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view test/range.tst @ 33508:1d0365c531a1 default tip
workspace view column width only stored by header state (bug #65030)
* gui-preferences-ws.h: remove obsolete settings keys
* workspace-view.cc (workspace_view::workspace_view): initialize new
class variable, do not restore header state here;
(workspace_view::notice_settings): save current header state if it
is not the first run where the header would be the default one,
do not read column visibility from settings file,
restore header state after other settings are updated;
(workspace_view::header_contextmenu_requested): get column visibility
from QTableView, not from settings;
(workspace_view::toggle_header): toggle current visibility, which is
determined from QTableView, not from settings;
* workspace-view.h: new class variable m_first
| author | Torsten Lilge <ttl-octave@mailbox.org> |
|---|---|
| date | Thu, 02 May 2024 06:44:38 +0200 |
| parents | 2e484f9f1f18 |
| children |
line wrap: on
line source
######################################################################## ## ## Copyright (C) 2007-2024 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/>. ## ######################################################################## ## Test values of range %!assert (full (1:9), [ 1 2 3 4 5 6 7 8 9 ]) %!assert (full (1:0.4:3), [ 1.0 1.4 1.8 2.2 2.6 3.0 ]) %!assert (full (9:1), zeros (1,0)) %!assert (full (9:-1:1), [ 9 8 7 6 5 4 3 2 1 ]) %!assert (full (1:-1:9), zeros (1,0)) %!assert (full (1:1:1), 1) %!test %! warning ('off', 'Octave:colon-complex-argument', 'local'); %! assert (full (i:2i:10i), zeros (1,0)); ## Test mixing integer range with other types %!shared expect, r, z %! expect = [ 1 2 3 4 5 6 7 8 9 %! 0 0 0 0 0 0 0 0 0 ]; %! z = zeros (1,9); %! r = 1:9; %!assert ([ r ; z ], expect) %!assert ([ r ; single(z) ], single (expect)) %!assert ([ r ; logical(z) ], expect) %!assert ([ r ; sparse(z) ], sparse (expect)) %!assert ([ r ; sparse(logical(z)) ], sparse (expect)) %!assert ([ r ; int8(z) ], int8 (expect)) %!assert ([ r ; int16(z) ], int16 (expect)) %!assert ([ r ; int32(z) ], int32 (expect)) %!assert ([ r ; int64(z) ], int64 (expect)) %!assert ([ r ; uint8(z) ], uint8 (expect)) %!assert ([ r ; uint16(z) ], uint16 (expect)) %!assert ([ r ; uint32(z) ], uint32 (expect)) %!assert ([ r ; uint64(z) ], uint64 (expect)) ## Test mixing non-integer range with other types %!shared expect, r, z %! expect = [ 1.0 1.4 1.8 2.2 2.6 3.0 %! 0 0 0 0 0 0 ]; %! z = zeros (1,6); %! r = 1:0.4:3; %!assert ([ r ; z ], expect) %!assert ([ r ; single(z) ], single (expect)) %!assert ([ r ; logical(z) ], expect) %!assert ([ r ; sparse(z) ], sparse (expect)) %!assert ([ r ; sparse(logical(z)) ], sparse (expect)) %!assert ([ r ; int8(z) ], int8 (expect)) %!assert ([ r ; int16(z) ], int16 (expect)) %!assert ([ r ; int32(z) ], int32 (expect)) %!assert ([ r ; int64(z) ], int64 (expect)) %!assert ([ r ; uint8(z) ], uint8 (expect)) %!assert ([ r ; uint16(z) ], uint16 (expect)) %!assert ([ r ; uint32(z) ], uint32 (expect)) %!assert ([ r ; uint64(z) ], uint64 (expect)) ## Test corner cases of ranges (base and limit) %!shared r, rrev, rneg %! r = -0:3; %! rrev = 3:-1:-0; %! rneg = -3:-0; %!assert (full (r), [-0 1 2 3]) %!assert (signbit (full (r)), logical ([1 0 0 0])) %!assert (r(1), -0) %!assert (signbit (r(1)), true) %!assert (signbit (r(1:2)), logical ([1 0])) %!assert (signbit (r(2:-1:1)), logical ([0 1])) %!assert (signbit (r([2 1 1 3])), logical ([0 1 1 0])) %!assert (full (rrev), [3 2 1 -0]) %!assert (signbit (full (rrev)), logical ([0 0 0 1])) %!assert (rrev(4), -0) %!assert (signbit (rrev(4)), true) %!assert (signbit (rrev(3:4)), logical ([0 1])) %!assert (signbit (rrev(4:-1:3)), logical ([1 0])) %!assert (signbit (rrev([1 4 4 2])), logical ([0 1 1 0])) %!assert (min (r), -0) %!assert (signbit (min (r)), true) %!assert (min (rrev), -0) %!assert (signbit (min (rrev)), true) %!assert (max (rneg), -0) %!assert (signbit (max (rneg)), true) %!assert (sort (r, "descend"), [3 2 1 -0]) %!assert (signbit (sort (r, "descend")), logical ([0 0 0 1])) %!assert (signbit (sort (rrev, "ascend")), logical ([1 0 0 0])) ## Test mathematical operations (also, non-finite values and 0) %!shared r %! r = 1:5; %!assert (-r, -1:-1:-5) %!assert (1 + r, 2:6) %!assert (Inf + r, Inf (1,5)) %!assert (NaN + r, NaN (1,5)) %!assert (r + 1, 2:6) %!assert (r + Inf, Inf (1,5)) %!assert (r + NaN, NaN (1,5)) %!assert (1 - r, 0:-1:-4) %!assert (Inf - r, Inf (1,5)) %!assert (NaN - r, NaN (1,5)) %!assert (r - 1, 0:4) %!assert (r - Inf, -Inf (1,5)) %!assert (r - NaN, NaN (1,5)) %!assert (2 * r, 2:2:10) %!assert (0 * r, zeros (1,5)) %!assert (Inf * r, Inf (1,5)) %!assert (NaN * r, NaN (1,5)) %!assert (r * 2, 2:2:10) %!assert (r * 0, zeros (1,5)) %!assert (r * Inf, Inf (1,5)) %!assert (r * NaN, NaN (1,5)) ## Test sorting of ranges (bug #45739) %!shared r, rrev %! r = 1:2:10; %! rrev = 10:-2:1; %!assert <*45739> (sort (r, "descend"), [9 7 5 3 1]) %!assert <*45739> (sort (rrev, "ascend"), [2 4 6 8 10]) ## Test final value within eps of an integer (bug #46859) %!test <*46859> %! rng = 1 : (1001/250)/(1/250); %! assert (rng(end), 1001); %!test <*46859> %! rng = 2000: -1 : (1001/250)/(1/250); %! assert (rng(end), 1001); ## This is not Matlab compatible (stops at 1000 with 999 elements) ## Octave prefers the more intuitive "pure math" approach where ## (1001/250) / (1/250) => (1001/250)*(250/1) => 1001. %!test <*46859> %! rng = 1 : (1001/250)/(1/250); %! assert (numel (1000)); ## Combinations of exceptional values and a few normal ones. %!shared mt_row, inf, nan, zero, pt3, pt6, pt9, one, epsilon %! mt_row = zeros (1, 0, 'double'); %! inf = Inf ('double'); %! nan = NaN ('double'); %! zero = double (0.0); %! pt3 = double (0.3); %! pt6 = double (0.6); %! pt9 = double (0.9); %! one = double (1.0); %! epsilon = eps ('double'); %!assert <*59229> (nan:-pt3:-one, nan) %!assert <*59229> (nan:-pt3:-inf, nan) %!assert <*59229> (nan:-pt3:zero, nan) %!assert <*59229> (nan:-pt3:one, nan) %!assert <*59229> (nan:-pt3:inf, nan) %!assert <*59229> (nan:-pt3:nan, nan) %!assert <*59229> (nan:-inf:-one, nan) %!assert <*59229> (nan:-inf:-inf, nan) %!assert <*59229> (nan:-inf:zero, nan) %!assert <*59229> (nan:-inf:one, nan) %!assert <*59229> (nan:-inf:inf, nan) %!assert <*59229> (nan:-inf:nan, nan) %!assert <*59229> (nan:zero:-one, nan) %!assert <*59229> (nan:zero:-inf, nan) %!assert <*59229> (nan:zero:zero, nan) %!assert <*59229> (nan:zero:one, nan) %!assert <*59229> (nan:zero:inf, nan) %!assert <*59229> (nan:zero:nan, nan) %!assert <*59229> (nan:pt3:-one, nan) %!assert <*59229> (nan:pt3:-inf, nan) %!assert <*59229> (nan:pt3:zero, nan) %!assert <*59229> (nan:pt3:one, nan) %!assert <*59229> (nan:pt3:inf, nan) %!assert <*59229> (nan:pt3:nan, nan) %!assert <*59229> (nan:inf:-one, nan) %!assert <*59229> (nan:inf:-inf, nan) %!assert <*59229> (nan:inf:zero, nan) %!assert <*59229> (nan:inf:one, nan) %!assert <*59229> (nan:inf:inf, nan) %!assert <*59229> (nan:inf:nan, nan) %!assert <*59229> (nan:nan:-one, nan) %!assert <*59229> (nan:nan:-inf, nan) %!assert <*59229> (nan:nan:zero, nan) %!assert <*59229> (nan:nan:one, nan) %!assert <*59229> (nan:nan:inf, nan) %!assert <*59229> (nan:nan:nan, nan) %!assert <*59229> (-inf:-pt3:nan, nan) %!assert <*59229> (-inf:-inf:nan, nan) %!assert <*59229> (-inf:zero:nan, nan) %!assert <*59229> (-inf:pt3:nan, nan) %!assert <*59229> (-inf:inf:nan, nan) %!assert <*59229> (zero:-pt3:nan, nan) %!assert <*59229> (zero:-inf:nan, nan) %!assert <*59229> (zero:zero:nan, nan) %!assert <*59229> (zero:pt3:nan, nan) %!assert <*59229> (zero:inf:nan, nan) %!assert <*59229> (inf:-pt3:nan, nan) %!assert <*59229> (inf:-inf:nan, nan) %!assert <*59229> (inf:zero:nan, nan) %!assert <*59229> (inf:pt3:nan, nan) %!assert <*59229> (inf:inf:nan, nan) %!assert <*59229> (-inf:nan:-one, nan) %!assert <*59229> (-inf:nan:-inf, nan) %!assert <*59229> (-inf:nan:zero, nan) %!assert <*59229> (-inf:nan:one, nan) %!assert <*59229> (-inf:nan:inf, nan) %!assert <*59229> (-inf:nan:nan, nan) %!assert <*59229> (zero:nan:-one, nan) %!assert <*59229> (zero:nan:-inf, nan) %!assert <*59229> (zero:nan:zero, nan) %!assert <*59229> (zero:nan:one, nan) %!assert <*59229> (zero:nan:inf, nan) %!assert <*59229> (zero:nan:nan, nan) %!assert <*59229> (inf:nan:-one, nan) %!assert <*59229> (inf:nan:-inf, nan) %!assert <*59229> (inf:nan:zero, nan) %!assert <*59229> (inf:nan:one, nan) %!assert <*59229> (inf:nan:inf, nan) %!assert <*59229> (inf:nan:nan, nan) %!assert <*59229> (inf:-pt3:inf, nan) %!assert <*59229> (-inf:-pt3:-inf, nan) %!assert <*59229> (inf:pt3:inf, nan) %!assert <*59229> (-inf:pt3:-inf, nan) %!assert <*59229> (-inf:-inf:-inf, nan) %!assert <*59229> (zero:-inf:-inf, nan) %!assert <*59229> (inf:-inf:-one, nan) %!assert <*59229> (inf:-inf:-inf, nan) %!assert <*59229> (inf:-inf:zero, nan) %!assert <*59229> (inf:-inf:one, nan) %!assert <*59229> (inf:-inf:inf, nan) %!assert <*59229> (-inf:inf:-one, nan) %!assert <*59229> (-inf:inf:-inf, nan) %!assert <*59229> (-inf:inf:zero, nan) %!assert <*59229> (-inf:inf:one, nan) %!assert <*59229> (-inf:inf:inf, nan) %!assert <*59229> (zero:inf:inf, nan) %!assert <*59229> (inf:inf:inf, nan) %!assert <*59229> (zero:zero:-one, mt_row) %!assert <*59229> (zero:zero:zero, mt_row) %!assert <*59229> (zero:zero:one, mt_row) %!assert <*59229> (zero:zero:-inf, mt_row) %!assert <*59229> (zero:zero:inf, mt_row) %!assert <*59229> (-inf:zero:-one, mt_row) %!assert <*59229> (-inf:zero:zero, mt_row) %!assert <*59229> (-inf:zero:one, mt_row) %!assert <*59229> (-inf:zero:-inf, mt_row) %!assert <*59229> (-inf:zero:inf, mt_row) %!assert <*59229> (inf:zero:-one, mt_row) %!assert <*59229> (inf:zero:zero, mt_row) %!assert <*59229> (inf:zero:one, mt_row) %!assert <*59229> (inf:zero:-inf, mt_row) %!assert <*59229> (inf:zero:inf, mt_row) %!assert <*59229> (zero:pt3:-one, mt_row) %!assert <*59229> (zero:pt3:-inf, mt_row) %!assert <*59229> (inf:pt3:-one, mt_row) %!assert <*59229> (inf:pt3:zero, mt_row) %!assert <*59229> (inf:pt3:one, mt_row) %!assert <*59229> (inf:pt3:-inf, mt_row) %!assert <*59229> (zero:inf:-one, mt_row) %!assert <*59229> (zero:inf:-inf, mt_row) %!assert <*59229> (inf:inf:-one, mt_row) %!assert <*59229> (inf:inf:zero, mt_row) %!assert <*59229> (inf:inf:one, mt_row) %!assert <*59229> (inf:inf:-inf, mt_row) %!assert <*59229> (zero:-pt3:one, mt_row) %!assert <*59229> (zero:-pt3:inf, mt_row) %!assert <*59229> (-inf:-pt3:-one, mt_row) %!assert <*59229> (-inf:-pt3:zero, mt_row) %!assert <*59229> (-inf:-pt3:one, mt_row) %!assert <*59229> (-inf:-pt3:inf, mt_row) %!assert <*59229> (zero:-inf:one, mt_row) %!assert <*59229> (zero:-inf:inf, mt_row) %!assert <*59229> (-inf:-inf:-one, mt_row) %!assert <*59229> (-inf:-inf:zero, mt_row) %!assert <*59229> (-inf:-inf:one, mt_row) %!assert <*59229> (-inf:-inf:inf, mt_row) %!assert <*59229> (zero:-inf:-one, zero) %!assert <*59229> (zero:-inf:zero, zero) %!assert <*59229> (zero:inf:zero, zero) %!assert <*59229> (zero:inf:one, zero) %!assert <*59229> (zero:-pt3:zero, zero) %!assert <*59229> (zero:pt3:zero, zero) %!assert <*59229> (zero:-pt3:-one, [zero, -pt3, -pt6, -pt9], epsilon) %!assert <*59229> (zero:pt3:one, [zero, pt3, pt6, pt9], epsilon) %!error <range with infinite number of elements cannot be stored> zero:-pt3:-inf %!error <range with infinite number of elements cannot be stored> inf:-pt3:-one %!error <range with infinite number of elements cannot be stored> inf:-pt3:zero %!error <range with infinite number of elements cannot be stored> inf:-pt3:one %!error <range with infinite number of elements cannot be stored> inf:-pt3:-inf %!error <range with infinite number of elements cannot be stored> zero:pt3:inf %!error <range with infinite number of elements cannot be stored> -inf:pt3:-one %!error <range with infinite number of elements cannot be stored> -inf:pt3:zero %!error <range with infinite number of elements cannot be stored> -inf:pt3:one %!error <range with infinite number of elements cannot be stored> -inf:pt3:inf ## Again, this time with singles. %!shared mt_row, inf, nan, zero, pt3, pt6, pt9, one, epsilon %! mt_row = zeros (1, 0, 'single'); %! inf = Inf ('single'); %! nan = NaN ('single'); %! zero = single (0.0); %! pt3 = single (0.3); %! pt6 = single (0.6); %! pt9 = single (0.9); %! one = single (1.0); %! epsilon = eps ('single'); %!assert <*59229> (nan:-pt3:-one, nan) %!assert <*59229> (nan:-pt3:-inf, nan) %!assert <*59229> (nan:-pt3:zero, nan) %!assert <*59229> (nan:-pt3:one, nan) %!assert <*59229> (nan:-pt3:inf, nan) %!assert <*59229> (nan:-pt3:nan, nan) %!assert <*59229> (nan:-inf:-one, nan) %!assert <*59229> (nan:-inf:-inf, nan) %!assert <*59229> (nan:-inf:zero, nan) %!assert <*59229> (nan:-inf:one, nan) %!assert <*59229> (nan:-inf:inf, nan) %!assert <*59229> (nan:-inf:nan, nan) %!assert <*59229> (nan:zero:-one, nan) %!assert <*59229> (nan:zero:-inf, nan) %!assert <*59229> (nan:zero:zero, nan) %!assert <*59229> (nan:zero:one, nan) %!assert <*59229> (nan:zero:inf, nan) %!assert <*59229> (nan:zero:nan, nan) %!assert <*59229> (nan:pt3:-one, nan) %!assert <*59229> (nan:pt3:-inf, nan) %!assert <*59229> (nan:pt3:zero, nan) %!assert <*59229> (nan:pt3:one, nan) %!assert <*59229> (nan:pt3:inf, nan) %!assert <*59229> (nan:pt3:nan, nan) %!assert <*59229> (nan:inf:-one, nan) %!assert <*59229> (nan:inf:-inf, nan) %!assert <*59229> (nan:inf:zero, nan) %!assert <*59229> (nan:inf:one, nan) %!assert <*59229> (nan:inf:inf, nan) %!assert <*59229> (nan:inf:nan, nan) %!assert <*59229> (nan:nan:-one, nan) %!assert <*59229> (nan:nan:-inf, nan) %!assert <*59229> (nan:nan:zero, nan) %!assert <*59229> (nan:nan:one, nan) %!assert <*59229> (nan:nan:inf, nan) %!assert <*59229> (nan:nan:nan, nan) %!assert <*59229> (-inf:-pt3:nan, nan) %!assert <*59229> (-inf:-inf:nan, nan) %!assert <*59229> (-inf:zero:nan, nan) %!assert <*59229> (-inf:pt3:nan, nan) %!assert <*59229> (-inf:inf:nan, nan) %!assert <*59229> (zero:-pt3:nan, nan) %!assert <*59229> (zero:-inf:nan, nan) %!assert <*59229> (zero:zero:nan, nan) %!assert <*59229> (zero:pt3:nan, nan) %!assert <*59229> (zero:inf:nan, nan) %!assert <*59229> (inf:-pt3:nan, nan) %!assert <*59229> (inf:-inf:nan, nan) %!assert <*59229> (inf:zero:nan, nan) %!assert <*59229> (inf:pt3:nan, nan) %!assert <*59229> (inf:inf:nan, nan) %!assert <*59229> (-inf:nan:-one, nan) %!assert <*59229> (-inf:nan:-inf, nan) %!assert <*59229> (-inf:nan:zero, nan) %!assert <*59229> (-inf:nan:one, nan) %!assert <*59229> (-inf:nan:inf, nan) %!assert <*59229> (-inf:nan:nan, nan) %!assert <*59229> (zero:nan:-one, nan) %!assert <*59229> (zero:nan:-inf, nan) %!assert <*59229> (zero:nan:zero, nan) %!assert <*59229> (zero:nan:one, nan) %!assert <*59229> (zero:nan:inf, nan) %!assert <*59229> (zero:nan:nan, nan) %!assert <*59229> (inf:nan:-one, nan) %!assert <*59229> (inf:nan:-inf, nan) %!assert <*59229> (inf:nan:zero, nan) %!assert <*59229> (inf:nan:one, nan) %!assert <*59229> (inf:nan:inf, nan) %!assert <*59229> (inf:nan:nan, nan) %!assert <*59229> (inf:-pt3:inf, nan) %!assert <*59229> (-inf:-pt3:-inf, nan) %!assert <*59229> (inf:pt3:inf, nan) %!assert <*59229> (-inf:pt3:-inf, nan) %!assert <*59229> (-inf:-inf:-inf, nan) %!assert <*59229> (zero:-inf:-inf, nan) %!assert <*59229> (inf:-inf:-one, nan) %!assert <*59229> (inf:-inf:-inf, nan) %!assert <*59229> (inf:-inf:zero, nan) %!assert <*59229> (inf:-inf:one, nan) %!assert <*59229> (inf:-inf:inf, nan) %!assert <*59229> (-inf:inf:-one, nan) %!assert <*59229> (-inf:inf:-inf, nan) %!assert <*59229> (-inf:inf:zero, nan) %!assert <*59229> (-inf:inf:one, nan) %!assert <*59229> (-inf:inf:inf, nan) %!assert <*59229> (zero:inf:inf, nan) %!assert <*59229> (inf:inf:inf, nan) %!assert <*59229> (zero:zero:-one, mt_row) %!assert <*59229> (zero:zero:zero, mt_row) %!assert <*59229> (zero:zero:one, mt_row) %!assert <*59229> (zero:zero:-inf, mt_row) %!assert <*59229> (zero:zero:inf, mt_row) %!assert <*59229> (-inf:zero:-one, mt_row) %!assert <*59229> (-inf:zero:zero, mt_row) %!assert <*59229> (-inf:zero:one, mt_row) %!assert <*59229> (-inf:zero:-inf, mt_row) %!assert <*59229> (-inf:zero:inf, mt_row) %!assert <*59229> (inf:zero:-one, mt_row) %!assert <*59229> (inf:zero:zero, mt_row) %!assert <*59229> (inf:zero:one, mt_row) %!assert <*59229> (inf:zero:-inf, mt_row) %!assert <*59229> (inf:zero:inf, mt_row) %!assert <*59229> (zero:pt3:-one, mt_row) %!assert <*59229> (zero:pt3:-inf, mt_row) %!assert <*59229> (inf:pt3:-one, mt_row) %!assert <*59229> (inf:pt3:zero, mt_row) %!assert <*59229> (inf:pt3:one, mt_row) %!assert <*59229> (inf:pt3:-inf, mt_row) %!assert <*59229> (zero:inf:-one, mt_row) %!assert <*59229> (zero:inf:-inf, mt_row) %!assert <*59229> (inf:inf:-one, mt_row) %!assert <*59229> (inf:inf:zero, mt_row) %!assert <*59229> (inf:inf:one, mt_row) %!assert <*59229> (inf:inf:-inf, mt_row) %!assert <*59229> (zero:-pt3:one, mt_row) %!assert <*59229> (zero:-pt3:inf, mt_row) %!assert <*59229> (-inf:-pt3:-one, mt_row) %!assert <*59229> (-inf:-pt3:zero, mt_row) %!assert <*59229> (-inf:-pt3:one, mt_row) %!assert <*59229> (-inf:-pt3:inf, mt_row) %!assert <*59229> (zero:-inf:one, mt_row) %!assert <*59229> (zero:-inf:inf, mt_row) %!assert <*59229> (-inf:-inf:-one, mt_row) %!assert <*59229> (-inf:-inf:zero, mt_row) %!assert <*59229> (-inf:-inf:one, mt_row) %!assert <*59229> (-inf:-inf:inf, mt_row) %!assert <*59229> (zero:-inf:-one, zero) %!assert <*59229> (zero:-inf:zero, zero) %!assert <*59229> (zero:inf:zero, zero) %!assert <*59229> (zero:inf:one, zero) %!assert <*59229> (zero:-pt3:zero, zero) %!assert <*59229> (zero:pt3:zero, zero) %!assert <*59229> (zero:-pt3:-one, [zero, -pt3, -pt6, -pt9], epsilon) %!assert <*59229> (zero:pt3:one, [zero, pt3, pt6, pt9], epsilon) %!error <range with infinite number of elements cannot be stored> zero:-pt3:-inf %!error <range with infinite number of elements cannot be stored> inf:-pt3:-one %!error <range with infinite number of elements cannot be stored> inf:-pt3:zero %!error <range with infinite number of elements cannot be stored> inf:-pt3:one %!error <range with infinite number of elements cannot be stored> inf:-pt3:-inf %!error <range with infinite number of elements cannot be stored> zero:pt3:inf %!error <range with infinite number of elements cannot be stored> -inf:pt3:-one %!error <range with infinite number of elements cannot be stored> -inf:pt3:zero %!error <range with infinite number of elements cannot be stored> -inf:pt3:one %!error <range with infinite number of elements cannot be stored> -inf:pt3:inf ## Tests with different input classes %!error <invalid types found in range> ({1}:1:5) %!error <invalid types found in range> (1:{1}:5) %!error <invalid types found in range> (1:1:{5}) %!error <incompatible types found in range> (int8(1):int16(1):5) %!error <incompatible types found in range> (int8(1):1:int16(5)) ## Tests with mixed integer/floating point values %!error <colon operator lower bound invalid> (1.5:uint8(1):5) %!error <colon operator lower bound invalid> (-1:uint8(1):5) %!error <colon operator increment invalid> (uint8(1):1.5:5) %!error <colon operator increment invalid> (uint8(1):NaN:5) %!error <colon operator upper bound invalid> (uint8(1):1:5.5) %!error <colon operator upper bound invalid> (uint8(1):1:256) %!error <colon operator upper bound invalid> (uint8(1):-1:-6) ## Extreme integer values. %!test <*61132> %! types = {"int8", "int16", "int32", "int64", ... %! "uint8", "uint16", "uint32", "uint64"}; %! for i = 1:numel (types) %! cls = types{i}; %! lo = intmin (cls); %! hi = intmax (cls); %! n = 99; %! rlo = lo:(lo+n); %! rhi = (hi-n):hi; %! assert (class (rlo), cls); %! assert (class (rhi), cls); %! assert (numel (rlo), n+1); %! assert (numel (rhi), n+1); %! endfor ## Test that ranges do not exceed limits for integer types ## Ascending ranges, signed and unsigned %!test <*61300> %! types = {@int8, @int16, @int32, @int64, @uint8, @uint16, @uint32, @uint64}; %! start = 0:5; %! finish = start + 6 * floor ((100 - start) / 6); %! for i_type = 1:numel (types) %! for i_start = 1:numel(start) %! assert ((types{i_type} (start(i_start)) : 6 : 100)([1,end]), ... %! [types{i_type}(start(i_start)), types{i_type}(finish(i_start))]); %! endfor %! endfor ## Descending ranges, signed %!test <*61300> %! types = {@int8, @int16, @int32, @int64}; %! start = 100:-1:95; %! finish = start - 6 * floor (start / 6); %! for i_type = 1:numel (types) %! for i_start = 1:numel(start) %! assert ((types{i_type} (start(i_start)) : -6 : 0)([1,end]), ... %! [types{i_type}(start(i_start)), types{i_type}(finish(i_start))]); %! endfor %! endfor ## Descending ranges, unsigned %!test <*61132> %! types = {@uint8, @uint16, @uint32, @uint64}; %! start = 100:-1:95; %! finish = start - 6 * floor (start / 6); %! for i_type = 1:numel (types) %! for i_start = 1:numel(start) %! assert ((types{i_type} (start(i_start)) : -6 : 0)([1,end]), ... %! [types{i_type}(start(i_start)), types{i_type}(finish(i_start))]); %! endfor %! endfor ## Class of range operator output %!test %! types = {@double, @single, ... %! @int8, @int16, @int32, @int64, ... %! @uint8, @uint16, @uint32, @uint64}; %! for i_type = 1:numel (types) %! ## with implicit increment %! assert (class (types{i_type} (0) : types{i_type} (10)), ... %! func2str (types{i_type})); %! ## with matching increment %! assert (class (types{i_type} (0) : types{i_type} (2) : types{i_type} (10)), ... %! func2str (types{i_type})); %! ## with double increment (ascending) %! assert (class (types{i_type} (0) : 2 : types{i_type} (10)), ... %! func2str (types{i_type})); %! ## with double increment (descending) %! assert (class (types{i_type} (10) : -2 : types{i_type} (0)), ... %! func2str (types{i_type})); %! endfor ## Signed integer ranges with large span %!test <*61788> # ascending ranges %! assert (int8 (-100) : int8 (50) : int8 (100), ... %! int8 ([-100, -50, 0, 50, 100])); %! assert (int16 (-3e4) : int16 (1.5e4) : int16 (3e4), ... %! int16 ([-3e4, -1.5e4, 0, 1.5e4, 3e4])); %! assert (int32 (-2e9) : int32 (1e9) : int32 (2e9), ... %! int32 ([-2e9, -1e9, 0, 1e9, 2e9])); %! assert (int64 (-9e18) : int64 (4.5e18) : int64 (9e18), ... %! [int64(-9e18), int64(-4.5e18), 0, int64(4.5e18), int64(9e18)]); %!test <*61788> # descending ranges %! assert (int8 (100) : int8 (-50) : int8 (-100), ... %! int8 ([100, 50, 0, -50, -100])); %! assert (int16 (3e4) : int16 (-1.5e4) : int16 (-3e4), ... %! int16 ([3e4, 1.5e4, 0, -1.5e4, -3e4])); %! assert (int32 (2e9) : int32 (-1e9) : int32 (-2e9), ... %! int32 ([2e9, 1e9, 0, -1e9, -2e9])); %! assert (int64 (9e18) : int64 (-4.5e18) : int64 (-9e18), ... %! [int64(9e18), int64(4.5e18), 0, int64(-4.5e18), int64(-9e18)]); ## integer ranges with double increments %!test # ascending ranges %! types = {@int8, @int16, @int32, @int64, ... %! @uint8, @uint16, @uint32, @uint64}; %! for i_type = 1:numel (types) %! assert (types{i_type} (0) : 2 : types{i_type} (10), ... %! types{i_type} ([0, 2, 4, 6, 8, 10])); %! endfor %!test # descending ranges %! types = {@int8, @int16, @int32, @int64, ... %! @uint8, @uint16, @uint32, @uint64}; %! for i_type = 1:numel (types) %! assert (types{i_type} (10) : -2 : types{i_type} (0), ... %! types{i_type} ([10, 8, 6, 4, 2, 0])); %! endfor ## integer range with large double increments %!test <*62212> # ascending ranges %! types = {"int8", "int16", "int32", "int64"}; %! for i_type = 1:numel (types) %! assert (intmin (types{i_type}) : -double (intmin (types{i_type})) : intmax (types{i_type}), ... %! [intmin(types{i_type}), 0]); %! assert (intmin (types{i_type}) : -2*double (intmin (types{i_type})) : intmax (types{i_type}), ... %! intmin (types{i_type})); %! if (! strcmp (types, "int64")) %! ## The increment cannot be represented in double precision for "int64" %! assert (intmin (types{i_type}) : 2*double (intmax (types{i_type})) : intmin (types{i_type}), ... %! [intmin(types{i_type}), intmax(types{i_type})-1]); %! endif %! endfor %!test <*62212> # descending ranges %! types = {"int8", "int16", "int32", "int64"}; %! for i_type = 1:numel (types) %! assert (intmax (types{i_type}) : double (intmin (types{i_type})) : intmin (types{i_type}), ... %! [intmax(types{i_type}), -1]); %! assert (intmax (types{i_type}) : 2*double (intmin (types{i_type})) : intmin (types{i_type}), ... %! intmax (types{i_type})); %! if (! strcmp (types, "int64")) %! ## The increment cannot be represented in double precision for "int64" %! assert (intmax (types{i_type}) : -2*double (intmax (types{i_type})) : intmin (types{i_type}), ... %! [intmax(types{i_type}), -intmax(types{i_type})]); %! endif %! endfor ## integer range near intmax %!test %! types = {"int8", "int16", "int32", "int64", ... %! "uint8", "uint16", "uint32", "uint64"}; %! for i_type = 1:numel (types) %! hi = intmax (types{i_type}); %! lo = hi - 5; %! ## ascending range %! assert (lo:hi, ... %! intmax(types{i_type}) - 5 + (0:5)); %! ## descending range %! assert (hi:-1:lo, ... %! intmax(types{i_type}) - 5 + (5:-1:0)); %! endfor ## integer range near intmin %!test %! types = {"int8", "int16", "int32", "int64", ... %! "uint8", "uint16", "uint32", "uint64"}; %! for i_type = 1:numel (types) %! lo = intmin (types{i_type}); %! hi = lo + 5; %! ## ascending range %! assert (lo:hi, ... %! intmin(types{i_type}) + (0:5)); %! ## descending range %! assert (hi:-1:lo, ... %! intmin(types{i_type}) + (5:-1:0)); %! endfor