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::DragResponseFunction< TDim > Member List

This is the complete list of members for Kratos::DragResponseFunction< TDim >, including all inherited members.

AdjointResponseFunction()Kratos::AdjointResponseFunctioninline
CalculateFirstDerivativesGradient(const Element &rAdjointElement, const Matrix &rResidualGradient, Vector &rResponseGradient, const ProcessInfo &rProcessInfo) overrideKratos::DragResponseFunction< TDim >inlinevirtual
CalculateFirstDerivativesGradient(const Condition &rAdjointCondition, const Matrix &rResidualGradient, Vector &rResponseGradient, const ProcessInfo &rProcessInfo) overrideKratos::DragResponseFunction< TDim >inlinevirtual
CalculateGradient(const Element &rAdjointElement, const Matrix &rResidualGradient, Vector &rResponseGradient, const ProcessInfo &rProcessInfo) overrideKratos::DragResponseFunction< TDim >inlinevirtual
CalculateGradient(const Condition &rAdjointCondition, const Matrix &rResidualGradient, Vector &rResponseGradient, const ProcessInfo &rProcessInfo) overrideKratos::DragResponseFunction< TDim >inlinevirtual
CalculatePartialSensitivity(Element &rAdjointElement, const Variable< array_1d< double, 3 >> &rVariable, const Matrix &rSensitivityMatrix, Vector &rSensitivityGradient, const ProcessInfo &rProcessInfo) overrideKratos::DragResponseFunction< TDim >inlinevirtual
CalculatePartialSensitivity(Condition &rAdjointCondition, const Variable< array_1d< double, 3 >> &rVariable, const Matrix &rSensitivityMatrix, Vector &rSensitivityGradient, const ProcessInfo &rProcessInfo) overrideKratos::DragResponseFunction< TDim >inlinevirtual
Kratos::AdjointResponseFunction::CalculatePartialSensitivity(Element &rAdjointElement, const Variable< double > &rVariable, const Matrix &rSensitivityMatrix, Vector &rSensitivityGradient, const ProcessInfo &rProcessInfo)Kratos::AdjointResponseFunctioninlinevirtual
Kratos::AdjointResponseFunction::CalculatePartialSensitivity(Condition &rAdjointCondition, const Variable< double > &rVariable, const Matrix &rSensitivityMatrix, Vector &rSensitivityGradient, const ProcessInfo &rProcessInfo)Kratos::AdjointResponseFunctioninlinevirtual
CalculateSecondDerivativesGradient(const Element &rAdjointElement, const Matrix &rResidualGradient, Vector &rResponseGradient, const ProcessInfo &rProcessInfo) overrideKratos::DragResponseFunction< TDim >inlinevirtual
CalculateSecondDerivativesGradient(const Condition &rAdjointCondition, const Matrix &rResidualGradient, Vector &rResponseGradient, const ProcessInfo &rProcessInfo) overrideKratos::DragResponseFunction< TDim >inlinevirtual
CalculateValue(ModelPart &rModelPart) overrideKratos::DragResponseFunction< TDim >inlinevirtual
DragResponseFunction(Parameters Settings, ModelPart &rModelPart)Kratos::DragResponseFunction< TDim >inline
FinalizeSolutionStep()Kratos::AdjointResponseFunctioninlinevirtual
Initialize() overrideKratos::DragResponseFunction< TDim >inlinevirtual
InitializeSolutionStep()Kratos::AdjointResponseFunctioninlinevirtual
KRATOS_CLASS_POINTER_DEFINITION(DragResponseFunction)Kratos::DragResponseFunction< TDim >
Kratos::AdjointResponseFunction::KRATOS_CLASS_POINTER_DEFINITION(AdjointResponseFunction)Kratos::AdjointResponseFunction
~AdjointResponseFunction()Kratos::AdjointResponseFunctioninlinevirtual
~DragResponseFunction() overrideKratos::DragResponseFunction< TDim >inline