Use Octave coding conventions in all m-file %!test blocks * wavread.m, acosd.m, acot.m, acotd.m, acoth.m, acsc.m, acscd.m, acsch.m, asec.m, asecd.m, asech.m, asind.m, atand.m, cosd.m, cot.m, cotd.m, coth.m, csc.m, cscd.m, csch.m, sec.m, secd.m, sech.m, sind.m, tand.m, accumarray.m, accumdim.m, bitcmp.m, bitget.m, bitset.m, blkdiag.m, cart2pol.m, cart2sph.m, celldisp.m, chop.m, circshift.m, colon.m, common_size.m, cplxpair.m, cumtrapz.m, curl.m, dblquad.m, deal.m, divergence.m, flipdim.m, fliplr.m, flipud.m, genvarname.m, gradient.m, idivide.m, int2str.m, interp1.m, interp1q.m, interp2.m, interp3.m, interpft.m, interpn.m, isa.m, isdir.m, isequal.m, isequalwithequalnans.m, issquare.m, logspace.m, nargchk.m, narginchk.m, nargoutchk.m, nextpow2.m, nthargout.m, num2str.m, pol2cart.m, polyarea.m, postpad.m, prepad.m, profile.m, profshow.m, quadgk.m, quadv.m, randi.m, rat.m, repmat.m, rot90.m, rotdim.m, shift.m, shiftdim.m, sph2cart.m, structfun.m, trapz.m, triplequad.m, convhull.m, dsearch.m, dsearchn.m, griddata3.m, griddatan.m, rectint.m, tsearchn.m, __makeinfo__.m, doc.m, get_first_help_sentence.m, help.m, type.m, unimplemented.m, which.m, imread.m, imwrite.m, dlmwrite.m, fileread.m, is_valid_file_id.m, strread.m, textread.m, textscan.m, commutation_matrix.m, cond.m, condest.m, cross.m, duplication_matrix.m, expm.m, housh.m, isdefinite.m, ishermitian.m, issymmetric.m, logm.m, normest.m, null.m, onenormest.m, orth.m, planerot.m, qzhess.m, rank.m, rref.m, trace.m, vech.m, ans.m, bincoeff.m, bug_report.m, bzip2.m, comma.m, compare_versions.m, computer.m, edit.m, fileparts.m, fullfile.m, getfield.m, gzip.m, info.m, inputname.m, isappdata.m, isdeployed.m, ismac.m, ispc.m, isunix.m, list_primes.m, ls.m, mexext.m, namelengthmax.m, news.m, orderfields.m, paren.m, recycle.m, rmappdata.m, semicolon.m, setappdata.m, setfield.m, substruct.m, symvar.m, ver.m, version.m, warning_ids.m, xor.m, fminbnd.m, fsolve.m, fzero.m, lsqnonneg.m, optimset.m, pqpnonneg.m, sqp.m, matlabroot.m, __gnuplot_drawnow__.m, __plt_get_axis_arg__.m, ancestor.m, cla.m, clf.m, close.m, colorbar.m, colstyle.m, comet3.m, contourc.m, figure.m, gca.m, gcbf.m, gcbo.m, gcf.m, ginput.m, graphics_toolkit.m, gtext.m, hggroup.m, hist.m, hold.m, isfigure.m, ishghandle.m, ishold.m, isocolors.m, isonormals.m, isosurface.m, isprop.m, legend.m, line.m, loglog.m, loglogerr.m, meshgrid.m, ndgrid.m, newplot.m, orient.m, patch.m, plot3.m, plotyy.m, __print_parse_opts__.m, quiver3.m, refreshdata.m, ribbon.m, semilogx.m, semilogxerr.m, semilogy.m, stem.m, stem3.m, subplot.m, title.m, uigetfile.m, view.m, whitebg.m, compan.m, conv.m, deconv.m, mkpp.m, mpoles.m, pchip.m, poly.m, polyaffine.m, polyder.m, polyfit.m, polygcd.m, polyint.m, polyout.m, polyval.m, polyvalm.m, ppder.m, ppint.m, ppjumps.m, ppval.m, residue.m, roots.m, spline.m, intersect.m, ismember.m, powerset.m, setdiff.m, setxor.m, union.m, unique.m, autoreg_matrix.m, bartlett.m, blackman.m, detrend.m, fftconv.m, fftfilt.m, fftshift.m, freqz.m, hamming.m, hanning.m, ifftshift.m, sinc.m, sinetone.m, sinewave.m, unwrap.m, bicg.m, bicgstab.m, gmres.m, gplot.m, nonzeros.m, pcg.m, pcr.m, spaugment.m, spconvert.m, spdiags.m, speye.m, spfun.m, spones.m, sprand.m, sprandsym.m, spstats.m, spy.m, svds.m, treelayout.m, bessel.m, beta.m, betaln.m, factor.m, factorial.m, isprime.m, lcm.m, legendre.m, nchoosek.m, nthroot.m, perms.m, pow2.m, primes.m, reallog.m, realpow.m, realsqrt.m, hadamard.m, hankel.m, hilb.m, invhilb.m, magic.m, rosser.m, vander.m, __finish__.m, center.m, cloglog.m, corr.m, cov.m, gls.m, histc.m, iqr.m, kendall.m, kurtosis.m, logit.m, mahalanobis.m, mean.m, meansq.m, median.m, mode.m, moment.m, ols.m, ppplot.m, prctile.m, probit.m, quantile.m, range.m, ranks.m, run_count.m, runlength.m, skewness.m, spearman.m, statistics.m, std.m, table.m, var.m, zscore.m, betacdf.m, betainv.m, betapdf.m, betarnd.m, binocdf.m, binoinv.m, binopdf.m, binornd.m, cauchy_cdf.m, cauchy_inv.m, cauchy_pdf.m, cauchy_rnd.m, chi2cdf.m, chi2inv.m, chi2pdf.m, chi2rnd.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, expcdf.m, expinv.m, exppdf.m, exprnd.m, fcdf.m, finv.m, fpdf.m, frnd.m, gamcdf.m, gaminv.m, gampdf.m, gamrnd.m, geocdf.m, geoinv.m, geopdf.m, geornd.m, hygecdf.m, hygeinv.m, hygepdf.m, hygernd.m, kolmogorov_smirnov_cdf.m, laplace_cdf.m, laplace_inv.m, laplace_pdf.m, laplace_rnd.m, logistic_cdf.m, logistic_inv.m, logistic_pdf.m, logistic_rnd.m, logncdf.m, logninv.m, lognpdf.m, lognrnd.m, nbincdf.m, nbininv.m, nbinpdf.m, nbinrnd.m, normcdf.m, norminv.m, normpdf.m, normrnd.m, poisscdf.m, poissinv.m, poisspdf.m, poissrnd.m, stdnormal_cdf.m, stdnormal_inv.m, stdnormal_pdf.m, stdnormal_rnd.m, tcdf.m, tinv.m, tpdf.m, trnd.m, unidcdf.m, unidinv.m, unidpdf.m, unidrnd.m, unifcdf.m, unifinv.m, unifpdf.m, unifrnd.m, wblcdf.m, wblinv.m, wblpdf.m, wblrnd.m, kolmogorov_smirnov_test.m, kruskal_wallis_test.m, base2dec.m, bin2dec.m, blanks.m, cstrcat.m, deblank.m, dec2base.m, dec2bin.m, dec2hex.m, findstr.m, hex2dec.m, index.m, isletter.m, mat2str.m, rindex.m, str2num.m, strcat.m, strjust.m, strmatch.m, strsplit.m, strtok.m, strtrim.m, strtrunc.m, substr.m, validatestring.m, demo.m, example.m, fail.m, speed.m, addtodate.m, asctime.m, clock.m, ctime.m, date.m, datenum.m, datetick.m, datevec.m, eomday.m, etime.m, is_leap_year.m, now.m: Use Octave coding conventions in all m-file %!test blocks

## Copyright (C) 1994-2012 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/>.

## -*- texinfo -*-
## @deftypefn  {Function File} {@var{y} =} polyval (@var{p}, @var{x})
## @deftypefnx {Function File} {@var{y} =} polyval (@var{p}, @var{x}, [], @var{mu})
## Evaluate the polynomial @var{p} at the specified values of @var{x}.  When
## @var{mu} is present, evaluate the polynomial for
## (@var{x}-@var{mu}(1))/@var{mu}(2).
## If @var{x} is a vector or matrix, the polynomial is evaluated for each of
## the elements of @var{x}.
## 
## @deftypefnx {Function File} {[@var{y}, @var{dy}] =} polyval (@var{p}, @var{x}, @var{s})
## @deftypefnx {Function File} {[@var{y}, @var{dy}] =} polyval (@var{p}, @var{x}, @var{s}, @var{mu})
## In addition to evaluating the polynomial, the second output
## represents the prediction interval, @var{y} +/- @var{dy}, which
## contains at least 50% of the future predictions.  To calculate the
## prediction interval, the structured variable @var{s}, originating
## from @code{polyfit}, must be supplied.
## @seealso{polyvalm, polyaffine, polyfit, roots, poly}
## @end deftypefn

## Author: Tony Richardson <arichard@stark.cc.oh.us>
## Created: June 1994
## Adapted-By: jwe

function [y, dy] = polyval (p, x, s = [], mu)

  if (nargin < 2 || nargin > 4 || (nargout == 2 && nargin < 3))
    print_usage ();
  endif

  if (isempty (x))
    y = [];
    return;
  elseif (isempty (p))
    y = zeros (size (x));
    return;
  elseif (! isvector (p))
    error ("polyval: first argument must be a vector");
  endif

  if (nargin > 3)
    x = (x - mu(1)) / mu(2);
  endif

  n = length (p) - 1;
  y = p(1) * ones (size (x));
  for i = 2:n+1
    y = y .* x + p(i);
  endfor

  if (nargout == 2)
    ## Note: the F-Distribution is generally considered to be single-sided.
    ## http://www.itl.nist.gov/div898/handbook/eda/section3/eda3673.htm
    ##   t = finv (1-alpha, s.df, s.df);
    ##   dy = t * sqrt (1 + sumsq (A/s.R, 2)) * s.normr / sqrt (s.df)
    ## If my inference is correct, then t must equal 1 for polyval.
    ## This is because finv (0.5, n, n) = 1.0 for any n.
    try
      k = numel (x);
      A = (x(:) * ones (1, n+1)) .^ (ones (k, 1) * (n:-1:0));
      dy = sqrt (1 + sumsq (A/s.R, 2)) * s.normr / sqrt (s.df);
      dy = reshape (dy, size (x));
    catch
      if (isempty (s))
        error ("polyval: third input is required.")
      elseif (isstruct (s)
              && all (ismember ({"R", "normr", "df"}, fieldnames (s))))
        error (lasterr ())
      elseif (isstruct (s))
        error ("polyval: third input is missing the required fields.");
      else
        error ("polyval: third input is not a structure.");
      endif
    end_try_catch
  endif

endfunction


%!fail ("polyval ([1,0;0,1],0:10)")

%!test
%! r = 0:10:50;
%! p = poly (r);
%! p = p / max (abs (p));
%! x = linspace (0,50,11);
%! y = polyval (p,x) + 0.25*sin (100*x);
%! [pf, s] = polyfit (x, y, numel (r));
%! [y1, delta] = polyval (pf, x, s);
%! expected = [0.37235, 0.35854, 0.32231, 0.32448, 0.31328, ...
%!    0.32036, 0.31328, 0.32448, 0.32231, 0.35854, 0.37235];
%! assert (delta, expected, 0.00001);

%!test
%! x = 10 + (-2:2);
%! y = [0, 0, 1, 0, 2];
%! p = polyfit (x, y, numel (x) - 1);
%! [pn, s, mu] = polyfit (x, y, numel (x) - 1);
%! y1 = polyval (p, x);
%! yn = polyval (pn, x, [], mu);
%! assert (y1, y, sqrt (eps));
%! assert (yn, y, sqrt (eps));

%!test
%! p = [0, 1, 0];
%! x = 1:10;
%! assert (x, polyval (p,x), eps);
%! x = x(:);
%! assert (x, polyval (p,x), eps);
%! x = reshape(x, [2, 5]);
%! assert (x, polyval (p,x), eps);
%! x = reshape(x, [5, 2]);
%! assert (x, polyval (p,x), eps);
%! x = reshape (x, [1, 1, 5, 2]);
%! assert (x, polyval (p,x), eps);

%!test
%! p = [1];
%! x = 1:10;
%! y = ones (size (x));
%! assert (y, polyval (p,x), eps);
%! x = x(:);
%! y = ones (size (x));
%! assert (y, polyval (p,x), eps);
%! x = reshape (x, [2, 5]);
%! y = ones (size (x));
%! assert (y, polyval (p,x), eps);
%! x = reshape (x, [5, 2]);
%! y = ones (size (x));
%! assert (y, polyval (p,x), eps);
%! x = reshape (x, [1, 1, 5, 2]);

%!assert (zeros (1, 10), polyval ([], 1:10))
%!assert ([], polyval (1, []))
%!assert ([], polyval ([], []))