Mercurial > hg > octave-jordi
view libinterp/corefcn/sub2ind.cc @ 20852:1142cf6abc0d
2015 Code Sprint: remove class of function from docstring for all C++ files.
| author | Rik <rik@octave.org> |
|---|---|
| date | Sat, 12 Dec 2015 07:40:03 -0800 |
| parents | f428cbe7576f |
| children | b17fda023ca6 |
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/* Copyright (C) 2009-2015 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 "Array-util.h" #include "oct-locbuf.h" #include "quit.h" #include "defun.h" #include "error.h" #include "gripes.h" #include "oct-obj.h" static dim_vector get_dim_vector (const octave_value& val, const char *name) { RowVector dimsv = val.row_vector_value (false, true); dim_vector dv; octave_idx_type n = dimsv.numel (); if (n < 1) error ("%s: dimension vector DIMS must not be empty", name); else { dv.resize (std::max (n, static_cast<octave_idx_type> (2))); dv(1) = 1; for (octave_idx_type i = 0; i < n; i++) { octave_idx_type ii = dimsv(i); if (ii == dimsv(i) && ii >= 0) dv(i) = ii; else { error ("%s: dimension vector DIMS must contain integers", name); break; } } } return dv; } DEFUN (sub2ind, args, , "-*- texinfo -*-\n\ @deftypefn {} {@var{ind} =} sub2ind (@var{dims}, @var{i}, @var{j})\n\ @deftypefnx {} {@var{ind} =} sub2ind (@var{dims}, @var{s1}, @var{s2}, @dots{}, @var{sN})\n\ Convert subscripts to a linear index.\n\ \n\ The following example shows how to convert the two-dimensional index\n\ @code{(2,3)} of a 3-by-3 matrix to a linear index. The matrix is linearly\n\ indexed moving from one column to next, filling up all rows in each column.\n\ \n\ @example\n\ @group\n\ linear_index = sub2ind ([3, 3], 2, 3)\n\ @result{} 8\n\ @end group\n\ @end example\n\ @seealso{ind2sub}\n\ @end deftypefn") { int nargin = args.length (); if (nargin < 2) print_usage (); dim_vector dv = get_dim_vector (args(0), "sub2ind"); Array<idx_vector> idxa (dim_vector (nargin-1, 1)); dv = dv.redim (nargin - 1); for (int j = 0; j < nargin - 1; j++) { if (args(j+1).is_numeric_type ()) { try { idxa(j) = args(j+1).index_vector (); if (j > 0 && args(j+1).dims () != args(1).dims ()) error ("sub2ind: all subscripts must be of the same size"); } catch (index_exception& e) { e.set_pos_if_unset (nargin-1, j+1); e.set_var (); std::string msg = e.message (); error_with_id (e.err_id (), msg.c_str ()); } } else error ("sub2ind: subscripts must be numeric"); } return octave_value (sub2ind (dv, idxa)); } /* ## Test evaluation %!test %! s1 = [ 1 1 1 1 ; 2 2 2 2 ]; %! s2 = [ 1 1 2 2 ; 1 1 2 2 ]; %! s3 = [ 1 2 1 2 ; 1 2 1 2 ]; %! in = [ 1 101 11 111 ; 2 102 12 112 ]; %! assert (sub2ind ([10 10 10], s1, s2, s3), in); # Test low index %!assert (sub2ind ([10 10 10], 1, 1, 1), 1) %!error <index \(0,_,_\)> sub2ind ([10 10 10], 0, 1, 1) %!error <index \(_,0,_\)> sub2ind ([10 10 10], 1, 0, 1) %!error <index \(_,_,0\)> sub2ind ([10 10 10], 1, 1, 0) # Test high index %!assert (sub2ind ([10 10 10], 10, 10, 10), 1000) %!error <index \(11,_,_\): out of bound 10> sub2ind ([10 10 10], 11, 10, 10) %!error <index \(_,11,_\): out of bound 10> sub2ind ([10 10 10], 10, 11, 10) %!error <index \(_,_,11\): out of bound 10> sub2ind ([10 10 10], 10, 10, 11) # Test high index in the trailing dimensions %!assert (sub2ind ([10, 1], 2, 1, 1), 2) %!error <index \(_,2,_\): out of bound 1> sub2ind ([10, 1], 1, 2, 1) %!error <index \(_,_,2\): out of bound 1> sub2ind ([10, 1], 1, 1, 2) %!assert (sub2ind ([10 10], 2, 2, 1), 12) %!error <index \(_,_,2\): out of bound 1> sub2ind ([10 10], 2, 1, 2) %!error <index \(_,_,2\): out of bound 1> sub2ind ([10 10], 1, 2, 2) # Test handling of empty arguments %!assert (sub2ind ([10 10], zeros (0,0), zeros (0,0)), zeros (0,0)) %!assert (sub2ind ([10 10], zeros (2,0), zeros (2,0)), zeros (2,0)) %!assert (sub2ind ([10 10], zeros (0,2), zeros (0,2)), zeros (0,2)) %!error <all subscripts .* same size> sub2ind ([10 10 10], zeros (0,2), zeros (2,0)) # Test handling of arguments of different size %!error <all subscripts .* same size> sub2ind ([10 10], ones (1,2), ones (1,3)) %!error <all subscripts .* same size> sub2ind ([10 10], ones (1,2), ones (2,1)) ## Test input validation %!error <dimension vector> sub2ind ([10 10.5], 1, 1) %!error <index \(1.5,_\)> sub2ind ([10 10], 1.5, 1) %!error <index \(_,1.5\)> sub2ind ([10 10], 1, 1.5) */ DEFUN (ind2sub, args, nargout, "-*- texinfo -*-\n\ @deftypefn {} {[@var{s1}, @var{s2}, @dots{}, @var{sN}] =} ind2sub (@var{dims}, @var{ind})\n\ Convert a linear index to subscripts.\n\ \n\ The following example shows how to convert the linear index @code{8}\n\ in a 3-by-3 matrix into a subscript. The matrix is linearly indexed\n\ moving from one column to next, filling up all rows in each column.\n\ \n\ @example\n\ @group\n\ [r, c] = ind2sub ([3, 3], 8)\n\ @result{} r = 2\n\ @result{} c = 3\n\ @end group\n\ @end example\n\ @seealso{sub2ind}\n\ @end deftypefn") { octave_value_list retval; if (args.length () != 2) print_usage (); dim_vector dv = get_dim_vector (args(0), "ind2sub"); try { idx_vector idx = args(1).index_vector (); if (nargout > dv.length ()) dv = dv.redim (nargout); retval = Array<octave_value> (ind2sub (dv, idx)); } catch (const index_exception& e) { std::string idx = e.idx (); std::string msg = e.details (); error ("ind2sub: Invalid index %s. %s", idx.c_str (), msg.c_str ()); } return retval; }