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## Copyright (C) 2002 David Bateman
##
## 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} =} awgn (@var{x}, @var{snr})
## @deftypefnx {Function File} {@var{y} =} awgn (@var{x}, @var{snr}, @var{pwr})
## @deftypefnx {Function File} {@var{y} =} awgn (@var{x}, @var{snr}, @var{pwr}, @var{seed})
## @deftypefnx {Function File} {@var{y} =} awgn (@dots{}, @var{type})
##
## Add white Gaussian noise to a voltage signal.
##
## The input @var{x} is assumed to be a real or complex voltage signal. The
## returned value @var{y} will be the same form and size as @var{x} but with
## Gaussian noise added. Unless the power is specified in @var{pwr}, the
## signal power is assumed to be 0dBW, and the noise of @var{snr} dB will be
## added with respect to this. If @var{pwr} is a numeric value then the signal
## @var{x} is assumed to be @var{pwr} dBW, otherwise if @var{pwr} is
## "measured", then the power in the signal will be measured and the noise
## added relative to this measured power.
##
## If @var{seed} is specified, then the random number generator seed is
## initialized with this value
##
## By default the @var{snr} and @var{pwr} are assumed to be in dB and dBW
## respectively. This default behavior can be chosen with @var{type}
## set to "dB". In the case where @var{type} is set to "linear", @var{pwr}
## is assumed to be in Watts and @var{snr} is a ratio.
## @seealso{randn, wgn}
## @end deftypefn

function y = awgn (x, snr, varargin)

  if (nargin < 2 || nargin > 5)
    print_usage ();
  endif

  [m, n] = size (x);
  if (isreal (x))
    out = "real";
  else
    out = "complex";
  endif

  p = 0;
  seed = [];
  type = "dB";
  meas = 0;
  narg = 0;

  for i = 1:length (varargin)
    arg = varargin{i};
    if (ischar (arg))
      if (strcmp (arg, "measured"))
        meas = 1;
      elseif (strcmp (arg, "dB"))
        type = "dB";
      elseif (strcmp (arg, "linear"))
        type = "linear";
      else
        error ("awgn: invalid argument '%s'", arg);
      endif
    else
      narg++;
      switch (narg)
        case 1
          p = arg;
        case 2
          seed = arg;
        otherwise
          error ("awgn: too many arguments");
      endswitch
    endif
  endfor

  if (isempty (p))
    p = 0;
  endif

  if (!isempty (seed))
    if (! (isscalar (seed) && isreal (seed) && seed >= 0 && seed == fix (seed)))
      error ("awgn: random SEED must be an integer");
    endif
  endif

  if (!isscalar (p) || !isreal (p))
    error ("awgn: PWR must be a scalar");
  endif
  if (strcmp (type, "linear") && p < 0)
    error ("awgn: PWR must be a non-negative scalar for TYPE \"linear\"");
  endif

  if (!isscalar (snr) || !isreal (snr))
    error ("awgn: SNR must be a scalar");
  endif
  if (strcmp (type, "linear") && snr < 0)
    error ("awgn: SNR must be a non-negative scalar for TYPE \"linear\"");
  endif

  if (!isempty (seed))
    randn ("state", seed);
  endif

  if (meas == 1)
    p = sum (abs (x(:)) .^ 2) / length (x(:));
    if (strcmp (type, "dB"))
      p = 10 * log10 (p);
    endif
  endif

  if (strcmp (type, "linear"))
    np = p / snr;
  else
    np = p - snr;
  endif

  y = x + wgn (m, n, np, 1, seed, type, out);

endfunction

%!shared x, y, noisy
%!       x = [0:0.01:2*pi]; y = sin (x);
%!       noisy = awgn (y, 20, "dB", "measured");

## Test of noisy is pretty arbitrary, but should pickup most errors
%!assert (isreal (noisy));
%!assert (iscomplex (awgn (y + 1i, 20, "dB", "measured")));
%!assert (size (y) == size (noisy))
%!assert (abs (10*log10 (mean (y.^2)/mean ((y-noisy).^ 2)) - 20) < 1);

%% Test input validation
%!error awgn ();
%!error awgn (1);
%!error awgn (1, 1, 1, 1, 1);