HLIBpro  1.2
Public Member Functions | Protected Member Functions | List of all members
TLLMatrix Class Reference

special representation for evaluation of Cholesky factored matrices

#include <TLUMatrix.hh>

Inheritance diagram for TLLMatrix:
TFacMatrix TMatrix TLockable TTypeInfo

Public Member Functions

 TLLMatrix (TMatrix *afac_matrix, const matform_t format)
 TLLMatrix (const TScalarVector *D1, TMatrix *afac_matrix, const TScalarVector *D2, const matform_t format)
virtual ~TLLMatrix ()
 destructor
virtual TMatrixcreate () const
 return matrix of same class (but no content)
virtual TMatrixcopy () const
 return copy of matrix
virtual TMatrixinverse () const
 return matrix object for the inverse operator
virtual typeid_t type () const
 return type ID of matrix
virtual bool is_type (const typeid_t t) const
 return true if local object is of given type ID t
- Public Member Functions inherited from TFacMatrix
 TFacMatrix (TMatrix *afac_matrix, const eval_type_t aeval_type=CFG::Arith::eval_type)
 TFacMatrix (const TScalarVector *D1, TMatrix *afac_matrix, const TScalarVector *D2, const eval_type_t aeval_type=CFG::Arith::eval_type)
 ~TFacMatrix ()
 destructor
virtual size_t rows () const
 return number of rows
virtual size_t cols () const
 return number of columns
virtual void set_size (const size_t n, const size_t m)
 set size of matrix
TMatrixmatrix ()
 access internal factorised matrix
bool has_scaling () const
 return info about presence of scaling matrices
const TScalarVectorscaling_left () const
 return left scaling matrix
const TScalarVectorscaling_right () const
 return right scaling matrix
eval_type_t eval_type () const
 return evaluation type (pointwise/blockwise)
virtual real entry (const idx_t i, const idx_t j) const
virtual const complex centry (const idx_t i, const idx_t j) const
virtual void mul_vec (const real alpha, const TVector *x, const real beta, TVector *y, const matop_t op=MATOP_NORM) const
 matrix-vector-multiplication : y = α op(A) · x + β · y
virtual void cmul_vec (const complex alpha, const TVector *x, const complex beta, TVector *y, const matop_t op=MATOP_NORM) const
 matrix-vector-multiplication : y = α op(A) · x + β · y
virtual void transpose ()
 transpose matrix
virtual void conjugate ()
 conjugate matrix coefficients
virtual void truncate (const TTruncAcc &acc)
 truncate matrix to given accuracy
virtual void print (const uint ofs=0) const
 print basic info about matrix
virtual void to_real ()
 switch to real valued representation
virtual void to_complex ()
 switch to complex valued representation
virtual void copy_to (TMatrix *A) const
 copy matrix into given matrix
virtual TVectorrow_vector () const
 return appropriate vector-types for row index set of matrix
virtual TVectorcol_vector () const
 return appropriate vector-types for column index set of matrix
virtual size_t byte_size () const
 return size in bytes used by this object
virtual void read (TByteStream &s)
 read data from stream s and copy to matrix
virtual void write (TByteStream &s) const
 write data to stream s
virtual size_t bs_size () const
 returns size of object in bytestream
- Public Member Functions inherited from TMatrix
 TMatrix (const bool acomplex=false)
 construct zero sized matrix
 TMatrix (const TBlockCluster *c)
 construct matrix of size defined by block cluster c
 TMatrix (const TBlockIndexSet &bis)
 construct matrix of size defined by block cluster c
 TMatrix (const TMatrix &A)
 copy constructor
virtual ~TMatrix ()
 dtor
TIndexSet row_is () const
 return row index set
TIndexSet col_is () const
 return column index set
TBlockIndexSet block_is () const
 return block index set
virtual idx_t row_ofs () const
 return first index (number) in row
virtual idx_t col_ofs () const
 return first index (number) in column
virtual void set_ofs (const idx_t r, const idx_t c)
 set index set offsets
virtual void set_block_is (const TBlockIndexSet &is)
 set block index set of matrix
bool is_nonsym () const
 return true if matrix is unsymmetric
bool is_symmetric () const
 return true if matrix is symmetric
bool is_hermitian () const
 return true if matrix is hermitian
matform_t form () const
 return matrix format
void set_nonsym ()
 set matrix to be unsymmetric
void set_symmetric ()
 set matrix to be symmetric
void set_hermitian ()
 set matrix to be hermitian
virtual void set_form (const matform_t f)
 set matrix format
const TProcSetprocs () const
 return matrix processor set
uint nprocs () const
 return number of processors in local set
void set_procs (const TProcSet &ps)
 set processor set of matrix
virtual void copy_struct (const TMatrix *M)
bool is_real () const
 return true if matrix is real valued
bool is_complex () const
 return true if matrix is complex valued
void set_complex (const bool b, const bool force=false)
const TBlockClustercluster () const
 return corresponding block cluster of matrix
virtual void set_cluster (const TBlockCluster *c)
 set block cluster of matrix
virtual void scale (const real alpha)
 compute this ≔ α·this
virtual void add (const real alpha, const TMatrix *matrix)
 compute this ≔ this + α · matrix
virtual TMatrixmul_right (const real alpha, const TMatrix *B, const matop_t op_A, const matop_t op_B) const
 compute α·op(A)·op(B), with A = this
virtual TMatrixmul_left (const real alpha, const TMatrix *A, const matop_t op_A, const matop_t op_B) const
 compute α·op(A)·op(B), with B = this
virtual void cscale (const complex alpha)
 compute this ≔ α·this
virtual void cadd (const complex alpha, const TMatrix *matrix)
 compute this ≔ this + α · matrix
virtual TMatrixcmul_right (const complex alpha, const TMatrix *B, const matop_t op_A, const matop_t op_B) const
 compute α·op(A)·op(B), with A = this
virtual TMatrixcmul_left (const complex alpha, const TMatrix *A, const matop_t op_A, const matop_t op_B) const
 compute α·op(A)·op(B), with B = this
virtual size_t global_byte_size () const
virtual TMatrixcopy (const TTruncAcc &acc, const bool coarsen=false) const
 return copy of matrix with accuracy acc and optional coarsening
virtual void copy_to (TMatrix *A, const TTruncAcc &acc, const bool coarsen=false) const
 copy matrix into matrix A with accuracy acc and optional coarsening
virtual void build (TByteStream &s)
 use data from stream s to build matrix
virtual void sum (const TProcSet &p, const uint pid, const uint nparts, TByteStream *bs, const TTruncAcc &acc)
virtual void check_data () const
 test data for invalid values, e.g. INF and NAN
- Public Member Functions inherited from TLockable
TMutexmutex ()
 give access to internal mutex
void lock ()
 lock local mutex of matrix
void unlock ()
 unlock local mutex of matrix
- Public Member Functions inherited from TTypeInfo
virtual String typestr () const
 return string representation of type

Protected Member Functions

virtual void eval (TVector *x, const matop_t op) const

Constructor & Destructor Documentation

TLLMatrix ( TMatrix afac_matrix,
const matform_t  format 
)
inline

constructor without diagonal scaling

TLLMatrix ( const TScalarVector D1,
TMatrix afac_matrix,
const TScalarVector D2,
const matform_t  format 
)
inline

constructor with diagonal scaling

Member Function Documentation

virtual void eval ( TVector x,
const matop_t  op 
) const
protectedvirtual

internal evaluation method for factors

Implements TFacMatrix.