Mercurial > octave
view liboctave/array/MDiagArray2.h @ 21229:a83e7a384ee0
create and install a subset of config.h in octave-config.h
* mk-octave-config-h.sh: New file.
* Makefile.am (EXTRA_DIST): Add mk-octave-config.h.sh to the list.
(octinclude_HEADERS): Add octave-config.h to the list.
(octave-config.h): New rule.
* common.mk (do_subst_config_vals, do_subst_cross_config_vals):
Don't substitute unused ENABLE options.
* configure.ac: Note the reason for using oct-conf-post.in.h.
Add OCTAVE_ prefix to ENABLE_BOUNDS_CHECK ENABLE_ATOMIC_REFCOUNT,
ENABLE_64, ENABLE_OPENMP, and ENABLE_FLOAT_TRUNCATE in calls to
AC_DEFINE. Change all uses.
* oct-conf-post.in.h: Define HAVE_OCTAVE_DEPRECATED_ATTR instead of
HAVE_ATTR_DEPRECATED. Likewise for HAVE_ATTR_NORETURN and
HAVE_ATTR_UNUSED. Change all uses.
author | John W. Eaton <jwe@octave.org> |
---|---|
date | Mon, 08 Feb 2016 17:30:29 -0500 |
parents | 538b57866b90 |
children | 1473547f50f5 |
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// Template array classes with like-type math ops /* Copyright (C) 1996-2015 John W. Eaton Copyright (C) 2010 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/>. */ #if ! defined (octave_MDiagArray2_h) #define octave_MDiagArray2_h 1 #include "DiagArray2.h" #include "MArray.h" template <typename T> class MDiagArray2; template <typename T> MDiagArray2<T> operator + (const MDiagArray2<T>&); template <typename T> MDiagArray2<T> operator - (const MDiagArray2<T>&); template <typename T> MDiagArray2<T> operator * (const MDiagArray2<T>&, const T&); template <typename T> MDiagArray2<T> operator / (const MDiagArray2<T>&, const T&); template <typename T> MDiagArray2<T> operator * (const T&, const MDiagArray2<T>&); template <typename T> MDiagArray2<T> operator + (const MDiagArray2<T>&, const MDiagArray2<T>&); template <typename T> MDiagArray2<T> operator - (const MDiagArray2<T>&, const MDiagArray2<T>&); template <typename T> MDiagArray2<T> product (const MDiagArray2<T>&, const MDiagArray2<T>&); //! Template for two dimensional diagonal array with math operators. template <typename T> class MDiagArray2 : public DiagArray2<T> { public: MDiagArray2 (void) : DiagArray2<T> () { } MDiagArray2 (octave_idx_type r, octave_idx_type c) : DiagArray2<T> (r, c) { } MDiagArray2 (octave_idx_type r, octave_idx_type c, const T& val) : DiagArray2<T> (r, c, val) { } MDiagArray2 (const MDiagArray2<T>& a) : DiagArray2<T> (a) { } MDiagArray2 (const DiagArray2<T>& a) : DiagArray2<T> (a) { } template <typename U> MDiagArray2 (const DiagArray2<U>& a) : DiagArray2<T> (a) { } explicit MDiagArray2 (const Array<T>& a) : DiagArray2<T> (a) { } MDiagArray2 (const Array<T>& a, octave_idx_type r, octave_idx_type c) : DiagArray2<T> (a, r, c) { } ~MDiagArray2 (void) { } MDiagArray2<T>& operator = (const MDiagArray2<T>& a) { DiagArray2<T>::operator = (a); return *this; } MArray<T> array_value () const { return DiagArray2<T>::array_value (); } octave_idx_type nnz (void) const { octave_idx_type retval = 0; const T *d = this->data (); octave_idx_type nel = this->length (); for (octave_idx_type i = 0; i < nel; i++) { if (d[i] != T ()) retval++; } return retval; } MArray<T> diag (octave_idx_type k = 0) const { return DiagArray2<T>::extract_diag (k); } MDiagArray2<T> transpose (void) const { return DiagArray2<T>::transpose (); } MDiagArray2<T> hermitian (T (*fcn) (const T&) = 0) const { return DiagArray2<T>::hermitian (fcn); } bool is_multiple_of_identity (T val) const; // Currently, the OPS functions don't need to be friends, but that // may change. friend MDiagArray2<T> operator + <> (const MDiagArray2<T>&); friend MDiagArray2<T> operator - <> (const MDiagArray2<T>&); friend MDiagArray2<T> operator * <> (const MDiagArray2<T>&, const T&); friend MDiagArray2<T> operator / <> (const MDiagArray2<T>&, const T&); friend MDiagArray2<T> operator * <> (const T&, const MDiagArray2<T>&); friend MDiagArray2<T> operator + <> (const MDiagArray2<T>&, const MDiagArray2<T>&); friend MDiagArray2<T> operator - <> (const MDiagArray2<T>&, const MDiagArray2<T>&); friend MDiagArray2<T> product <> (const MDiagArray2<T>&, const MDiagArray2<T>&); }; #define MDIAGARRAY2_FORWARD_DEFS(B, R, T) \ inline R operator + (const R& x) \ { return R (operator + (dynamic_cast<const B<T>&> (x))); } \ inline R operator - (const R& x) \ { return R (operator - (dynamic_cast<const B<T>&> (x))); } \ inline R operator * (const R& x, const T& y) \ { return R (operator * (dynamic_cast<const B<T>&> (x), (y))); } \ inline R operator / (const R& x, const T& y) \ { return R (operator / (dynamic_cast<const B<T>&> (x), (y))); } \ inline R operator * (const T& x, const R& y) \ { return R (operator * ( (x), dynamic_cast<const B<T>&> (y))); } \ inline R operator + (const R& x, const R& y) \ { return R (operator + (dynamic_cast<const B<T>&> (x), \ dynamic_cast<const B<T>&> (y))); } \ inline R operator - (const R& x, const R& y) \ { return R (operator - (dynamic_cast<const B<T>&> (x), \ dynamic_cast<const B<T>&> (y))); } \ inline R product (const R& x, const R& y) \ { return R (product (dynamic_cast<const B<T>&> (x), \ dynamic_cast<const B<T>&> (y))); } #endif