Mercurial > octave
view test/sparse-assign.tst @ 30896:c9788d7f6e65
maint: Use "fcn" as preferred abbreviation for "function" in libinterp/.
* __eigs__.cc, bsxfun.cc, cellfun.cc, daspk.cc, dasrt.cc, dassl.cc, data.cc,
debug.cc, error.cc, graphics.cc, graphics.in.h, gzfstream.h, ls-hdf5.cc,
lsode.cc, max.cc, oct-opengl.h, quad.cc, strfns.cc, utils.cc, utils.h,
variables.cc, __ode15__.cc, gzip.cc, cdef-manager.cc, ov-fcn-handle.cc,
ov-java.cc, ov-usr-fcn.cc, bp-table.cc, bp-table.h, lex.h, lex.ll,
oct-parse.yy, pt-eval.cc:
Replace "func", "fun", "fn" in documentation and variable names with "fcn".
author | Rik <rik@octave.org> |
---|---|
date | Tue, 05 Apr 2022 08:33:58 -0700 |
parents | 796f54d4ddbf |
children | 597f3ee61a48 |
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######################################################################## ## ## Copyright (C) 2021-2022 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/>. ## ######################################################################## ## FIXME: will also need tests for if assignment of integer values ## once that is implemented. The pattern can be the same. %!shared lr, lc, rr, rc, si, sj, mi, mj, sm_lhs, csm_lhs, s, m, sm, cs, cm, csm %! lr = 6; %! lc = 8; %! rr = 2; %! rc = 3; %! si = 2; %! sj = 3; %! mi = (1:rr)+2; %! mj = (1:rc)+3; %! sm_lhs = sprand (lr, lc, 0.1); %! csm_lhs = sm_lhs + 1i * sprand (lr, lc, 0.1); %! s = rand (); %! m = rand (rr, rc); %! sm = sprand (rr, rc, 0.1); %! cs = s + 1i * rand (); %! cm = m + 1i * rand (rr, rc); %! csm = cm + 1i * sprand (rr, rc, 0.1); %% Indexed assignment of double scalar, sparse with a single element, %% complex scalar, and sparse complex with a single element to sparse matrix. %!test %! lhs = sm_lhs; %! rhs = s; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = sm_lhs; %! rhs = sparse (s); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = sm_lhs; %! rhs = cs; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = sm_lhs; %! rhs = sparse (cs); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %% Indexed assignment of double scalar, sparse with a single element, %% complex scalar, and sparse complex with a single element to complex %% sparse matrix. %!test %! lhs = csm_lhs; %! rhs = s; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = csm_lhs; %! rhs = sparse (s); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = csm_lhs; %! rhs = cs; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = csm_lhs; %! rhs = sparse (cs); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %% Indexed assignment of matrix, sparse matrix, complex matrix, %% and complex sparse matrix to sparse matrix. %!test %! lhs = sm_lhs; %! rhs = m; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = sm_lhs; %! rhs = sm; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = sm_lhs; %! rhs = cm; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = sm_lhs; %! rhs = csm; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %% Indexed assignment of matrix, sparse matrix, complex matrix, %% and complex sparse matrix to complex sparse matrix. %!test %! lhs = csm_lhs; %! rhs = m; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = csm_lhs; %! rhs = sm; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = csm_lhs; %! rhs = cm; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = csm_lhs; %! rhs = csm; %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %% Indexed assignment of float scalar, float complex scalar, float matrix, %% and float complex matrix to sparse matrix. %!test %! lhs = sm_lhs; %! rhs = single (s); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = sm_lhs; %! rhs = single (cs); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = sm_lhs; %! rhs = single (m); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = sm_lhs; %! rhs = single (cm); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %% Indexed assignment of float scalar, float complex scalar, float matrix, %% and float complex matrix to complex sparse matrix. %!test %! lhs = csm_lhs; %! rhs = single (s); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = csm_lhs; %! rhs = single (cs); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(si,sj) = rhs; %! flhs(si,sj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = csm_lhs; %! rhs = single (m); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs)); %!test %! lhs = csm_lhs; %! rhs = single (cm); %! flhs = full (lhs); %! frhs = full (rhs); %! lhs(mi,mj) = rhs; %! flhs(mi,mj) = frhs; %! assert (issparse (lhs)); %! assert (full (lhs), flhs); %! assert (iscomplex (lhs), iscomplex (lhs) || iscomplex (rhs));