GNU Octave  9.1.0
A high-level interpreted language, primarily intended for numerical computations, mostly compatible with Matlab
SparseComplexMatrix Member List

This is the complete list of members for SparseComplexMatrix, including all inherited members.

abs() constSparseComplexMatrix
all(int dim=-1) constSparseComplexMatrix
all_elements_are_real() constSparseComplexMatrix
all_integers(double &max_val, double &min_val) constSparseComplexMatrix
any(int dim=-1) constSparseComplexMatrix
any_element_is_inf_or_nan() constSparseComplexMatrix
any_element_is_nan() constSparseComplexMatrix
array_value() constSparse< T, Alloc >
assign(const octave::idx_vector &i, const Sparse< T, Alloc > &rhs)Sparse< T, Alloc >
assign(const octave::idx_vector &i, const T &rhs)Sparse< T, Alloc >
assign(const octave::idx_vector &i, const octave::idx_vector &j, const Sparse< T, Alloc > &rhs)Sparse< T, Alloc >
assign(const octave::idx_vector &i, const octave::idx_vector &j, const T &rhs)Sparse< T, Alloc >
byte_size() constSparse< T, Alloc >inline
cat(int dim, octave_idx_type n, const Sparse< T, Alloc > *sparse_list)Sparse< T, Alloc >static
change_capacity(octave_idx_type nz)Sparse< T, Alloc >inline
checkelem(octave_idx_type n)Sparse< T, Alloc >inline
checkelem(octave_idx_type i, octave_idx_type j)Sparse< T, Alloc >inline
checkelem(const Array< octave_idx_type > &ra_idx)Sparse< T, Alloc >inline
checkelem(octave_idx_type n) constSparse< T, Alloc >inline
checkelem(octave_idx_type i, octave_idx_type j) constSparse< T, Alloc >inline
checkelem(const Array< octave_idx_type > &ra_idx) constSparse< T, Alloc >inline
cidx()Sparse< T, Alloc >inline
cidx(octave_idx_type i)Sparse< T, Alloc >inline
cidx(octave_idx_type i) constSparse< T, Alloc >inline
cidx() constSparse< T, Alloc >inline
cols() constSparse< T, Alloc >inline
column(octave_idx_type i) constSparseComplexMatrix
columns() constSparse< T, Alloc >inline
compute_index(const Array< octave_idx_type > &ra_idx) constSparse< T, Alloc >
concat(const SparseComplexMatrix &rb, const Array< octave_idx_type > &ra_idx)SparseComplexMatrix
concat(const SparseMatrix &rb, const Array< octave_idx_type > &ra_idx)SparseComplexMatrix
conj(const SparseComplexMatrix &a)SparseComplexMatrixfriend
cumprod(int dim=-1) constSparseComplexMatrix
cumsum(int dim=-1) constSparseComplexMatrix
data()Sparse< T, Alloc >inline
data(octave_idx_type i)Sparse< T, Alloc >inline
data(octave_idx_type i) constSparse< T, Alloc >inline
data() constSparse< T, Alloc >inline
delete_elements(const octave::idx_vector &i)Sparse< T, Alloc >
delete_elements(int dim, const octave::idx_vector &i)Sparse< T, Alloc >
delete_elements(const octave::idx_vector &i, const octave::idx_vector &j)Sparse< T, Alloc >
dense_matrix_type typedefSparseComplexMatrix
determinant() constSparseComplexMatrix
determinant(octave_idx_type &info) constSparseComplexMatrix
determinant(octave_idx_type &info, double &rcond, bool calc_cond=true) constSparseComplexMatrix
diag(octave_idx_type k=0) constSparseComplexMatrix
dim1() constSparse< T, Alloc >inline
dim2() constSparse< T, Alloc >inline
dims() constSparse< T, Alloc >inline
elem(octave_idx_type n)Sparse< T, Alloc >inline
elem(octave_idx_type i, octave_idx_type j)Sparse< T, Alloc >inline
elem(const Array< octave_idx_type > &ra_idx)Sparse< T, Alloc >inline
elem(octave_idx_type n) constSparse< T, Alloc >inline
elem(octave_idx_type i, octave_idx_type j) constSparse< T, Alloc >inline
elem(const Array< octave_idx_type > &ra_idx) constSparse< T, Alloc >inline
element_type typedefSparse< T, Alloc >
get_col_index(octave_idx_type k)Sparse< T, Alloc >inline
get_row_index(octave_idx_type k)Sparse< T, Alloc >inline
hermitian() constSparseComplexMatrix
index(const octave::idx_vector &i, bool resize_ok=false) constSparse< T, Alloc >
index(const octave::idx_vector &i, const octave::idx_vector &j, bool resize_ok=false) constSparse< T, Alloc >
indices_ok() constSparse< T, Alloc >inline
insert(const SparseComplexMatrix &a, octave_idx_type r, octave_idx_type c)SparseComplexMatrix
insert(const SparseMatrix &a, octave_idx_type r, octave_idx_type c)SparseComplexMatrix
insert(const SparseComplexMatrix &a, const Array< octave_idx_type > &indx)SparseComplexMatrix
insert(const SparseMatrix &a, const Array< octave_idx_type > &indx)SparseComplexMatrix
MSparse< Complex >::insert(const Sparse< Complex > &a, octave_idx_type r, octave_idx_type c)MSparse< Complex >inline
MSparse< Complex >::insert(const Sparse< Complex > &a, const Array< octave_idx_type > &indx)MSparse< Complex >inline
Sparse::insert(const Sparse< T, Alloc > &a, octave_idx_type r, octave_idx_type c)Sparse< T, Alloc >
Sparse::insert(const Sparse< T, Alloc > &a, const Array< octave_idx_type > &idx)Sparse< T, Alloc >
inverse() constSparseComplexMatrix
inverse(MatrixType &mattype) constSparseComplexMatrix
inverse(MatrixType &mattype, octave_idx_type &info) constSparseComplexMatrix
inverse(MatrixType &mattype, octave_idx_type &info, double &rcond, bool force=false, bool calc_cond=true) constSparseComplexMatrix
ipermute(const Array< octave_idx_type > &vec) constSparseComplexMatrix
isempty() constSparse< T, Alloc >inline
ishermitian() constSparseComplexMatrix
issquare() constSparse< T, Alloc >inline
m_dimensionsSparse< T, Alloc >protected
m_repSparse< T, Alloc >protected
make_unique()Sparse< T, Alloc >inlineprotected
map(U(&fcn)(Complex)) constMSparse< Complex >inline
map(U(&fcn)(const Complex &)) constMSparse< Complex >inline
Sparse::map(F fcn) constSparse< T, Alloc >inline
Sparse::map(U(&fcn)(T)) constSparse< T, Alloc >inline
Sparse::map(U(&fcn)(const T &)) constSparse< T, Alloc >inline
matrix_value() constSparseComplexMatrix
max(int dim=-1) constSparseComplexMatrix
max(Array< octave_idx_type > &index, int dim=-1) constSparseComplexMatrix
maybe_compress(bool remove_zeros=false)Sparse< T, Alloc >inline
min(int dim=-1) constSparseComplexMatrix
min(Array< octave_idx_type > &index, int dim=-1) constSparseComplexMatrix
MSparse()MSparse< Complex >inline
MSparse(octave_idx_type n, octave_idx_type m)MSparse< Complex >inline
MSparse(const dim_vector &dv, octave_idx_type nz=0)MSparse< Complex >inline
MSparse(const MSparse< Complex > &a)MSparse< Complex >inline
MSparse(const MSparse< Complex > &a, const dim_vector &dv)MSparse< Complex >inline
MSparse(const Sparse< Complex > &a)MSparse< Complex >inline
MSparse(const Sparse< U > &a)MSparse< Complex >inline
MSparse(const Array< Complex > &a, const octave::idx_vector &r, const octave::idx_vector &c, octave_idx_type nr=-1, octave_idx_type nc=-1, bool sum_terms=true, octave_idx_type nzm=-1)MSparse< Complex >inline
MSparse(octave_idx_type r, octave_idx_type c, Complex val)MSparse< Complex >inlineexplicit
MSparse(const PermMatrix &a)MSparse< Complex >inlineexplicit
MSparse(octave_idx_type r, octave_idx_type c, octave_idx_type num_nz)MSparse< Complex >inline
ndims() constSparse< T, Alloc >inline
nnz() constSparse< T, Alloc >inline
numel() constSparse< T, Alloc >inline
nzmax() constSparse< T, Alloc >inline
operator!() constSparseComplexMatrix
operator!=(const SparseComplexMatrix &a) constSparseComplexMatrix
operator()(octave_idx_type n)Sparse< T, Alloc >inline
operator()(octave_idx_type i, octave_idx_type j)Sparse< T, Alloc >inline
operator()(const Array< octave_idx_type > &ra_idx)Sparse< T, Alloc >inline
operator()(octave_idx_type n) constSparse< T, Alloc >inline
operator()(octave_idx_type i, octave_idx_type j) constSparse< T, Alloc >inline
operator()(const Array< octave_idx_type > &ra_idx) constSparse< T, Alloc >inline
operator<<(std::ostream &os, const SparseComplexMatrix &a)SparseComplexMatrixfriend
operator=(const SparseComplexMatrix &a)SparseComplexMatrixinline
MSparse< Complex >::operator=(const MSparse< Complex > &a)MSparse< Complex >inline
Sparse::operator=(const Sparse< T, Alloc > &a)Sparse< T, Alloc >
operator==(const SparseComplexMatrix &a) constSparseComplexMatrix
operator>>(std::istream &is, SparseComplexMatrix &a)SparseComplexMatrixfriend
permute(const Array< octave_idx_type > &vec, bool inv=false) constSparseComplexMatrix
print_info(std::ostream &os, const std::string &prefix) constSparse< T, Alloc >
prod(int dim=-1) constSparseComplexMatrix
range_error(const char *fcn, octave_idx_type n) constSparse< T, Alloc >
range_error(const char *fcn, octave_idx_type n)Sparse< T, Alloc >
range_error(const char *fcn, octave_idx_type i, octave_idx_type j) constSparse< T, Alloc >
range_error(const char *fcn, octave_idx_type i, octave_idx_type j)Sparse< T, Alloc >
range_error(const char *fcn, const Array< octave_idx_type > &ra_idx) constSparse< T, Alloc >
range_error(const char *fcn, const Array< octave_idx_type > &ra_idx)Sparse< T, Alloc >
reshape(const dim_vector &new_dims) constSparseComplexMatrix
resize(octave_idx_type r, octave_idx_type c)Sparse< T, Alloc >
resize(const dim_vector &dv)Sparse< T, Alloc >
resize1(octave_idx_type n)Sparse< T, Alloc >
ridx()Sparse< T, Alloc >inline
ridx(octave_idx_type i)Sparse< T, Alloc >inline
ridx(octave_idx_type i) constSparse< T, Alloc >inline
ridx() constSparse< T, Alloc >inline
row(octave_idx_type i) constSparseComplexMatrix
rows() constSparse< T, Alloc >inline
solve(MatrixType &mattype, const Matrix &b) constSparseComplexMatrix
solve(MatrixType &mattype, const Matrix &b, octave_idx_type &info) constSparseComplexMatrix
solve(MatrixType &mattype, const Matrix &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(MatrixType &mattype, const Matrix &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler, bool singular_fallback=true) constSparseComplexMatrix
solve(MatrixType &mattype, const ComplexMatrix &b) constSparseComplexMatrix
solve(MatrixType &mattype, const ComplexMatrix &b, octave_idx_type &info) constSparseComplexMatrix
solve(MatrixType &mattype, const ComplexMatrix &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(MatrixType &mattype, const ComplexMatrix &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler, bool singular_fallback=true) constSparseComplexMatrix
solve(MatrixType &mattype, const SparseMatrix &b) constSparseComplexMatrix
solve(MatrixType &mattype, const SparseMatrix &b, octave_idx_type &info) constSparseComplexMatrix
solve(MatrixType &mattype, const SparseMatrix &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(MatrixType &mattype, const SparseMatrix &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler, bool singular_fallback=true) constSparseComplexMatrix
solve(MatrixType &mattype, const SparseComplexMatrix &b) constSparseComplexMatrix
solve(MatrixType &mattype, const SparseComplexMatrix &b, octave_idx_type &info) constSparseComplexMatrix
solve(MatrixType &mattype, const SparseComplexMatrix &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(MatrixType &mattype, const SparseComplexMatrix &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler, bool singular_fallback=true) constSparseComplexMatrix
solve(MatrixType &mattype, const ColumnVector &b) constSparseComplexMatrix
solve(MatrixType &mattype, const ColumnVector &b, octave_idx_type &info) constSparseComplexMatrix
solve(MatrixType &mattype, const ColumnVector &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(MatrixType &mattype, const ColumnVector &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler) constSparseComplexMatrix
solve(MatrixType &mattype, const ComplexColumnVector &b) constSparseComplexMatrix
solve(MatrixType &mattype, const ComplexColumnVector &b, octave_idx_type &info) constSparseComplexMatrix
solve(MatrixType &mattype, const ComplexColumnVector &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(MatrixType &mattype, const ComplexColumnVector &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler) constSparseComplexMatrix
solve(const Matrix &b) constSparseComplexMatrix
solve(const Matrix &b, octave_idx_type &info) constSparseComplexMatrix
solve(const Matrix &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(const Matrix &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler) constSparseComplexMatrix
solve(const ComplexMatrix &b) constSparseComplexMatrix
solve(const ComplexMatrix &b, octave_idx_type &info) constSparseComplexMatrix
solve(const ComplexMatrix &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(const ComplexMatrix &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler) constSparseComplexMatrix
solve(const SparseMatrix &b) constSparseComplexMatrix
solve(const SparseMatrix &b, octave_idx_type &info) constSparseComplexMatrix
solve(const SparseMatrix &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(const SparseMatrix &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler) constSparseComplexMatrix
solve(const SparseComplexMatrix &b) constSparseComplexMatrix
solve(const SparseComplexMatrix &b, octave_idx_type &info) constSparseComplexMatrix
solve(const SparseComplexMatrix &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(const SparseComplexMatrix &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler) constSparseComplexMatrix
solve(const ColumnVector &b) constSparseComplexMatrix
solve(const ColumnVector &b, octave_idx_type &info) constSparseComplexMatrix
solve(const ColumnVector &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(const ColumnVector &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler) constSparseComplexMatrix
solve(const ComplexColumnVector &b) constSparseComplexMatrix
solve(const ComplexColumnVector &b, octave_idx_type &info) constSparseComplexMatrix
solve(const ComplexColumnVector &b, octave_idx_type &info, double &rcond) constSparseComplexMatrix
solve(const ComplexColumnVector &b, octave_idx_type &info, double &rcond, solve_singularity_handler sing_handler) constSparseComplexMatrix
solve_singularity_handler typedefSparseComplexMatrix
sort(octave_idx_type dim=0, sortmode mode=ASCENDING) constSparse< T, Alloc >
sort(Array< octave_idx_type > &sidx, octave_idx_type dim=0, sortmode mode=ASCENDING) constSparse< T, Alloc >
Sparse()Sparse< T, Alloc >inline
Sparse(octave_idx_type n)Sparse< T, Alloc >inlineexplicit
Sparse(octave_idx_type nr, octave_idx_type nc)Sparse< T, Alloc >inlineexplicit
Sparse(octave_idx_type nr, octave_idx_type nc, T val)Sparse< T, Alloc >explicit
Sparse(const dim_vector &dv, octave_idx_type nz)Sparse< T, Alloc >inline
Sparse(octave_idx_type nr, octave_idx_type nc, octave_idx_type nz)Sparse< T, Alloc >inline
Sparse(const dim_vector &dv, octave_idx_type nz, T *ptr, octave_idx_type *ridx, octave_idx_type *cidx, const Alloc &xallocator=Alloc())Sparse< T, Alloc >inline
Sparse(const PermMatrix &a)Sparse< T, Alloc >explicit
Sparse(const Sparse< U > &a)Sparse< T, Alloc >inline
Sparse(const Sparse< T, Alloc > &a)Sparse< T, Alloc >inline
Sparse(const dim_vector &dv)Sparse< T, Alloc >
Sparse(const Sparse< T, Alloc > &a, const dim_vector &dv)Sparse< T, Alloc >
Sparse(const Array< T > &a, const octave::idx_vector &r, const octave::idx_vector &c, octave_idx_type nr=-1, octave_idx_type nc=-1, bool sum_terms=true, octave_idx_type nzm=-1)Sparse< T, Alloc >
Sparse(const Array< T > &a)Sparse< T, Alloc >
SparseComplexMatrix()SparseComplexMatrixinline
SparseComplexMatrix(octave_idx_type r, octave_idx_type c)SparseComplexMatrixinline
SparseComplexMatrix(const dim_vector &dv, octave_idx_type nz=0)SparseComplexMatrixinline
SparseComplexMatrix(octave_idx_type r, octave_idx_type c, Complex val)SparseComplexMatrixinlineexplicit
SparseComplexMatrix(octave_idx_type r, octave_idx_type c, double val)SparseComplexMatrixinline
SparseComplexMatrix(const SparseComplexMatrix &a)SparseComplexMatrixinline
SparseComplexMatrix(const SparseComplexMatrix &a, const dim_vector &dv)SparseComplexMatrixinline
SparseComplexMatrix(const MSparse< Complex > &a)SparseComplexMatrixinline
SparseComplexMatrix(const Sparse< Complex > &a)SparseComplexMatrixinline
SparseComplexMatrix(const ComplexMatrix &a)SparseComplexMatrixinlineexplicit
SparseComplexMatrix(const ComplexNDArray &a)SparseComplexMatrixinlineexplicit
SparseComplexMatrix(const Array< Complex > &a, const octave::idx_vector &r, const octave::idx_vector &c, octave_idx_type nr=-1, octave_idx_type nc=-1, bool sum_terms=true, octave_idx_type nzm=-1)SparseComplexMatrixinline
SparseComplexMatrix(const SparseMatrix &a)SparseComplexMatrixexplicit
SparseComplexMatrix(const SparseBoolMatrix &a)SparseComplexMatrixexplicit
SparseComplexMatrix(const ComplexDiagMatrix &a)SparseComplexMatrixexplicit
SparseComplexMatrix(octave_idx_type r, octave_idx_type c, octave_idx_type num_nz)SparseComplexMatrixinline
squeeze() constSparseComplexMatrix
sum(int dim=-1) constSparseComplexMatrix
sumsq(int dim=-1) constSparseComplexMatrix
test(F fcn) constSparse< T, Alloc >inline
test_all(F fcn) constSparse< T, Alloc >inline
test_all(bool(&fcn)(T)) constSparse< T, Alloc >inline
test_all(bool(&fcn)(const T &)) constSparse< T, Alloc >inline
test_any(F fcn) constSparse< T, Alloc >inline
test_any(bool(&fcn)(T)) constSparse< T, Alloc >inline
test_any(bool(&fcn)(const T &)) constSparse< T, Alloc >inline
too_large_for_float() constSparseComplexMatrix
transpose() constSparseComplexMatrixinline
xcidx()Sparse< T, Alloc >inline
xcidx(octave_idx_type i)Sparse< T, Alloc >inline
xdata()Sparse< T, Alloc >inline
xdata(octave_idx_type i)Sparse< T, Alloc >inline
xelem(octave_idx_type n)Sparse< T, Alloc >inline
xelem(octave_idx_type n) constSparse< T, Alloc >inline
xelem(octave_idx_type i, octave_idx_type j)Sparse< T, Alloc >inline
xelem(octave_idx_type i, octave_idx_type j) constSparse< T, Alloc >inline
xelem(const Array< octave_idx_type > &ra_idx)Sparse< T, Alloc >inline
xelem(const Array< octave_idx_type > &ra_idx) constSparse< T, Alloc >inline
xridx()Sparse< T, Alloc >inline
xridx(octave_idx_type i)Sparse< T, Alloc >inline
~MSparse()=defaultMSparse< Complex >
~Sparse()Sparse< T, Alloc >virtual
~SparseComplexMatrix()=defaultSparseComplexMatrix