Mercurial > hg > octave-max
view liboctave/MatrixType.h @ 14327:4d917a6a858b stable
doc: Use Octave coding conventions in @example blocks of docstrings.
* accumarray.m, accumdim.m, bar.m, base2dec.m, bincoeff.m, bitcmp.m, bitset.m,
celldisp.m, chop.m, clabel.m, cloglog.m, colon.m, compass.m, computer.m,
contour3.m, contourc.m, corr.m, cstrcat.m, ctime.m, cylinder.m, date.m,
dec2base.m, demo.m, dir.m, dlmwrite.m, expm.m, ezcontourf.m, ezcontour.m,
ezmeshc.m, ezmesh.m, ezplot.m, ezsurfc.m, ezsurf.m, feather.m, findobj.m,
flipdim.m, fplot.m, genvarname.m, getfield.m, hankel.m, hilb.m, hist.m,
idivide.m, index.m, int2str.m, interp1.m, is_leap_year.m, ismember.m,
isocolors.m, isonormals.m, isosurface.m, kurtosis.m, legendre.m, linkprop.m,
logit.m, logm.m, __makeinfo__.m, __marching_cube__.m, median.m, mkoctfile.m,
moment.m, mpoles.m, orderfields.m, pcg.m, pcr.m, plot3.m, plotmatrix.m,
polyaffine.m, polygcd.m, poly.m, polyout.m, print.m, qp.m, quadgk.m, qzhess.m,
randi.m, rat.m, refreshdata.m, residue.m, rose.m, rot90.m, saveas.m, saveobj.m,
shiftdim.m, skewness.m, spaugment.m, spdiags.m, sqp.m, stem.m, str2num.m,
strcat.m, strjust.m, strread.m, strsplit.m, structfun.m, subplot.m,
subsindex.m, substruct.m, surfl.m, surfnorm.m, svds.m, uimenu.m, union.m,
voronoi.m, warning_ids.m, wblpdf.m: Use Octave coding conventions in
@example blocks of docstrings.
| author | Rik <octave@nomad.inbox5.com> |
|---|---|
| date | Sat, 04 Feb 2012 22:12:50 -0800 |
| parents | 72c96de7a403 |
| children |
line wrap: on
line source
/* Copyright (C) 2006-2012 David Bateman Copyright (C) 2006 Andy Adler 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_MatrixType_h) #define octave_MatrixType_h class Matrix; class ComplexMatrix; class FloatMatrix; class FloatComplexMatrix; class SparseMatrix; class SparseComplexMatrix; class OCTAVE_API MatrixType { public: enum matrix_type { Unknown = 0, Full, Diagonal, Permuted_Diagonal, Upper, Lower, Permuted_Upper, Permuted_Lower, Banded, Hermitian, Banded_Hermitian, Tridiagonal, Tridiagonal_Hermitian, Rectangular }; MatrixType (void); MatrixType (const MatrixType &a); MatrixType (const Matrix &a); MatrixType (const ComplexMatrix &a); MatrixType (const FloatMatrix &a); MatrixType (const FloatComplexMatrix &a); MatrixType (const SparseMatrix &a); MatrixType (const SparseComplexMatrix &a); MatrixType (const matrix_type t, bool _full = false); MatrixType (const matrix_type t, const octave_idx_type np, const octave_idx_type *p, bool _full = false); MatrixType (const matrix_type t, const octave_idx_type ku, const octave_idx_type kl, bool _full = false); ~MatrixType (void); MatrixType& operator = (const MatrixType& a); int type (bool quiet = true); int type (const Matrix &a); int type (const ComplexMatrix &a); int type (const FloatMatrix &a); int type (const FloatComplexMatrix &a); int type (const SparseMatrix &a); int type (const SparseComplexMatrix &a); double band_density (void) const { return bandden; } int nupper (void) const { return upper_band; } int nlower (void) const { return lower_band; } bool is_dense (void) const { return dense; } bool is_diagonal (void) const { return (typ == Diagonal || typ == Permuted_Diagonal); } bool is_upper_triangular (void) const { return (typ == Upper || typ == Permuted_Upper); } bool is_lower_triangular (void) const { return (typ == Lower || typ == Permuted_Lower); } bool is_banded (void) { return (typ == Banded || typ == Banded_Hermitian); } bool is_tridiagonal (void) const { return (typ == Tridiagonal || typ == Tridiagonal_Hermitian); } bool is_hermitian (void) const { return (typ == Banded_Hermitian || typ == Tridiagonal_Hermitian || typ == Hermitian); } bool is_rectangular (void) const { return (typ == Rectangular); } bool is_known (void) const { return (typ != Unknown); } bool is_unknown (void) const { return (typ == Unknown); } void info (void) const; octave_idx_type * triangular_perm (void) const { return perm; } void invalidate_type (void) { typ = Unknown; } void mark_as_diagonal (void) { typ = Diagonal; } void mark_as_permuted_diagonal (void) { typ = Permuted_Diagonal; } void mark_as_upper_triangular (void) { typ = Upper; } void mark_as_lower_triangular (void) { typ = Lower; } void mark_as_tridiagonal (void) {typ = Tridiagonal; } void mark_as_banded (const octave_idx_type ku, const octave_idx_type kl) { typ = Banded; upper_band = ku; lower_band = kl; } void mark_as_full (void) { typ = Full; } void mark_as_rectangular (void) { typ = Rectangular; } void mark_as_dense (void) { dense = true; } void mark_as_not_dense (void) { dense = false; } void mark_as_symmetric (void); void mark_as_unsymmetric (void); void mark_as_permuted (const octave_idx_type np, const octave_idx_type *p); void mark_as_unpermuted (void); MatrixType transpose (void) const; private: void type (int new_typ) { typ = static_cast<matrix_type>(new_typ); } matrix_type typ; double sp_bandden; double bandden; octave_idx_type upper_band; octave_idx_type lower_band; bool dense; bool full; octave_idx_type nperm; octave_idx_type *perm; }; #endif