Mercurial > octave-nkf
view test/args.tst @ 18895:da6ffbf75edf
Simplify exist() code for recognizing command line functions.
* variables.cc (symbol_exist): Short-circuit out quickly if search type is builtin and
no builtin is found. Use the fact that all other cases have been checked by the end
of the function to make the test for a command line function short.
* variables.cc (Fexist): Expand %!tests.
| author | Rik <rik@octave.org> |
|---|---|
| date | Wed, 25 Jun 2014 14:48:39 -0700 |
| parents | d63878346099 |
| children | 4197fc428c7d |
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## Copyright (C) 2006-2013 John W. Eaton ## ## 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/>. ######################################## ## No inputs or no outputs ## no input or output arguments %!function f () %! assert (nargin, 0); %! assert (nargout, 0); %!endfunction %!test %! f; ## one input with two possible inputs %!function f (x, y) %! assert (nargin, 1); %! assert (nargout, 0); %!endfunction %!test %! f (1); ## no inputs, one of multiple outputs %!function [x, y] = f () %! assert (nargin, 0); %! assert (nargout, 1); %! x = 2; %!endfunction %!test %! assert (f (), 2); ## one of multiple inputs, one of multiple outputs %!function [x, y] = f (a, b) %! assert (nargin, 1); %! assert (nargout, 1); %! x = a; %!endfunction %!test %! assert (f (1), 1); ######################################## ## Varargin, varargout ## varargin and varargout with no inputs or outputs %!function [varargout] = f (varargin) %! assert (nargin, 0); %! assert (nargout, 0); %!endfunction %!test %! f; ## varargin and varargout with one input %!function [varargout] = f (x, varargin) %! assert (nargin, 1); %! assert (nargout, 0); %!endfunction %!test %! f (1); ## varargin and varargout with one output %!function [x, varargout] = f (varargin) %! assert (nargin, 0); %! assert (nargout, 1); %! x = 2; %!endfunction %!test %! assert (f (), 2); ## varargin and varargout with one input and output %!function [varargout] = f (varargin) %! assert (nargin, 1); %! assert (nargout, 1); %! varargout{1} = varargin{1}; %!endfunction %!test %! assert (f (1), 1); ## multiple inputs, multiple outputs, but not all of either ## WARNING: The original test did not assign the outputs, it just ## requested them, and I think that is supposed to be an error. It also ## still has a non-assigned output argument. %!function [x, y, z] = f (a, b, c, d, e) %! assert (nargin, 4); %! assert (nargout, 2); %! x = a; %! y = b; %!endfunction %!test %! [s, t] = f (1, 2, 3, 4); %! assert ([s t], [1 2]); ## Fully used varargin and varargout %!function [varargout] = f (varargin) %! assert (nargin, 3); %! assert (nargout, 4); %! varargout{1} = varargin{1}; %! varargout{2} = varargin{2}; %! varargout{3} = varargin{3}; %! varargout{4} = 4; %!endfunction %!test %! [s, t, u, v] = f (1, 2, 3); %! assert ([s t u v], [1 2 3 4]); ## Test default arguments ## numeric %!function f (x = 0) %! assert (x, 0); %!endfunction %!test %! f() ## numeric vector (spaces) %!function f (x = [0 1 2]) %! assert (x, [0 1 2]); %!endfunction %!test %! f() ## numeric vector (range) %!function f (x = 1:3) %! assert (x, 1:3); %!endfunction %!test %! f() ## numeric vector (commas) %!function f (x = [0,1,2]) %! assert (x, [0 1 2]); %!endfunction %!test %! f() ## numeric vector (commas and spaces) %!function f (x = [0, 1, 2]) %! assert (x, [0 1 2]); %!endfunction %!test %! f() ## numeric matrix %!function f (x = [0, 1, 2;3, 4, 5]) %! assert (x, [0 1 2;3 4 5]); %!endfunction %!test %! f() ## empty cell %!function f (x = {}) %! assert (x, {}); %!endfunction %!test %! f() ## full cell %!function f (x = {1}) %! assert (x, {1}); %!endfunction %!test %! f() ## many cells %!function f (x = {1 'a' "b" 2.0 struct("a", 3)}) %! assert (x, {1 'a' "b" 2.0 struct("a", 3)}); %!endfunction %!test %! f() ## struct %!function f (x = struct("a", 3)) %! assert (x, struct ("a", 3)); %!endfunction %!test %! f() ## char (double quotes) %!function f (x = "a") %! assert (x, "a"); %!endfunction %!test %! f() ## char (single quotes) %!function f (x = 'a') %! assert (x, "a"); %!endfunction %!test %! f() ## char (string, double quotes) %!function f (x = "abc123") %! assert (x, "abc123"); %!endfunction %!test %! f() ## char (string, double quotes, punctuation) %!function f (x = "abc123`1234567890-=~!@#$%^&*()_+[]{}|;':\",./<>?\\") %! assert (x, "abc123`1234567890-=~!@#$%^&*()_+[]{}|;':\",./<>?\\"); %!endfunction %!test %! f() ## Function handle (builtin) %!function f (x = @sin) %! finfo = functions (x); %! fname = finfo.function; %! assert (isa (x, "function_handle") && strcmp (fname, "sin")); %!endfunction %!test %! f() ## Function handle (anonymous) %!function f (x = @(x) x.^2) %! finfo = functions (x); %! ftype = finfo.type; %! assert (isa (x, "function_handle") && strcmp (ftype, "anonymous")); %!endfunction %!test %! f()