//! More...
Classes | |
class | Col< eT > |
Class for column vectors (matrices with only column). More... | |
Functions | |
Col::Col () | |
construct an empty column vector | |
Col::Col (const u32 n_elem) | |
construct a column vector with the specified number of n_elem | |
Col::Col (const u32 in_rows, const u32 in_cols) | |
Col::Col (const char *text) | |
construct a column vector from specified text | |
const Col & | Col::operator= (const char *text) |
construct a column vector from specified text | |
Col::Col (const std::string &text) | |
construct a column vector from specified text | |
const Col & | Col::operator= (const std::string &text) |
construct a column vector from specified text | |
Col::Col (const Col &X) | |
construct a column vector from a given column vector | |
const Col & | Col::operator= (const Col &X) |
construct a column vector from a given column vector | |
Col::Col (const Mat< eT > &X) | |
construct a column vector from a given matrix; the matrix must have exactly one column | |
const Col & | Col::operator= (const Mat< eT > &X) |
construct a column vector from a given matrix; the matrix must have exactly one column | |
const Col & | Col::operator*= (const Mat< eT > &X) |
Col::Col (eT *aux_mem, const u32 aux_n_rows, const u32 aux_n_cols, const bool copy_aux_mem=true) | |
construct a column vector from a given auxiliary array of eTs | |
Col::Col (const eT *aux_mem, const u32 aux_n_rows, const u32 aux_n_cols) | |
construct a column vector from a given auxiliary array of eTs | |
Col::Col (eT *aux_mem, const u32 aux_length, const bool copy_aux_mem=true) | |
construct a column vector from a given auxiliary array of eTs | |
Col::Col (const eT *aux_mem, const u32 aux_length) | |
construct a column vector from a given auxiliary array of eTs | |
template<typename T1 , typename T2 > | |
Col::Col (const Base< typename Col< eT >::pod_type, T1 > &A, const Base< typename Col< eT >::pod_type, T2 > &B) | |
Col::Col (const subview< eT > &X) | |
construct a column vector from given a submatrix; the submatrix must have exactly one column | |
const Col & | Col::operator= (const subview< eT > &X) |
construct a column vector from given a submatrix; the submatrix must have exactly one column | |
const Col & | Col::operator*= (const subview< eT > &X) |
Col::Col (const subview_cube< eT > &X) | |
construct a column vector from given a subcube; the subcube must have exactly one column | |
const Col & | Col::operator= (const subview_cube< eT > &X) |
construct a column vector from given a subcube; the subcube must have exactly one column | |
const Col & | Col::operator*= (const subview_cube< eT > &X) |
Col::Col (const diagview< eT > &X) | |
construct a column vector from given a diagview | |
const Col & | Col::operator= (const diagview< eT > &X) |
construct a column vector from given a diagview | |
const Col & | Col::operator*= (const diagview< eT > &X) |
arma_inline eT & | Col::row (const u32 row_num) |
arma_inline eT | Col::row (const u32 row_num) const |
arma_inline subview_col< eT > | Col::rows (const u32 in_row1, const u32 in_row2) |
arma_inline const subview_col< eT > | Col::rows (const u32 in_row1, const u32 in_row2) const |
template<typename T1 , typename op_type > | |
Col::Col (const Op< T1, op_type > &X) | |
construct a column vector from Op, i.e. run the previously delayed operations; the result of the operations must have exactly one column | |
template<typename T1 , typename op_type > | |
const Col & | Col::operator= (const Op< T1, op_type > &X) |
construct a column vector from Op, i.e. run the previously delayed operations; the result of the operations must have exactly one column | |
template<typename T1 , typename op_type > | |
const Col & | Col::operator*= (const Op< T1, op_type > &X) |
template<typename T1 , typename eop_type > | |
Col::Col (const eOp< T1, eop_type > &X) | |
template<typename T1 , typename eop_type > | |
const Col & | Col::operator= (const eOp< T1, eop_type > &X) |
template<typename T1 , typename eop_type > | |
const Col & | Col::operator*= (const eOp< T1, eop_type > &X) |
template<typename T1 , typename op_type > | |
Col::Col (const mtOp< eT, T1, op_type > &X) | |
template<typename T1 , typename op_type > | |
const Col & | Col::operator= (const mtOp< eT, T1, op_type > &X) |
template<typename T1 , typename op_type > | |
const Col & | Col::operator*= (const mtOp< eT, T1, op_type > &X) |
template<typename T1 , typename T2 , typename glue_type > | |
Col::Col (const Glue< T1, T2, glue_type > &X) | |
construct a column vector from Glue, i.e. run the previously delayed operations; the result of the operations must have exactly one column | |
template<typename T1 , typename T2 , typename glue_type > | |
const Col & | Col::operator= (const Glue< T1, T2, glue_type > &X) |
construct a column vector from Glue, i.e. run the previously delayed operations; the result of the operations must have exactly one column | |
template<typename T1 , typename T2 , typename glue_type > | |
const Col & | Col::operator*= (const Glue< T1, T2, glue_type > &X) |
template<typename T1 , typename T2 , typename eglue_type > | |
Col::Col (const eGlue< T1, T2, eglue_type > &X) | |
template<typename T1 , typename T2 , typename eglue_type > | |
const Col & | Col::operator= (const eGlue< T1, T2, eglue_type > &X) |
template<typename T1 , typename T2 , typename eglue_type > | |
const Col & | Col::operator*= (const eGlue< T1, T2, eglue_type > &X) |
template<typename T1 , typename T2 , typename glue_type > | |
Col::Col (const mtGlue< eT, T1, T2, glue_type > &X) | |
template<typename T1 , typename T2 , typename glue_type > | |
const Col & | Col::operator= (const mtGlue< eT, T1, T2, glue_type > &X) |
template<typename T1 , typename T2 , typename glue_type > | |
const Col & | Col::operator*= (const mtGlue< eT, T1, T2, glue_type > &X) |
void | Col::set_size (const u32 n_elem) |
change the number of rows | |
void | Col::set_size (const u32 n_rows, const u32 n_cols) |
change the number of n_rows (this function re-implements mat::set_size() in order to check the number of columns) | |
template<typename eT2 > | |
void | Col::copy_size (const Mat< eT2 > &m) |
change the number of n_rows (this function re-implements mat::copy_size() in order to check the number of columns) | |
void | Col::zeros () |
void | Col::zeros (const u32 n_elem) |
void | Col::zeros (const u32 n_rows, const u32 n_cols) |
void | Col::ones () |
void | Col::ones (const u32 n_elem) |
void | Col::ones (const u32 n_rows, const u32 n_cols) |
void | Col::load (const std::string name, const file_type type=auto_detect, const bool print_status=true) |
void | Col::load (std::istream &is, const file_type type=auto_detect, const bool print_status=true) |
void | Col::quiet_load (const std::string name, const file_type type=auto_detect) |
void | Col::quiet_load (std::istream &is, const file_type type=auto_detect) |
row_iterator | Col::begin_row (const u32 row_num) |
const_row_iterator | Col::begin_row (const u32 row_num) const |
row_iterator | Col::end_row (const u32 row_num) |
const_row_iterator | Col::end_row (const u32 row_num) const |
//!
construct an empty column vector
Definition at line 24 of file Col_meat.hpp.
: Mat<eT>() { arma_extra_debug_sigprint(); }
construct a column vector with the specified number of n_elem
Definition at line 35 of file Col_meat.hpp.
: Mat<eT>(in_n_elem, 1) { arma_extra_debug_sigprint(); }
Definition at line 45 of file Col_meat.hpp.
: Mat<eT>(in_n_rows, in_n_cols) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
construct a column vector from specified text
Definition at line 58 of file Col_meat.hpp.
References access::rw().
: Mat<eT>(text) { arma_extra_debug_sigprint(); std::swap( access::rw(Mat<eT>::n_rows), access::rw(Mat<eT>::n_cols) ); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const char * | text | ) | [inline, inherited] |
construct a column vector from specified text
Definition at line 74 of file Col_meat.hpp.
References access::rw().
Referenced by Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(text); std::swap( access::rw(Mat<eT>::n_rows), access::rw(Mat<eT>::n_cols) ); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
construct a column vector from specified text
Definition at line 92 of file Col_meat.hpp.
References access::rw().
: Mat<eT>(text) { arma_extra_debug_sigprint(); std::swap( access::rw(Mat<eT>::n_rows), access::rw(Mat<eT>::n_cols) ); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const std::string & | text | ) | [inline, inherited] |
construct a column vector from specified text
Definition at line 108 of file Col_meat.hpp.
References Col< eT >::operator=(), and access::rw().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(text); std::swap( access::rw(Mat<eT>::n_rows), access::rw(Mat<eT>::n_cols) ); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
construct a column vector from a given column vector
Definition at line 126 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); }
const Col< eT > & Col< eT >::operator= | ( | const Col< eT > & | X | ) | [inline, inherited] |
construct a column vector from a given column vector
Definition at line 138 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); return *this; }
construct a column vector from a given matrix; the matrix must have exactly one column
Definition at line 152 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const Mat< eT > & | X | ) | [inline, inherited] |
construct a column vector from a given matrix; the matrix must have exactly one column
Definition at line 166 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const Mat< eT > & | X | ) | [inline, inherited] |
Definition at line 182 of file Col_meat.hpp.
Referenced by Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
Col< eT >::Col | ( | eT * | aux_mem, | |
const u32 | aux_n_rows, | |||
const u32 | aux_n_cols, | |||
const bool | copy_aux_mem = true | |||
) | [inline, inherited] |
construct a column vector from a given auxiliary array of eTs
Definition at line 198 of file Col_meat.hpp.
: Mat<eT>(aux_mem, aux_n_rows, aux_n_cols, copy_aux_mem) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
Col< eT >::Col | ( | const eT * | aux_mem, | |
const u32 | aux_n_rows, | |||
const u32 | aux_n_cols | |||
) | [inline, inherited] |
construct a column vector from a given auxiliary array of eTs
Definition at line 211 of file Col_meat.hpp.
: Mat<eT>(aux_mem, aux_n_rows, aux_n_cols) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
Col< eT >::Col | ( | eT * | aux_mem, | |
const u32 | aux_length, | |||
const bool | copy_aux_mem = true | |||
) | [inline, inherited] |
construct a column vector from a given auxiliary array of eTs
Definition at line 224 of file Col_meat.hpp.
: Mat<eT>(aux_mem, aux_length, 1, copy_aux_mem) { arma_extra_debug_sigprint(); // set_size(aux_length, 1); // // arma_check( (Mat<eT>::n_elem != aux_length), "Col::Col(): don't know how to handle the given array" ); // // syslib::copy_elem( Mat<eT>::memptr(), aux_mem, Mat<eT>::n_elem ); }
Col< eT >::Col | ( | const eT * | aux_mem, | |
const u32 | aux_length | |||
) | [inline, inherited] |
construct a column vector from a given auxiliary array of eTs
Definition at line 241 of file Col_meat.hpp.
: Mat<eT>(aux_mem, aux_length, 1) { arma_extra_debug_sigprint(); // set_size(aux_length, 1); // // arma_check( (Mat<eT>::n_elem != aux_length), "Col::Col(): don't know how to handle the given array" ); // // syslib::copy_elem( Mat<eT>::memptr(), aux_mem, Mat<eT>::n_elem ); }
Col< eT >::Col | ( | const Base< typename Col< eT >::pod_type, T1 > & | A, | |
const Base< typename Col< eT >::pod_type, T2 > & | B | |||
) | [inline, inherited] |
Definition at line 259 of file Col_meat.hpp.
: Mat<eT>(A,B) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
construct a column vector from given a submatrix; the submatrix must have exactly one column
Definition at line 275 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const subview< eT > & | X | ) | [inline, inherited] |
construct a column vector from given a submatrix; the submatrix must have exactly one column
Definition at line 289 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const subview< eT > & | X | ) | [inline, inherited] |
Definition at line 305 of file Col_meat.hpp.
References Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
Col< eT >::Col | ( | const subview_cube< eT > & | X | ) | [inline, inherited] |
construct a column vector from given a subcube; the subcube must have exactly one column
Definition at line 321 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const subview_cube< eT > & | X | ) | [inline, inherited] |
construct a column vector from given a subcube; the subcube must have exactly one column
Definition at line 335 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const subview_cube< eT > & | X | ) | [inline, inherited] |
Definition at line 351 of file Col_meat.hpp.
References Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
construct a column vector from given a diagview
Definition at line 367 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const diagview< eT > & | X | ) | [inline, inherited] |
construct a column vector from given a diagview
Definition at line 381 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const diagview< eT > & | X | ) | [inline, inherited] |
Definition at line 397 of file Col_meat.hpp.
References Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
Definition at line 413 of file Col_meat.hpp.
References access::rw().
{ arma_debug_check( (row_num >= Mat<eT>::n_rows), "Col::row(): out of bounds" ); return access::rw(Mat<eT>::mem[row_num]); }
Definition at line 425 of file Col_meat.hpp.
{ arma_debug_check( (row_num >= Mat<eT>::n_rows), "Col::row(): out of bounds" ); return Mat<eT>::mem[row_num]; }
arma_inline subview_col< eT > Col< eT >::rows | ( | const u32 | in_row1, | |
const u32 | in_row2 | |||
) | [inherited] |
Definition at line 438 of file Col_meat.hpp.
Referenced by op_pinv::direct_pinv(), and op_princomp::direct_princomp().
{ arma_debug_check( ( (in_row1 > in_row2) || (in_row2 >= Mat<eT>::n_rows) ), "Col::rows(): indices out of bounds or incorrectly used"); return subview_col<eT>(*this, 0, in_row1, in_row2); }
arma_inline const subview_col< eT > Col< eT >::rows | ( | const u32 | in_row1, | |
const u32 | in_row2 | |||
) | const [inherited] |
Definition at line 450 of file Col_meat.hpp.
{ arma_debug_check( ( (in_row1 > in_row2) || (in_row2 >= Mat<eT>::n_rows) ), "Col::rows(): indices out of bounds or incorrectly used"); return subview_col<eT>(*this, 0, in_row1, in_row2); }
Col< eT >::Col | ( | const Op< T1, op_type > & | X | ) | [inline, inherited] |
construct a column vector from Op, i.e. run the previously delayed operations; the result of the operations must have exactly one column
Definition at line 464 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const Op< T1, op_type > & | X | ) | [inline, inherited] |
construct a column vector from Op, i.e. run the previously delayed operations; the result of the operations must have exactly one column
Definition at line 479 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const Op< T1, op_type > & | X | ) | [inline, inherited] |
Definition at line 494 of file Col_meat.hpp.
References Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
Col< eT >::Col | ( | const eOp< T1, eop_type > & | X | ) | [inline, inherited] |
Definition at line 510 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const eOp< T1, eop_type > & | X | ) | [inline, inherited] |
Definition at line 524 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const eOp< T1, eop_type > & | X | ) | [inline, inherited] |
Definition at line 539 of file Col_meat.hpp.
References Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
Col< eT >::Col | ( | const mtOp< eT, T1, op_type > & | X | ) | [inline, inherited] |
Definition at line 555 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const mtOp< eT, T1, op_type > & | X | ) | [inline, inherited] |
Definition at line 569 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const mtOp< eT, T1, op_type > & | X | ) | [inline, inherited] |
Definition at line 584 of file Col_meat.hpp.
References Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
Col< eT >::Col | ( | const Glue< T1, T2, glue_type > & | X | ) | [inline, inherited] |
construct a column vector from Glue, i.e. run the previously delayed operations; the result of the operations must have exactly one column
Definition at line 601 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const Glue< T1, T2, glue_type > & | X | ) | [inline, inherited] |
construct a column vector from Glue, i.e. run the previously delayed operations; the result of the operations must have exactly one column
Definition at line 616 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const Glue< T1, T2, glue_type > & | X | ) | [inline, inherited] |
Definition at line 633 of file Col_meat.hpp.
References Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
Col< eT >::Col | ( | const eGlue< T1, T2, eglue_type > & | X | ) | [inline, inherited] |
Definition at line 649 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const eGlue< T1, T2, eglue_type > & | X | ) | [inline, inherited] |
Definition at line 663 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const eGlue< T1, T2, eglue_type > & | X | ) | [inline, inherited] |
Definition at line 680 of file Col_meat.hpp.
References Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
Col< eT >::Col | ( | const mtGlue< eT, T1, T2, glue_type > & | X | ) | [inline, inherited] |
Definition at line 696 of file Col_meat.hpp.
: Mat<eT>(X) { arma_extra_debug_sigprint(); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
const Col< eT > & Col< eT >::operator= | ( | const mtGlue< eT, T1, T2, glue_type > & | X | ) | [inline, inherited] |
Definition at line 710 of file Col_meat.hpp.
References Col< eT >::operator=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
const Col< eT > & Col< eT >::operator*= | ( | const mtGlue< eT, T1, T2, glue_type > & | X | ) | [inline, inherited] |
Definition at line 727 of file Col_meat.hpp.
References Col< eT >::operator*=().
{ arma_extra_debug_sigprint(); Mat<eT>::operator*=(X); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); return *this; }
change the number of rows
Definition at line 744 of file Col_meat.hpp.
Referenced by Col< eT >::copy_size(), op_princomp::direct_princomp(), auxlib::eig_sym(), Col< eT >::set_size(), svd(), and auxlib::svd().
{ arma_extra_debug_sigprint(); Mat<eT>::set_size(in_n_elem,1); }
void Col< eT >::set_size | ( | const u32 | n_rows, | |
const u32 | n_cols | |||
) | [inline, inherited] |
change the number of n_rows (this function re-implements mat::set_size() in order to check the number of columns)
Definition at line 757 of file Col_meat.hpp.
References min(), and Col< eT >::set_size().
{ arma_extra_debug_sigprint(); // min() is used in case in_n_cols is zero Mat<eT>::set_size( in_n_rows, (std::min)( u32(1), in_n_cols ) ); arma_debug_check( (in_n_cols > 1), "Col::set_size(): incompatible dimensions" ); }
void Col< eT >::copy_size | ( | const Mat< eT2 > & | m | ) | [inline, inherited] |
change the number of n_rows (this function re-implements mat::copy_size() in order to check the number of columns)
Definition at line 774 of file Col_meat.hpp.
References min(), Mat< eT >::n_cols, Mat< eT >::n_rows, and Col< eT >::set_size().
{ arma_extra_debug_sigprint(); // min() is used in case x.n_cols is zero Mat<eT>::set_size( x.n_rows, (std::min)( u32(1), x.n_cols ) ); arma_debug_check( (x.n_cols > 1), "Col::copy_size(): incompatible dimensions" ); }
void Col< eT >::zeros | ( | ) | [inline, inherited] |
Definition at line 789 of file Col_meat.hpp.
Referenced by op_princomp::direct_princomp(), and Col< eT >::zeros().
{ arma_extra_debug_sigprint(); Mat<eT>::zeros(); }
Definition at line 801 of file Col_meat.hpp.
References Col< eT >::zeros().
{ arma_extra_debug_sigprint(); Mat<eT>::zeros(in_n_elem, 1); }
void Col< eT >::zeros | ( | const u32 | n_rows, | |
const u32 | n_cols | |||
) | [inline, inherited] |
Definition at line 813 of file Col_meat.hpp.
References min(), and Col< eT >::zeros().
{ arma_extra_debug_sigprint(); // min() is used in case in_n_cols is zero Mat<eT>::zeros( in_n_rows, (std::min)( u32(1), in_n_cols ) ); arma_debug_check( (in_n_cols > 1), "Col::zeros(): incompatible dimensions" ); }
void Col< eT >::ones | ( | ) | [inline, inherited] |
Definition at line 828 of file Col_meat.hpp.
Referenced by Col< eT >::ones().
{ arma_extra_debug_sigprint(); Mat<eT>::ones(); }
Definition at line 840 of file Col_meat.hpp.
References Col< eT >::ones().
{ arma_extra_debug_sigprint(); Mat<eT>::ones(in_n_elem, 1); }
void Col< eT >::ones | ( | const u32 | n_rows, | |
const u32 | n_cols | |||
) | [inline, inherited] |
Definition at line 852 of file Col_meat.hpp.
References min(), and Col< eT >::ones().
{ arma_extra_debug_sigprint(); // min() is used in case in_n_cols is zero Mat<eT>::ones( in_n_rows, (std::min)( u32(1), in_n_cols ) ); arma_debug_check( (in_n_cols > 1), "Col::ones(): incompatible dimensions" ); }
void Col< eT >::load | ( | const std::string | name, | |
const file_type | type = auto_detect , |
|||
const bool | print_status = true | |||
) | [inline, inherited] |
Definition at line 867 of file Col_meat.hpp.
Referenced by Col< eT >::load().
{ arma_extra_debug_sigprint(); Mat<eT>::load(name, type, print_status); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
void Col< eT >::load | ( | std::istream & | is, | |
const file_type | type = auto_detect , |
|||
const bool | print_status = true | |||
) | [inline, inherited] |
Definition at line 881 of file Col_meat.hpp.
References Col< eT >::load().
{ arma_extra_debug_sigprint(); Mat<eT>::load(is, type, print_status); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
void Col< eT >::quiet_load | ( | const std::string | name, | |
const file_type | type = auto_detect | |||
) | [inline, inherited] |
Definition at line 895 of file Col_meat.hpp.
Referenced by Col< eT >::quiet_load().
{ arma_extra_debug_sigprint(); Mat<eT>::quiet_load(name, type); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
void Col< eT >::quiet_load | ( | std::istream & | is, | |
const file_type | type = auto_detect | |||
) | [inline, inherited] |
Definition at line 909 of file Col_meat.hpp.
References Col< eT >::quiet_load().
{ arma_extra_debug_sigprint(); Mat<eT>::quiet_load(is, type); arma_debug_check( (Mat<eT>::n_cols > 1), "Col(): incompatible dimensions" ); }
Col< eT >::row_iterator Col< eT >::begin_row | ( | const u32 | row_num | ) | [inline, inherited] |
Definition at line 923 of file Col_meat.hpp.
References Mat< eT >::memptr().
{ arma_extra_debug_sigprint(); arma_debug_check( (row_num >= Mat<eT>::n_rows), "begin_row(): index out of bounds"); return Mat<eT>::memptr() + row_num; }
Col< eT >::const_row_iterator Col< eT >::begin_row | ( | const u32 | row_num | ) | const [inline, inherited] |
Definition at line 937 of file Col_meat.hpp.
References Mat< eT >::memptr().
{ arma_extra_debug_sigprint(); arma_debug_check( (row_num >= Mat<eT>::n_rows), "begin_row(): index out of bounds"); return Mat<eT>::memptr() + row_num; }
Col< eT >::row_iterator Col< eT >::end_row | ( | const u32 | row_num | ) | [inline, inherited] |
Definition at line 951 of file Col_meat.hpp.
References Mat< eT >::memptr().
{ arma_extra_debug_sigprint(); arma_debug_check( (row_num >= Mat<eT>::n_rows), "end_row(): index out of bounds"); return Mat<eT>::memptr() + row_num + 1; }
Col< eT >::const_row_iterator Col< eT >::end_row | ( | const u32 | row_num | ) | const [inline, inherited] |
Definition at line 965 of file Col_meat.hpp.
References Mat< eT >::memptr().
{ arma_extra_debug_sigprint(); arma_debug_check( (row_num >= Mat<eT>::n_rows), "end_row(): index out of bounds"); return Mat<eT>::memptr() + row_num + 1; }