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doc: Ensure documentation lists output argument when it exists for all m-files. For new users of Octave it is best to show explicit calling forms in the documentation and to show a return argument when it exists. * bp-table.cc, shift.m, accumarray.m, accumdim.m, bincoeff.m, bitcmp.m, bitget.m, bitset.m, blkdiag.m, celldisp.m, cplxpair.m, dblquad.m, flip.m, fliplr.m, flipud.m, idivide.m, int2str.m, interpft.m, logspace.m, num2str.m, polyarea.m, postpad.m, prepad.m, randi.m, repmat.m, rng.m, rot90.m, rotdim.m, structfun.m, triplequad.m, uibuttongroup.m, uicontrol.m, uipanel.m, uipushtool.m, uitoggletool.m, uitoolbar.m, waitforbuttonpress.m, help.m, __additional_help_message__.m, hsv.m, im2double.m, im2frame.m, javachk.m, usejava.m, argnames.m, char.m, formula.m, inline.m, __vectorize__.m, findstr.m, flipdim.m, strmatch.m, vectorize.m, commutation_matrix.m, cond.m, cross.m, duplication_matrix.m, expm.m, orth.m, rank.m, rref.m, trace.m, vech.m, cast.m, compare_versions.m, delete.m, dir.m, fileattrib.m, grabcode.m, gunzip.m, inputname.m, license.m, list_primes.m, ls.m, mexext.m, movefile.m, namelengthmax.m, nargoutchk.m, nthargout.m, substruct.m, swapbytes.m, ver.m, verLessThan.m, what.m, fminunc.m, fsolve.m, fzero.m, optimget.m, __fdjac__.m, matlabroot.m, savepath.m, campos.m, camroll.m, camtarget.m, camup.m, camva.m, camzoom.m, clabel.m, diffuse.m, legend.m, orient.m, rticks.m, specular.m, thetaticks.m, xlim.m, xtickangle.m, xticklabels.m, xticks.m, ylim.m, ytickangle.m, yticklabels.m, yticks.m, zlim.m, ztickangle.m, zticklabels.m, zticks.m, ellipsoid.m, isocolors.m, isonormals.m, stairs.m, surfnorm.m, __actual_axis_position__.m, __pltopt__.m, close.m, graphics_toolkit.m, pan.m, print.m, printd.m, __ghostscript__.m, __gnuplot_print__.m, __opengl_print__.m, rotate3d.m, subplot.m, zoom.m, compan.m, conv.m, poly.m, polyaffine.m, polyder.m, polyint.m, polyout.m, polyreduce.m, polyvalm.m, roots.m, prefdir.m, prefsfile.m, profexplore.m, profexport.m, profshow.m, powerset.m, unique.m, arch_rnd.m, arma_rnd.m, autoreg_matrix.m, bartlett.m, blackman.m, detrend.m, durbinlevinson.m, fftconv.m, fftfilt.m, fftshift.m, fractdiff.m, hamming.m, hanning.m, hurst.m, ifftshift.m, rectangle_lw.m, rectangle_sw.m, triangle_lw.m, sinc.m, sinetone.m, sinewave.m, spectral_adf.m, spectral_xdf.m, spencer.m, ilu.m, __sprand__.m, sprand.m, sprandn.m, sprandsym.m, treelayout.m, beta.m, betainc.m, betaincinv.m, betaln.m, cosint.m, expint.m, factorial.m, gammainc.m, gammaincinv.m, lcm.m, nthroot.m, perms.m, reallog.m, realpow.m, realsqrt.m, sinint.m, hadamard.m, hankel.m, hilb.m, invhilb.m, magic.m, pascal.m, rosser.m, toeplitz.m, vander.m, wilkinson.m, center.m, corr.m, cov.m, discrete_cdf.m, discrete_inv.m, discrete_pdf.m, discrete_rnd.m, empirical_cdf.m, empirical_inv.m, empirical_pdf.m, empirical_rnd.m, kendall.m, kurtosis.m, mad.m, mean.m, meansq.m, median.m, mode.m, moment.m, range.m, ranks.m, run_count.m, skewness.m, spearman.m, statistics.m, std.m, base2dec.m, bin2dec.m, blanks.m, cstrcat.m, deblank.m, dec2base.m, dec2bin.m, dec2hex.m, hex2dec.m, index.m, regexptranslate.m, rindex.m, strcat.m, strjust.m, strtrim.m, strtrunc.m, substr.m, untabify.m, __have_feature__.m, __prog_output_assert__.m, __run_test_suite__.m, example.m, fail.m, asctime.m, calendar.m, ctime.m, date.m, etime.m: Add return arguments to @deftypefn macros where they were missing. Rename variables in functions (particularly generic "retval") to match documentation. Rename some return variables for (hopefully) better clarity (e.g., 'ax' to 'hax' to indicate it is a graphics handle to an axes object).
author Rik <rik@octave.org>
date Wed, 30 Mar 2022 20:40:27 -0700
parents 796f54d4ddbf
children 597f3ee61a48
line wrap: on
line source

########################################################################
##
## Copyright (C) 1993-2022 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/>.
##
########################################################################

## -*- texinfo -*-
## @deftypefn  {} {@var{B} =} rot90 (@var{A})
## @deftypefnx {} {@var{B} =} rot90 (@var{A}, @var{k})
## Rotate array by 90 degree increments.
##
## Return a copy of @var{A} with the elements rotated counterclockwise in
## 90-degree increments.
##
## The second argument is optional, and specifies how many 90-degree rotations
## are to be applied (the default value is 1).  Negative values of @var{k}
## rotate the matrix in a clockwise direction.
## For example,
##
## @example
## @group
## rot90 ([1, 2; 3, 4], -1)
##     @result{}  3  1
##         4  2
## @end group
## @end example
##
## @noindent
## rotates the given matrix clockwise by 90 degrees.  The following are all
## equivalent statements:
##
## @example
## @group
## rot90 ([1, 2; 3, 4], -1)
## rot90 ([1, 2; 3, 4], 3)
## rot90 ([1, 2; 3, 4], 7)
## @end group
## @end example
##
## The rotation is always performed on the plane of the first two dimensions,
## i.e., rows and columns.  To perform a rotation on any other plane, use
## @code{rotdim}.
##
## @seealso{rotdim, fliplr, flipud, flip}
## @end deftypefn

function B = rot90 (A, k = 1)

  if (nargin < 1)
    print_usage ();
  endif

  if (! (isscalar (k) && isreal (k) && k == fix (k)))
    error ("rot90: K must be a single real integer");
  endif

  k = mod (k, 4);
  nd = ndims (A);

  if (k == 0)
    B = A;
  elseif (k == 1)
    B = flipud (permute (A, [2 1 3:1:nd]));
  elseif (k == 2)
    idx(1:nd) = {':'};
    idx{1} = rows (A):-1:1;
    idx{2} = columns (A):-1:1;
    B = A(idx{:});
  elseif (k == 3)
    B = permute (flipud (A), [2 1 3:1:nd]);
  else
    error ("rot90: internal error!");
  endif

endfunction


%!test
%! x1 = [1, 2; 3, 4];
%! x2 = [2, 4; 1, 3];
%! x3 = [4, 3; 2, 1];
%! x4 = [3, 1; 4, 2];
%!
%! assert (rot90 (x1), x2);
%! assert (rot90 (x1, 2), x3);
%! assert (rot90 (x1, 3), x4);
%! assert (rot90 (x1, 4), x1);
%! assert (rot90 (x1, 5), x2);
%! assert (rot90 (x1, -1), x4);

## Test NDArrays
%!test
%! a(1:2,1:2,1) = [1 2; 3 4];
%! a(1:2,1:2,2) = [5 6; 7 8];
%! b(1:2,1:2,1) = [2 4; 1 3];
%! b(1:2,1:2,2) = [6 8; 5 7];
%! assert (rot90 (a, 1), b);
%! assert (rot90 (a, 2), rot90 (b, 1));
%! assert (rot90 (a, 3), rot90 (b, 2));

%!test
%! a = b = zeros (2, 2, 1, 2);
%! a(1:2,1:2,:,1) = [1 2; 3 4];
%! a(1:2,1:2,:,2) = [5 6; 7 8];
%! b(1:2,1:2,:,1) = [2 4; 1 3];
%! b(1:2,1:2,:,2) = [6 8; 5 7];
%! assert (rot90 (a, 1), b);
%! assert (rot90 (a, 2), rot90 (b, 1));
%! assert (rot90 (a, 3), rot90 (b, 2));

## With non-square matrices
%!test
%! a = zeros (3, 2, 1, 2);
%! b = zeros (2, 3, 1, 2);
%! a(1:2,1:3,:,1) = [ 1  2  3;  4  5  6];
%! a(1:2,1:3,:,2) = [ 7  8  9; 10 11 12];
%! b(1:3,1:2,:,1) = [ 3  6;  2  5;  1  4];
%! b(1:3,1:2,:,2) = [ 9 12;  8 11;  7 10];
%! assert (rot90 (a, 1), b);
%! assert (rot90 (a, 2), rot90 (b, 1));
%! assert (rot90 (a, 3), rot90 (b, 2));

## Test input validation
%!error <Invalid call> rot90 ()
%!error rot90 (1, ones (2))
%!error rot90 (1, 1.5)
%!error rot90 (1, 1+i)