Commit c9507095 authored by Thomas Fetzer's avatar Thomas Fetzer
Browse files

[ excessive line length ] fixed doxygen comments and poor line breaks

for all commits r12427-r12432

reviewed by Benjamin


git-svn-id: svn://svn.iws.uni-stuttgart.de/DUMUX/dumux/trunk@12439 2fb0f335-1f38-0410-981e-8018bf24f1b0
parent 8a517258
......@@ -72,13 +72,13 @@ NEW_PROP_TAG( NonwettingPhase); //!< The non-wetting phase of a two-phase model
NEW_PROP_TAG( FluidSystem ); //!< Defines the fluid system
NEW_PROP_TAG( FluidState );//!< Defines the fluid state
//!< Scaling factor for the error term (term to damp unphysical saturation overshoots via pressure correction)
//! Scaling factor for the error term (term to damp unphysical saturation overshoots via pressure correction)
NEW_PROP_TAG( ImpetErrorTermFactor );
//!< Lower threshold used for the error term evaluation (term to damp unphysical saturation overshoots via pressure correction)
//! Lower threshold used for the error term evaluation (term to damp unphysical saturation overshoots via pressure correction)
NEW_PROP_TAG( ImpetErrorTermLowerBound );
//!< Upper threshold used for the error term evaluation (term to damp unphysical saturation overshoots via pressure correction)
//! Upper threshold used for the error term evaluation (term to damp unphysical saturation overshoots via pressure correction)
NEW_PROP_TAG( ImpetErrorTermUpperBound );
}
}
......
......@@ -560,9 +560,9 @@ private:
int vtkOutputLevel_;
static const bool compressibility_ = GET_PROP_VALUE(TypeTag, EnableCompressibility);
//!< gives kind of pressure used (\f$p_w\f$, \f$p_n\f$, \f$p_{global}\f$)
//! gives kind of pressure used (\f$p_w\f$, \f$p_n\f$, \f$p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$S_w\f$, \f$S_n\f$)
//! gives kind of saturation used (\f$S_w\f$, \f$S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
......
......@@ -231,9 +231,9 @@ private:
Scalar viscosity_[numPhases];
static const bool compressibility_ = GET_PROP_VALUE(TypeTag, EnableCompressibility);
//!< gives kind of pressure used (\f$p_w\f$, \f$p_n\f$, \f$p_{global}\f$)
//! gives kind of pressure used (\f$p_w\f$, \f$p_n\f$, \f$p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$S_w\f$, \f$S_n\f$)
//! gives kind of saturation used (\f$S_w\f$, \f$S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
......
......@@ -273,12 +273,12 @@ private:
int vtkOutputLevel_;
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
static const bool compressibility_ = GET_PROP_VALUE(TypeTag, EnableCompressibility);
//!< gives kind of pressure used (\f$p_w\f$, \f$p_n\f$, \f$p_{global}\f$)
//! gives kind of pressure used (\f$p_w\f$, \f$p_n\f$, \f$p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$S_w\f$, \f$S_n\f$)
//! gives kind of saturation used (\f$S_w\f$, \f$S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
......
......@@ -145,12 +145,12 @@ private:
Scalar density_[numPhases];
Scalar viscosity_[numPhases];
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
static const bool compressibility_ = GET_PROP_VALUE(TypeTag, EnableCompressibility);
//!< gives kind of pressure used (\f$p_w\f$, \f$p_n\f$, \f$p_{global}\f$)
//! gives kind of pressure used (\f$p_w\f$, \f$p_n\f$, \f$p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$S_w\f$, \f$S_n\f$)
//! gives kind of saturation used (\f$S_w\f$, \f$S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
......
......@@ -472,11 +472,11 @@ private:
int vtkOutputLevel_;
static constexpr Scalar threshold_ = 1e-15;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
/* Volume correction term to correct for unphysical saturation overshoots/undershoots.
......
......@@ -510,11 +510,11 @@ private:
int vtkOutputLevel_;
static constexpr Scalar threshold_ = 1e-15;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
Scalar evaluateErrorTerm_(CellData& cellData)
......
......@@ -208,9 +208,9 @@ private:
Scalar viscosity_[numPhases];
bool calcVelocityInTransport_;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
// end of template
......
......@@ -222,9 +222,9 @@ private:
Scalar viscosity_[numPhases];
bool calcVelocityInTransport_;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
// end of template
......
......@@ -266,11 +266,11 @@ protected:
int vtkOutputLevel_;
static constexpr Scalar threshold_ = 1e-15;
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
// end of template
......
......@@ -105,7 +105,7 @@ class FvMpfaL3dInteractionVolumeContainer
};
public:
//!< Type for storing an MPFA-interaction-volume. (Usually of type Dumux::FvMpfaL3dInteractionVolume or Dumux::FvMpfaL3dInteractionVolumeAdaptive)
//! Type for storing an MPFA-interaction-volume. (Usually of type Dumux::FvMpfaL3dInteractionVolume or Dumux::FvMpfaL3dInteractionVolumeAdaptive)
typedef typename GET_PROP_TYPE(TypeTag, MPFAInteractionVolume) InteractionVolume;
private:
......@@ -129,8 +129,8 @@ public:
interactionVolumes_.clear();
realFluxFaceArea_.clear();
realFluxFaceArea_.resize(problem_.gridView().size(dim), Dune::FieldVector<Dune::FieldVector<Scalar,
2>, 2 * dim>(Dune::FieldVector<Scalar, 2>(0.0)));
realFluxFaceArea_.resize(problem_.gridView().size(dim),
Dune::FieldVector<Dune::FieldVector<Scalar, 2>, 2 * dim>(Dune::FieldVector<Scalar, 2>(0.0)));
interactionVolumes_.resize(problem_.gridView().size(dim));
asImp_().storeInteractionVolumeInfo();
......
......@@ -158,9 +158,9 @@ class FvMpfaL3dPressure2p: public FVPressure<TypeTag>
typedef typename GET_PROP_TYPE(TypeTag, MPFAInteractionVolumeContainer) InteractionVolumeContainer;
typedef Dumux::FvMpfaL3dTransmissibilityCalculator<TypeTag> TransmissibilityCalculator;
public:
//!< Type including methods for calculation of MPFA transmissibilities
//! Type including methods for calculation of MPFA transmissibilities
typedef typename TransmissibilityCalculator::TransmissibilityType TransmissibilityType;
//!< Type for storing interaction volume information
//! Type for storing interaction volume information
typedef typename GET_PROP_TYPE(TypeTag, MPFAInteractionVolume) InteractionVolume;
protected:
//initializes the matrix to store the system of equations
......@@ -512,7 +512,7 @@ private:
protected:
InteractionVolumeContainer interactionVolumes_;//!<Global container of the stored interaction volumes
//!<The transmissibility calculator including methods for the MPFA transmissibility calculation
//! The transmissibility calculator including methods for the MPFA transmissibility calculation
TransmissibilityCalculator transmissibilityCalculator_;
private:
......@@ -538,11 +538,11 @@ private:
int vtkOutputLevel_;
static constexpr Scalar threshold_ = 1e-15;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
};
......
......@@ -161,9 +161,9 @@ class FvMpfaL3dPressure2pAdaptive: public FvMpfaL3dPressure2p<TypeTag>
typedef typename GET_PROP_TYPE(TypeTag, MPFAInteractionVolumeContainer) InteractionVolumeContainer;
typedef Dumux::FvMpfaL3dTransmissibilityCalculator<TypeTag> TransmissibilityCalculator;
public:
//!< Type including methods for calculation of MPFA transmissibilities
//! Type including methods for calculation of MPFA transmissibilities
typedef typename TransmissibilityCalculator::TransmissibilityType TransmissibilityType;
//!< Type for storing interaction volume information
//! Type for storing interaction volume information
typedef typename GET_PROP_TYPE(TypeTag, MPFAInteractionVolume) InteractionVolume;
protected:
......@@ -267,11 +267,11 @@ private:
Scalar viscosity_[numPhases];
static constexpr Scalar threshold_ = 1e-15;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
};
......@@ -1960,8 +1960,8 @@ void FvMpfaL3dPressure2pAdaptive<TypeTag>::assembleHangingNodeInteractionVolume(
caseL = this->transmissibilityCalculator_.transmissibilityCaseTwo(T, interactionVolume, lambda, 4, 0, 2,
1);
}
else if (hangingNodeType == InteractionVolume::fourSmallCellsDiag ||
(hangingNodeType == InteractionVolume::fourSmallCellsEdge && globalIdx5 != globalIdx7))
else if (hangingNodeType == InteractionVolume::fourSmallCellsDiag
|| (hangingNodeType == InteractionVolume::fourSmallCellsEdge && globalIdx5 != globalIdx7))
{
useCases[0] = false;
useCases[1] = true;
......@@ -2099,8 +2099,8 @@ void FvMpfaL3dPressure2pAdaptive<TypeTag>::assembleHangingNodeInteractionVolume(
caseL = this->transmissibilityCalculator_.transmissibilityCaseOne(T, interactionVolume, lambda, 1, 5, 3,
0);
}
else if (hangingNodeType == InteractionVolume::fourSmallCellsDiag ||
(hangingNodeType == InteractionVolume::fourSmallCellsEdge && globalIdx5 != globalIdx7))
else if (hangingNodeType == InteractionVolume::fourSmallCellsDiag
|| (hangingNodeType == InteractionVolume::fourSmallCellsEdge && globalIdx5 != globalIdx7))
{
useCases[0] = true;
useCases[1] = false;
......
......@@ -205,9 +205,9 @@ private:
Scalar viscosity_[numPhases];
bool calcVelocityInTransport_;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
// end of template
......
......@@ -205,9 +205,9 @@ private:
Scalar viscosity_[numPhases];
bool calcVelocityInTransport_;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
// end of template
......
......@@ -280,11 +280,11 @@ private:
int vtkOutputLevel_;
static constexpr Scalar threshold_ = 1e-15;
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
// end of template
......
......@@ -199,11 +199,11 @@ private:
Scalar viscosity_[numPhases];
static constexpr Scalar threshold_ = 1e-15;
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
// end of template
......@@ -1514,14 +1514,14 @@ void FvMpfaL3dVelocity2pAdaptive<TypeTag>::calculateHangingNodeInteractionVolume
caseL = transmissibilityCalculator_().transmissibility(T, interactionVolume, lambda, 4, 0, 6,
2, 5, 1);
}
else if (hangingNodeType == InteractionVolume::twoSmallCells ||
hangingNodeType == InteractionVolume::fourSmallCellsFace)
else if (hangingNodeType == InteractionVolume::twoSmallCells
|| hangingNodeType == InteractionVolume::fourSmallCellsFace)
{
caseL = transmissibilityCalculator_().transmissibilityCaseTwo(T, interactionVolume, lambda, 4, 0, 2,
1);
}
else if (hangingNodeType == InteractionVolume::fourSmallCellsDiag ||
(hangingNodeType == InteractionVolume::fourSmallCellsEdge && globalIdx5 != globalIdx7))
else if (hangingNodeType == InteractionVolume::fourSmallCellsDiag
|| (hangingNodeType == InteractionVolume::fourSmallCellsEdge && globalIdx5 != globalIdx7))
{
useCases[0] = false;
useCases[1] = true;
......@@ -1642,14 +1642,14 @@ void FvMpfaL3dVelocity2pAdaptive<TypeTag>::calculateHangingNodeInteractionVolume
caseL = transmissibilityCalculator_().transmissibility(T, interactionVolume, lambda, 1, 5, 3,
7, 0, 4);
}
else if (hangingNodeType == InteractionVolume::twoSmallCells ||
hangingNodeType == InteractionVolume::fourSmallCellsFace)
else if (hangingNodeType == InteractionVolume::twoSmallCells
|| hangingNodeType == InteractionVolume::fourSmallCellsFace)
{
caseL = transmissibilityCalculator_().transmissibilityCaseOne(T, interactionVolume, lambda, 1, 5, 3,
0);
}
else if (hangingNodeType == InteractionVolume::fourSmallCellsDiag ||
(hangingNodeType == InteractionVolume::fourSmallCellsEdge && globalIdx5 != globalIdx7))
else if (hangingNodeType == InteractionVolume::fourSmallCellsDiag
|| (hangingNodeType == InteractionVolume::fourSmallCellsEdge && globalIdx5 != globalIdx7))
{
useCases[0] = true;
useCases[1] = false;
......
......@@ -499,11 +499,11 @@ private:
int vtkOutputLevel_;
static constexpr Scalar threshold_ = 1e-15;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
};
......
......@@ -212,9 +212,9 @@ private:
Scalar density_[numPhases];
Scalar viscosity_[numPhases];
bool calcVelocityInTransport_;
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
// end of template
......
......@@ -261,11 +261,11 @@ private:
int vtkOutputLevel_;
static constexpr Scalar threshold_ = 1e-15;
//!< gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
//! gives kind of velocity used (\f$ 0 = v_w\f$, \f$ 1 = v_n\f$, \f$ 2 = v_t\f$)
static const int velocityType_ = GET_PROP_VALUE(TypeTag, VelocityFormulation);
//!< gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
//! gives kind of pressure used (\f$ 0 = p_w\f$, \f$ 1 = p_n\f$, \f$ 2 = p_{global}\f$)
static const int pressureType_ = GET_PROP_VALUE(TypeTag, PressureFormulation);
//!< gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
//! gives kind of saturation used (\f$ 0 = S_w\f$, \f$ 1 = S_n\f$)
static const int saturationType_ = GET_PROP_VALUE(TypeTag, SaturationFormulation);
};
// end of template
......
Supports Markdown
0% or .
You are about to add 0 people to the discussion. Proceed with caution.
Finish editing this message first!
Please register or to comment