Mercurial > hg > octave-nkf
view liboctave/DiagArray2.h @ 8870:eea0e1b45ec0
optimize string manipulation in lookfor
| author | Jaroslav Hajek <highegg@gmail.com> |
|---|---|
| date | Wed, 25 Feb 2009 10:21:33 +0100 |
| parents | 937921654627 |
| children | f5408862892f |
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// Template array classes /* Copyright (C) 1996, 1997, 2000, 2002, 2003, 2004, 2005, 2006, 2007 John W. Eaton Copyright (C) 2008, 2009 Jaroslav Hajek 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/>. */ #if !defined (octave_DiagArray2_h) #define octave_DiagArray2_h 1 #include <cassert> #include <cstdlib> #include "Array.h" #include "Array2.h" #include "lo-error.h" // A two-dimensional array with diagonal elements only. // Idea and example code for Proxy class and functions from: // // From: kanze@us-es.sel.de (James Kanze) // Subject: Re: How to overload [] to do READ/WRITE differently ? // Message-ID: <KANZE.93Nov29151407@slsvhdt.us-es.sel.de> // Sender: news@us-es.sel.de // Date: 29 Nov 1993 14:14:07 GMT // -- // James Kanze email: kanze@us-es.sel.de // GABI Software, Sarl., 8 rue du Faisan, F-67000 Strasbourg, France // Array<T> is inherited privately so that some methods, like index, don't // produce unexpected results. template <class T> class DiagArray2 : protected Array<T> { private: T get (octave_idx_type i) { return Array<T>::xelem (i); } void set (const T& val, octave_idx_type i) { Array<T>::xelem (i) = val; } class Proxy { public: Proxy (DiagArray2<T> *ref, octave_idx_type r, octave_idx_type c) : i (r), j (c), object (ref) { } const Proxy& operator = (const T& val) const; operator T () const; private: // FIXME -- this is declared private to keep the user from // taking the address of a Proxy. Maybe it should be implemented // by means of a companion function in the DiagArray2 class. T *operator& () const { assert (0); return 0; } octave_idx_type i; octave_idx_type j; DiagArray2<T> *object; }; friend class Proxy; protected: octave_idx_type d1, d2; DiagArray2 (T *d, octave_idx_type r, octave_idx_type c) : Array<T> (d, std::min (r, c)), d1 (r), d2 (c) { } public: typedef T element_type; DiagArray2 (void) : Array<T> (), d1 (0), d2 (0) { } DiagArray2 (octave_idx_type r, octave_idx_type c) : Array<T> (std::min (r, c)), d1 (r), d2 (c) { } DiagArray2 (octave_idx_type r, octave_idx_type c, const T& val) : Array<T> (std::min (r, c), val), d1 (r), d2 (c) { } DiagArray2 (const Array<T>& a) : Array<T> (a), d1 (a.numel ()), d2 (a.numel ()) { } DiagArray2 (const DiagArray2<T>& a) : Array<T> (a), d1 (a.d1), d2 (a.d2) { } template <class U> DiagArray2 (const DiagArray2<U>& a) : Array<T> (a.diag ()), d1 (a.dim1 ()), d2 (a.dim2 ()) { } ~DiagArray2 (void) { } DiagArray2<T>& operator = (const DiagArray2<T>& a) { if (this != &a) { Array<T>::operator = (a); d1 = a.d1; d2 = a.d2; } return *this; } octave_idx_type dim1 (void) const { return d1; } octave_idx_type dim2 (void) const { return d2; } octave_idx_type rows (void) const { return dim1 (); } octave_idx_type cols (void) const { return dim2 (); } octave_idx_type columns (void) const { return dim2 (); } // FIXME: a dangerous ambiguity? octave_idx_type length (void) const { return Array<T>::length (); } octave_idx_type nelem (void) const { return dim1 () * dim2 (); } octave_idx_type numel (void) const { return nelem (); } size_t byte_size (void) const { return length () * sizeof (T); } dim_vector dims (void) const { return dim_vector (d1, d2); } Array<T> diag (octave_idx_type k = 0) const; // Warning: the non-const two-index versions will silently ignore assignments // to off-diagonal elements. T elem (octave_idx_type r, octave_idx_type c) const { return (r == c) ? Array<T>::elem (r) : T (0); } T& elem (octave_idx_type r, octave_idx_type c) { static T zero (0); return (r == c) ? Array<T>::elem (r) : zero; } T dgelem (octave_idx_type i) const { return Array<T>::elem (i); } T& dgelem (octave_idx_type i) { return Array<T>::elem (i); } T checkelem (octave_idx_type r, octave_idx_type c) const; Proxy checkelem (octave_idx_type r, octave_idx_type c); T operator () (octave_idx_type r, octave_idx_type c) const { #if defined (BOUNDS_CHECKING) return checkelem (r, c); #else return elem (r, c); #endif } // FIXME: can this cause problems? #if defined (BOUNDS_CHECKING) Proxy operator () (octave_idx_type r, octave_idx_type c) { return checkelem (r, c); } #else T& operator () (octave_idx_type r, octave_idx_type c) { return elem (r, c); } #endif // No checking. T xelem (octave_idx_type r, octave_idx_type c) const { return (r == c) ? Array<T>::xelem (r) : T (0); } T& dgxelem (octave_idx_type i) { return Array<T>::xelem (i); } T dgxelem (octave_idx_type i) const { return Array<T>::xelem (i); } void resize (octave_idx_type n, octave_idx_type m); void resize_fill (octave_idx_type n, octave_idx_type m, const T& val); DiagArray2<T> transpose (void) const; DiagArray2<T> hermitian (T (*fcn) (const T&) = 0) const; operator Array2<T> (void) const; const T *data (void) const { return Array<T>::data (); } const T *fortran_vec (void) const { return Array<T>::fortran_vec (); } T *fortran_vec (void) { return Array<T>::fortran_vec (); } void print_info (std::ostream& os, const std::string& prefix) const { Array<T>::print_info (os, prefix); } }; #endif /* ;;; Local Variables: *** ;;; mode: C++ *** ;;; End: *** */