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## Copyright (C) 2001 Paulo Neis <p_neis@yahoo.com.br>
## Copyright (C) 2003 Doug Stewart <dastew@sympatico.ca>
##
## 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{b}, @var{a}] =} ellip (@var{n}, @var{rp}, @var{rs}, @var{wp})
## @deftypefnx {Function File} {[@var{b}, @var{a}] =} ellip (@var{n}, @var{rp}, @var{rs}, @var{wp}, "high")
## @deftypefnx {Function File} {[@var{b}, @var{a}] =} ellip (@var{n}, @var{rp}, @var{rs}, @var{[wl}, @var{wh}])
## @deftypefnx {Function File} {[@var{b}, @var{a}] =} ellip (@var{n}, @var{rp}, @var{rs}, @var{[wl}, @var{wh}], "stop")
## @deftypefnx {Function File} {[@var{z}, @var{p}, @var{g}] =} ellip (@dots{})
## @deftypefnx {Function File} {[@var{a}, @var{b}, @var{c}, @var{d}] =} ellip (@dots{})
## @deftypefnx {Function File} {[@dots{}] =} ellip (@dots{}, "s")
##
## Generate an elliptic or Cauer filter with @var{rp} dB of passband ripple and
## @var{rs} dB of stopband attenuation.
##
## [b,a] = ellip(n, Rp, Rs, Wp)
##  low pass filter with order n, cutoff pi*Wp radians, Rp decibels
##  of ripple in the passband and a stopband Rs decibels down.
##
## [b,a] = ellip(n, Rp, Rs, Wp, 'high')
##  high pass filter with cutoff pi*Wp...
##
## [b,a] = ellip(n, Rp, Rs, [Wl, Wh])
##  band pass filter with band pass edges pi*Wl and pi*Wh ...
##
## [b,a] = ellip(n, Rp, Rs, [Wl, Wh], 'stop')
##  band reject filter with edges pi*Wl and pi*Wh, ...
##
## [z,p,g] = ellip(...)
##  return filter as zero-pole-gain.
##
## [...] = ellip(...,'s')
##     return a Laplace space filter, W can be larger than 1.
##
## [a,b,c,d] = ellip(...)
##  return  state-space matrices
##
## References:
##
## - Oppenheim, Alan V., Discrete Time Signal Processing, Hardcover, 1999.
## - Parente Ribeiro, E., Notas de aula da disciplina TE498 -  Processamento
##   Digital de Sinais, UFPR, 2001/2002.
## - Kienzle, Paul, functions from Octave-Forge, 1999 (http://octave.sf.net).
## @end deftypefn

function [a, b, c, d] = ellip (n, rp, rs, w, varargin)

  if (nargin > 6 || nargin < 4 || nargout > 4 || nargout < 2)
    print_usage ();
  endif

  ## interpret the input parameters
  if (! (isscalar (n) && (n == fix (n)) && (n > 0)))
    error ("ellip: filter order N must be a positive integer");
  endif

  stop = false;
  digital = true;
  for i = 1:numel (varargin)
    switch (varargin{i})
      case "s"
        digital = false;
      case "z"
        digital = true;
      case {"high", "stop"}
        stop = true;
      case {"low", "pass"}
        stop = false;
      otherwise
        error ("ellip: expected [high|stop] or [s|z]");
    endswitch
  endfor

  if (! ((numel (w) <= 2) && (rows (w) == 1 || columns (w) == 1)))
    error ("ellip: frequency must be given as WC or [WL, WH]");
  elseif ((numel (w) == 2) && (w(2) <= w(1)))
    error ("ellip: W(1) must be less than W(2)");
  endif

  if (digital && ! all ((w >= 0) & (w <= 1)))
    error ("ellip: all elements of W must be in the range [0,1]");
  elseif (! digital && ! all (w >= 0))
    error ("ellip: all elements of W must be in the range [0,inf]");
  endif

  if (! (isscalar (rp) && isnumeric (rp) && (rp >= 0)))
    error ("ellip: passband ripple RP must be a non-negative scalar");
  endif

  if (! (isscalar (rs) && isnumeric (rs) && (rs >= 0)))
    error ("ellip: stopband attenuation RS must be a non-negative scalar");
  endif


  ## Prewarp the digital frequencies
  if (digital)
    T = 2;       # sampling frequency of 2 Hz
    w = 2 / T * tan (pi * w / T);
  endif

  ## Generate s-plane poles, zeros and gain
  [zero, pole, gain] = ncauer (rp, rs, n);

  ## splane frequency transform
  [zero, pole, gain] = sftrans (zero, pole, gain, w, stop);

  ## Use bilinear transform to convert poles to the z plane
  if (digital)
    [zero, pole, gain] = bilinear (zero, pole, gain, T);
  endif

  ## convert to the correct output form
  if (nargout == 2)
    a = real (gain * poly (zero));
    b = real (poly (pole));
  elseif (nargout == 3)
    a = zero;
    b = pole;
    c = gain;
  else
    ## output ss results
    [a, b, c, d] = zp2ss (zero, pole, gain);
  endif

endfunction

%!demo
%! [n, Ws] = ellipord ([.1 .2], [.01 .4], 1, 90);
%! [b, a] = ellip (5, 1, 90, [.1 .2]);
%! [h, w] = freqz (b, a);
%!
%! plot (w./pi, 20*log10 (abs (h)), ";;")
%! xlabel ("Frequency");
%! ylabel ("abs(H[w])[dB]");
%! axis ([0, 1, -100, 0]);
%!
%! hold ("on");
%! x=ones (1, length (h));
%! plot (w./pi, x.*-1, ";-1 dB;")
%! plot (w./pi, x.*-90, ";-90 dB;")
%! hold ("off");

%% Test input validation
%!error [a, b] = ellip ()
%!error [a, b] = ellip (1)
%!error [a, b] = ellip (1, 2)
%!error [a, b] = ellip (1, 2, 3)
%!error [a, b] = ellip (1, 2, 3, 4, 5, 6, 7)
%!error [a, b] = ellip (.5, 2, 40, .2)
%!error [a, b] = ellip (3, 2, 40, .2, "invalid")