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/usr/share/octave/packages/signal-1.3.2/sgolayfilt.m is in octave-signal 1.3.2-5.

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## Copyright (C) 2001 Paul Kienzle <pkienzle@users.sf.net>
## Copyright (C) 2004 Pascal Dupuis <Pascal.Dupuis@esat.kuleuven.ac.be>
##
## This program 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.
##
## This program 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
## this program; if not, see <http://www.gnu.org/licenses/>.

## -*- texinfo -*-
## @deftypefn  {Function File} {@var{y} =} sgolayfilt (@var{x})
## @deftypefnx {Function File} {@var{y} =} sgolayfilt (@var{x}, @var{p})
## @deftypefnx {Function File} {@var{y} =} sgolayfilt (@var{x}, @var{p}, @var{n})
## @deftypefnx {Function File} {@var{y} =} sgolayfilt (@var{x}, @var{p}, @var{n}, @var{m})
## @deftypefnx {Function File} {@var{y} =} sgolayfilt (@var{x}, @var{p}, @var{n}, @var{m}, @var{ts})
## @deftypefnx {Function File} {@var{y} =} sgolayfilt (@var{x}, @var{p}, @var{n}, @var{m}, @var{ts})
## @deftypefnx {Function File} {@var{y} =} sgolayfilt (@var{x}, @var{f})
## Smooth the data in x with a Savitsky-Golay smoothing filter of
## polynomial order p and length n, n odd, n > p.  By default, p=3
## and n=p+2 or n=p+3 if p is even.
##
## If @var{f} is given as a matrix, it is expected to be a filter as
## computed by @code{sgolay}.
##
## These filters are particularly good at preserving lineshape while
## removing high frequency squiggles. Particularly, compare a 5 sample
## averager, an order 5 butterworth lowpass filter (cutoff 1/3) and
## sgolayfilt(x, 3, 5), the best cubic estimated from 5 points:
##
## @example
## @group
## [b, a] = butter (5, 1/3);
## x = [zeros(1,15), 10*ones(1,10), zeros(1,15)];
## plot (sgolayfilt (x), "r;sgolayfilt;", ...
##       filtfilt (ones (1,5)/5, 1, x), "g;5 sample average;", ...
##       filtfilt (b, a, x), "c;order 5 butterworth;", ...
##       x, "+b;original data;");
## @end group
## @end example
##
## @seealso{sgolay}
## @end deftypefn

## FIXME: Patch filter.cc so that it accepts matrix arguments

function y = sgolayfilt (x, p = 3, n, m = 0, ts = 1)

  if nargin < 1 || nargin > 5
    print_usage;
  endif

  if (nargin >= 3)
    F = sgolay(p, n, m, ts);
  elseif (prod(size(p)) == 1)
    n = p+3-rem(p,2);
    F = sgolay(p, n);
  else
    F = p;
    n = size(F,1);
    if (size(F,1) != size(F,2))
      error("sgolayfilt(x,F): F is not a Savitzsky-Golay filter set");
    endif
  endif

  transpose = (size(x,1) == 1);
  if (transpose) x = x.'; endif;
  len = size(x,1);
  if (len < n)
    error("sgolayfilt: insufficient data for filter");
  endif

  ## The first k rows of F are used to filter the first k points
  ## of the data set based on the first n points of the data set.
  ## The last k rows of F are used to filter the last k points
  ## of the data set based on the last n points of the dataset.
  ## The remaining data is filtered using the central row of F.
  ## As the filter coefficients are used in the reverse order of what
  ## seems the logical notation, reverse F(k+1, :) so that antisymmetric
  ## sequences are used with the right sign.

  k = floor(n/2);
  z = filter(F(k+1,n:-1:1), 1, x);
  y = [ F(1:k,:)*x(1:n,:) ; z(n:len,:) ; F(k+2:n,:)*x(len-n+1:len,:) ];

  if (transpose) y = y.'; endif

endfunction

%!demo
%! [b, a] = butter(5,1/3);
%! x=[zeros(1,15), 10*ones(1,10), zeros(1,15)];
%! subplot(121);
%! plot(sgolayfilt(x),"r;sgolay(3,5);",...
%!      filtfilt(ones(1,5)/5,1,x),"g;5 sample average;",...
%!      filtfilt(b,a,x),"c;order 5 butterworth;",...
%!      x,"+b;original data;");
%! axis([1 40 -2 15]);
%! title("boxcar");
%!
%! x=x+randn(size(x))/2;
%! subplot(122);
%! plot(sgolayfilt(x,3,5),"r;sgolay(3,5);",...
%!      filtfilt(ones(1,5)/5,1,x),"g;5 sample average;",...
%!      filtfilt(b,a,x),"c;order 5 butterworth;",...
%!      x,"+b;original data;");
%! axis([1 40 -2 15]);
%! title("boxcar+noise");

%!demo
%! [b, a] = butter(5,1/3);
%! t = 0:0.01:1.0;                         % 1 second sample
%! x=cos(2*pi*t*3);                        % 3 Hz sinusoid
%! subplot(121);
%! plot(t,sgolayfilt(x,3,5),"r;sgolay(3,5);",...
%!      t,filtfilt(ones(1,5)/5,1,x),"g;5 sample average;",...
%!      t,filtfilt(b,a,x),"c;order 5 butterworth;",...
%!      t,x,"+b;original data;");
%! axis([0 1 -1.5 2.5]);
%! title("sinusoid");
%!
%! x=x+0.2*randn(size(x));                % signal+noise
%! subplot(122);
%! plot(t,sgolayfilt(x',3,5),"r;sgolay(3,5);",...
%!      t,filtfilt(ones(1,5)/5,1,x),"g;5 sample average;",...
%!      t,filtfilt(b,a,x),"c;order 5 butterworth;",...
%!      t,x,"+b;original data;");
%! axis([0 1 -1.5 2.5]);
%! title("sinusoid+noise");