Mercurial > octave
view libinterp/corefcn/spparms.cc @ 29937:da7210e30f3e
move some utility functions inside octave namespace
* lo-utils.h, lo-utils.cc (is_one_or_zero): Rename from
xis_one_or_zero and move inside octave namespace. Change all uses.
(is_zero): Rename from xis_zero and move inside octave namespace.
Change all uses.
(is_int_or_inf_or_nan): Rename from xis_int_or_inf_or_nan and move
inside octave namespace. Change all uses.
(too_large_for_float): Rename from xtoo_large_for_float and move
inside octave namespace. Change all uses.
(too_large_for_float): Rename from xtoo_large_for_float and move
inside octave namespace. Change all uses.
(is_int_or_inf_or_nan): Rename from xis_int_or_inf_or_nan and move
inside octave namespace. Change all uses.
(fgets): Rename from octave_fgets and move inside octave namespace.
Change all uses.
(fgetl): Rename from octave_fgetl and move inside octave namespace.
Change all uses.
(any_all_test, strsave): Move inside octave namespace. Tag uses with
octave:: prefix as needed.
* lo-utils.h: Provide deprecated templates and inline functions to
preserve old names in global namespace.
author | John W. Eaton <jwe@octave.org> |
---|---|
date | Tue, 03 Aug 2021 12:34:52 -0400 |
parents | df2cdf42a909 |
children | 32c3a5805893 |
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//////////////////////////////////////////////////////////////////////// // // Copyright (C) 1998-2021 The Octave Project Developers // // See the file COPYRIGHT.md in the top-level directory of this // distribution or <https://octave.org/copyright/>. // // 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 // <https://www.gnu.org/licenses/>. // //////////////////////////////////////////////////////////////////////// #if defined (HAVE_CONFIG_H) # include "config.h" #endif #include "defun.h" #include "ov.h" #include "pager.h" #include "error.h" #include "errwarn.h" #include "oct-spparms.h" DEFUN (spparms, args, nargout, doc: /* -*- texinfo -*- @deftypefn {} { } spparms () @deftypefnx {} {@var{vals} =} spparms () @deftypefnx {} {[@var{keys}, @var{vals}] =} spparms () @deftypefnx {} {@var{val} =} spparms (@var{key}) @deftypefnx {} { } spparms (@var{vals}) @deftypefnx {} { } spparms ("default") @deftypefnx {} { } spparms ("tight") @deftypefnx {} { } spparms (@var{key}, @var{val}) Query or set the parameters used by the sparse solvers and factorization functions. The first four calls above get information about the current settings, while the others change the current settings. The parameters are stored as pairs of keys and values, where the values are all floats and the keys are one of the following strings: @table @samp @item spumoni Printing level of debugging information of the solvers (default 0) @item ths_rel Included for compatibility. Not used. (default 1) @item ths_abs Included for compatibility. Not used. (default 1) @item exact_d Included for compatibility. Not used. (default 0) @item supernd Included for compatibility. Not used. (default 3) @item rreduce Included for compatibility. Not used. (default 3) @item wh_frac Included for compatibility. Not used. (default 0.5) @item autommd Flag whether the LU/QR and the '\' and '/' operators will automatically use the sparsity preserving mmd functions (default 1) @item autoamd Flag whether the LU and the '\' and '/' operators will automatically use the sparsity preserving amd functions (default 1) @item piv_tol The pivot tolerance of the @sc{umfpack} solvers (default 0.1) @item sym_tol The pivot tolerance of the @sc{umfpack} symmetric solvers (default 0.001) @item bandden The density of nonzero elements in a banded matrix before it is treated by the @sc{lapack} banded solvers (default 0.5) @item umfpack Flag whether the @sc{umfpack} or mmd solvers are used for the LU, '\' and '/' operations (default 1) @end table The value of individual keys can be set with @code{spparms (@var{key}, @var{val})}. The default values can be restored with the special keyword @qcode{"default"}. The special keyword @qcode{"tight"} can be used to set the mmd solvers to attempt a sparser solution at the potential cost of longer running time. @seealso{chol, colamd, lu, qr, symamd} @end deftypefn */) { octave_value_list retval; int nargin = args.length (); if (nargin == 0) { if (nargout == 0) octave::sparse_params::print_info (octave_stdout, ""); else if (nargout == 1) retval = ovl (octave::sparse_params::get_vals ()); else if (nargout == 2) retval = ovl (octave::sparse_params::get_keys (), octave::sparse_params::get_vals ()); else error ("spparms: too many output arguments"); } else if (nargin == 1) { if (args(0).is_string ()) { std::string str = args(0).string_value (); int len = str.length (); for (int i = 0; i < len; i++) str[i] = tolower (str[i]); if (str == "default") octave::sparse_params::defaults (); else if (str == "tight") octave::sparse_params::tight (); else { double val = octave::sparse_params::get_key (str); if (octave::math::isnan (val)) error ("spparms: KEY not recognized"); retval = ovl (val); } } else { NDArray vals = args(0).xarray_value ("spparms: input must be a string or a vector"); if (vals.numel () > OCTAVE_SPARSE_CONTROLS_SIZE) error ("spparms: too many elements in vector VALS"); octave::sparse_params::set_vals (vals); } } else if (nargin == 2) { std::string str = args(0).xstring_value ("spparms: first argument must be a string"); double val = args(1).xdouble_value ("spparms: second argument must be a real scalar"); if (str == "umfpack") warning ("spparms: request to disable umfpack solvers ignored"); else if (! octave::sparse_params::set_key (str, val)) error ("spparms: KEY not found"); } else error ("spparms: too many input arguments"); return retval; } /* %!test %! old_vals = spparms (); # save state %! spparms ("default"); %! vals = spparms (); %! assert (vals, [0 1 1 0 3 3 0.5 1.0 1.0 0.1 0.5 1.0 0.001]'); %! [keys, vals] = spparms (); %! assert (rows (keys), 13); %! assert (keys(2,:), "ths_rel"); %! assert (vals, [0 1 1 0 3 3 0.5 1.0 1.0 0.1 0.5 1.0 0.001]'); %! spparms ([3 2 1]); %! assert (spparms ()(1:3), [3, 2, 1]'); %! assert (spparms ("ths_rel"), 2); %! spparms ("exact_d", 5); %! assert (spparms ("exact_d"), 5); %! spparms (old_vals); # restore state ## Test input validation %!error <too many input arguments> spparms (1, 2, 3) %!error <too many output arguments> [x, y, z] = spparms () %!error <KEY not recognized> spparms ("UNKNOWN_KEY") %!#error <input must be a string> spparms ({1, 2, 3}) %!error spparms ({1, 2, 3}) %!error <too many elements in vector VALS> spparms (ones (14, 1)) %!error <first argument must be a string> spparms (1, 1) %!#error <second argument must be a real scalar> spparms ("ths_rel", "hello") %!error spparms ("ths_rel", "hello") %!error <KEY not found> spparms ("UNKNOWN_KEY", 1) */