Mercurial > octave
view test/func.tst @ 30920:47cbc69e66cd
eliminate direct access to call stack from evaluator
The call stack is an internal implementation detail of the evaluator.
Direct access to it outside of the evlauator should not be needed.
* pt-eval.h (tree_evaluator::get_call_stack): Delete.
| author | John W. Eaton <jwe@octave.org> |
|---|---|
| date | Fri, 08 Apr 2022 15:19:22 -0400 |
| parents | 796f54d4ddbf |
| children | 597f3ee61a48 |
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######################################################################## ## ## Copyright (C) 2008-2022 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) ## Check nargin, nargout validation by interpreter %!function __fn_nargout0__ (in1) %!endfunction %!function [out1] = __fn_nargin2__ (in1, in2) %!endfunction %!function [out1] = __fn_nargin0__ () %!endfunction %!function [] = __fn_narginout0__ () %!endfunction %!function __fn_no_arg_list__ %!endfunction %!error <function called with too many outputs> r = __fn_nargout0__ () %!error <function called with too many inputs> r = __fn_nargin2__ (1,2,3) %!error <function called with too many inputs> r = __fn_nargin0__ (1) %!error <function called with too many inputs> __fn_narginout0__ (1) %!error <function called with too many outputs> r = __fn_narginout0__ () %!error <function called with too many inputs> __fn_no_arg_list__ (1) %!error <function called with too many outputs> r = __fn_no_arg_list__ ()