GenericMatrix.h

Note

The documentation on this page was automatically extracted from the DOLFIN C++ code and may need to be edited or expanded.

class GenericMatrix

Parent class(es)

• GenericTensor
• GenericLinearOperator

This class defines a common interface for matrices.

std::size_t rank() const

Return tensor rank (number of dimensions)

std::size_t size(std::size_t dim) const = 0

Return size of given dimension

std::pair<std::size_t, std::size_t> local_range(std::size_t dim) const = 0

Return local ownership range

void get(double *block, const dolfin::la_index *num_rows, const dolfin::la_index *const *rows) const

Get block of values

void set(const double *block, const dolfin::la_index *num_rows, const dolfin::la_index *const *rows)

Set block of values

void add(const double *block, const dolfin::la_index *num_rows, const dolfin::la_index *const *rows)

Add block of values

void add(const double *block, const std::vector<const std::vector<dolfin::la_index> *> &rows)

Add block of values

void add(const double *block, const std::vector<std::vector<dolfin::la_index>> &rows)

Add block of values

void zero() = 0

Set all entries to zero and keep any sparse structure

void apply(std::string mode) = 0

Finalize assembly of tensor

std::string str(bool verbose) const = 0

Return informal string representation (pretty-print)

std::shared_ptr<GenericMatrix> copy() const = 0

Return copy of matrix

void init_vector(GenericVector &z, std::size_t dim) const = 0

Initialize vector z to be compatible with the matrix-vector product y = Ax. In the parallel case, both size and layout are important.

Arguments

dim (std::size_t)

The dimension (axis): dim = 0 –> z = y, dim = 1 –> z = x

void get(double *block, std::size_t m, const dolfin::la_index *rows, std::size_t n, const dolfin::la_index *cols) const = 0

Get block of values

void set(const double *block, std::size_t m, const dolfin::la_index *rows, std::size_t n, const dolfin::la_index *cols) = 0

Set block of values

void add(const double *block, std::size_t m, const dolfin::la_index *rows, std::size_t n, const dolfin::la_index *cols) = 0

Add block of values

void axpy(double a, const GenericMatrix &A, bool same_nonzero_pattern) = 0

Add multiple of given matrix (AXPY operation)

double norm(std::string norm_type) const = 0

Return norm of matrix

void getrow(std::size_t row, std::vector<std::size_t> &columns, std::vector<double> &values) const = 0

Get non-zero values of given row on local process

void setrow(std::size_t row, const std::vector<std::size_t> &columns, const std::vector<double> &values) = 0

Set values for given row on local process

void zero(std::size_t m, const dolfin::la_index *rows) = 0

Set given rows to zero

void ident(std::size_t m, const dolfin::la_index *rows) = 0

Set given rows to identity matrix

void transpmult(const GenericVector &x, GenericVector &y) const = 0

Matrix-vector product, y = A^T x. The y vector must either be zero-sized or have correct size and parallel layout.

void set_diagonal(const GenericVector &x) = 0

Set diagonal of a matrix

const GenericMatrix &operator*=(double a) = 0

Multiply matrix by given number

const GenericMatrix &operator/=(double a) = 0

Divide matrix by given number

const GenericMatrix &operator+=(const GenericMatrix &A)

Add given matrix

const GenericMatrix &operator-=(const GenericMatrix &A)

Subtract given matrix

bool is_symmetric(double tol) const

Test if matrix is symmetric

const GenericMatrix &operator=(const GenericMatrix &x) = 0

Assignment operator

boost::tuples::tuple<const std::size_t *, const std::size_t *, const double *, int> data() const

Return pointers to underlying compresssed row/column storage data For compressed row storage, data = (row_pointer[#rows +1], column_index[#nz], matrix_values[#nz], nz)

double operator()(dolfin::la_index i, dolfin::la_index j) const

Get value of given entry

double getitem(std::pair<dolfin::la_index, dolfin::la_index> ij) const

Get value of given entry

void setitem(std::pair<dolfin::la_index, dolfin::la_index> ij, double value)

Set given entry to value. apply(“insert”) must be called before using using the object.

void ident_zeros()

Insert one on the diagonal for all zero rows

void compressed(GenericMatrix &B) const

Build compressed version of matrix (zeros removed)