Functions | |
template<typename eT > | |
Mat< eT > | linspace (const eT start, const eT end, const u32 num, const u32 dim=0) |
Generate a vector with 'num' elements. The values of the elements linearly increase from 'start' upto (and including) 'end'. | |
mat | linspace (const double start, const double end, const u32 num, const u32 dim=0) |
template<typename T , typename T1 > | |
Mat< T > | real (const Base< std::complex< T >, T1 > &X) |
template<typename T , typename T1 > | |
Cube< T > | real (const BaseCube< std::complex< T >, T1 > &X) |
template<typename T , typename T1 > | |
Mat< T > | imag (const Base< std::complex< T >, T1 > &X) |
template<typename T , typename T1 > | |
Cube< T > | imag (const BaseCube< std::complex< T >, T1 > &X) |
template<typename eT > | |
eT | log_add (eT log_a, eT log_b) |
template<typename eT > | |
eT | trunc_log (const eT x) |
template<typename eT > | |
eT | trunc_exp (const eT x) |
template<typename T1 > | |
const Op< T1, op_log > | log (const Base< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const OpCube< T1, op_log > | log (const BaseCube< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const Op< T1, op_trunc_log > | trunc_log (const Base< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const OpCube< T1, op_trunc_log > | trunc_log (const BaseCube< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const Op< T1, op_log10 > | log10 (const Base< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const OpCube< T1, op_log10 > | log10 (const BaseCube< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const Op< T1, op_exp > | exp (const Base< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const OpCube< T1, op_exp > | exp (const BaseCube< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const Op< T1, op_trunc_exp > | trunc_exp (const Base< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const OpCube< T1, op_trunc_exp > | trunc_exp (const BaseCube< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
Mat< typename T1::pod_type > | abs (const Base< typename T1::elem_type, T1 > &X) |
template<typename T1 > | |
Cube< typename T1::pod_type > | abs (const BaseCube< typename T1::elem_type, T1 > &X) |
template<typename T1 > | |
Mat< typename T1::pod_type > | fabs (const Base< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
Cube< typename T1::pod_type > | fabs (const BaseCube< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const Op< T1, op_square > | square (const Base< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const OpCube< T1, op_square > | square (const BaseCube< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const Op< T1, op_sqrt > | sqrt (const Base< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const OpCube< T1, op_sqrt > | sqrt (const BaseCube< typename T1::elem_type, T1 > &A) |
template<typename T1 > | |
const Op< T1, op_pow > | pow (const Base< typename T1::elem_type, T1 > &A, const typename T1::elem_type exponent) |
template<typename T1 > | |
const OpCube< T1, op_pow > | pow (const BaseCube< typename T1::elem_type, T1 > &A, const typename T1::elem_type exponent) |
template<typename T1 > | |
const Op< T1, op_pow > | pow (const Base< typename T1::elem_type, T1 > &A, const typename T1::elem_type::value_type exponent) |
template<typename T1 > | |
const OpCube< T1, op_pow > | pow (const BaseCube< typename T1::elem_type, T1 > &A, const typename T1::elem_type::value_type exponent) |
template<typename T1 > | |
const Op< T1, op_pow_s32 > | pow (const Base< typename T1::elem_type, T1 > &A, const s32 exponent) |
template<typename T1 > | |
const OpCube< T1, op_pow_s32 > | pow (const BaseCube< typename T1::elem_type, T1 > &A, const s32 exponent) |
template<typename T , typename T1 > | |
const Op< T1, op_conj > | conj (const Base< std::complex< T >, T1 > &A) |
template<typename T , typename T1 > | |
const OpCube< T1, op_conj > | conj (const BaseCube< std::complex< T >, T1 > &A) |
template<typename T1 > | |
const T1 & | conj (const Op< T1, op_conj > &A) |
template<typename T1 > | |
const T1 & | conj (const OpCube< T1, op_conj > &A) |
template<typename T1 > | |
const Op< T1, op_htrans > | conj (const Op< T1, op_trans > &A) |
the conjugate of the transpose of a complex matrix is the same as the hermitian transpose |
Mat<eT> linspace | ( | const eT | start, | |
const eT | end, | |||
const u32 | num, | |||
const u32 | dim = 0 | |||
) | [inline] |
Generate a vector with 'num' elements. The values of the elements linearly increase from 'start' upto (and including) 'end'.
Definition at line 26 of file fn_misc.hpp.
References Mat< eT >::set_size().
00027 { 00028 arma_extra_debug_sigprint(); 00029 00030 arma_debug_check( (num < 2), "linspace(): num must be >= 2"); 00031 00032 Mat<eT> x; 00033 00034 if(dim == 0) 00035 { 00036 x.set_size(num,1); // column vector 00037 } 00038 else 00039 { 00040 x.set_size(1,num); // row vector 00041 } 00042 00043 00044 const eT delta = (end-start)/(num-1); 00045 00046 x[0] = start; 00047 00048 for(u32 i=1; i<num; ++i) 00049 { 00050 x[i] = x[i-1] + delta; 00051 } 00052 00053 return x; 00054 }
Definition at line 60 of file fn_misc.hpp.
Mat<T> real | ( | const Base< std::complex< T >, T1 > & | X | ) | [inline] |
Definition at line 74 of file fn_misc.hpp.
References Mat< eT >::memptr(), and Mat< eT >::n_elem.
Referenced by real(), and auxlib::svd().
00075 { 00076 arma_extra_debug_sigprint(); 00077 00078 typedef std::complex<T> eT; 00079 00080 const unwrap<T1> A_tmp(X.get_ref()); 00081 const Mat<eT>& A = A_tmp.M; 00082 00083 Mat<T> out(A.n_rows, A.n_cols); 00084 00085 const eT* A_mem = A.mem; 00086 T* out_mem = out.memptr(); 00087 00088 for(u32 i=0; i<out.n_elem; ++i) 00089 { 00090 out_mem[i] = std::real(A_mem[i]); 00091 } 00092 00093 return out; 00094 }
Cube<T> real | ( | const BaseCube< std::complex< T >, T1 > & | X | ) | [inline] |
Definition at line 101 of file fn_misc.hpp.
References Cube< eT >::memptr(), Cube< eT >::n_elem, and real().
00102 { 00103 arma_extra_debug_sigprint(); 00104 00105 typedef std::complex<T> eT; 00106 00107 const unwrap_cube<T1> A_tmp(X.get_ref()); 00108 const Cube<eT>& A = A_tmp.M; 00109 00110 Cube<T> out(A.n_rows, A.n_cols, A.n_slices); 00111 00112 const eT* A_mem = A.mem; 00113 T* out_mem = out.memptr(); 00114 00115 for(u32 i=0; i<out.n_elem; ++i) 00116 { 00117 out_mem[i] = std::real(A_mem[i]); 00118 } 00119 00120 return out; 00121 }
Mat<T> imag | ( | const Base< std::complex< T >, T1 > & | X | ) | [inline] |
Definition at line 131 of file fn_misc.hpp.
References Mat< eT >::memptr(), and Mat< eT >::n_elem.
Referenced by imag().
00132 { 00133 arma_extra_debug_sigprint(); 00134 00135 typedef std::complex<T> eT; 00136 00137 const unwrap<T1> A_tmp(X.get_ref()); 00138 const Mat<eT>& A = A_tmp.M; 00139 00140 Mat<T> out(A.n_rows, A.n_cols); 00141 00142 const eT* A_mem = A.mem; 00143 T* out_mem = out.memptr(); 00144 00145 for(u32 i=0; i<out.n_elem; ++i) 00146 { 00147 out_mem[i] = std::imag(A_mem[i]); 00148 } 00149 00150 return out; 00151 }
Cube<T> imag | ( | const BaseCube< std::complex< T >, T1 > & | X | ) | [inline] |
Definition at line 158 of file fn_misc.hpp.
References imag(), Cube< eT >::memptr(), and Cube< eT >::n_elem.
00159 { 00160 arma_extra_debug_sigprint(); 00161 00162 typedef std::complex<T> eT; 00163 00164 const unwrap_cube<T1> A_tmp(X.get_ref()); 00165 const Cube<eT>& A = A_tmp.M; 00166 00167 Cube<T> out(A.n_rows, A.n_cols, A.n_slices); 00168 00169 const eT* A_mem = A.mem; 00170 T* out_mem = out.memptr(); 00171 00172 for(u32 i=0; i<out.n_elem; ++i) 00173 { 00174 out_mem[i] = std::imag(A_mem[i]); 00175 } 00176 00177 return out; 00178 }
eT log_add | ( | eT | log_a, | |
eT | log_b | |||
) | [inline] |
Definition at line 188 of file fn_misc.hpp.
References arma_isfinite(), exp(), and log().
00189 { 00190 if(log_a < log_b) 00191 { 00192 std::swap(log_a, log_b); 00193 } 00194 00195 const eT negdelta = log_b - log_a; 00196 00197 if( (negdelta < Math<eT>::log_min()) || (arma_isfinite(negdelta) == false) ) 00198 { 00199 return log_a; 00200 } 00201 else 00202 { 00203 #if defined(ARMA_HAVE_LOG1P) 00204 return (log_a + log1p(std::exp(negdelta))); 00205 #else 00206 return (log_a + std::log(1.0 + std::exp(negdelta))); 00207 #endif 00208 } 00209 }
eT trunc_log | ( | const eT | x | ) | [inline] |
Definition at line 216 of file fn_misc.hpp.
References log(), Math< eT >::log_max(), and Math< eT >::log_min().
Referenced by op_trunc_log::apply().
00217 { 00218 if(std::numeric_limits<eT>::is_iec559) 00219 { 00220 if(x == std::numeric_limits<eT>::infinity()) 00221 { 00222 return Math<eT>::log_max(); 00223 } 00224 if(x <= 0) 00225 { 00226 return Math<eT>::log_min(); 00227 } 00228 else 00229 { 00230 return std::log(x); 00231 } 00232 } 00233 else 00234 { 00235 return std::log(x); 00236 } 00237 }
eT trunc_exp | ( | const eT | x | ) | [inline] |
Definition at line 244 of file fn_misc.hpp.
Referenced by op_trunc_exp::apply().
00245 { 00246 if(std::numeric_limits<eT>::is_iec559 && (x >= Math<eT>::log_max() )) 00247 { 00248 return std::numeric_limits<eT>::max(); 00249 } 00250 else 00251 { 00252 return std::exp(x); 00253 } 00254 }
const Op<T1, op_log> log | ( | const Base< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 264 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
Referenced by op_log::apply(), log_add(), Math< eT >::log_max(), Math< eT >::log_min(), and trunc_log().
00265 { 00266 arma_extra_debug_sigprint(); 00267 00268 return Op<T1, op_log>(A.get_ref()); 00269 }
const OpCube<T1, op_log> log | ( | const BaseCube< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 276 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00277 { 00278 arma_extra_debug_sigprint(); 00279 00280 return OpCube<T1, op_log>(A.get_ref()); 00281 }
const Op<T1, op_trunc_log> trunc_log | ( | const Base< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 291 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
00292 { 00293 arma_extra_debug_sigprint(); 00294 00295 return Op<T1, op_trunc_log>(A.get_ref()); 00296 }
const OpCube<T1, op_trunc_log> trunc_log | ( | const BaseCube< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 303 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00304 { 00305 arma_extra_debug_sigprint(); 00306 00307 return OpCube<T1, op_trunc_log>(A.get_ref()); 00308 }
const Op<T1, op_log10> log10 | ( | const Base< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 318 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
Referenced by op_log10::apply(), and op_eps::direct_eps().
00319 { 00320 arma_extra_debug_sigprint(); 00321 00322 return Op<T1, op_log10>(A.get_ref()); 00323 }
const OpCube<T1, op_log10> log10 | ( | const BaseCube< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 330 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00331 { 00332 arma_extra_debug_sigprint(); 00333 00334 return OpCube<T1, op_log10>(A.get_ref()); 00335 }
const Op<T1, op_exp> exp | ( | const Base< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 345 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
Referenced by op_exp::apply(), log_add(), and trunc_exp().
00346 { 00347 arma_extra_debug_sigprint(); 00348 00349 return Op<T1, op_exp>(A.get_ref()); 00350 }
const OpCube<T1, op_exp> exp | ( | const BaseCube< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 357 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00358 { 00359 arma_extra_debug_sigprint(); 00360 00361 return OpCube<T1, op_exp>(A.get_ref()); 00362 }
const Op<T1, op_trunc_exp> trunc_exp | ( | const Base< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 372 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
00373 { 00374 arma_extra_debug_sigprint(); 00375 00376 return Op<T1, op_trunc_exp>(A.get_ref()); 00377 }
const OpCube<T1, op_trunc_exp> trunc_exp | ( | const BaseCube< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 384 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00385 { 00386 arma_extra_debug_sigprint(); 00387 00388 return OpCube<T1, op_trunc_exp>(A.get_ref()); 00389 }
Mat<typename T1::pod_type> abs | ( | const Base< typename T1::elem_type, T1 > & | X | ) | [inline] |
Definition at line 399 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref(), Mat< eT >::mem, Mat< eT >::memptr(), Mat< eT >::n_cols, Mat< eT >::n_elem, and Mat< eT >::n_rows.
Referenced by abs(), op_min::apply(), op_median::apply(), op_max::apply(), arma_qsort_helper< std::complex< T > >::ascend_compare(), arma_qsort_helper< std::complex< T > >::descend_compare(), op_median::direct_cx_median_index(), op_eps::direct_eps(), op_max::direct_max(), op_min::direct_min(), fabs(), and norm().
00400 { 00401 arma_extra_debug_sigprint(); 00402 00403 const unwrap<T1> A_tmp(X.get_ref()); 00404 00405 // if T1 is a complex matrix, 00406 // pod_type is the underlying type used by std::complex; 00407 // otherwise pod_type is the same as elem_type 00408 00409 typedef typename T1::elem_type in_eT; 00410 typedef typename T1::pod_type out_eT; 00411 00412 const Mat<in_eT>& A = A_tmp.M; 00413 00414 Mat<out_eT> out(A.n_rows, A.n_cols); 00415 00416 const in_eT* A_mem = A.mem; 00417 out_eT* out_mem = out.memptr(); 00418 00419 for(u32 i=0; i<out.n_elem; ++i) 00420 { 00421 out_mem[i] = std::abs(A_mem[i]); 00422 } 00423 00424 return out; 00425 }
Cube<typename T1::pod_type> abs | ( | const BaseCube< typename T1::elem_type, T1 > & | X | ) | [inline] |
Definition at line 432 of file fn_misc.hpp.
References abs(), BaseCube< elem_type, derived >::get_ref(), Cube< eT >::mem, Cube< eT >::memptr(), Cube< eT >::n_cols, Cube< eT >::n_elem, Cube< eT >::n_rows, and Cube< eT >::n_slices.
00433 { 00434 arma_extra_debug_sigprint(); 00435 00436 const unwrap_cube<T1> A_tmp(X.get_ref()); 00437 00438 // if T1 is a complex matrix, 00439 // pod_type is the underlying type used by std::complex; 00440 // otherwise pod_type is the same as elem_type 00441 00442 typedef typename T1::elem_type in_eT; 00443 typedef typename T1::pod_type out_eT; 00444 00445 const Cube<in_eT>& A = A_tmp.M; 00446 00447 Cube<out_eT> out(A.n_rows, A.n_cols, A.n_slices); 00448 00449 const in_eT* A_mem = A.mem; 00450 out_eT* out_mem = out.memptr(); 00451 00452 for(u32 i=0; i<out.n_elem; ++i) 00453 { 00454 out_mem[i] = std::abs(A_mem[i]); 00455 } 00456 00457 return out; 00458 }
Mat<typename T1::pod_type> fabs | ( | const Base< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 468 of file fn_misc.hpp.
References abs().
00469 { 00470 arma_extra_debug_sigprint(); 00471 00472 return abs(A); 00473 }
Cube<typename T1::pod_type> fabs | ( | const BaseCube< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 480 of file fn_misc.hpp.
References abs().
00481 { 00482 arma_extra_debug_sigprint(); 00483 00484 return abs(A); 00485 }
const Op<T1, op_square> square | ( | const Base< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 495 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
00496 { 00497 arma_extra_debug_sigprint(); 00498 00499 return Op<T1, op_square>(A.get_ref()); 00500 }
const OpCube<T1, op_square> square | ( | const BaseCube< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 507 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00508 { 00509 arma_extra_debug_sigprint(); 00510 00511 return OpCube<T1, op_square>(A.get_ref()); 00512 }
const Op<T1, op_sqrt> sqrt | ( | const Base< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 522 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
Referenced by accu(), op_stddev::apply(), op_sqrt::apply(), op_norm_dot::apply(), norm(), running_stat_vec< eT >::stddev(), running_stat< eT >::stddev(), and stddev().
00523 { 00524 arma_extra_debug_sigprint(); 00525 00526 return Op<T1, op_sqrt>(A.get_ref()); 00527 }
const OpCube<T1, op_sqrt> sqrt | ( | const BaseCube< typename T1::elem_type, T1 > & | A | ) | [inline] |
Definition at line 534 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00535 { 00536 arma_extra_debug_sigprint(); 00537 00538 return OpCube<T1, op_sqrt>(A.get_ref()); 00539 }
const Op<T1, op_pow> pow | ( | const Base< typename T1::elem_type, T1 > & | A, | |
const typename T1::elem_type | exponent | |||
) | [inline] |
Definition at line 548 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
Referenced by op_pow::apply(), op_eps::direct_eps(), op_pow_s32::internal_pow(), op_pow::internal_pow(), and norm().
00549 { 00550 arma_extra_debug_sigprint(); 00551 00552 return Op<T1, op_pow>(A.get_ref(), exponent); 00553 }
const OpCube<T1, op_pow> pow | ( | const BaseCube< typename T1::elem_type, T1 > & | A, | |
const typename T1::elem_type | exponent | |||
) | [inline] |
Definition at line 560 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00561 { 00562 arma_extra_debug_sigprint(); 00563 00564 return OpCube<T1, op_pow>(A.get_ref(), exponent); 00565 }
const Op<T1, op_pow> pow | ( | const Base< typename T1::elem_type, T1 > & | A, | |
const typename T1::elem_type::value_type | exponent | |||
) | [inline] |
Definition at line 574 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
00575 { 00576 arma_extra_debug_sigprint(); 00577 00578 return Op<T1, op_pow>(A.get_ref(), eT(exponent)); 00579 }
const OpCube<T1, op_pow> pow | ( | const BaseCube< typename T1::elem_type, T1 > & | A, | |
const typename T1::elem_type::value_type | exponent | |||
) | [inline] |
Definition at line 586 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00587 { 00588 arma_extra_debug_sigprint(); 00589 00590 return OpCube<T1, op_pow>(A.get_ref(), eT(exponent)); 00591 }
const Op<T1, op_pow_s32> pow | ( | const Base< typename T1::elem_type, T1 > & | A, | |
const s32 | exponent | |||
) | [inline] |
Definition at line 603 of file fn_misc.hpp.
References Base< elem_type, derived >::get_ref().
00604 { 00605 arma_extra_debug_sigprint(); 00606 00607 if(exponent >= 0) 00608 { 00609 return Op<T1, op_pow_s32>(A.get_ref(), exponent, 0); 00610 } 00611 else 00612 { 00613 return Op<T1, op_pow_s32>(A.get_ref(), -exponent, 1); 00614 } 00615 }
const OpCube<T1, op_pow_s32> pow | ( | const BaseCube< typename T1::elem_type, T1 > & | A, | |
const s32 | exponent | |||
) | [inline] |
Definition at line 622 of file fn_misc.hpp.
References BaseCube< elem_type, derived >::get_ref().
00623 { 00624 arma_extra_debug_sigprint(); 00625 00626 if(exponent >= 0) 00627 { 00628 return OpCube<T1, op_pow_s32>(A.get_ref(), exponent, 0); 00629 } 00630 else 00631 { 00632 return OpCube<T1, op_pow_s32>(A.get_ref(), -exponent, 1); 00633 } 00634 }
const Op<T1, op_conj> conj | ( | const Base< std::complex< T >, T1 > & | A | ) | [inline] |
Definition at line 647 of file fn_misc.hpp.
Referenced by op_conj::apply(), op_htrans::apply(), op_htrans::apply_noalias(), op_cor::direct_cor(), glue_cor::direct_cor(), op_cov::direct_cov(), glue_cov::direct_cov(), eig_gen(), auxlib::svd(), and running_stat_vec_aux::update_stats().
00648 { 00649 arma_extra_debug_sigprint(); 00650 00651 return Op<T1, op_conj>(A.get_ref()); 00652 }
const OpCube<T1, op_conj> conj | ( | const BaseCube< std::complex< T >, T1 > & | A | ) | [inline] |
Definition at line 659 of file fn_misc.hpp.
00660 { 00661 arma_extra_debug_sigprint(); 00662 00663 return OpCube<T1, op_conj>(A.get_ref()); 00664 }
Definition at line 671 of file fn_misc.hpp.
References Op< T1, op_type >::m.
00672 { 00673 arma_extra_debug_sigprint(); 00674 00675 return A.m; 00676 }
Definition at line 683 of file fn_misc.hpp.
References OpCube< T1, op_type >::m.
00684 { 00685 arma_extra_debug_sigprint(); 00686 00687 return A.m; 00688 }
the conjugate of the transpose of a complex matrix is the same as the hermitian transpose
Definition at line 695 of file fn_misc.hpp.
References Op< T1, op_type >::m.
00696 { 00697 arma_extra_debug_sigprint(); 00698 00699 arma_type_check< is_complex<typename T1::elem_type>::value == false >::apply(); 00700 00701 return Op<T1, op_htrans>(A.m); 00702 }