Mercurial > hg > octave-nkf
view liboctave/fDiagMatrix.cc @ 10804:3d5c6b84ddaf
speed-up fixes to dlmread
| author | Jaroslav Hajek <highegg@gmail.com> |
|---|---|
| date | Tue, 20 Jul 2010 12:50:54 +0200 |
| parents | a0728e81ed25 |
| children | fd0a3ac60b0e |
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// FloatDiagMatrix manipulations. /* Copyright (C) 1994, 1995, 1996, 1997, 2000, 2001, 2002, 2003, 2004, 2005, 2007, 2008, 2009 John W. Eaton Copyright (C) 2009 VZLU Prague This file is part of Octave. Octave is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. Octave is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with Octave; see the file COPYING. If not, see <http://www.gnu.org/licenses/>. */ #ifdef HAVE_CONFIG_H #include <config.h> #endif #include <iostream> #include "Array-util.h" #include "lo-error.h" #include "mx-base.h" #include "mx-inlines.cc" #include "oct-cmplx.h" // Diagonal Matrix class. bool FloatDiagMatrix::operator == (const FloatDiagMatrix& a) const { if (rows () != a.rows () || cols () != a.cols ()) return 0; return mx_inline_equal (length (), data (), a.data ()); } bool FloatDiagMatrix::operator != (const FloatDiagMatrix& a) const { return !(*this == a); } FloatDiagMatrix& FloatDiagMatrix::fill (float val) { for (octave_idx_type i = 0; i < length (); i++) elem (i, i) = val; return *this; } FloatDiagMatrix& FloatDiagMatrix::fill (float val, octave_idx_type beg, octave_idx_type end) { if (beg < 0 || end >= length () || end < beg) { (*current_liboctave_error_handler) ("range error for fill"); return *this; } for (octave_idx_type i = beg; i <= end; i++) elem (i, i) = val; return *this; } FloatDiagMatrix& FloatDiagMatrix::fill (const FloatColumnVector& a) { octave_idx_type len = length (); if (a.length () != len) { (*current_liboctave_error_handler) ("range error for fill"); return *this; } for (octave_idx_type i = 0; i < len; i++) elem (i, i) = a.elem (i); return *this; } FloatDiagMatrix& FloatDiagMatrix::fill (const FloatRowVector& a) { octave_idx_type len = length (); if (a.length () != len) { (*current_liboctave_error_handler) ("range error for fill"); return *this; } for (octave_idx_type i = 0; i < len; i++) elem (i, i) = a.elem (i); return *this; } FloatDiagMatrix& FloatDiagMatrix::fill (const FloatColumnVector& a, octave_idx_type beg) { octave_idx_type a_len = a.length (); if (beg < 0 || beg + a_len >= length ()) { (*current_liboctave_error_handler) ("range error for fill"); return *this; } for (octave_idx_type i = 0; i < a_len; i++) elem (i+beg, i+beg) = a.elem (i); return *this; } FloatDiagMatrix& FloatDiagMatrix::fill (const FloatRowVector& a, octave_idx_type beg) { octave_idx_type a_len = a.length (); if (beg < 0 || beg + a_len >= length ()) { (*current_liboctave_error_handler) ("range error for fill"); return *this; } for (octave_idx_type i = 0; i < a_len; i++) elem (i+beg, i+beg) = a.elem (i); return *this; } FloatDiagMatrix FloatDiagMatrix::abs (void) const { return FloatDiagMatrix (diag ().abs (), rows (), columns ()); } FloatDiagMatrix real (const FloatComplexDiagMatrix& a) { return FloatDiagMatrix (real (a.diag ()), a.rows (), a.columns ()); } FloatDiagMatrix imag (const FloatComplexDiagMatrix& a) { return FloatDiagMatrix (imag (a.diag ()), a.rows (), a.columns ()); } FloatMatrix FloatDiagMatrix::extract (octave_idx_type r1, octave_idx_type c1, octave_idx_type r2, octave_idx_type c2) const { if (r1 > r2) { octave_idx_type tmp = r1; r1 = r2; r2 = tmp; } if (c1 > c2) { octave_idx_type tmp = c1; c1 = c2; c2 = tmp; } octave_idx_type new_r = r2 - r1 + 1; octave_idx_type new_c = c2 - c1 + 1; FloatMatrix result (new_r, new_c); for (octave_idx_type j = 0; j < new_c; j++) for (octave_idx_type i = 0; i < new_r; i++) result.elem (i, j) = elem (r1+i, c1+j); return result; } // extract row or column i. FloatRowVector FloatDiagMatrix::row (octave_idx_type i) const { octave_idx_type r = rows (); octave_idx_type c = cols (); if (i < 0 || i >= r) { (*current_liboctave_error_handler) ("invalid row selection"); return FloatRowVector (); } FloatRowVector retval (c, 0.0); if (r <= c || (r > c && i < c)) retval.elem (i) = elem (i, i); return retval; } FloatRowVector FloatDiagMatrix::row (char *s) const { if (! s) { (*current_liboctave_error_handler) ("invalid row selection"); return FloatRowVector (); } char c = *s; if (c == 'f' || c == 'F') return row (static_cast<octave_idx_type>(0)); else if (c == 'l' || c == 'L') return row (rows () - 1); else { (*current_liboctave_error_handler) ("invalid row selection"); return FloatRowVector (); } } FloatColumnVector FloatDiagMatrix::column (octave_idx_type i) const { octave_idx_type r = rows (); octave_idx_type c = cols (); if (i < 0 || i >= c) { (*current_liboctave_error_handler) ("invalid column selection"); return FloatColumnVector (); } FloatColumnVector retval (r, 0.0); if (r >= c || (r < c && i < r)) retval.elem (i) = elem (i, i); return retval; } FloatColumnVector FloatDiagMatrix::column (char *s) const { if (! s) { (*current_liboctave_error_handler) ("invalid column selection"); return FloatColumnVector (); } char c = *s; if (c == 'f' || c == 'F') return column (static_cast<octave_idx_type>(0)); else if (c == 'l' || c == 'L') return column (cols () - 1); else { (*current_liboctave_error_handler) ("invalid column selection"); return FloatColumnVector (); } } FloatDiagMatrix FloatDiagMatrix::inverse (void) const { octave_idx_type info; return inverse (info); } FloatDiagMatrix FloatDiagMatrix::inverse (octave_idx_type &info) const { octave_idx_type r = rows (); octave_idx_type c = cols (); octave_idx_type len = length (); if (r != c) { (*current_liboctave_error_handler) ("inverse requires square matrix"); return FloatDiagMatrix (); } FloatDiagMatrix retval (r, c); info = 0; for (octave_idx_type i = 0; i < len; i++) { if (elem (i, i) == 0.0) { info = -1; return *this; } else retval.elem (i, i) = 1.0 / elem (i, i); } return retval; } FloatDiagMatrix FloatDiagMatrix::pseudo_inverse (void) const { octave_idx_type r = rows (); octave_idx_type c = cols (); octave_idx_type len = length (); FloatDiagMatrix retval (c, r); for (octave_idx_type i = 0; i < len; i++) { if (elem (i, i) != 0.0f) retval.elem (i, i) = 1.0f / elem (i, i); else retval.elem (i, i) = 0.0f; } return retval; } // diagonal matrix by diagonal matrix -> diagonal matrix operations // diagonal matrix by diagonal matrix -> diagonal matrix operations FloatDiagMatrix operator * (const FloatDiagMatrix& a, const FloatDiagMatrix& b) { octave_idx_type a_nr = a.rows (); octave_idx_type a_nc = a.cols (); octave_idx_type b_nr = b.rows (); octave_idx_type b_nc = b.cols (); if (a_nc != b_nr) gripe_nonconformant ("operator *", a_nr, a_nc, b_nr, b_nc); FloatDiagMatrix c (a_nr, b_nc); octave_idx_type len = c.length (), lenm = len < a_nc ? len : a_nc; for (octave_idx_type i = 0; i < lenm; i++) c.dgxelem (i) = a.dgelem (i) * b.dgelem (i); for (octave_idx_type i = lenm; i < len; i++) c.dgxelem (i) = 0.0f; return c; } // other operations FloatDET FloatDiagMatrix::determinant (void) const { FloatDET det (1.0f); if (rows () != cols ()) { (*current_liboctave_error_handler) ("determinant requires square matrix"); det = 0.0f; } else { octave_idx_type len = length (); for (octave_idx_type i = 0; i < len; i++) det *= elem (i, i); } return det; } float FloatDiagMatrix::rcond (void) const { FloatColumnVector av = diag (0).map<float> (fabsf); float amx = av.max (), amn = av.min (); return amx == 0 ? 0.0f : amn / amx; } std::ostream& operator << (std::ostream& os, const FloatDiagMatrix& a) { // int field_width = os.precision () + 7; for (octave_idx_type i = 0; i < a.rows (); i++) { for (octave_idx_type j = 0; j < a.cols (); j++) { if (i == j) os << " " /* setw (field_width) */ << a.elem (i, i); else os << " " /* setw (field_width) */ << 0.0; } os << "\n"; } return os; }