KratosMultiphysics
KRATOS Multiphysics (Kratos) is a framework for building parallel, multi-disciplinary simulation software, aiming at modularity, extensibility, and high performance. Kratos is written in C++, and counts with an extensive Python interface.
Kratos::NormalCalculationUtils Member List

This is the complete list of members for Kratos::NormalCalculationUtils, including all inherited members.

CalculateNormals(ModelPart &rModelPart, const bool EnforceGenericGeometryAlgorithm=false, const bool ConsiderUnitNormal=false, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtils
CalculateNormalShapeDerivativesOnSimplex(ConditionsArrayType &rConditions, const std::size_t Dimension)Kratos::NormalCalculationUtils
CalculateNormalsInContainer(ModelPart &rModelPart, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtils
CalculateNormalsInContainer(ModelPart &rModelPart, const Variable< array_1d< double, 3 >> &rNormalVariable)Kratos::NormalCalculationUtils
CalculateOnSimplex(ConditionsArrayType &rConditions, const std::size_t Dimension, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtils
CalculateOnSimplex(ModelPart &rModelPart, const std::size_t Dimension, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtils
CalculateOnSimplex(ModelPart &rModelPart, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtils
CalculateOnSimplex(ModelPart &rModelPart, const std::size_t Dimension, const Variable< TValueType > &rVariable, const TValueType Zero, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtilsinline
CalculateOnSimplex(ModelPart &rModelPart, const std::size_t Dimension, const Variable< TValueType > &rVariable)Kratos::NormalCalculationUtilsinline
CalculateOnSimplex(ModelPart &rModelPart, const std::size_t Dimension, const Variable< TValueType > &rVariable, const TValueType Zero, const double rAlpha, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtilsinline
CalculateOnSimplexLowMemory(ModelPart &rModelPart, int Dimension, const Variable< TValueType > &rVariable, const TValueType Zero, const double rAlpha, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtilsinline
CalculateOnSimplexNonHistorical(ConditionsArrayType &rConditions, const std::size_t Dimension, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtils
CalculateOnSimplexNonHistorical(ModelPart &rModelPart, const std::size_t Dimension, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtils
CalculateOnSimplexNonHistorical(ModelPart &rModelPart, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtils
CalculateUnitNormals(ModelPart &rModelPart, const bool EnforceGenericGeometryAlgorithm=false, const NormalVariableType &rNormalVariable=NORMAL)Kratos::NormalCalculationUtils
CalculateUnitNormals(ModelPart &rModelPart, const bool EnforceGenericGeometryAlgorithm, const Variable< array_1d< double, 3 >> &rNormalVariable)Kratos::NormalCalculationUtils
ComputeUnitNormalsFromAreaNormals(ModelPart &rModelPart, const Variable< array_1d< double, 3 >> &rNormalVariable)Kratos::NormalCalculationUtils
ConditionsArrayType typedefKratos::NormalCalculationUtils
ConditionType typedefKratos::NormalCalculationUtils
GeometryType typedefKratos::NormalCalculationUtils
GetContainer(ModelPart &rModelPart)Kratos::NormalCalculationUtils
IndexType typedefKratos::NormalCalculationUtils
InitializeNormals(ModelPart &rModelPart, const Variable< array_1d< double, 3 >> &rNormalVariable)Kratos::NormalCalculationUtils
NodeType typedefKratos::NormalCalculationUtils
NormalVariableType typedefKratos::NormalCalculationUtils
SizeType typedefKratos::NormalCalculationUtils
SwapNormals(ModelPart &rModelPart)Kratos::NormalCalculationUtils