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Added special-case logical-indexing function * logical-index.h (New file) : Logical-indexing function. May be called on octave_value types via call_bool_index * nz-iterators.h : Add base-class nz_iterator for iterator types. Array has template bool for whether to internally store row-col or compute on the fly Add skip_ahead method which skips forward to the next nonzero after its argument Add flat_index for computing octave_idx_type index of current position (with assertion failure in the case of overflow) Move is_zero to separate file * ov-base-diag.cc, ov-base-mat.cc, ov-base-sparse.cc, ov-perm.cc (do_index_op): Add call to call_bool_index in logical-index.h * Array.h : Move forward-declaration for array_iterator to separate header file * dim-vector.cc (dim_max): Refers to idx-bounds.h (max_idx) * array-iter-decl.h (New file): Header file for forward declaration of array-iterator * direction.h : Add constants fdirc and bdirc to avoid having to reconstruct them * dv-utils.h, dv-utils.cc (New files) : Utility functions for querying and constructing dim-vectors * idx-bounds.h (New file) : Utility constants and functions for determining whether things will overflow the maximum allowed bounds * interp-idx.h (New function : to_flat_idx) : Converts row-col pair to linear index of octave_idx_type * is-zero.h (New file) : Function for determining whether an element is zero * logical-index.tst : Add tests for correct return-value dimensions and large sparse matrix behavior
author David Spies <dnspies@gmail.com>
date Fri, 25 Jul 2014 13:39:31 -0600
parents cda4bd2fd0c0
children
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## Copyright (C) 2008-2013 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/>.

%!test
%! a = 1:3; a(:) = []; assert (size (a), [0, 0])
%!test
%! a = 1:3; a(1:3) = []; assert (size (a), [1, 0])
%!test
%! a = (1:3).'; a(1:3) = []; assert (size (a), [0, 1])
%!test
%! a = ones (3); a(:,:) = []; assert (size (a), [0, 3])
%!test
%! a = ones (3); a(1:3,:) = []; assert (size (a), [0, 3])
%!test
%! a = ones (3); a(:,1:3) = []; assert (size (a), [3, 0])
%!test
%! a = ones (3); fail ("a(1:2,1:2) = []", ".*");
%!test
%! a = ones (3); fail ("a(1:3,1:3) = []", ".*");

## null strings should delete. [,] and [;] should delete.
%!test
%! a = ones (3); a(1:2,:) = [,]; assert (size (a), [1,3])
%!test
%! a = ones (3); a(1:2,:) = [;]; assert (size (a), [1,3])
%!test
%! a = ones (3); a(1:2,:) = ''; assert (size (a), [1,3])
%!test
%! a = ones (3); a(1:2,:) = ""; assert (size (a), [1,3])

## null matrix stored anywhere should lose its special status
%!test
%! a = ones (3); b = []; fail ("a(:,1:3) = b", ".")
%!test
%! a = ones (3); b{1} = []; fail ("a(:,1:3) = b{1}", ".")
%!test
%! a = ones (3); b.x = []; fail ("a(:,1:3) = b.x", ".")

## filtering a null matrix through a function should not delete
%!test
%! a = ones (3); fail ("a(:,1:3) = double ([])")

## subsasgn should work the same way
%!test
%! a = ones (3); a = subsasgn (a, substruct ('()', {':',1:2}), []); assert (size (a), [3,1])
%!test
%! a = ones (3); b = []; fail ("subsasgn (a, substruct ('()', {':',1:2}), b)", ".")

%!test
%! classes = {@int8, @int16, @int32, @int64, ...
%!   @uint8, @uint16, @uint32, @uint64, ...
%!   @single, @double, @logical};
%! for i = 1:numel (classes)
%!   cls = classes{i};
%!   x = cls ([1, 2, 3]);
%!   cls_nm = class (x);
%!   x(2) = [];
%!   assert (x, cls ([1, 3]));
%!   assert (class (x), cls_nm);
%!   x(2) = [];
%!   assert (x, cls (1));
%!   assert (class (x), cls_nm);
%!   x(1) = [];
%!   assert (x, cls (zeros (1, 0)));
%!   assert (class (x), cls_nm);
%! endfor
%! for i = 1:numel (classes)
%!   cls = classes{i};
%!   x = cls ([1, 2, 3]);
%!   cls_nm = class (x);
%!   x(2) = '';
%!   assert (x, cls ([1, 3]));
%!   assert (class (x), cls_nm);
%!   x(2) = '';
%!   assert (x, cls (1));
%!   assert (class (x), cls_nm);
%!   x(1) = '';
%!   assert (x, cls (zeros (1, 0)));
%!   assert (class (x), cls_nm);
%! endfor
%! for i = 1:numel (classes)
%!   cls = classes{i};
%!   x = cls ([1, 2, 3]);
%!   cls_nm = class (x);
%!   x(2) = "";
%!   assert (x, cls ([1, 3]));
%!   assert (class (x), cls_nm);
%!   x(2) = "";
%!   assert (x, cls (1));
%!   assert (class (x), cls_nm);
%!   x(1) = "";
%!   assert (x, cls (zeros (1, 0)));
%!   assert (class (x), cls_nm);
%! endfor