Mercurial > octave
view test/func.tst @ 28240:2fb684dc2ec2
axis.m: Implement "fill" option for Matlab compatibility.
* axis.m: Document that "fill" is a synonym for "normal". Place "vis3d" option
in documentation table for modes which affect aspect ratio. Add
strcmpi (opt, "fill") to decode opt and executed the same behavior as "normal".
| author | Rik <rik@octave.org> |
|---|---|
| date | Fri, 24 Apr 2020 13:16:09 -0700 |
| parents | bd51beb6205e |
| children | d6eb50288af7 0a5b15007766 |
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######################################################################## ## ## Copyright (C) 2008-2020 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/>. ## ######################################################################## ## This piece of test code ensures that all operations which work on ## dimensions alone (squeeze, triu, etc.) work for all objects and ## preserve type. Even if the object is an empty matrix. This code is ## not to check that the function itself returns the correct result, ## just that the results are consistent for all types. %!function __fntestfunc__ (fn, mn, varargin) %! typ = {"double", "complex", "logical", "sparse", "complex sparse", ... %! "logical sparse", "int8", "int16", "int32", "int64", "uint8", ... %! "uint16", "uint32", "uint64", "char", "cell", "struct", ... %! "single", "single complex"}; %! %! cmplx = [2, 5, 18]; %! nlogical = [3, 6]; %! ninteger = [7, 8, 9, 10, 11, 12, 13, 14]; %! nsparse = [4, 5, 6]; %! skip = {}; %! %! if (length (varargin) > 0 && iscell (varargin{1})) %! skip = varargin{1}; %! varargin(1) = []; %! endif %! %! for i = 1 : length (typ) %! if (any (strcmp (skip, typ {i}))) %! continue; %! endif %! m = mn; %! %! if (any (nsparse == i)) %! if (ndims (m) > 2) %! sz = size (m); %! m = reshape (m, [sz(1), prod(sz(2:end))]); %! endif %! if (any (cmplx == i)) %! m = sparse ((1 + 1i) * m); %! else %! m = sparse (m); %! endif %! else %! if (any (cmplx == i)) %! m = (1 + 1i) * m; %! endif %! endif %! if (any (nlogical == i)) %! m = cast (m, "logical"); %! endif %! if (any (ninteger == i)) %! m = cast (m, typ{i}); %! endif %! if (strcmp (typ{i}, "cell")) %! m = num2cell (m); %! elseif (strcmp (typ{i}, "struct")) %! m = struct ("fld", num2cell (m)); %! endif %! %! y = feval (fn, m, varargin{:}); %! y2 = feval (fn, reshape (mn, size (m)), varargin{:}); %! if (!strcmp (class (y), class (m)) || %! issparse (y) != issparse (m) || !size_equal (y, y2)) %! error ("failed for type %s\n", typ{i}); %! endif %! if (!(strcmp (typ{i}, "cell") || strcmp (typ{i}, "struct")) && %! any (vec (cast (real (y), "double")) != %! vec (feval (fn , cast (real (m), "double"), varargin{:})))) %! error ("failed for type %s\n", typ{i}); %! endif %! endfor %!endfunction %!shared m0, m1, m2, m3 %! m0 = [1:5]; %! m1 = reshape ([1 : 30], [5, 6]); %! m2 = reshape ([1 : 30], [5, 1, 6]); %! m3 = []; %!test %! __fntestfunc__ ("triu", m1, {"struct"}); %!test %! __fntestfunc__ ("triu", m1, {"struct"}, -1); %!test %! __fntestfunc__ ("triu", m1, {"struct"}, 1); %!test %! __fntestfunc__ ("triu", m3, {"struct"}); %!test %! __fntestfunc__ ("tril", m1, {"struct"}); %!test %! __fntestfunc__ ("tril", m1, {"struct"}, -1); %!test %! __fntestfunc__ ("tril", m1, {"struct"}, 1); %!test %! __fntestfunc__ ("tril", m3, {"struct"}); %!test %! __fntestfunc__ ("squeeze", m2); %!test %! __fntestfunc__ ("squeeze", m3); %!test %! __fntestfunc__ ("permute", m1, [2, 1]); %!test %! __fntestfunc__ ("permute", m2, {"sparse", "logical sparse", "complex sparse"}, [3, 1, 2]); %!test %! __fntestfunc__ ("permute", m3, [2, 1]); %!test %! __fntestfunc__ ("ipermute", m1, [2, 1]); %!test %! __fntestfunc__ ("ipermute", m2, {"sparse", "logical sparse", "complex sparse"}, [3, 1, 2]); %!test %! __fntestfunc__ ("ipermute", m3, [2, 1]); %!test %! __fntestfunc__ ("shiftdim", m2, 1); %!test %! __fntestfunc__ ("shiftdim", m2, {"sparse", "logical sparse", "complex sparse"}, -1); %!test %! __fntestfunc__ ("shiftdim", m3, 1); %!test %! __fntestfunc__ ("circshift", m2, 1); %!test %! __fntestfunc__ ("circshift", m2, [1, -1]); %!test %! __fntestfunc__ ("circshift", m3, 1); %!test %! __fntestfunc__ ("reshape", m2, [6, 5]); %!test %! __fntestfunc__ ("reshape", m3, [1, 0]); %!test %! __fntestfunc__ ("diag", m0, {"struct"}); %!test %! __fntestfunc__ ("diag", m0, {"struct"}, 1); %!test %! __fntestfunc__ ("diag", m0, {"struct"}, -1); %!test %! __fntestfunc__ ("diag", m1, {"struct"}); %!test %! __fntestfunc__ ("diag", m1, {"struct"}, 1); %!test %! __fntestfunc__ ("diag", m1, {"struct"}, -1); %!test %! __fntestfunc__ ("diag", m3, {"struct"}); %!test %! __fntestfunc__ ("fliplr", m1); %!test %! __fntestfunc__ ("fliplr", m3); %!test %! __fntestfunc__ ("flipud", m1); %!test %! __fntestfunc__ ("flipud", m3); %!test %! __fntestfunc__ ("flip", m1, 2); %!test %! __fntestfunc__ ("flip", m3, 2); %!test %! __fntestfunc__ ("transpose", m1); %!test %! __fntestfunc__ ("transpose", m3); %!test %! __fntestfunc__ ("ctranspose", m1); %!test %! __fntestfunc__ ("ctranspose", m3); %!test %! __fntestfunc__ ("rot90", m1); %!test %! __fntestfunc__ ("rot90", m1, 2); %!test %! __fntestfunc__ ("rot90", m1, -1); %!test %! __fntestfunc__ ("rot90", m3); %!test %! __fntestfunc__ ("rotdim", m2, 1, [1, 2]); %!test %! __fntestfunc__ ("rotdim", m2, 2, [1, 2]); %!test %! __fntestfunc__ ("rotdim", m2, -1, [1, 2]); %!test %! __fntestfunc__ ("rotdim", m3, 1, [1, 2]); ## Check for error if function parameter is made persistent %!function retval = __fnpersist1__ (in1) %! persistent retval; %! %! retval = 1; %!endfunction %!function retval = __fnpersist2__ (in1) %! persistent in1; %! %! retval = in1; %!endfunction %!error <can't make function parameter retval persistent> __fnpersist1__ (1); %!error <can't make function parameter in1 persistent> __fnpersist2__ (1);