Public Member Functions | Private Member Functions | Private Attributes | List of all members
oomph::PressureBasedSolidLSCPreconditioner Class Reference

The least-squares commutator (LSC; formerly BFBT) preconditioner. It uses blocks corresponding to the displacement/position and pressure unknowns, i.e. there are a total of 2x2 blocks, and all displacement/position components are treated as a single block of unknowns. More...

#include <solid_preconditioners.h>

+ Inheritance diagram for oomph::PressureBasedSolidLSCPreconditioner:

Public Member Functions

 PressureBasedSolidLSCPreconditioner ()
 Constructor - sets defaults for control flags. More...
 
 ~PressureBasedSolidLSCPreconditioner ()
 Destructor. More...
 
 PressureBasedSolidLSCPreconditioner (const PressureBasedSolidLSCPreconditioner &)=delete
 Broken copy constructor. More...
 
void setup ()
 Broken assignment operator. More...
 
void preconditioner_solve (const DoubleVector &r, DoubleVector &z)
 Apply preconditioner to Vector r. More...
 
void set_solid_mesh (Mesh *mesh_pt)
 specify the mesh containing the mesh containing the block-preconditionable solid elements. The dimension of the problem must also be specified. More...
 
void enable_p_matrix_scaling ()
 Enable mass matrix diagonal scaling in the Schur complement approximation. More...
 
void disable_p_matrix_scaling ()
 Enable mass matrix diagonal scaling in the Schur complement approximation. More...
 
bool is_p_matrix_using_scaling () const
 Return whether the mass matrix is using diagonal scaling or not. More...
 
void set_p_preconditioner (Preconditioner *new_p_preconditioner_pt)
 Function to set a new pressure matrix preconditioner (inexact solver) More...
 
void set_p_superlu_preconditioner ()
 Function to (re-)set pressure matrix preconditioner (inexact solver) to SuperLU. More...
 
void set_f_preconditioner (Preconditioner *new_f_preconditioner_pt)
 Function to set a new momentum matrix preconditioner (inexact solver) More...
 
void set_f_superlu_preconditioner ()
 Function to (re-)set momentum matrix preconditioner (inexact solver) to SuperLU. More...
 
void enable_doc_time ()
 Enable documentation of time. More...
 
void disable_doc_time ()
 Disable documentation of time. More...
 
void enable_form_BFBt_product ()
 If this function is called then: in setup(...) : BFBt is computed. in preconditioner_solve(...) : a single matrix vector product with BFBt is performed. More...
 
void disable_form_BFBt_product ()
 if this function is called then: in setup(...) : the matrices B, F are assembled and stored (the default behaviour) . in preconditioner_solve(...) : a sequence of matrix vector products with B, F, and Bt is performed. (Note: in this discussion no scaling was considered but B and Bt are replaced with BQ and QBt with scaling) More...
 
void clean_up_memory ()
 Helper function to delete preconditioner data. More...
 
- Public Member Functions inherited from oomph::BlockPreconditioner< CRDoubleMatrix >
 BlockPreconditioner ()
 Constructor. More...
 
 BlockPreconditioner (const BlockPreconditioner &)=delete
 Broken copy constructor. More...
 
virtual ~BlockPreconditioner ()
 Destructor. More...
 
void operator= (const BlockPreconditioner &)=delete
 Broken assignment operator. More...
 
CRDoubleMatrixmatrix_pt () const
 Access function to matrix_pt. If this is the master then cast the matrix pointer to MATRIX*, error check and return. Otherwise ask the master for its matrix pointer. More...
 
void turn_on_recursive_debug_flag ()
 Toggles on the recursive debug flag. The change goes up the block preconditioning hierarchy. More...
 
void turn_off_recursive_debug_flag ()
 Toggles off the recursive debug flag. The change goes up the block preconditioning hierarchy. More...
 
void turn_on_debug_flag ()
 Toggles on the debug flag. More...
 
void turn_off_debug_flag ()
 Toggles off the debug flag. More...
 
void turn_into_subsidiary_block_preconditioner (BlockPreconditioner< CRDoubleMatrix > *master_block_prec_pt, const Vector< unsigned > &doftype_in_master_preconditioner_coarse)
 Function to turn this preconditioner into a subsidiary preconditioner that operates within a bigger "master block preconditioner (e.g. a Navier-Stokes 2x2 block preconditioner dealing with the fluid sub-blocks within a 3x3 FSI preconditioner. Once this is done the master block preconditioner deals with the block setup etc. The vector doftype_in_master_preconditioner_coarse must specify the dof number in the master preconditioner that corresponds to a dof number in this preconditioner. 1. The length of the vector is used to determine the number of blocks in this preconditioner therefore it must be correctly sized. 2. block_setup(...) should be called in the master preconditioner before this method is called. 3. block_setup(...) should be called in the corresponding subsidiary preconditioner after this method is called. More...
 
void turn_into_subsidiary_block_preconditioner (BlockPreconditioner< CRDoubleMatrix > *master_block_prec_pt, const Vector< unsigned > &doftype_in_master_preconditioner_coarse, const Vector< Vector< unsigned >> &doftype_coarsen_map_coarse)
 Function to turn this preconditioner into a subsidiary preconditioner that operates within a bigger "master block preconditioner (e.g. a Navier-Stokes 2x2 block preconditioner dealing with the fluid sub-blocks within a 3x3 FSI preconditioner. Once this is done the master block preconditioner deals with the block setup etc. The vector doftype_in_master_preconditioner_coarse must specify the dof number in the master preconditioner that corresponds to a dof number in this preconditioner. 1. The length of the vector is used to determine the number of blocks in this preconditioner therefore it must be correctly sized. 2. block_setup(...) should be called in the master preconditioner before this method is called. 3. block_setup(...) should be called in the corresponding subsidiary preconditioner after this method is called. More...
 
virtual void block_setup ()
 Determine the size of the matrix blocks and setup the lookup schemes relating the global degrees of freedom with their "blocks" and their indices (row/column numbers) in those blocks. The distributions of the preconditioner and the internal blocks are automatically specified (and assumed to be uniform) at this stage. This method should be used if the identity dof-to-block mapping is okay, i.e. dof number 0 corresponds to block number 0 dof number 1 corresponds to block number 1 dof number 2 corresponds to block number 2 etc... More...
 
void block_setup (const Vector< unsigned > &dof_to_block_map)
 Determine the size of the matrix blocks and setup the lookup schemes relating the global degrees of freedom with their "blocks" and their indices (row/column numbers) in those blocks. The distributions of the preconditioner and the blocks are automatically specified (and assumed to be uniform) at this stage. This method should be used if anything other than the identity dof-to-block mapping is required. The argument vector dof_to_block_map should be of length ndof. The indices represents the dof types whilst the value represents the block types. In general we want: More...
 
void get_block (const unsigned &i, const unsigned &j, CRDoubleMatrix &output_matrix, const bool &ignore_replacement_block=false) const
 Put block (i,j) into output_matrix. This block accounts for any coarsening of dof types and any replaced dof-level blocks above this preconditioner. More...
 
CRDoubleMatrix get_block (const unsigned &i, const unsigned &j, const bool &ignore_replacement_block=false) const
 Return block (i,j). If the optional argument ignore_replacement_block is true, then any blocks in Replacement_dof_block_pt will be ignored throughout the preconditioning hierarchy. More...
 
void set_master_matrix_pt (CRDoubleMatrix *in_matrix_pt)
 Set the matrix_pt in the upper-most master preconditioner. More...
 
void get_block_other_matrix (const unsigned &i, const unsigned &j, CRDoubleMatrix *in_matrix_pt, CRDoubleMatrix &output_matrix)
 Get a block from a different matrix using the blocking scheme that has already been set up. More...
 
void get_blocks (DenseMatrix< bool > &required_blocks, DenseMatrix< CRDoubleMatrix * > &block_matrix_pt) const
 Get all the block matrices required by the block preconditioner. Takes a pointer to a matrix of bools that indicate if a specified sub-block is required for the preconditioning operation. Computes the required block matrices, and stores pointers to them in the matrix block_matrix_pt. If an entry in block_matrix_pt is equal to NULL on return, that sub-block has not been requested and is therefore not available. More...
 
void get_dof_level_block (const unsigned &i, const unsigned &j, CRDoubleMatrix &output_block, const bool &ignore_replacement_block=false) const
 Gets dof-level block (i,j). If Replacement_dof_block_pt(i,j) is not null, then the replacement block is returned via a deep copy. More...
 
void get_dof_level_block (const unsigned &block_i, const unsigned &block_j, CRDoubleMatrix &output_block, const bool &ignore_replacement_block) const
 Gets dof-level block (i,j). If Replacement_dof_block_pt(i,j) is not null, then the replacement block is returned via a deep copy. More...
 
CRDoubleMatrix get_concatenated_block (const VectorMatrix< BlockSelector > &selected_block)
 Returns a concatenation of the block matrices specified by the argument selected_block. The VectorMatrix selected_block must be correctly sized as it is used to determine the number of sub block matrices to concatenate. More...
 
void get_concatenated_block_vector (const Vector< unsigned > &block_vec_number, const DoubleVector &v, DoubleVector &b)
 Takes the naturally ordered vector and extracts the blocks indicated by the block number (the values) in the Vector block_vec_number all at once, then concatenates them without communication. Here, the values in block_vec_number is the block number in the current preconditioner. This is a non-const function because distributions may be created and stored in Auxiliary_block_distribution_pt for future use. More...
 
void return_concatenated_block_vector (const Vector< unsigned > &block_vec_number, const DoubleVector &b, DoubleVector &v) const
 Takes concatenated block ordered vector, b, and copies its entries to the appropriate entries in the naturally ordered vector, v. Here the values in block_vec_number indicates which blocks the vector b is a concatenation of. The block number are those in the current preconditioner. If the preconditioner is a subsidiary block preconditioner the other entries in v that are not associated with it are left alone. More...
 
void get_block_vectors (const Vector< unsigned > &block_vec_number, const DoubleVector &v, Vector< DoubleVector > &s) const
 Takes the naturally ordered vector and rearranges it into a vector of sub vectors corresponding to the blocks, so s[b][i] contains the i-th entry in the vector associated with block b. Note: If the preconditioner is a subsidiary preconditioner then only the sub-vectors associated with the blocks of the subsidiary preconditioner will be included. Hence the length of v is master_nrow() whereas the total length of the s vectors is the sum of the lengths of the individual block vectors defined in block_vec_number. More...
 
void get_block_vectors (const DoubleVector &v, Vector< DoubleVector > &s) const
 Takes the naturally ordered vector and rearranges it into a vector of sub vectors corresponding to the blocks, so s[b][i] contains the i-th entry in the vector associated with block b. Note: If the preconditioner is a subsidiary preconditioner then only the sub-vectors associated with the blocks of the subsidiary preconditioner will be included. Hence the length of v is master_nrow() whereas the total length of the s vectors is Nrow. This is simply a wrapper around the other get_block_vectors(...) function where the block_vec_number Vector is the identity, i.e. block_vec_number is [0, 1, ..., nblock_types - 1]. More...
 
void return_block_vectors (const Vector< unsigned > &block_vec_number, const Vector< DoubleVector > &s, DoubleVector &v) const
 Takes the vector of block vectors, s, and copies its entries into the naturally ordered vector, v. If this is a subsidiary block preconditioner only those entries in v that are associated with its blocks are affected. The block_vec_number indicates which block the vectors in s came from. The block number corresponds to the block numbers in this preconditioner. More...
 
void return_block_vectors (const Vector< DoubleVector > &s, DoubleVector &v) const
 Takes the vector of block vectors, s, and copies its entries into the naturally ordered vector, v. If this is a subsidiary block preconditioner only those entries in v that are associated with its blocks are affected. The block_vec_number indicates which block the vectors in s came from. The block number corresponds to the block numbers in this preconditioner. This is simply a wrapper around the other return_block_vectors(...) function where the block_vec_number Vector is the identity, i.e. block_vec_number is [0, 1, ..., nblock_types - 1]. More...
 
void get_block_vector (const unsigned &n, const DoubleVector &v, DoubleVector &b) const
 Takes the naturally ordered vector, v and returns the n-th block vector, b. Here n is the block number in the current preconditioner. More...
 
void return_block_vector (const unsigned &n, const DoubleVector &b, DoubleVector &v) const
 Takes the n-th block ordered vector, b, and copies its entries to the appropriate entries in the naturally ordered vector, v. Here n is the block number in the current block preconditioner. If the preconditioner is a subsidiary block preconditioner the other entries in v that are not associated with it are left alone. More...
 
void get_block_ordered_preconditioner_vector (const DoubleVector &v, DoubleVector &w)
 Given the naturally ordered vector, v, return the vector rearranged in block order in w. This function calls get_concatenated_block_vector(...) with the identity block mapping. More...
 
void return_block_ordered_preconditioner_vector (const DoubleVector &w, DoubleVector &v) const
 Takes the block ordered vector, w, and reorders it in natural order. Reordered vector is returned in v. Note: If the preconditioner is a subsidiary preconditioner then only the components of the vector associated with the blocks of the subsidiary preconditioner will be included. Hence the length of v is master_nrow() whereas that of the vector w is of length this->nrow(). More...
 
unsigned nblock_types () const
 Return the number of block types. More...
 
unsigned ndof_types () const
 Return the total number of DOF types. More...
 
const Meshmesh_pt (const unsigned &i) const
 Access to i-th mesh (of the various meshes that contain block preconditionable elements of the same number of dof type). More...
 
unsigned nmesh () const
 Return the number of meshes in Mesh_pt. More...
 
int block_number (const unsigned &i_dof) const
 Return the block number corresponding to a global index i_dof. More...
 
int index_in_block (const unsigned &i_dof) const
 Given a global dof number, returns the index in the block it belongs to. This is the overall index, not local block (in parallel). More...
 
const LinearAlgebraDistributionblock_distribution_pt (const unsigned &b) const
 Access function to the block distributions (const version). More...
 
LinearAlgebraDistributionblock_distribution_pt (const unsigned b)
 Access function to the block distributions (non-const version). More...
 
LinearAlgebraDistributiondof_block_distribution_pt (const unsigned &b)
 Access function to the dof-level block distributions. More...
 
const LinearAlgebraDistributionmaster_distribution_pt () const
 Access function to the distribution of the master preconditioner. If this preconditioner does not have a master preconditioner then the distribution of this preconditioner is returned. More...
 
unsigned ndof_types_in_mesh (const unsigned &i) const
 Return the number of DOF types in mesh i. WARNING: This should only be used by the upper-most master block preconditioner. An error is thrown is this function is called from a subsidiary preconditioner. They (and since every block preconditioner can in principle be used as s subsidiary preconditioner: all block preconditioners) should store local copies of "their meshes" (if they're needed for anything) More...
 
bool is_subsidiary_block_preconditioner () const
 Return true if this preconditioner is a subsidiary preconditioner. More...
 
bool is_master_block_preconditioner () const
 Return true if this preconditioner is the master block preconditioner. More...
 
void set_block_output_to_files (const std::string &basefilename)
 Set the base part of the filename to output blocks to. If it is set then all blocks will be output at the end of block_setup. If it is left empty nothing will be output. More...
 
void disable_block_output_to_files ()
 Turn off output of blocks (by clearing the basefilename string). More...
 
bool block_output_on () const
 Test if output of blocks is on or not. More...
 
void output_blocks_to_files (const std::string &basefilename, const unsigned &precision=8) const
 Output all blocks to numbered files. Called at the end of get blocks if an output filename has been set. More...
 
void post_block_matrix_assembly_partial_clear ()
 A helper method to reduce the memory requirements of block preconditioners. Once the methods get_block(...), get_blocks(...) and build_preconditioner_matrix(...) have been called in this and all subsidiary block preconditioners this method can be called to clean up. More...
 
BlockPreconditioner< CRDoubleMatrix > * master_block_preconditioner_pt () const
 Access function to the master block preconditioner pt. More...
 
void clear_block_preconditioner_base ()
 Clears all BlockPreconditioner data. Called by the destructor and the block_setup(...) methods. More...
 
void document ()
 debugging method to document the setup. Should only be called after block_setup(...). More...
 
Vector< Vector< unsigned > > doftype_coarsen_map_fine () const
 Access function for the Doftype_coarsen_map_fine variable. More...
 
Vector< unsigned > get_fine_grain_dof_types_in (const unsigned &i) const
 Returns the most fine grain dof types in a (possibly coarsened) dof type. More...
 
unsigned nfine_grain_dof_types_in (const unsigned &i) const
 Access function for the number of most fine grain dof types in a (possibly coarsened) dof type. More...
 
MapMatrix< unsigned, CRDoubleMatrix * > replacement_dof_block_pt () const
 Access function to the replaced dof-level blocks. More...
 
void setup_matrix_vector_product (MatrixVectorProduct *matvec_prod_pt, CRDoubleMatrix *block_pt, const Vector< unsigned > &block_col_indices)
 Setup a matrix vector product. matvec_prod_pt is a pointer to the MatrixVectorProduct, block_pt is a pointer to the block matrix, block_col_indices is a vector indicating which block indices does the RHS vector we want to multiply the matrix by. More...
 
void setup_matrix_vector_product (MatrixVectorProduct *matvec_prod_pt, CRDoubleMatrix *block_pt, const unsigned &block_col_index)
 Setup matrix vector product. This is simply a wrapper around the other setup_matrix_vector_product function. More...
 
void internal_get_block_ordered_preconditioner_vector (const DoubleVector &v, DoubleVector &w) const
 Given the naturally ordered vector, v, return the vector rearranged in block order in w. This is a legacy function from the old block preconditioning framework. Kept alive in case it may be needed again. More...
 
void internal_return_block_ordered_preconditioner_vector (const DoubleVector &w, DoubleVector &v) const
 Takes the block ordered vector, w, and reorders it in the natural order. Reordered vector is returned in v. Note: If the preconditioner is a subsidiary preconditioner then only the components of the vector associated with the blocks of the subsidiary preconditioner will be included. Hence the length of v is master_nrow() whereas that of the vector w is of length this->nrow(). More...
 
unsigned internal_nblock_types () const
 Return the number internal blocks. This should be the same as the number of internal dof types. Internally, the block preconditioning framework always work with the most fine grain blocks. I.e. it always deal with the most fine grain dof-level blocks. This allows for coarsening of dof types. When we extract a block, we look at the Block_to_dof_map_fine vector to find out which most fine grain dof types belongs to this block. More...
 
unsigned internal_ndof_types () const
 Return the number of internal dof types. This is the number of most fine grain dof types. The preconditioner writer should not have to concern him/her-self with the internal dof/block types. Thus this fuction is moved to private. We have kept this function alive since it it still used deep within the inner workings of the block preconditioning framework. More...
 
void internal_return_block_vector (const unsigned &n, const DoubleVector &b, DoubleVector &v) const
 Takes the n-th block ordered vector, b, and copies its entries to the appropriate entries in the naturally ordered vector, v. Here n is the block number in the current block preconditioner. If the preconditioner is a subsidiary block preconditioner the other entries in v that are not associated with it are left alone. More...
 
void internal_get_block_vector (const unsigned &n, const DoubleVector &v, DoubleVector &b) const
 A helper function, takes the naturally ordered vector, v, and extracts the n-th block vector, b. Here n is the block number in the current preconditioner. NOTE: The ordering of the vector b is the same as the ordering of the block matrix from internal_get_block(...). More...
 
void internal_get_block_vectors (const Vector< unsigned > &block_vec_number, const DoubleVector &v, Vector< DoubleVector > &s) const
 Takes the naturally ordered vector and rearranges it into a vector of sub vectors corresponding to the blocks, so s[b][i] contains the i-th entry in the vector associated with block b. The block_vec_number indicates which blocks we want. These blocks and vectors are those corresponding to the internal blocks. Note: If the preconditioner is a subsidiary preconditioner then only the sub-vectors associated with the blocks of the subsidiary preconditioner will be included. Hence the length of v is master_nrow() whereas the total length of the s vectors is the sum of the Nrow of the sub vectors. More...
 
void internal_get_block_vectors (const DoubleVector &v, Vector< DoubleVector > &s) const
 A helper function, takes the naturally ordered vector and rearranges it into a vector of sub vectors corresponding to the blocks, so s[b][i] contains the i-th entry in the vector associated with block b. The block_vec_number indicates which blocks we want. These blocks and vectors are those corresponding to the internal blocks. Note: If the preconditioner is a subsidiary preconditioner then only the sub-vectors associated with the blocks of the subsidiary preconditioner will be included. Hence the length of v is master_nrow() whereas the total length of the s vectors is the sum of the Nrow of the sub vectors. This is simply a wrapper around the other internal_get_block_vectors(...) function with the identity block_vec_number vector. More...
 
void internal_return_block_vectors (const Vector< unsigned > &block_vec_number, const Vector< DoubleVector > &s, DoubleVector &v) const
 A helper function, takes the vector of block vectors, s, and copies its entries into the naturally ordered vector, v. If this is a subsidiary block preconditioner only those entries in v that are associated with its blocks are affected. More...
 
void internal_return_block_vectors (const Vector< DoubleVector > &s, DoubleVector &v) const
 A helper function, takes the vector of block vectors, s, and copies its entries into the naturally ordered vector, v. If this is a subsidiary block preconditioner only those entries in v that are associated with its blocks are affected. This is simple a wrapper around the other internal_return_block_vectors(...) function with the identity block_vec_number vector. More...
 
void internal_get_block (const unsigned &i, const unsigned &j, CRDoubleMatrix &output_block) const
 Gets block (i,j) from the matrix pointed to by Matrix_pt and returns it in output_block. This is associated with the internal blocks. Please use the other get_block(...) function. More...
 
void internal_get_block (const unsigned &block_i, const unsigned &block_j, CRDoubleMatrix &output_block) const
 Gets block (i,j) from the matrix pointed to by Matrix_pt and returns it in output_block. This is associated with the internal blocks. Please use the other get_block(...) function. More...
 
int internal_block_number (const unsigned &i_dof) const
 Return the block number corresponding to a global index i_dof. This returns the block number corresponding to the internal blocks. What this means is that this returns the most fine grain dof-block number which this global index i_dof corresponds to. Since the writer of the preconditioner does not need to care about the internal block types, this function should not be used and thus moved to private. This function should not be removed since it is still used deep within the inner workings of the block preconditioning framework. More...
 
int internal_index_in_block (const unsigned &i_dof) const
 Return the index in the block corresponding to a global block number i_dof. The index returned corresponds to the internal blocks, which is the most fine grain dof blocks. More...
 
const LinearAlgebraDistributioninternal_block_distribution_pt (const unsigned &b) const
 Access function to the internal block distributions. More...
 
void insert_auxiliary_block_distribution (const Vector< unsigned > &block_vec_number, LinearAlgebraDistribution *dist_pt)
 insert a Vector<unsigned> and LinearAlgebraDistribution* pair into Auxiliary_block_distribution_pt. The Auxiliary_block_distribution_pt should only contain pointers to distributions concatenated at this block level. We try to ensure this by checking if the block_vec_number vector is within the range nblock_types(). Of course, this does not guarantee correctness, but this is the least we can do. More...
 
void block_matrix_test (const unsigned &i, const unsigned &j, const CRDoubleMatrix *block_matrix_pt) const
 Private helper function to check that every element in the block matrix (i,j) matches the corresponding element in the original matrix. More...
 
int get_index_of_value (const Vector< myType > &vec, const myType val, const bool sorted=false) const
 Get the index of first occurrence of value in a vector. If the element does not exist, -1 is returned. The optional parameter indicates of the Vector is sorted or not. Complexity: if the Vector is sorted, then on average, logarithmic in the distance between first and last: Performs approximately log2(N)+2 element comparisons. Otherwise, up to linear in the distance between first and last: Compares elements until a match is found. More...
 
- Public Member Functions inherited from oomph::Preconditioner
 Preconditioner ()
 Constructor. More...
 
 Preconditioner (const Preconditioner &)=delete
 Broken copy constructor. More...
 
void operator= (const Preconditioner &)=delete
 Broken assignment operator. More...
 
virtual ~Preconditioner ()
 Destructor (empty) More...
 
virtual void preconditioner_solve_transpose (const DoubleVector &r, DoubleVector &z)
 Apply the preconditioner. Pure virtual generic interface function. This method should apply the preconditioner operator to the vector r and return the vector z. (broken virtual) More...
 
void setup (DoubleMatrixBase *matrix_pt)
 Setup the preconditioner: store the matrix pointer and the communicator pointer then call preconditioner specific setup() function. More...
 
void setup (const Problem *problem_pt, DoubleMatrixBase *matrix_pt)
 Compatability layer for old preconditioners where problem pointers were needed. The problem pointer is only used to get a communicator pointer. More...
 
void enable_silent_preconditioner_setup ()
 Set up the block preconditioner quietly! More...
 
void disable_silent_preconditioner_setup ()
 Be verbose in the block preconditioner setup. More...
 
virtual void set_matrix_pt (DoubleMatrixBase *matrix_pt)
 Set the matrix pointer. More...
 
virtual const OomphCommunicatorcomm_pt () const
 Get function for comm pointer. More...
 
virtual void set_comm_pt (const OomphCommunicator *const comm_pt)
 Set the communicator pointer. More...
 
double setup_time () const
 Returns the time to setup the preconditioner. More...
 
virtual void turn_into_subsidiary_block_preconditioner (BlockPreconditioner< CRDoubleMatrix > *master_block_prec_pt, const Vector< unsigned > &doftype_in_master_preconditioner_coarse)
 Virtual interface function for making a preconditioner a subsidiary of a block preconditioner. By default nothing is needed, but if this preconditioner is also a block preconditioner then things need to happen. There's an assumption here that the block preconditioner will be in CR form but since that assumption is hard coded all over BlockPreconditioner we're safe. More...
 
virtual void turn_into_subsidiary_block_preconditioner (BlockPreconditioner< CRDoubleMatrix > *master_block_prec_pt, const Vector< unsigned > &doftype_in_master_preconditioner_coarse, const Vector< Vector< unsigned >> &doftype_coarsen_map_coarse)
 Virtual interface function for making a preconditioner a subsidiary of a block preconditioner. By default nothing is needed, but if this preconditioner is also a block preconditioner then things need to happen. Version for coarsening dof-types. More...
 
- Public Member Functions inherited from oomph::DistributableLinearAlgebraObject
 DistributableLinearAlgebraObject ()
 Default constructor - create a distribution. More...
 
 DistributableLinearAlgebraObject (const DistributableLinearAlgebraObject &matrix)=delete
 Broken copy constructor. More...
 
void operator= (const DistributableLinearAlgebraObject &)=delete
 Broken assignment operator. More...
 
virtual ~DistributableLinearAlgebraObject ()
 Destructor. More...
 
LinearAlgebraDistributiondistribution_pt () const
 access to the LinearAlgebraDistribution More...
 
unsigned nrow () const
 access function to the number of global rows. More...
 
unsigned nrow_local () const
 access function for the num of local rows on this processor. More...
 
unsigned nrow_local (const unsigned &p) const
 access function for the num of local rows on this processor. More...
 
unsigned first_row () const
 access function for the first row on this processor More...
 
unsigned first_row (const unsigned &p) const
 access function for the first row on this processor More...
 
bool distributed () const
 distribution is serial or distributed More...
 
bool distribution_built () const
 if the communicator_pt is null then the distribution is not setup then false is returned, otherwise return true More...
 
void build_distribution (const LinearAlgebraDistribution *const dist_pt)
 setup the distribution of this distributable linear algebra object More...
 
void build_distribution (const LinearAlgebraDistribution &dist)
 setup the distribution of this distributable linear algebra object More...
 

Private Member Functions

CRDoubleMatrixassemble_mass_matrix_diagonal ()
 Helper function to assemble the diagonal of the mass matrix from the elemental contributions defined in PressureBasedSolidEquations<DIM>::get_mass_matrix_diagonal(...). More...
 

Private Attributes

PreconditionerP_preconditioner_pt
 Pointer to the 'preconditioner' for the pressure matrix. More...
 
PreconditionerF_preconditioner_pt
 Pointer to the 'preconditioner' for the F matrix. More...
 
bool Using_default_f_preconditioner
 flag indicating whether the default F preconditioner is used More...
 
bool Using_default_p_preconditioner
 flag indicating whether the default P preconditioner is used More...
 
bool Preconditioner_has_been_setup
 Control flag is true if the preconditioner has been setup (used so we can wipe the data when the preconditioner is called again) More...
 
bool P_matrix_using_scaling
 Control flag is true if mass matrix diagonal scaling is used in the Schur complement approximation. More...
 
bool F_preconditioner_is_block_preconditioner
 Boolean indicating whether the momentum system preconditioner is a block preconditioner. More...
 
bool Doc_time
 Set Doc_time to true for outputting results of timings. More...
 
MatrixVectorProductF_mat_vec_pt
 MatrixVectorProduct operator for F if BFBt is not to be formed. More...
 
MatrixVectorProductQBt_mat_vec_pt
 MatrixVectorProduct operator for QBt if BFBt is not to be formed. More...
 
MatrixVectorProductBt_mat_vec_pt
 MatrixVectorProduct operator for Bt;. More...
 
MatrixVectorProductE_mat_vec_pt
 MatrixVectorProduct operator for E (BFBt) if BFBt is to be formed. More...
 
bool Form_BFBt_product
 indicates whether BFBt should be formed or the component matrices should be retained. If true then: in setup(...) : BFBt is computed. in preconditioner_solve(...) : a single matrix vector product with BFBt is performed. if false then: in setup(...) : the matrices B, F are assembled and stored. in preconditioner_solve(...) : a sequence of matrix vector products with B, F, and Bt is performed. (Note: in this discussion no scaling was considered but B and Bt are replaced with BQ and QBt with scaling) More...
 
MeshSolid_mesh_pt
 the pointer to the mesh of block preconditionable solid elements. More...
 

Additional Inherited Members

- Protected Member Functions inherited from oomph::BlockPreconditioner< CRDoubleMatrix >
void set_nmesh (const unsigned &n)
 Specify the number of meshes required by this block preconditioner. Note: elements in different meshes correspond to different types of DOF. More...
 
void set_mesh (const unsigned &i, const Mesh *const mesh_pt, const bool &allow_multiple_element_type_in_mesh=false)
 Set the i-th mesh for this block preconditioner. Note: The method set_nmesh(...) must be called before this method to specify the number of meshes. By default, it is assumed that each mesh only contains elements of the same type. This condition may be relaxed by setting the boolean allow_multiple_element_type_in_mesh to true, however, each mesh must only contain elements with the same number of dof types. More...
 
void set_replacement_dof_block (const unsigned &block_i, const unsigned &block_j, CRDoubleMatrix *replacement_dof_block_pt)
 Set replacement dof-level blocks. Only dof-level blocks can be set. This is important due to how the dof type coarsening feature operates. More...
 
bool any_mesh_distributed () const
 Check if any of the meshes are distributed. This is equivalent to problem.distributed() and is used as a replacement. More...
 
int internal_dof_number (const unsigned &i_dof) const
 Return the number of the block associated with global unknown i_dof. If this preconditioner is a subsidiary block preconditioner then the block number in the subsidiary block preconditioner is returned. If a particular global DOF is not associated with this preconditioner then -1 is returned. More...
 
unsigned internal_index_in_dof (const unsigned &i_dof) const
 Return the row/column number of global unknown i_dof within it's block. More...
 
unsigned internal_block_dimension (const unsigned &b) const
 Return the number of degrees of freedom in block b. Note that if this preconditioner acts as a subsidiary preconditioner then b refers to the block number in the subsidiary preconditioner not the master block preconditioner. More...
 
unsigned internal_dof_block_dimension (const unsigned &i) const
 Return the size of the dof "block" i, i.e. how many degrees of freedom are associated with it. Note that if this preconditioner acts as a subsidiary preconditioner, then i refers to the block number in the subsidiary preconditioner not the master block preconditioner. More...
 
unsigned master_nrow () const
 Return the number of dofs (number of rows or columns) in the overall problem. The prefix "master_" is sort of redundant when used as a stand-alone block preconditioner but is required to avoid ambiguities. The latter is stored (and maintained) separately for each specific block preconditioner regardless of its role. More...
 
unsigned internal_master_dof_number (const unsigned &b) const
 Takes the block number within this preconditioner and returns the corresponding block number in the master preconditioner. If this preconditioner does not have a master block preconditioner then the block number passed is returned. More...
 
const LinearAlgebraDistributioninternal_preconditioner_matrix_distribution_pt () const
 access function to the internal preconditioner matrix distribution pt. preconditioner_matrix_distribution_pt always returns the concatenation of the internal block distributions. Since the writer of the preconditioner does not need to concern themselves with the internal dof/block, please use preconditioner_matrix_distribution_pt(). More...
 
const LinearAlgebraDistributionpreconditioner_matrix_distribution_pt () const
 Access function to the preconditioner matrix distribution pointer. This is the concatenation of the block distributions with the identity ordering. I.e. if this preconditioner has three block types, with the three associated block distributions dist_b0, dist_b1 and dist_b2, then this distribution is: LinearAlgebraDistributionHelpers::concatenate(dist_b0, dist_b1, dist_b2). More...
 
- Protected Member Functions inherited from oomph::DistributableLinearAlgebraObject
void clear_distribution ()
 clear the distribution of this distributable linear algebra object More...
 
- Protected Attributes inherited from oomph::BlockPreconditioner< CRDoubleMatrix >
MapMatrix< unsigned, CRDoubleMatrix * > Replacement_dof_block_pt
 The replacement dof-level blocks. More...
 
Vector< LinearAlgebraDistribution * > Block_distribution_pt
 The distribution for the blocks. More...
 
Vector< Vector< unsigned > > Block_to_dof_map_coarse
 Mapping for block types to dof types. These are the dof types the writer of the preconditioner expects. For the upper-most master block preconditioner, this would be the sum of the dof types in the meshes. For subsidiary block preconditioners, this is determined by the parent preconditioner when passing in the doftype_coarsen_map_coarse vector in turn_into_subsidiary_block_preconditioner(...). More...
 
Vector< Vector< unsigned > > Block_to_dof_map_fine
 Mapping for the block types to the most fine grain dof types. More...
 
Vector< Vector< unsigned > > Doftype_coarsen_map_coarse
 Mapping for dof types within THIS precondition. This is usually passed down from the parent preconditioner. This list is used to tell which does types should be considered as a single dof type within this preconditioner. I.e. we "coarsen" the dof types. The values are local to this preconditioner, for example, even if the Doftype_in_master_preconditioner_coarse = [2,3,4], the vector Doftype_coarsen_map_coarse = [[0],[1,2]], saying your local dof types 0 should be considered as dof type 0 and dof types 1 and 2 are considered as dof type 1. More...
 
Vector< Vector< unsigned > > Doftype_coarsen_map_fine
 Mapping the dof types within this preconditioner. The values in here refers to the most grain dof types. This list is automatically generated either in block_setup(...) (for the top-most preconditioner) or the turn_into_subsidiary_block_preconditioner(...) function. Please refer to the comment above Doftype_coarsen_map_coarse for more details. More...
 
Vector< LinearAlgebraDistribution * > Internal_block_distribution_pt
 Storage for the default distribution for each internal block. More...
 
Vector< LinearAlgebraDistribution * > Dof_block_distribution_pt
 Storage for the default distribution for each dof block at this level. More...
 
Vector< unsigned > Allow_multiple_element_type_in_mesh
 Vector of unsigned to indicate which meshes contain multiple element types. More...
 
Vector< const Mesh * > Mesh_pt
 Vector of pointers to the meshes containing the elements used in the block preconditioner. Const pointers to prevent modification of the mesh by the preconditioner (this could be relaxed if needed). If this is a subsidiary preconditioner, then the information is looked up in the master preconditioner. More...
 
Vector< unsigned > Ndof_types_in_mesh
 Storage for number of types of degree of freedom of the elements in each mesh. More...
 
unsigned Internal_nblock_types
 Number of different block types in this preconditioner. Note that this information is maintained if used as a subsidiary or stand-alone block preconditioner, in the latter case it stores the number of blocks within the subsidiary preconditioner. More...
 
unsigned Internal_ndof_types
 Number of different DOF types in this preconditioner. Note that this information is maintained if used as a subsidiary or stand-alone block preconditioner, in the latter case it stores the number of dofs within the subsidiary preconditioner. More...
 
- Protected Attributes inherited from oomph::Preconditioner
bool Silent_preconditioner_setup
 Boolean to indicate whether or not the build should be done silently. More...
 
std::ostream * Stream_pt
 Pointer to the output stream – defaults to std::cout. More...
 

Detailed Description

The least-squares commutator (LSC; formerly BFBT) preconditioner. It uses blocks corresponding to the displacement/position and pressure unknowns, i.e. there are a total of 2x2 blocks, and all displacement/position components are treated as a single block of unknowns.

Here are the details: An "ideal" preconditioner would solve the saddle point system

\[ \left( \begin{array}{cc} {\bf F} & {\bf G} \\ {\bf D} & {\bf 0} \end{array} \right) \left( \begin{array}{c} {\bf z}_u \\ {\bf z}_p \end{array} \right) = \left( \begin{array}{c} {\bf r}_u \\ {\bf r}_p \end{array} \right) \]

where $ {\bf F}$, $ {\bf G} $, and $ {\bf D}$ are the blocks that arise in the Jacobian of the pressure-based equations of linear and nonlinear elasticity (with dofs in order of displacement/position and pressure). The use of this preconditioner would ensure the convergence of any iterative linear solver in a single iteration but its application is, of course, exactly as expensive as a direct solve. The LSC/BFBT preconditioner replaces the exact Jacobian by a block-triangular approximation

\[ \left( \begin{array}{cc} {\bf F} & {\bf G} \\ {\bf 0} & -{\bf M}_s \end{array} \right) \left( \begin{array}{c} {\bf z}_u \\ {\bf z}_p \end{array} \right) = \left( \begin{array}{c} {\bf r}_u \\ {\bf r}_p \end{array} \right), \]

where ${\bf M}_s$ is an approximation to the pressure Schur-complement $ {\bf S} = {\bf D} {\bf F}^{-1}{\bf G}. $ This system can be solved in two steps:

  1. Solve the second row for $ {\bf z}_p$ via

    \[ {\bf z}_p = - {\bf M}_s^{-1} {\bf r}_p \]

  2. Given $ {\bf z}_p $ , solve the first row for $ {\bf z}_u$ via

    \[ {\bf z}_u = {\bf F}^{-1} \big( {\bf r}_u - {\bf G} {\bf z}_p \big) \]

    . In the LSC/BFBT preconditioner, the action of the inverse pressure Schur complement

    \[ {\bf z}_p = - {\bf M}_s^{-1} {\bf r}_p \]

    is approximated by

    \[ {\bf z}_p = - \big({\bf D} \widehat{\bf Q}^{-1}{\bf G} \big)^{-1} \big({\bf D} \widehat{\bf Q}^{-1}{\bf F} \widehat{\bf Q}^{-1}{\bf G}\big) \big({\bf D} \widehat{\bf Q}^{-1}{\bf G} \big)^{-1} {\bf r}_p, \]

    where $ \widehat{\bf Q} $ is the diagonal of the displacement/position mass matrix. The evaluation of this expression involves two linear solves involving the matrix

    \[ {\bf P} = \big({\bf D} \widehat{\bf Q}^{-1}{\bf G} \big) \]

    which has the character of a matrix arising from the discretisation of a Poisson problem on the pressure space. We also have to evaluate matrix-vector products with the matrix

    \[ {\bf E}={\bf D}\widehat{\bf Q}^{-1}{\bf F}\widehat{\bf Q}^{-1}{\bf G} \]

    Details of the theory can be found in "Finite Elements and Fast Iterative Solvers with Applications in Incompressible Fluid Dynamics" by Howard C. Elman, David J. Silvester, and Andrew J. Wathen, published by Oxford University Press, 2006.

In our implementation of the preconditioner, the linear systems can either be solved "exactly", using SuperLU (in its incarnation as an exact preconditioner; this is the default) or by any other Preconditioner (inexact solver) specified via the access functions

PressureBasedSolidLSCPreconditioner::set_f_preconditioner(...)
oomph::PressureBasedSolidLSCPreconditioner::set_f_preconditioner
void set_f_preconditioner(Preconditioner *new_f_preconditioner_pt)
Function to set a new momentum matrix preconditioner (inexact solver)
Definition: solid_preconditioners.h:233

or

PressureBasedSolidLSCPreconditioner::set_p_preconditioner(...)
oomph::PressureBasedSolidLSCPreconditioner::set_p_preconditioner
void set_p_preconditioner(Preconditioner *new_p_preconditioner_pt)
Function to set a new pressure matrix preconditioner (inexact solver)
Definition: solid_preconditioners.h:209

Definition at line 105 of file solid_preconditioners.h.

Constructor & Destructor Documentation

◆ PressureBasedSolidLSCPreconditioner() [1/2]

oomph::PressureBasedSolidLSCPreconditioner::PressureBasedSolidLSCPreconditioner ( )
inline

Constructor - sets defaults for control flags.

Definition at line 110 of file solid_preconditioners.h.

References Bt_mat_vec_pt, Doc_time, E_mat_vec_pt, F_mat_vec_pt, F_preconditioner_pt, Form_BFBt_product, P_matrix_using_scaling, P_preconditioner_pt, Preconditioner_has_been_setup, QBt_mat_vec_pt, oomph::BlockPreconditioner< CRDoubleMatrix >::set_nmesh(), Solid_mesh_pt, Using_default_f_preconditioner, and Using_default_p_preconditioner.

◆ ~PressureBasedSolidLSCPreconditioner()

oomph::PressureBasedSolidLSCPreconditioner::~PressureBasedSolidLSCPreconditioner ( )
inline

Destructor.

Definition at line 156 of file solid_preconditioners.h.

References clean_up_memory().

◆ PressureBasedSolidLSCPreconditioner() [2/2]

oomph::PressureBasedSolidLSCPreconditioner::PressureBasedSolidLSCPreconditioner ( const PressureBasedSolidLSCPreconditioner )
delete

Broken copy constructor.

Member Function Documentation

◆ assemble_mass_matrix_diagonal()

CRDoubleMatrix * oomph::PressureBasedSolidLSCPreconditioner::assemble_mass_matrix_diagonal ( )
private

Helper function to assemble the diagonal of the mass matrix from the elemental contributions defined in PressureBasedSolidEquations<DIM>::get_mass_matrix_diagonal(...).

Helper function to assemble the diagonal of the mass matrix from the elemental contributions defined in SolidElementWithDiagonalMassMatrix::get_mass_matrix_diagonal(...).

Definition at line 704 of file solid_preconditioners.cc.

References oomph::BlockPreconditioner< CRDoubleMatrix >::any_mesh_distributed(), oomph::BlockPreconditioner< CRDoubleMatrix >::block_distribution_pt(), oomph::BlockPreconditioner< CRDoubleMatrix >::block_number(), oomph::CRDoubleMatrix::build_without_copy(), oomph::Preconditioner::comm_pt(), oomph::DistributableLinearAlgebraObject::distributed(), e, oomph::Mesh::element_pt(), oomph::GeneralisedElement::eqn_number(), oomph::LinearAlgebraDistribution::first_row(), oomph::DistributableLinearAlgebraObject::first_row(), oomph::SolidElementWithDiagonalMassMatrix::get_mass_matrix_diagonal(), i, oomph::BlockPreconditioner< CRDoubleMatrix >::index_in_block(), oomph::GeneralisedElement::is_halo(), oomph::BlockPreconditioner< CRDoubleMatrix >::master_distribution_pt(), oomph::GeneralisedElement::ndof(), oomph::Mesh::nelement(), oomph::LinearAlgebraDistribution::nrow(), oomph::DistributableLinearAlgebraObject::nrow(), oomph::LinearAlgebraDistribution::nrow_local(), oomph::DistributableLinearAlgebraObject::nrow_local(), and Solid_mesh_pt.

Referenced by setup().

◆ clean_up_memory()

void oomph::PressureBasedSolidLSCPreconditioner::clean_up_memory ( )
virtual

Helper function to delete preconditioner data.

Reimplemented from oomph::Preconditioner.

Definition at line 1357 of file solid_preconditioners.cc.

References Bt_mat_vec_pt, E_mat_vec_pt, F_mat_vec_pt, F_preconditioner_pt, Form_BFBt_product, P_preconditioner_pt, Preconditioner_has_been_setup, QBt_mat_vec_pt, Using_default_f_preconditioner, and Using_default_p_preconditioner.

Referenced by setup(), and ~PressureBasedSolidLSCPreconditioner().

◆ disable_doc_time()

void oomph::PressureBasedSolidLSCPreconditioner::disable_doc_time ( )
inline

Disable documentation of time.

Definition at line 264 of file solid_preconditioners.h.

References Doc_time.

◆ disable_form_BFBt_product()

void oomph::PressureBasedSolidLSCPreconditioner::disable_form_BFBt_product ( )
inline

if this function is called then: in setup(...) : the matrices B, F are assembled and stored (the default behaviour) . in preconditioner_solve(...) : a sequence of matrix vector products with B, F, and Bt is performed. (Note: in this discussion no scaling was considered but B and Bt are replaced with BQ and QBt with scaling)

Definition at line 285 of file solid_preconditioners.h.

References Form_BFBt_product.

◆ disable_p_matrix_scaling()

void oomph::PressureBasedSolidLSCPreconditioner::disable_p_matrix_scaling ( )
inline

Enable mass matrix diagonal scaling in the Schur complement approximation.

Definition at line 196 of file solid_preconditioners.h.

References P_matrix_using_scaling.

◆ enable_doc_time()

void oomph::PressureBasedSolidLSCPreconditioner::enable_doc_time ( )
inline

Enable documentation of time.

Definition at line 258 of file solid_preconditioners.h.

References Doc_time.

◆ enable_form_BFBt_product()

void oomph::PressureBasedSolidLSCPreconditioner::enable_form_BFBt_product ( )
inline

If this function is called then: in setup(...) : BFBt is computed. in preconditioner_solve(...) : a single matrix vector product with BFBt is performed.

Definition at line 273 of file solid_preconditioners.h.

References Form_BFBt_product.

◆ enable_p_matrix_scaling()

void oomph::PressureBasedSolidLSCPreconditioner::enable_p_matrix_scaling ( )
inline

Enable mass matrix diagonal scaling in the Schur complement approximation.

Definition at line 189 of file solid_preconditioners.h.

References P_matrix_using_scaling.

◆ is_p_matrix_using_scaling()

bool oomph::PressureBasedSolidLSCPreconditioner::is_p_matrix_using_scaling ( ) const
inline

Return whether the mass matrix is using diagonal scaling or not.

Definition at line 203 of file solid_preconditioners.h.

References P_matrix_using_scaling.

◆ preconditioner_solve()

void oomph::PressureBasedSolidLSCPreconditioner::preconditioner_solve ( const DoubleVector r,
DoubleVector z 
)
virtual

Apply preconditioner to Vector r.

Apply preconditioner to r.

Implements oomph::Preconditioner.

Definition at line 493 of file solid_preconditioners.cc.

References Bt_mat_vec_pt, oomph::DoubleVector::build(), oomph::DoubleVector::built(), oomph::DoubleVector::clear(), oomph::DistributableLinearAlgebraObject::distribution_pt(), Doc_time, E_mat_vec_pt, F_mat_vec_pt, F_preconditioner_is_block_preconditioner, F_preconditioner_pt, Form_BFBt_product, oomph::BlockPreconditioner< CRDoubleMatrix >::get_block_vector(), oomph::MatrixVectorProduct::multiply(), oomph::MatrixVectorProduct::multiply_transpose(), oomph::DistributableLinearAlgebraObject::nrow(), oomph::oomph_info, P_preconditioner_pt, Preconditioner_has_been_setup, oomph::Preconditioner::preconditioner_solve(), QBt_mat_vec_pt, oomph::BlockPreconditioner< CRDoubleMatrix >::return_block_vector(), and oomph::TimingHelpers::timer().

◆ set_f_preconditioner()

void oomph::PressureBasedSolidLSCPreconditioner::set_f_preconditioner ( Preconditioner new_f_preconditioner_pt)
inline

Function to set a new momentum matrix preconditioner (inexact solver)

Definition at line 233 of file solid_preconditioners.h.

References F_preconditioner_pt, and Using_default_f_preconditioner.

◆ set_f_superlu_preconditioner()

void oomph::PressureBasedSolidLSCPreconditioner::set_f_superlu_preconditioner ( )
inline

Function to (re-)set momentum matrix preconditioner (inexact solver) to SuperLU.

Definition at line 247 of file solid_preconditioners.h.

References F_preconditioner_pt, and Using_default_f_preconditioner.

◆ set_p_preconditioner()

void oomph::PressureBasedSolidLSCPreconditioner::set_p_preconditioner ( Preconditioner new_p_preconditioner_pt)
inline

Function to set a new pressure matrix preconditioner (inexact solver)

Definition at line 209 of file solid_preconditioners.h.

References P_preconditioner_pt, and Using_default_p_preconditioner.

◆ set_p_superlu_preconditioner()

void oomph::PressureBasedSolidLSCPreconditioner::set_p_superlu_preconditioner ( )
inline

Function to (re-)set pressure matrix preconditioner (inexact solver) to SuperLU.

Definition at line 223 of file solid_preconditioners.h.

References P_preconditioner_pt, and Using_default_p_preconditioner.

◆ set_solid_mesh()

void oomph::PressureBasedSolidLSCPreconditioner::set_solid_mesh ( Mesh mesh_pt)
inline

specify the mesh containing the mesh containing the block-preconditionable solid elements. The dimension of the problem must also be specified.

Definition at line 182 of file solid_preconditioners.h.

References oomph::BlockPreconditioner< CRDoubleMatrix >::mesh_pt(), and Solid_mesh_pt.

◆ setup()

void oomph::PressureBasedSolidLSCPreconditioner::setup ( )
virtual

Broken assignment operator.

Setup the least-squares commutator solid preconditioner. This extracts blocks corresponding to the position/displacement and pressure unknowns, creates the matrices actually needed in the application of the preconditioner and deletes what can be deleted... Note that this preconditioner needs a CRDoubleMatrix.

Setup the preconditioner

Implements oomph::Preconditioner.

Definition at line 38 of file solid_preconditioners.cc.

References assemble_mass_matrix_diagonal(), oomph::BlockPreconditioner< CRDoubleMatrix >::block_setup(), Bt_mat_vec_pt, clean_up_memory(), Doc_time, E_mat_vec_pt, F_mat_vec_pt, F_preconditioner_is_block_preconditioner, F_preconditioner_pt, Form_BFBt_product, oomph::BlockPreconditioner< CRDoubleMatrix >::get_block(), i, oomph::BlockPreconditioner< CRDoubleMatrix >::is_subsidiary_block_preconditioner(), oomph::BlockPreconditioner< CRDoubleMatrix >::matrix_pt(), oomph::CRDoubleMatrix::multiply(), oomph::BlockPreconditioner< CRDoubleMatrix >::ndof_types(), oomph::BlockPreconditioner< CRDoubleMatrix >::ndof_types_in_mesh(), oomph::oomph_info, P_matrix_using_scaling, P_preconditioner_pt, Preconditioner_has_been_setup, QBt_mat_vec_pt, oomph::BlockPreconditioner< CRDoubleMatrix >::set_mesh(), oomph::Preconditioner::setup(), oomph::BlockPreconditioner< CRDoubleMatrix >::setup_matrix_vector_product(), Solid_mesh_pt, oomph::TimingHelpers::timer(), oomph::BlockPreconditioner< MATRIX >::turn_into_subsidiary_block_preconditioner(), Using_default_f_preconditioner, and Using_default_p_preconditioner.

Member Data Documentation

◆ Bt_mat_vec_pt

MatrixVectorProduct* oomph::PressureBasedSolidLSCPreconditioner::Bt_mat_vec_pt
private

MatrixVectorProduct operator for Bt;.

Definition at line 339 of file solid_preconditioners.h.

Referenced by clean_up_memory(), preconditioner_solve(), PressureBasedSolidLSCPreconditioner(), and setup().

◆ Doc_time

bool oomph::PressureBasedSolidLSCPreconditioner::Doc_time
private

Set Doc_time to true for outputting results of timings.

Definition at line 330 of file solid_preconditioners.h.

Referenced by disable_doc_time(), enable_doc_time(), preconditioner_solve(), PressureBasedSolidLSCPreconditioner(), and setup().

◆ E_mat_vec_pt

MatrixVectorProduct* oomph::PressureBasedSolidLSCPreconditioner::E_mat_vec_pt
private

MatrixVectorProduct operator for E (BFBt) if BFBt is to be formed.

Definition at line 342 of file solid_preconditioners.h.

Referenced by clean_up_memory(), preconditioner_solve(), PressureBasedSolidLSCPreconditioner(), and setup().

◆ F_mat_vec_pt

MatrixVectorProduct* oomph::PressureBasedSolidLSCPreconditioner::F_mat_vec_pt
private

MatrixVectorProduct operator for F if BFBt is not to be formed.

Definition at line 333 of file solid_preconditioners.h.

Referenced by clean_up_memory(), preconditioner_solve(), PressureBasedSolidLSCPreconditioner(), and setup().

◆ F_preconditioner_is_block_preconditioner

bool oomph::PressureBasedSolidLSCPreconditioner::F_preconditioner_is_block_preconditioner
private

Boolean indicating whether the momentum system preconditioner is a block preconditioner.

Definition at line 327 of file solid_preconditioners.h.

Referenced by preconditioner_solve(), and setup().

◆ F_preconditioner_pt

Preconditioner* oomph::PressureBasedSolidLSCPreconditioner::F_preconditioner_pt
private

Pointer to the 'preconditioner' for the F matrix.

Definition at line 303 of file solid_preconditioners.h.

Referenced by clean_up_memory(), preconditioner_solve(), PressureBasedSolidLSCPreconditioner(), set_f_preconditioner(), set_f_superlu_preconditioner(), and setup().

◆ Form_BFBt_product

bool oomph::PressureBasedSolidLSCPreconditioner::Form_BFBt_product
private

indicates whether BFBt should be formed or the component matrices should be retained. If true then: in setup(...) : BFBt is computed. in preconditioner_solve(...) : a single matrix vector product with BFBt is performed. if false then: in setup(...) : the matrices B, F are assembled and stored. in preconditioner_solve(...) : a sequence of matrix vector products with B, F, and Bt is performed. (Note: in this discussion no scaling was considered but B and Bt are replaced with BQ and QBt with scaling)

Definition at line 356 of file solid_preconditioners.h.

Referenced by clean_up_memory(), disable_form_BFBt_product(), enable_form_BFBt_product(), preconditioner_solve(), PressureBasedSolidLSCPreconditioner(), and setup().

◆ P_matrix_using_scaling

bool oomph::PressureBasedSolidLSCPreconditioner::P_matrix_using_scaling
private

Control flag is true if mass matrix diagonal scaling is used in the Schur complement approximation.

Definition at line 318 of file solid_preconditioners.h.

Referenced by disable_p_matrix_scaling(), enable_p_matrix_scaling(), is_p_matrix_using_scaling(), PressureBasedSolidLSCPreconditioner(), and setup().

◆ P_preconditioner_pt

Preconditioner* oomph::PressureBasedSolidLSCPreconditioner::P_preconditioner_pt
private

Pointer to the 'preconditioner' for the pressure matrix.

Definition at line 300 of file solid_preconditioners.h.

Referenced by clean_up_memory(), preconditioner_solve(), PressureBasedSolidLSCPreconditioner(), set_p_preconditioner(), set_p_superlu_preconditioner(), and setup().

◆ Preconditioner_has_been_setup

bool oomph::PressureBasedSolidLSCPreconditioner::Preconditioner_has_been_setup
private

Control flag is true if the preconditioner has been setup (used so we can wipe the data when the preconditioner is called again)

Definition at line 314 of file solid_preconditioners.h.

Referenced by clean_up_memory(), preconditioner_solve(), PressureBasedSolidLSCPreconditioner(), and setup().

◆ QBt_mat_vec_pt

MatrixVectorProduct* oomph::PressureBasedSolidLSCPreconditioner::QBt_mat_vec_pt
private

MatrixVectorProduct operator for QBt if BFBt is not to be formed.

Definition at line 336 of file solid_preconditioners.h.

Referenced by clean_up_memory(), preconditioner_solve(), PressureBasedSolidLSCPreconditioner(), and setup().

◆ Solid_mesh_pt

Mesh* oomph::PressureBasedSolidLSCPreconditioner::Solid_mesh_pt
private

the pointer to the mesh of block preconditionable solid elements.

Definition at line 360 of file solid_preconditioners.h.

Referenced by assemble_mass_matrix_diagonal(), PressureBasedSolidLSCPreconditioner(), set_solid_mesh(), and setup().

◆ Using_default_f_preconditioner

bool oomph::PressureBasedSolidLSCPreconditioner::Using_default_f_preconditioner
private

flag indicating whether the default F preconditioner is used

Definition at line 306 of file solid_preconditioners.h.

Referenced by clean_up_memory(), PressureBasedSolidLSCPreconditioner(), set_f_preconditioner(), set_f_superlu_preconditioner(), and setup().

◆ Using_default_p_preconditioner

bool oomph::PressureBasedSolidLSCPreconditioner::Using_default_p_preconditioner
private

flag indicating whether the default P preconditioner is used

Definition at line 309 of file solid_preconditioners.h.

Referenced by clean_up_memory(), PressureBasedSolidLSCPreconditioner(), set_p_preconditioner(), set_p_superlu_preconditioner(), and setup().

The documentation for this class was generated from the following files: