ce5625e6b67f00224cc33c74c42b9..af2f0c610039d53c5a1f7de3a5fad1bdeb10853e 100644
--- a/dumux/io/artgridcreator.hh
+++ b/dumux/io/artgridcreator.hh
@@ -278,7 +278,7 @@ public:
Dune::FieldVector<double,3> point(0);
#if PLOT
std::cout << "=====================================" << std::endl;
- std::cout << "globalElemIdx " << i << std::endl;
+ std::cout << "eIdxGlobal " << i << std::endl;
std::cout << "=====================================" << std::endl;
#endif
int edgeIdx = 0;