Mercurial > octave
view test/index.tst @ 21580:ecce63c99c3f
maint: Add semicolons to terminate code in %! blocks.
* splineimages.m, Cell.cc, bsxfun.cc, cellfun.cc, conv2.cc, data.cc,
debug.cc, file-io.cc, gcd.cc, getrusage.cc, graphics.cc, kron.cc, mappers.cc,
oct-map.cc, ordschur.cc, psi.cc, rand.cc, variables.cc, __osmesa_print__.cc,
amd.cc, audiodevinfo.cc, dmperm.cc, qr.cc, ov-bool-mat.cc, ov-class.cc,
ov-fcn-handle.cc, ov-java.cc, oct-parse.in.yy, bicubic.m, delaunay3.m,
accumarray.m, flip.m, fliplr.m, flipud.m, gradient.m, inputParser.m, interp1.m,
narginchk.m, rot90.m, validateattributes.m, delaunay.m, delaunayn.m,
griddata3.m, inpolygon.m, waitbar.m, gray2ind.m, hsv2rgb.m, im2double.m,
image.m, imformats.m, imread.m, imshow.m, imwrite.m, ntsc2rgb.m, rgb2hsv.m,
rgb2ntsc.m, isbanded.m, onenormest.m, edit.m, fullfile.m, license.m, ode23.m,
ode45.m, glpk.m, annotation.m, legend.m, orient.m, text.m, area.m, barh.m,
contour.m, line.m, plot.m, plot3.m, plotyy.m, quiver.m, stem.m, clf.m,
copyobj.m, findobj.m, subplot.m, ppval.m, splinefit.m, ismember.m, freqz.m,
unwrap.m, eigs.m, ichol.m, pcg.m, spdiags.m, svds.m, magic.m, lscov.m,
median.m, ols.m, dec2base.m, strsplit.m, strtok.m, test.m, bug-31371.tst,
bug-36025.tst, bug-44940.tst, build-sparse-tests.sh, class-concat.tst,
classdef.tst, classes.tst, colormaps.tst, command.tst, ctor-vs-method.tst,
error.tst, fcn-handle-derived-resolution.tst, for.tst, index.tst, io.tst,
jit.tst, null-assign.tst, parser.tst, struct.tst, system.tst:
Add semicolons to terminate code in %! blocks.
author | Rik <rik@octave.org> |
---|---|
date | Fri, 01 Apr 2016 16:03:29 -0700 |
parents | a4faec57f4c8 |
children | 6fab85c1538f |
line wrap: on
line source
## Copyright (C) 2006-2015 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/>. %!test %! a = []; %! assert (isempty (a)); %!shared a %! a = 1; %!assert (a(1), 1) %!assert (a(:), 1) %!assert (a(:,:), 1) %!assert (a(1,:), 1) %!assert (a(:,1), 1) %!assert (isempty (a(logical (0)))) %!error a(-1) %!error a(2) %!error a(2,:) %!error a(:,2) %!error a(-1,:) %!error a(:,-1) %!error a([1,2,3]) %!error a([1;2;3]) %!error a([1,2;3,4]) %!error a([0,1]) %!error a([0;1]) %!error a([-1,0]) %!error a([-1;0]) %!shared a, a_prime, mid_a %! a = [4,3,2,1]; %! a_prime = [4;3;2;1]; %! mid_a = [3,2]; %!assert (a(1),4) %!assert (a(2),3) %!assert (all (a(:) == a_prime)) %!assert (all (a(1,:) == a)) %!assert (a(:,3),2) %!assert (all (a(:,:) == a)) %!assert (all (a(logical ([0,1,1,0])) == mid_a)) %!error a(0) %!error a(5) %!error a(0,1) %!assert (isempty (a(logical (0),:))) %!error a(:,0) %!assert (isempty (a([]))) %!assert (isempty (a([],:))) %!assert (isempty (a(:,[]))) %!shared a, a_fvec, a_col_1, a_col_2, a_row_1, a_row_2 %! a = [1,2;3,4]; %! a_fvec = [1;3;2;4]; %! a_col_1 = [1;3]; %! a_col_2 = [2;4]; %! a_row_1 = [1,2]; %! a_row_2 = [3,4]; %!assert (all (all (a(:,:) == a))) %!assert (all (a(:) == a_fvec)) %!error a(0) %!assert (a(2), 3) %% Additional tests %!shared a, b %! a = [1,2;3,4]; %! b = a; %! b(:,:,2) = [5,6;7,8]; %!assert (a(:), [1;3;2;4]) %!assert (a(1:2), [1,3]) %!assert (a(:,:), [1,2;3,4]) %!assert (a(:,1), [1;3]) %!assert (a(1,1), 1) %!assert (a(1:2,1), [1;3]) %!assert (a(:,:,1), [1,2;3,4]) %!test %! c(:,:,1) = [1,2;3,4]; %! c(:,:,2) = [1,2;3,4]; %! assert (a(:,:,[1,1]), c); %!test %! c(:,:,1,1) = [1,2;3,4]; %! c(:,:,1,2) = [1,2;3,4]; %! assert (a(:,:,1,[1,1]), c); %!test %! c(:,:,1,1) = [1,2;3,4]; %! c(:,:,2,1) = [1,2;3,4]; %! c(:,:,1,2) = [1,2;3,4]; %! c(:,:,2,2) = [1,2;3,4]; %! assert (a(:,:,[1,1],[1,1]), c); %!assert (a(1,[]), zeros (1,0)) %!assert (a(1,[],[1,1]), zeros (1,0,2)) %!assert (a(1,1,[]), zeros (1,1,0)) %!test %! c (1:10,1) = 1:10; %! assert (c, [1:10]'); %!assert (b(:), [1; 3; 2; 4; 5; 7; 6; 8]) %!assert (b(:,:), [1, 2, 5, 6; 3, 4, 7, 8]) %!assert (b(:,1), [1;3]) %!assert (b(:,:,:), reshape ([1,3,2,4,5,7,6,8], [2,2,2])) %!assert (b(:,1,1), [1;3]) %!assert (b(:,1,1,[1,1]),reshape ([1,3,1,3], [2,1,1,2])) %!assert (b(1,3), 5) %!assert (b(1,[3,4]), [5,6]) %!assert (b(1,1:4), [1,2,5,6]) %!assert (b(1,[],:), zeros (1,0,2)) %!assert (b(1,[]), zeros (1,0)) %!assert (b(:,3), [5;7]) %!assert (b([1,2],3), [5;7]) %!assert (b(true (2,1), 3), [5;7]) %!assert (b(false (2,1), 3), zeros (0,1)) %!assert (b([],3), zeros (0,1)) %!shared x %! ## Dummy shared block to clear any previous definitions %! x = 1; %!test %! a(1,:) = [1,3]; %! assert (a, [1,3]); %!test %! a(1,:) = [1;3]; %! assert (a, [1,3]); %!test %! a(:,1) = [1;3]; %! assert (a, [1;3]); %!test %! a = [1,2;3,4]; %! b (1,:,:) = a; %! assert (b, reshape (a, [1,2,2])); %!test %! a(1,1:4,2) = reshape (1:4, [1,1,4]); %! b(:,:,2) = 1:4; %! assert (a, b); %!test %! a(:,:,:) = 1:4; %! assert (a, [1:4]); %!test %! a(:,:,1) = 1:4;; %! assert (a, [1:4]); %!test %! a(:,:,1) = [1:4]'; %! assert (a, [1:4]'); %!test %! a(:,:,1) = reshape (1:4,[1,1,4]); %! assert (a, [1:4]'); %!test %! a(:,1,:) = 1:4; %! assert (a, reshape (1:4,[1,1,4])); %!test %! a(:,1,:) = [1:4]'; %! assert (a, [1:4]'); %!test %! a(:,1,:) = reshape (1:4,[1,1,4]);; %! assert (a, [1:4]'); %!test %! a(1,:,:) = 1:4; %! assert (a, reshape (1:4,[1,1,4])); %!test %! a(1,:,:) = [1:4]'; %! assert (a, [1:4]); %!test %! a(1,:,:) = reshape (1:4,[1,1,4]); %! assert (a, [1:4]); %!test %! a(1,:,:,:) = reshape (1:4,[1,1,4]); %! assert (a, reshape (1:4,[1,1,1,4])); %!error (a(1:2,1:2) = 1:4) ## bug #38357 %!shared d, dd %! d = diag ([1, 2, 3]); %! dd = diag ([1, 2, 3], 6, 3); %!assert (d(1), 1) %!assert (dd(1), 1) %!assert (d(3, 3), 3) %!assert (dd(3, 3), 3) %!assert (d(2), 0) %!assert (dd(2), 0) %!assert (dd(6,1), 0) %!error d(6,6); %!error dd(6,6); %!error d(3,6); %!error dd(3,6); ## bug 31287 %!test %! y = ones (2, 2, 2); %! x = ones (2, 2, 2); %! x(false) = []; %! assert (x, y); %!test %! y = ones (2, 2, 2); %! x = ones (2, 2, 2); %! x(false,[]) = []; %! assert (x, y); %!test %! y = ones (2, 2, 2); %! x = ones (2, 2, 2); %! x(false,[],false) = []; %! assert (x, y); %!shared x, y %! y = ones (2, 2, 2); %! x = ones (2, 2, 2); %! x(false, 1) = []; %! assert (x, y); %!shared x, y %! y = ones (2, 2, 2); %! x = ones (2, 2, 2); %! x(false, false) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x([], []) = []; %! assert (x, y); %!test %! y = sparse (ones (2, 2)); %! x = sparse (ones (2, 2)); %! x([], []) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(1, []) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x([], 1, []) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(1, [], 1, 1) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x([], 1, 1) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! ea2 = ones (3, 2, 0, 2); %! x(1, ea2) = []; %! assert (x, y); %!test %! y = sparse (ones (2, 2)); %! x = sparse (ones (2, 2)); %! ea2 = ones (3, 2, 0, 2); %! x(1, ea2) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! ea2 = ones (3, 2, 0, 2); %! x([], 1, ea2) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! ea2 = ones (3, 2, 0, 2); %! x(1, ea2, ea2) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! ea2 = ones (3, 2, 0, 2); %! x(1, ea2, 1) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(false, 1) = []; %! assert (x, y); %!test %! y = sparse (ones (2, 2)); %! x = sparse (ones (2, 2)); %! x(false, 1) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(1, [], false) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(false, false) = []; %! assert (x, y); %!test %! y = sparse (ones (2, 2)); %! x = sparse (ones (2, 2)); %! x(false, false) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(false, [], false) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x([], false, false, false) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(1, [], false, false) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(:, false) = []; %! assert (x, y); %!test %! y = sparse (ones (2, 2)); %! x = sparse (ones (2, 2)); %! x(:, false) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(false, :) = []; %! assert (x, y); %!test %! y = sparse (ones (2, 2)); %! x = sparse (ones (2, 2)); %! x(false, :) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(false, :, [], 1) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(:, [], false) = []; %! assert (x, y); %!shared x, y %! y = ones (2, 2); %! x = ones (2, 2); %!error x(1, 1, []) = []; %!shared x, y %! y = ones (2, 2); %! x = ones (2, 2); %! x(false, false, 1) = []; %! assert (x, y); %!shared x, y %! y = ones (2, 2); %! x = ones (2, 2); %! x(false, false, []) = []; %! assert (x, y); %!shared x, y %! y = ones (2, 2); %! x = ones (2, 2); %! x(false, false, [], false) = []; %! assert (x, y); %!shared x, y %! y = ones (2, 2); %! x = ones (2, 2); %! x(1, false, [], false) = []; %! assert (x, y); %!shared x, y %! y = ones (2, 2); %! x = ones (2, 2); %! x(:, false, 1) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x([]) = []; %! assert (x, y); %!test %! y = sparse (ones (2, 2)); %! x = sparse (ones (2, 2)); %! x([]) = []; %! assert (x, y); %!test %! y = []; %! x = ones (2, 2); %! x(:) = []; %! assert (x, y); %!test %! y = sparse ([]); %! x = sparse (ones (2, 2)); %! x(:) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x(false) = []; %! assert (x, y); %!test %! y = sparse (ones (2, 2)); %! x = sparse (ones (2, 2)); %! x(false) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x([], false) = []; %! assert (x, y); %!test %! y = sparse (ones (2, 2)); %! x = sparse (ones (2, 2)); %! x([], false) = []; %! assert (x, y); %!test %! y = ones (2, 2); %! x = ones (2, 2); %! x([], false, :) = []; %! assert (x, y); ## Test indexing of unnamed constants %!error <index \(0\): subscripts must be> 1(0) %!error <index \(-1\): subscripts must be> 1(-1) %!error <index \(_,0.5\): subscripts> {}(1,0.5) %!error <index \(nan,_\): subscripts> 1(NaN,1) %!error <index \(_,_,<cell....\[x8\]...\): subscripts> [](1,1,{},1,1,1,1,1,1,1,1) %!error <index \(...\[x9\]...-1,_\): subscript> 1(1,1,1,1,1,1,1,1,1,-1,1) %!error <index \(2\): out of bound 1> 1(2) %!error <index \(1\): out of bound 0> [](1) %!error <index \(_,1\): but object has size 5x0> zeros(5,0)(3,1) %!error <index \(3,_\): but object has size 0x5> zeros(0,5)(3,1) %!error <index \(-1\): subscripts> 1(1)(-1)(1) %! %!shared abc %! abc = [1, 2]; %! ## Test full matrices in variables %!error <abc\(3\): out of bound 2> abc([false, true, true]) %!error <abc\(-1\): subscripts> abc(-1)(1)(1) %! ## xerror <index \(-1\): subscripts> abc(1)(-1)(1) ## why no 'xerror' test? %!shared abc %! abc = [1 2; 3 4]; %!error <abc\(5\): out of bound 4> abc(5) %!error <abc\(_,3\): but abc has size 2x2> abc(2,3) %!error <abc\(_,_,0.5\): subscripts> exp (abc(2,3,0.5)) %!shared abc %! abc = [1 2; 3 4]; abc(1,1,2) = 1; %!error <abc\(_,5\): out of bound 4> abc(2,5) %!error <abc\(_,3,_\): but abc has size 2x2x2> abc(2,3,2) %!error <A\(..,I,..\) = \[\]: .* value 3 out of bound 2> abc(3,:) = [] %!error <A\(I\) = \[\]: .* value 50 out of bound 8> abc(3:50) = [] %!error <a null assignment can only have one non-colon index> abc(3,5) = [] %!error <=: nonconformant arguments \(op1 is 1x1, op2 is 1x5\)> abc(3,5) = 1:5 %! ## Test diagonal matrices, and access of function results %!error <index \(_,_,5\): but object has size 3x3> eye(3)(2,3,5) %!error <index \(-2,_\): subscripts> eye(4)(-2,3) %! ## Test cells %!shared abc %! abc = {1, 2; 3, 4}; %!error <abc\(_,0.3,_\): subscripts> abc(2,0.3,5) %!error <abc\(_,0.3,_\): subscripts> abc{2,0.3,5} %!error <abc\(-2,_,_,_\): subscripts> abc{-2,1,1,1} %!error <abc\(0,_,_,_\): subscripts> abc(0,1,1,1) = 1 %! ## Test permutation matrices %!shared abc %! abc = eye(3)([3 1 2],:); %!error <abc\(nan\): subscripts> abc(NA) %!error <abc\(_,_,_,inf,_\): subscripts> abc(1,1,1,Inf,1) %! ## Test sparse matrices %!shared abc %! abc = sparse(3,3); %!error <abc\(-1\): subscripts> abc(-1) %!error <abc\(-1\): subscripts> abc(-1) = 1 %!error <abc\(-1,_\): subscripts> abc(-1,1) %!error <abc\(-1,_\): subscripts> abc(-1,1) = 1 %!error <sparse indexing needs 1 or 2 indices> abc(0,0,0,0) %!error <abc\(4,_\): but abc has size 3x3> abc(4,1) %! ## Test ranges %!shared abc %! abc = 1:10; %!error <abc\(-1\): subscripts> abc(-1) %!error <abc\(-1,_\): subscripts> abc(-1,1) %!error <abc\(4,_\): but abc has size 1x10> abc(4,1) %! ## Test complex %!shared abc, z %! abc = [1 2]; %!error <abc\(0\+1i\): subscripts must be real> abc(i) %! abc = [1 2; 3 4]; %!error <abc\(1\+0i\): subscripts must be real> abc(complex(1)) %!error <abc\(1\+0.5i,_\): subscripts must be real> abc(1+0.5*i,3) %!error <abc\(_,0-2i\): subscripts must be real> abc(2,0-2*i) ## bug #35841 %!test %! a(1,1,1).b(1) = 2; %! a(1,1,1).b(1) = 3; ## bug #39789 %!test %! c = cell(1,1,1); %! c{1,1,1} = zeros(5, 2); %! c{1,1,1}(:, 1) = 1;