Current class provides an implementation for standard builder and solving operations.
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| | NodalResidualBasedEliminationBuilderAndSolver (typename TLinearSolver::Pointer pNewLinearSystemSolver) |
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| | ~NodalResidualBasedEliminationBuilderAndSolver () override |
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| void | SetMaterialPropertiesToFluid (ModelPart::NodeIterator itNode, double &density, double &deviatoricCoeff, double &volumetricCoeff, double timeInterval, double nodalVolume) |
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| void | BuildFluidNodally (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &A, TSystemVectorType &b) |
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| void | SystemSolve (TSystemMatrixType &A, TSystemVectorType &Dx, TSystemVectorType &b) override |
| | This is a call to the linear system solver. More...
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| void | SystemSolveWithPhysics (TSystemMatrixType &A, TSystemVectorType &Dx, TSystemVectorType &b, ModelPart &rModelPart) |
| | This is a call to the linear system solver (taking into account some physical particularities of the problem) More...
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| void | BuildAndSolve (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &A, TSystemVectorType &Dx, TSystemVectorType &b) override |
| | Function to perform the building and solving phase at the same time. More...
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| void | SetUpDofSet (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart) override |
| | Builds the list of the DofSets involved in the problem by "asking" to each element and condition its Dofs. More...
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| void | SetUpSystem (ModelPart &rModelPart) override |
| | Organises the dofset in order to speed up the building phase. More...
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| void | ResizeAndInitializeVectors (typename TSchemeType::Pointer pScheme, TSystemMatrixPointerType &pA, TSystemVectorPointerType &pDx, TSystemVectorPointerType &pb, ModelPart &rModelPart) override |
| | This method initializes and resizes the system of equations. More...
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| void | ApplyDirichletConditions (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &A, TSystemVectorType &Dx, TSystemVectorType &b) override |
| | Applies the dirichlet conditions. This operation may be very heavy or completely unexpensive depending on the implementation choosen and on how the System Matrix is built. More...
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| void | Clear () override |
| | This function is intended to be called at the end of the solution step to clean up memory storage not needed. More...
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| int | Check (ModelPart &rModelPart) override |
| | This function is designed to be called once to perform all the checks needed on the input provided. Checks can be "expensive" as the function is designed to catch user's errors. More...
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 Public Member Functions inherited from Kratos::BuilderAndSolver< TSparseSpace, TDenseSpace, TLinearSolver > |
| | BuilderAndSolver () |
| | Default constructor. More...
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| | BuilderAndSolver (typename TLinearSolver::Pointer pNewLinearSystemSolver, Parameters ThisParameters) |
| | Default constructor with Parameters. More...
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| | BuilderAndSolver (typename TLinearSolver::Pointer pNewLinearSystemSolver) |
| | Default constructor. More...
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| virtual | ~BuilderAndSolver () |
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| virtual ClassType::Pointer | Create (typename TLinearSolver::Pointer pNewLinearSystemSolver, Parameters ThisParameters) const |
| | Create method. More...
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| void | SetEchoLevel (int Level) |
| | It sets the level of echo for the solving strategy. More...
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| int | GetEchoLevel () const |
| | It returns the echo level. More...
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| virtual TSparseSpace::MatrixType & | GetConstraintRelationMatrix () |
| | This method returns constraint relation (T) matrix. More...
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| virtual TSparseSpace::VectorType & | GetConstraintConstantVector () |
| | This method returns constraint constant vector. More...
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| virtual std::string | Info () const |
| | Turn back information as a string. More...
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| virtual void | PrintInfo (std::ostream &rOStream) const |
| | Print information about this object. More...
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| virtual void | PrintData (std::ostream &rOStream) const |
| | Print object's data. More...
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| | KRATOS_CLASS_POINTER_DEFINITION (BuilderAndSolver) |
| | Pointer definition of BuilderAndSolver. More...
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| bool | GetCalculateReactionsFlag () const |
| | This method returns the flag mCalculateReactionsFlag. More...
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| void | SetCalculateReactionsFlag (bool flag) |
| | This method sets the flag mCalculateReactionsFlag. More...
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| bool | GetDofSetIsInitializedFlag () const |
| | This method returns the flag mDofSetIsInitialized. More...
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| void | SetDofSetIsInitializedFlag (bool DofSetIsInitialized) |
| | This method sets the flag mDofSetIsInitialized. More...
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| bool | GetReshapeMatrixFlag () const |
| | This method returns the flag mReshapeMatrixFlag. More...
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| void | SetReshapeMatrixFlag (bool ReshapeMatrixFlag) |
| | This method sets the flag mReshapeMatrixFlag. More...
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| unsigned int | GetEquationSystemSize () const |
| | This method returns the value mEquationSystemSize. More...
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| TLinearSolver::Pointer | GetLinearSystemSolver () const |
| | This method return the linear solver used. More...
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| void | SetLinearSystemSolver (typename TLinearSolver::Pointer pLinearSystemSolver) |
| | This method sets the linear solver to be used. More...
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| virtual void | BuildLHS (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &rA) |
| | Function to perform the building of the LHS, depending on the implementation chosen the size of the matrix could be equal to the total number of Dofs or to the number unrestrained dofs. More...
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| virtual void | BuildRHS (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemVectorType &rb) |
| | Function to perform the build of the RHS. The vector could be sized as the total number of dofs or as the number of unrestrained ones. More...
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| virtual void | Build (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &rA, TSystemVectorType &rb) |
| | equivalent (but generally faster) then performing BuildLHS and BuildRHS More...
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| virtual void | BuildLHS_CompleteOnFreeRows (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &rA) |
| | It builds a rectangular matrix of size n*N where "n" is the number of unrestrained degrees of freedom and "N" is the total number of degrees of freedom involved. More...
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| virtual void | BuildLHS_Complete (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &rA) |
| | It builds a matrix of size N*N where "N" is the total number of degrees of freedom involved. More...
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| virtual void | BuildAndSolveLinearizedOnPreviousIteration (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &rA, TSystemVectorType &rDx, TSystemVectorType &rb, const bool MoveMesh) |
| | Function to perform the building and solving phase at the same time Linearizing with the database at the old iteration. More...
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| virtual void | BuildRHSAndSolve (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &rA, TSystemVectorType &rDx, TSystemVectorType &rb) |
| | Corresponds to the previews, but the System's matrix is considered already built and only the RHS is built again. More...
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| virtual void | ApplyDirichletConditions_LHS (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &rA, TSystemVectorType &rDx) |
| | The same of the precedent but affecting only the LHS. More...
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| virtual void | ApplyDirichletConditions_RHS (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemVectorType &rDx, TSystemVectorType &rb) |
| | The same of the precedent but affecting only the RHS. More...
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| virtual void | ApplyRHSConstraints (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemVectorType &rb) |
| | Applies the constraints with master-slave relation matrix (RHS only) More...
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| virtual void | ApplyConstraints (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &rA, TSystemVectorType &rb) |
| | Applies the constraints with master-slave relation matrix. More...
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| virtual DofsArrayType & | GetDofSet () |
| | It allows to get the list of Dofs from the element. More...
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| virtual const DofsArrayType & | GetDofSet () const |
| | It allows to get the list of Dofs from the element. More...
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| virtual void | InitializeSolutionStep (ModelPart &rModelPart, TSystemMatrixType &rA, TSystemVectorType &rDx, TSystemVectorType &rb) |
| | It applies certain operations at the system of equations at the beginning of the solution step. More...
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| virtual void | FinalizeSolutionStep (ModelPart &rModelPart, TSystemMatrixType &rA, TSystemVectorType &rDx, TSystemVectorType &rb) |
| | It applies certain operations at the system of equations at the end of the solution step. More...
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| virtual void | CalculateReactions (typename TSchemeType::Pointer pScheme, ModelPart &rModelPart, TSystemMatrixType &rA, TSystemVectorType &rDx, TSystemVectorType &rb) |
| | It computes the reactions of the system. More...
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| virtual Parameters | GetDefaultParameters () const |
| | This method provides the defaults parameters to avoid conflicts between the different constructors. More...
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| Public Types inherited from Kratos::BuilderAndSolver< TSparseSpace, TDenseSpace, TLinearSolver > |
| typedef BuilderAndSolver< TSparseSpace, TDenseSpace, TLinearSolver > | ClassType |
| | The definition of the current class. More...
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| typedef std::size_t | SizeType |
| | Definition of the size type. More...
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| typedef std::size_t | IndexType |
| | Definition of the index type. More...
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| typedef TSparseSpace::DataType | TDataType |
| | Definition of the data type. More...
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| typedef TSparseSpace::MatrixType | TSystemMatrixType |
| | Definition of the sparse matrix. More...
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| typedef TSparseSpace::VectorType | TSystemVectorType |
| | Definition of the vector size. More...
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| typedef TSparseSpace::MatrixPointerType | TSystemMatrixPointerType |
| | Definition of the pointer to the sparse matrix. More...
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| typedef TSparseSpace::VectorPointerType | TSystemVectorPointerType |
| | Definition of the pointer to the vector. More...
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| typedef TDenseSpace::MatrixType | LocalSystemMatrixType |
| | The local matrix definition. More...
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| typedef TDenseSpace::VectorType | LocalSystemVectorType |
| | The local vector definition. More...
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| typedef Scheme< TSparseSpace, TDenseSpace > | TSchemeType |
| | Definition of the scheme type. More...
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| typedef ModelPart::DofType | TDofType |
| | Definition of the DoF class. More...
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| typedef ModelPart::DofsArrayType | DofsArrayType |
| | Definition of the DoF array type. More...
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| typedef ModelPart::NodesContainerType | NodesArrayType |
| | The containers of the entities. More...
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| typedef ModelPart::ElementsContainerType | ElementsArrayType |
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| typedef ModelPart::ConditionsContainerType | ConditionsArrayType |
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| typedef PointerVectorSet< Element, IndexedObject > | ElementsContainerType |
| | The definition of the element container type. More...
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| Static Public Member Functions inherited from Kratos::BuilderAndSolver< TSparseSpace, TDenseSpace, TLinearSolver > |
| static std::string | Name () |
| | Returns the name of the class as used in the settings (snake_case format) More...
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| Protected Attributes inherited from Kratos::BuilderAndSolver< TSparseSpace, TDenseSpace, TLinearSolver > |
| TLinearSolver::Pointer | mpLinearSystemSolver = nullptr |
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| DofsArrayType | mDofSet |
| | Pointer to the linear solver. More...
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| bool | mReshapeMatrixFlag = false |
| | The set containing the DoF of the system. More...
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| bool | mDofSetIsInitialized = false |
| | If the matrix is reshaped each step. More...
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| bool | mCalculateReactionsFlag = false |
| | Flag taking care if the dof set was initialized ot not. More...
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| unsigned int | mEquationSystemSize |
| | Flag taking in account if it is needed or not to calculate the reactions. More...
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| int | mEchoLevel = 0 |
| | Number of degrees of freedom of the problem to be solve. More...
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| TSystemVectorPointerType | mpReactionsVector |
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template<class TSparseSpace, class TDenseSpace, class TLinearSolver>
class Kratos::NodalResidualBasedEliminationBuilderAndSolver< TSparseSpace, TDenseSpace, TLinearSolver >
Current class provides an implementation for standard builder and solving operations.
The RHS is constituted by the unbalanced loads (residual) Degrees of freedom are reordered putting the restrained degrees of freedom at the end of the system ordered in reverse order with respect to the DofSet. Imposition of the dirichlet conditions is naturally dealt with as the residual already contains this information. Calculation of the reactions involves a cost very similiar to the calculation of the total residual
- Author
- Riccardo Rossi
1.9.1