Mercurial > octave-nkf
view test/jit.tst @ 20331:0b9d23557506
gallery: fix randsvd by adding missing dependency qmult().
* scripts/special-matrix/gallery.m (randsvd) was copied from the
Test Matrix toolbox by Nicholas J. Higham. It made use of qmult()
which was also part of that toolbox but was left behind. This qmult()
implementation is also recovered from the Test Matrix toolbox. Note
that Octave itself used to have qmult() which is part of the legacy
quaternion package (now also removed from the new quaternion package).
See cset 21904fe299c8 for when qmult() was removed from Octave.
Also fix the default value for KL and KU so that a 2 element vector
can be used as N.
| author | Carnë Draug <carandraug@octave.org> |
|---|---|
| date | Fri, 03 Jul 2015 16:18:33 +0100 |
| parents | 9cf91ecdc6f7 |
| children | b65888ec820e |
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## Copyright (C) 2012-2015 Max Brister ## ## 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/>. ## Author: Max Brister <max@2bass.com> ## Turn on JIT and set defaults before running tests %!testif HAVE_LLVM %! global __old_jit_enable__; %! global __old_jit_startcnt__; %! __old_jit_enable__ = jit_enable (true); %! __old_jit_startcnt__ = jit_startcnt (1000); ## Test some simple cases that compile. %!testif HAVE_LLVM %! jit_failcnt (0) %! for i=1:1e6 %! if (i < 5) %! break; %! else %! break; %! endif %! endfor %! assert (i, 1); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! while (1) %! if (1) %! break; %! else %! break; %! endif %! endwhile %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! do %! break; %! until (0) %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! do %! if (1) %! break; %! end; %! until (0) %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! i=1; %! do %! continue; %! i=i+1; %! until (1) %! assert (i, 1); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! for i=1:1e6 %! if (i == 100) %! break; %! endif %! endfor %! assert (i, 100); %! assert (jit_failcnt, 0); ## Also test parfor keyword %!testif HAVE_LLVM %! jit_failcnt (0) %! parfor i=1:1e6 %! if (i == 100) %! break; %! endif %! endparfor %! assert (i, 100); %! assert (jit_failcnt, 0); ## Test some switch statements %!testif HAVE_LLVM %! jit_failcnt (0) %! do %! switch (1) %! end; %! until(1) %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! do %! switch (1) %! case 1 %! break; %! end; %! until(1) %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! do %! switch (1) %! otherwise %! break; %! end; %! until(1) %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! do %! switch (1) %! case 1 %! break; %! otherwise %! break; %! end; %! until(1) %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! i=0; %! a=0; %! b=0; %! do %! i=i+1; %! switch (i) %! case 1 %! continue; %! case 2 %! b=1; %! continue; %! case 4 %! break; %! otherwise %! a=a+5; %! end; %! a=a+1; %! until(0); %! assert (i, 4); %! assert (a, 6); %! assert (b, 1); %! assert (jit_failcnt, 0); ## Some more complex calculations %!testif HAVE_LLVM %! jit_failcnt (0) %! inc = 1e-5; %! result = 0; %! for ii = 0:inc:1 %! result = result + inc * (1/3 * ii * ii); %! endfor %! assert (abs (result - 1/9) < 1e-5); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! inc = 1e-5; %! result = 0; %! for ii = 0:inc:1 %! ## the ^ operator's result is complex %! result = result + inc * (1/3 * ii ^ 2); %! endfor %! assert (abs (result - 1/9) < 1e-5); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! temp = 1+1i; %! nan = NaN; %! while (1) %! temp = temp - 1i; %! temp = temp * nan; %! break; %! endwhile %! assert (imag (temp), 0); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! temp = 1+1i; %! nan = NaN+1i; %! while (1) %! nan = nan - 1i; %! temp = temp - 1i; %! temp = temp * nan; %! break; %! endwhile %! assert (imag (temp), 0); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! temp = 1+1i; %! while (1) %! temp = temp * 5; %! break; %! endwhile %! assert (temp, 5+5i); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! nr = 1001; %! mat = zeros (1, nr); %! for i = 1:nr %! mat(i) = i; %! endfor %! assert (mat == 1:nr); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! nr = 1001; %! mat = 1:nr; %! mat(end) = 0; # force mat to a matrix %! total = 0; %! for i = 1:nr %! total = mat(i) + total; %! endfor %! assert (sum (mat) == total); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! nr = 1001; %! mat = [3 1 5]; %! try %! for i = 1:nr %! if (i > 500) %! result = mat(100); %! else %! result = i; %! endif %! endfor %! catch %! end_try_catch %! assert (result == 500); %! assert (jit_failcnt, 0); %!function result = gen_test (n) %! result = double (rand (1, n) > .01); %!endfunction %!function z = vectorized (A, K) %! temp = ones (1, K); %! z = conv (A, temp); %! z = z > K-1; %! z = conv (z, temp); %! z = z(K:end-K+1); %! z = z >= 1; %!endfunction %!function z = loopy (A, K) %! z = A; %! n = numel (A); %! counter = 0; %! for ii=1:n %! if (z(ii)) %! counter = counter + 1; %! else %! if (counter > 0 && counter < K) %! z(ii-counter:ii-1) = 0; %! endif %! counter = 0; %! endif %! endfor %! %! if (counter > 0 && counter < K) %! z(end-counter+1:end) = 0; %! endif %!endfunction %!testif HAVE_LLVM %! jit_failcnt (0) %! test_set = gen_test (10000); %! assert (all (vectorized (test_set, 3) == loopy (test_set, 3))); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! niter = 1001; %! i = 0; %! while (i < niter) %! i = i + 1; %! endwhile %! assert (i == niter); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! niter = 1001; %! result = 0; %! m = [5 10]; %! for i=1:niter %! result = result + m(end); %! endfor %! assert (result == m(end) * niter); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! ndim = 100; %! result = 0; %! m = zeros (ndim); %! m(:) = 1:ndim^2; %! i = 1; %! while (i <= ndim) %! for j = 1:ndim %! result = result + m(i, j); %! endfor %! i = i + 1; %! endwhile %! assert (result == sum (sum (m))); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! ndim = 100; %! m = zeros (ndim); %! i = 1; %! while (i <= ndim) %! for j = 1:ndim %! m(i, j) = (j - 1) * ndim + i; %! endfor %! i = i + 1; %! endwhile %! m2 = zeros (ndim); %! m2(:) = 1:(ndim^2); %! assert (all (m == m2)); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! ndim = 2; %! m = zeros (ndim, ndim, ndim, ndim); %! result = 0; %! i0 = 1; %! while (i0 <= ndim) %! for i1 = 1:ndim %! for i2 = 1:ndim %! for i3 = 1:ndim %! m(i0, i1, i2, i3) = 1; %! m(i0, i1, i2, i3, 1, 1, 1, 1, 1, 1) = 1; %! result = result + m(i0, i1, i2, i3); %! endfor %! endfor %! endfor %! i0 = i0 + 1; %! endwhile %! expected = ones (ndim, ndim, ndim, ndim); %! assert (all (m == expected)); %! assert (result == sum (expected (:))); %! assert (jit_failcnt, 0); %!function test_divide () %! state = warning ("query", "Octave:divide-by-zero").state; %! unwind_protect %! warning ("error", "Octave:divide-by-zero"); %! for i=1:1e5 %! a = 1; %! a / 0; %! endfor %! unwind_protect_cleanup %! warning (state, "Octave:divide-by-zero"); %! end_unwind_protect %!endfunction %!testif HAVE_LLVM %! jit_failcnt (0) %! lasterr (""); %! try %! test_divide (); %! end_try_catch %! assert (strcmp (lasterr (), "division by zero")); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! while (1) %! a = 0; %! result = a / 1; %! break; %! endwhile %! assert (result, 0); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! m = zeros (2, 1001); %! for i=1:1001 %! m(end, i) = i; %! m(end - 1, end - i + 1) = i; %! endfor %! m2 = zeros (2, 1001); %! m2(1, :) = fliplr (1:1001); %! m2(2, :) = 1:1001; %! assert (m, m2); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! m = [1 2 3]; %! for i=1:1001 %! m = sin (m); %! break; %! endfor %! assert (m == sin ([1 2 3])); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! i = 0; %! while i < 10 %! i += 1; %! endwhile %! assert (i == 10); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! i = 0; %! while i < 10 %! a = ++i; %! endwhile %! assert (i == 10); %! assert (a == 10); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! i = 0; %! while i < 10 %! a = i++; %! endwhile %! assert (i == 10); %! assert (a == 9); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! num = 2; %! a = zeros (1, num); %! i = 1; %! while i <= num %! a(i) = norm (eye (i)); %! ++i; %! endwhile %! assert (a, ones (1, num)); %! assert (jit_failcnt, 0); %!function test_compute_idom () %! while (li <= length (l1) && si <= length (s1)) %! if (l1 (li) < s1 (si)) %! if (li == si) %! break; %! endif; %! li++; %! else %! si++; %! endif; %! endwhile %!testif HAVE_LLVM %! jit_failcnt (0) %! lasterr (""); %! try %! test_compute_idom (); %! end_try_catch %! assert (! isempty (lasterr ())); %! assert (jit_failcnt, 1); %!function x = test_overload (a) %! while (1) %! x = a; %! break; %! endwhile %!endfunction %!testif HAVE_LLVM %! jit_failcnt (0) %! assert (test_overload (1), 1); %! assert (test_overload ([1 2]), [1 2]); %! assert (jit_failcnt, 0); %!function a = bubble (a = [3 2 1]) %! swapped = 1; %! n = length (a); %! while (swapped) %! swapped = 0; %! for i = 1:n-1 %! if (a(i) > a(i + 1)) %! swapped = 1; %! temp = a(i); %! a(i) = a(i + 1); %! a(i + 1) = temp; %! endif %! endfor %! endwhile %!endfunction %!testif HAVE_LLVM %! jit_failcnt (0) %! assert (bubble (), [1 2 3]); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! a = 0; %! b = 1; %! for i=1:1e3 %! for j=1:2 %! a = a + b; %! endfor %! endfor %! assert (a, 2000); %! assert (b, 1); %! assert (jit_failcnt, 0); %!xtest %! ## FIXME: No support for functions with complex input prototypes %! ## testif HAVE_LLVM %! jit_failcnt (0) %! a = [1+1i 1+2i]; %! b = 0; %! while (1) %! b = a(1); %! break; %! endwhile %! assert (b, a(1)); %! assert (jit_failcnt, 0); %!function test_undef () %! for i=1:1e7 %! XXX; %! endfor %!endfunction %!testif HAVE_LLVM %! jit_failcnt (0) %! lasterr (""); %! try %! test_undef (); %! end_try_catch %! assert (strncmp (lasterr (), "'XXX' undefined near", 20)); %! assert (jit_failcnt, 1); %!shared id %! id = @(x) x; %!xtest %! ## FIXME: No support for functions with complex input prototypes %! ## testif HAVE_LLVM %! jit_failcnt (0) %! assert (id (1), 1); %! assert (id (1+1i), 1+1i); %! assert (id (1, 2), 1); %! assert (jit_failcnt, 0); %!testif HAVE_LLVM %! jit_failcnt (0) %! lasterr (""); %! try %! id (); %! end_try_catch %! assert (strncmp (lasterr (), "'x' undefined near", 18)); %! assert (jit_failcnt, 0); ## Restore JIT settings %!testif HAVE_LLVM %! global __old_jit_enable__; %! global __old_jit_startcnt__; %! jit_enable (__old_jit_enable__); %! jit_startcnt (__old_jit_startcnt__); %! clear -g __old_jit_enable__ __old_jit_startcnt__;