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author Daniele Nicolodi <nicolodi@science.unitn.it>
date Mon, 05 Dec 2011 16:20:06 +0100
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% TEST_PEST_EVAL tests the eval method of the PEST class.
%
% M Hueller 02-03-10
%
% $Id: test_pest_eval.m,v 1.3 2010/03/19 11:13:17 mauro Exp $
%
function results = test_pest_eval(varargin)
  
  %% List of runs
  if nargin == 1
    list = varargin{1};
    if isa(list, 'cell')
      list = list{:};
    end
  else
    list = [];
  end
  
  if isempty(list)
    list = [10:17 20:27 30:37 40:47 60:67 80:87];
  end
  
  %% Prepare test data
  nsecs = 100;
  fs    = 10;
  
  unit_list = unit.supportedUnits;
  u1 = unit(cell2mat(utils.math.randelement(unit_list,1)));
  u2 = unit(cell2mat(utils.math.randelement(unit_list,1)));
  u3 = unit(cell2mat(utils.math.randelement(unit_list,1)));
  u4 = unit(cell2mat(utils.math.randelement(unit_list,1)));
  
  pl1 = plist('nsecs', nsecs, 'fs', fs, ...
    'tsfcn', 'polyval([10 1], t) + randn(size(t))', ...
    'xunits', 's', 'yunits', u1);
  
  pl2 = plist('nsecs', nsecs, 'fs', fs, ...
    'tsfcn', 'polyval([-5 0.2], t) + randn(size(t))', ...
    'xunits', 's', 'yunits', u2);
  
  t1 = [0:5:200]';
  f1 = [1e-3:1e-3:0.1];
  z1 = [1e-2:1e-2:1];
  
  T1 = ao(t1, randn(size(t1)), plist('type', 'tsdata'));T1c = ao(t1);
  F1 = ao(f1, randn(size(f1)), plist('type', 'fsdata'));F1c = ao(f1);
  Z1 = ao(z1, randn(size(z1)), plist('type', 'xydata'));Z1c = ao(z1);
  
  a1  = ao(pl1);
  a2  = ao(pl2);
  a2b = ao(pl2);
  a3  = ao(plist('yvals', 2, 'yunits', u4))*a2 + ao(plist('yvals', -3, 'yunits', u4))*a2b;
  
  % Prepare some pest objects: single x
  p_1 = linfit(a1, plist());
  p_2 = linfit(a1, a2, plist());
  
  p_t = pest(plist('paramnames', {'a0','a1','a2'}, 'y', [1 2 3], ...
    'cov', [0.1 0.001 -0.001;0.001 0.1 -0.002;-0.001 -0.002 0.1;], ...
    'dy', sqrt([0.1 0.1 0.1]), ...
    'yunits', {u3, u3/unit('s') u3/unit('s^2')}, ...
    'models', smodel(plist('expression', 'a1.*t + a2.*t.^2 + a0', 'xvar', 't', 'yunits', u3, 'xunits', 'ms'))) ...
    );
  
  p_f = pest(plist('paramnames', {'a0','a1','a2'}, 'y', [1 2 3], ...
    'cov', [0.1 0.001 -0.001;0.001 0.1 -0.002;-0.001 -0.002 0.1;], ...
    'dy', sqrt([0.1 0.1 0.1]), ...
    'yunits', {u3, u3/unit('Hz') u3/unit('Hz^2')}, ...
    'models', smodel(plist('expression', 'a1.*f + a2.*f.^2 + a0', 'xvar', 'f', 'yunits', u3, 'xunits', 'kHz'))) ...
    );
  
  p_w = pest(plist('paramnames', {'a0','a1','a2'}, 'y', [1 2 3], ...
    'cov', [0.1 0.001 -0.001;0.001 0.1 -0.002;-0.001 -0.002 0.1;], ...
    'dy', sqrt([0.1 0.1 0.1]), ...
    'yunits', {u3, u3/unit('Hz') u3/unit('Hz^2')}, ...
    'models', smodel(plist('expression', 'a1.*w + a2.*w.^2 + a0', 'xvar', 'w', 'yunits', u3, 'xunits', 'MHz'))) ...
    );
  
  p_z = pest(plist('paramnames', {'a0','a1','a2'}, 'y', [1 2 3], ...
    'cov', [0.1 0.001 -0.001;0.001 0.1 -0.002;-0.001 -0.002 0.1;], ...
    'dy', sqrt([0.1 0.1 0.1]), ...
    'yunits', {u3, u3/unit('') u3/unit('')}, ...
    'models', smodel(plist('expression', 'a1.*z + a2.*z.^2 + a0', 'xvar', 'z', 'yunits', u3))) ...
    );
  
  % Prepare some pest objects: multiple x
  p_3 = bilinfit(a2, a2b, a3);
  
  p_tt = pest(plist('paramnames', {'a0','a1','a2'}, 'y', [1 2 3], ...
    'cov', [0.1 0.001 -0.001;0.001 0.1 -0.002;-0.001 -0.002 0.1;], ...
    'dy', sqrt([0.1 0.1 0.1]), ...
    'yunits', {u3, u3/unit('s') u3/unit('s^2')}, ...
    'models', smodel(plist('expression', 'a1.*t1 + a2.*t2.^2 + a0', 'xvar', {'t1', 't2'}, 'yunits', u3, 'xunits', {'ms', 'ms'}))) ...
    );
  
  p_ff = pest(plist('paramnames', {'a0','a1','a2'}, 'y', [1 2 3], ...
    'cov', [0.1 0.001 -0.001;0.001 0.1 -0.002;-0.001 -0.002 0.1;], ...
    'dy', sqrt([0.1 0.1 0.1]), ...
    'yunits', {u3, u3/unit('Hz') u3/unit('Hz^2')}, ...
    'models', smodel(plist('expression', 'a1.*f1 + a2.*f2.^2 + a0', 'xvar', {'f1', 'f2'}, 'yunits', u3, 'xunits', {'kHz', 'kHz'}))) ...
    );
  
  p_ww = pest(plist('paramnames', {'a0','a1','a2'}, 'y', [1 2 3], ...
    'cov', [0.1 0.001 -0.001;0.001 0.1 -0.002;-0.001 -0.002 0.1;], ...
    'dy', sqrt([0.1 0.1 0.1]), ...
    'yunits', {u3, u3/unit('Hz') u3/unit('Hz^2')}, ...
    'models', smodel(plist('expression', 'a1.*w1 + a2.*w2.^2 + a0', 'xvar', {'w1', 'w2'}, 'yunits', u3, 'xunits', {'MHz', 'MHz'}))) ...
    );
  
  p_zz = pest(plist('paramnames', {'a0','a1','a2'}, 'y', [1 2 3], ...
    'cov', [0.1 0.001 -0.001;0.001 0.1 -0.002;-0.001 -0.002 0.1;], ...
    'dy', sqrt([0.1 0.1 0.1]), ...
    'yunits', {u3, u3/unit('') u3/unit('')}, ...
    'models', smodel(plist('expression', 'a1.*z1 + a2.*z2.^2 + a0', 'xvar', {'z1', 'z2'}, 'yunits', u3))) ...
    );
  
  %% Run tests
  results = [];
  
  %% 10) Single Xdata in plist, double, Xvar = x
  test = 10;
  if any(ismember(list, test))
    o = p_1.eval(plist(...
      'Xdata', t1, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', t1, 'xunits', a1.xunits, 'yunits', a1.yunits, 'dy', true))];
  end
  
  %% 11) Single Xdata in plist, double, Xvar = t
  test = 11;
  if any(ismember(list, test))
    o = p_t.eval(plist(...
      'Xdata', t1, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'tsdata', 'x', t1, 'xunits', p_t.models.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 12) Single Xdata in plist, double, Xvar = f
  test = 12;
  if any(ismember(list, test))
    o = p_f.eval(plist(...
      'Xdata', f1, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', f1, 'xunits', p_f.models.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 13) Single Xdata in plist, double, Xvar = w
  test = 13;
  if any(ismember(list, test))
    o = p_w.eval(plist(...
      'Xdata', f1, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', f1, 'xunits', p_w.models.xunits, 'yunits', u3, 'dy', true))];
  end
  %% 14) Single Xdata in plist, double, Xvar = z, specify data type  
  test = 14;  
  if any(ismember(list, test))
    type = 'tsdata';
    o = p_z.eval(plist(...
      'Xdata', t1, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', t1, 'xunits', 's', 'yunits', u3, 'dy', true))];
  end
  
  %% 15) Single Xdata in plist, double, Xvar = z, specify data type
  test = 15;   
  if any(ismember(list, test))
    type = 'fsdata'; 
    o = p_z.eval(plist(...
      'Xdata', z1, ...
      'type', type ...
       ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', z1, 'xunits', 'Hz', 'yunits', u3, 'dy', true))];
  end
  
  %% 16) Single Xdata in plist, double, Xvar = z, specify data type
  test = 16;
  if any(ismember(list, test))
    type = 'xydata';
    o = p_z.eval(plist(...
      'Xdata', z1, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', z1, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
  
  %% 17) Single Xdata in plist, double, Xvar = z, do not specify data type
  test = 17;
  if any(ismember(list, test))
    o = p_z.eval(plist(...
      'Xdata', z1));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', z1, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
  
  %% 20) Single Xdata in plist, ao, Xvar = x
  test = 20;
  if any(ismember(list, test))
    o = p_1.eval(plist(...
      'Xdata', T1, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', T1.x, 'xunits', a1.xunits, 'yunits', a1.yunits, 'dy', true))];
    
    
    o = p_1.eval(plist(...
      'Xdata', T1c, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', T1c.y, 'xunits', a1.xunits, 'yunits', a1.yunits, 'dy', true))];
  end
  
  %% 21) Single Xdata in plist, ao, Xvar = t
  test = 21;
  if any(ismember(list, test))
    o = p_t.eval(plist(...
      'Xdata', T1, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'tsdata', 'x', T1.x, 'xunits', p_t.models.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_t.eval(plist(...
      'Xdata', T1c, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'tsdata', 'x', T1c.y, 'xunits', p_t.models.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 22) Single Xdata in plist, ao, Xvar = f
  test = 22;
  if any(ismember(list, test))
    o = p_f.eval(plist(...
      'Xdata', F1, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', F1.x, 'xunits', p_f.models.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_f.eval(plist(...
      'Xdata', F1c, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', F1c.y, 'xunits', p_f.models.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 23) Single Xdata in plist, ao, Xvar = w
  test = 23;
  if any(ismember(list, test))
    o = p_w.eval(plist(...
      'Xdata', F1, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', F1.x, 'xunits', p_w.models.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_w.eval(plist(...
      'Xdata', F1c, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', F1c.y, 'xunits', p_w.models.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 24) Single Xdata in plist, ao, Xvar = z, specify data type  
  test = 24;
  if any(ismember(list, test))
    type = 'tsdata';
    o = p_z.eval(plist(...
      'Xdata', T1, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', T1.x, 'xunits', 's', 'yunits', u3, 'dy', true))];
    
    o = p_z.eval(plist(...
      'Xdata', T1c, ...
      'type', type));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', T1c.y, 'xunits', 's', 'yunits', u3, 'dy', true))];
  end
  
  %% 25) Single Xdata in plist, ao, Xvar = z, specify data type  
  test = 25;
  if any(ismember(list, test))
    type = 'fsdata';
    o = p_z.eval(plist(...
      'Xdata', Z1, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', Z1.x, 'xunits', 'Hz', 'yunits', u3, 'dy', true))];
    
    o = p_z.eval(plist(...
      'Xdata', Z1c, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', Z1c.y, 'xunits', 'Hz', 'yunits', u3, 'dy', true))];
  end
  
  %% 26) Single Xdata in plist, ao, Xvar = z, specify data type
  test = 26;
  if any(ismember(list, test))
    type = 'xydata';
    o = p_z.eval(plist(...
      'Xdata', Z1, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', Z1.x, 'xunits', '', 'yunits', u3, 'dy', true))];
    
    o = p_z.eval(plist(...
      'Xdata', Z1c, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', Z1c.y, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
  
  %% 27) Single Xdata in plist, ao, Xvar = z, do not specify data type
  test = 27;
  if any(ismember(list, test))
    o = p_z.eval(plist(...
      'Xdata', Z1));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', Z1.x, 'xunits', '', 'yunits', u3, 'dy', true))];
    
    o = p_z.eval(plist(...
      'Xdata', Z1c));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', Z1c.y, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
  
  %% 30) Multiple Xdata in plist, double, Xvar = x
  test = 30;
  if any(ismember(list, test))
    o = p_3.eval(plist(...
      'Xdata', {t1, t1}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', t1, 'xunits', '', 'yunits', a3.yunits, 'dy', true))];
  end
  
  %% 31) Multiple Xdata in plist, double, Xvar = t, specify data type
  test = 31;  
  if any(ismember(list, test))
    type = 'tsdata';
    o = p_tt.eval(plist(...
      'Xdata', {t1 t1}, ...
      'type',  type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', t1, 'xunits', 's', 'yunits', u3, 'dy', true))];
  end
  
  %% 32) Multiple Xdata in plist, double, Xvar = f, don't specify data type
  test = 32;
  if any(ismember(list, test))
    o = p_ff.eval(plist(...
      'Xdata', {f1 f1}, ...
      'type', '' ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', f1, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
  
  %% 33) Multiple Xdata in plist, double, Xvar = w, specify data type
  test = 33;  
  if any(ismember(list, test))
    type = 'xydata';
    o = p_ww.eval(plist(...
      'Xdata', {f1 f1}, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', f1, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
  
  %% 34) Multiple Xdata in plist, double, Xvar = z, specify data type  
  test = 34;
  if any(ismember(list, test))
    type = 'tsdata';
    o = p_zz.eval(plist(...
      'Xdata', {t1 t1}, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', t1, 'xunits', 's', 'yunits', u3, 'dy', true))];
  end
  
  %% 35) Multiple Xdata in plist, double, Xvar = z, specify data type  
  test = 35;
  if any(ismember(list, test))
    type = 'fsdata';
    o = p_zz.eval(plist(...
      'Xdata', {z1 z1}, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', z1, 'xunits', 'Hz', 'yunits', u3, 'dy', true))];
  end
  
  %% 36) Multiple Xdata in plist, double, Xvar = z, specify data type
  test = 36;
  if any(ismember(list, test))
    type = 'xydata';
    o = p_zz.eval(plist(...
      'Xdata', {z1 z1}, ...
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', z1, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
  
  %% 37) Multiple Xdata in plist, double, Xvar = z, do not specify data type
  test = 37;
  if any(ismember(list, test))
    o = p_zz.eval(plist(...
      'Xdata', {z1 z1}));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', z1, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
    
  %% 40) Multiple Xdata in plist, ao, Xvar = x
  test = 40;
  if any(ismember(list, test))
    o = p_3.eval(plist(...
      'Xdata', {T1, T1}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(T1.data), 'x', T1.x, 'xunits', T1.xunits, 'yunits', a3.yunits, 'dy', true))];
    
    o = p_3.eval(plist(...
      'Xdata', {T1c, T1c}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(... % No need to pass x & xunits in this case
      'type', class(T1c.data), 'yunits', a3.yunits, 'dy', true))];
  end
  
  %% 41) Multiple Xdata in plist, ao, Xvar = t, specify data type
  test = 41;  
  if any(ismember(list, test))
    type = 'tsdata'; 
    o = p_tt.eval(plist(...
      'Xdata', {T1 T1}, ...
      'type',  type ... % This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(T1.data), 'x', T1.x, 'xunits', T1.xunits, 'yunits', u3, 'dy', true))];
     
    o = p_tt.eval(plist(...
      'Xdata', {T1c, T1c}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...% No need to pass x & xunits in this case
      'type', class(T1c.data), 'yunits', u3, 'dy', true))];
  end
  
  %% 42) Multiple Xdata in plist, ao, Xvar = f, don't specify data type
  test = 42;
  if any(ismember(list, test))
    o = p_ff.eval(plist(...
      'Xdata', {F1 F1}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(F1.data), 'x', F1.x, 'xunits', F1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_ff.eval(plist(...
      'Xdata', {F1c, F1c}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...% No need to pass x & xunits in this case
      'type', class(F1c.data), 'yunits', u3, 'dy', true))];
  end
  
  %% 43) Multiple Xdata in plist, ao, Xvar = w, specify data type
  test = 43;  
  if any(ismember(list, test))
    type = 'xydata';
    o = p_ww.eval(plist(...
      'Xdata', {F1 F1}, ...
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(F1.data), 'x', F1.x, 'xunits', F1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_ff.eval(plist(...
      'Xdata', {F1c, F1c}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...% No need to pass x & xunits in this case
      'type', class(F1c.data), 'yunits', u3, 'dy', true))];
  end
  
  %% 44) Multiple Xdata in plist, ao, Xvar = z, specify data type  
  test = 44;
  if any(ismember(list, test))
    type = 'tsdata';
    o = p_zz.eval(plist(...
      'Xdata', {T1 T1}, ...
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(T1.data), 'x', T1.x, 'xunits', T1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_ff.eval(plist(...
      'Xdata', {T1c, T1c}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...% No need to pass x & xunits in this case
      'type', class(T1c.data), 'yunits', u3, 'dy', true))];
  end
  
  %% 45) Multiple Xdata in plist, ao, Xvar = z, specify data type  
  test = 45;
  if any(ismember(list, test))
    type = 'fsdata';
    o = p_zz.eval(plist(...
      'Xdata', {Z1 Z1}, ...
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(Z1.data), 'x', Z1.x, 'xunits', Z1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_ff.eval(plist(...
      'Xdata', {Z1c, Z1c}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...% No need to pass x & xunits in this case
      'type', class(Z1c.data), 'yunits', u3, 'dy', true))];
  end
  
  %% 46) Multiple Xdata in plist, ao, Xvar = z, specify data type
  test = 46;
  if any(ismember(list, test))
    type = 'xydata';
    o = p_zz.eval(plist(...
      'Xdata', {Z1 Z1}, ...
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(Z1.data), 'x', Z1.x, 'xunits', Z1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_ff.eval(plist(...
      'Xdata', {Z1c, Z1c}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...% No need to pass x & xunits in this case
      'type', class(Z1c.data), 'yunits', u3, 'dy', true))];
  end
  
  %% 47) Multiple Xdata in plist, ao, Xvar = z, do not specify data type
  test = 47;
  if any(ismember(list, test))
    o = p_zz.eval(plist(...
      'Xdata', {Z1 Z1}));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', Z1.x, 'xunits', Z1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_zz.eval(plist(...
      'Xdata', {Z1c, Z1c}, ...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...% No need to pass x & xunits in this case
      'type', class(Z1c.data), 'yunits', u3, 'dy', true))];
  end
  
  %% 50) Single Xdata in input, double, Xvar = x
  test = 50;
  if any(ismember(list, test))
    disp('Syntax not supported')
  end
    
  %% 60) Single Xdata in input, ao, Xvar = x
  test = 60;
  if any(ismember(list, test))
    o = p_1.eval(T1, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', T1.x, 'xunits', a1.xunits, 'yunits', a1.yunits, 'dy', true))];
    
    o = p_1.eval(T1c, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', T1c.y, 'xunits', a1.xunits, 'yunits', a1.yunits, 'dy', true))];
  end
  
  %% 61) Single Xdata in input, ao, Xvar = t
  test = 61;
  if any(ismember(list, test))
    o = p_t.eval(T1, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'tsdata', 'x', T1.x, 'xunits', p_t.models.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_t.eval(T1c, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'tsdata', 'x', T1c.y, 'xunits', p_t.models.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 62) Single Xdata in plist, ao, Xvar = f
  test = 62;
  if any(ismember(list, test))
    o = p_f.eval(F1, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', F1.x, 'xunits', p_f.models.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_f.eval(F1c, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', F1c.y, 'xunits', p_f.models.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 63) Single Xdata in plist, ao, Xvar = w
  test = 63;
  if any(ismember(list, test))
    o = p_w.eval(F1, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', F1.x, 'xunits', p_w.models.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_w.eval(F1c, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', 'fsdata', 'x', F1c.y, 'xunits', p_w.models.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 64) Single Xdata in plist, ao, Xvar = z, specify data type  
  test = 64;
  if any(ismember(list, test))
    type = 'tsdata';
    o = p_z.eval(T1, plist(...      
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', T1.x, 'xunits', 's', 'yunits', u3, 'dy', true))];
    
    o = p_z.eval(T1c, plist(...      
      'type', type));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', T1c.y, 'xunits', 's', 'yunits', u3, 'dy', true))];
  end
  
  %% 65) Single Xdata in plist, ao, Xvar = z, specify data type  
  test = 65;
  if any(ismember(list, test))
    type = 'fsdata';
    o = p_z.eval(Z1, plist(...      
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', Z1.x, 'xunits', 'Hz', 'yunits', u3, 'dy', true))];
    
    o = p_z.eval(Z1c, plist(...      
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', Z1c.y, 'xunits', 'Hz', 'yunits', u3, 'dy', true))];
  end
  
  %% 66) Single Xdata in plist, ao, Xvar = z, specify data type
  test = 66;
  if any(ismember(list, test))
    type = 'xydata';
    o = p_z.eval(Z1, plist(...      
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', Z1.x, 'xunits', '', 'yunits', u3, 'dy', true))];
    
    o = p_z.eval(Z1c, plist(...      
      'type', type ...
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', type, 'x', Z1c.y, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
  
  %% 67) Single Xdata in plist, ao, Xvar = z, do not specify data type
  test = 67;
  if any(ismember(list, test))
    o = p_z.eval(Z1, plist());
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', Z1.x, 'xunits', '', 'yunits', u3, 'dy', true))];
    
    o = p_z.eval(Z1c, plist());      
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', Z1c.y, 'xunits', '', 'yunits', u3, 'dy', true))];
  end
  
  %% 70) Multiple Xdata in input, double
  test = 70;
  if any(ismember(list, test))
    disp('Syntax not supported')
  end
    
  %% 80) Multiple Xdata in input, ao, Xvar = x
  test = 80;
  if any(ismember(list, test))
    o = p_3.eval(T1, T1, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(T1.data), 'x', T1.x, 'xunits', T1.xunits, 'yunits', a3.yunits, 'dy', true))];
    
    o = p_3.eval([T1 T1], plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(T1.data), 'x', T1.x, 'xunits', T1.xunits, 'yunits', a3.yunits, 'dy', true))];
    
  end
  
  %% 81) Multiple Xdata in input, ao, Xvar = t, specify data type
  test = 81;  
  if any(ismember(list, test))
    type = 'tsdata'; 
    o = p_tt.eval(T1, T1, plist(...      
      'type',  type ... % This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(T1.data), 'x', T1.x, 'xunits', T1.xunits, 'yunits', u3, 'dy', true))];
     
    o = p_tt.eval([T1 T1], plist(...      
      'type',  type ... % This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(T1.data), 'x', T1.x, 'xunits', T1.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 82) Multiple Xdata in input, ao, Xvar = f, don't specify data type
  test = 82;
  if any(ismember(list, test))
    o = p_ff.eval(F1, F1, plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(F1.data), 'x', F1.x, 'xunits', F1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_ff.eval([F1 F1], plist(...      
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(F1.data), 'x', F1.x, 'xunits', F1.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 83) Multiple Xdata in input, ao, Xvar = w, specify data type
  test = 83;  
  if any(ismember(list, test))
    type = 'xydata';
    o = p_ww.eval(F1, F1, plist(...      
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(F1.data), 'x', F1.x, 'xunits', F1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_ww.eval([F1 F1], plist(...      
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(F1.data), 'x', F1.x, 'xunits', F1.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 84) Multiple Xdata in input, ao, Xvar = z, specify data type  
  test = 84;
  if any(ismember(list, test))
    type = 'tsdata';
    o = p_zz.eval(T1, T1, plist(...      
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(T1.data), 'x', T1.x, 'xunits', T1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_zz.eval([T1 T1], plist(...      
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(T1.data), 'x', T1.x, 'xunits', T1.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 85) Multiple Xdata in input, ao, Xvar = z, specify data type  
  test = 85;
  if any(ismember(list, test))
    type = 'fsdata';
    o = p_zz.eval(Z1, Z1, plist(...      
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(Z1.data), 'x', Z1.x, 'xunits', Z1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_zz.eval([Z1 Z1], plist(...      
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(Z1.data), 'x', Z1.x, 'xunits', Z1.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 86) Multiple Xdata in plist, ao, Xvar = z, specify data type
  test = 86;
  if any(ismember(list, test))
    type = 'xydata';
    o = p_zz.eval(Z1, Z1, plist(...      
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(Z1.data), 'x', Z1.x, 'xunits', Z1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_zz.eval([Z1 Z1], plist(...      
      'type', type ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...
      'type', class(Z1.data), 'x', Z1.x, 'xunits', Z1.xunits, 'yunits', u3, 'dy', true))];
  end
  
  %% 87) Multiple Xdata in plist, ao, Xvar = z, do not specify data type
  test = 87;
  if any(ismember(list, test))
    o = p_zz.eval(Z1, Z1, plist());
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', Z1.x, 'xunits', Z1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_zz.eval([Z1 Z1], plist());
    
    results = [results; test check_correctness(o, plist(...
      'type', 'xydata', 'x', Z1.x, 'xunits', Z1.xunits, 'yunits', u3, 'dy', true))];
    
    o = p_zz.eval(Z1c, Z1c, plist(...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...% No need to pass x & xunits in this case
      'type', class(Z1c.data), 'yunits', u3, 'dy', true))];
    
    o = p_zz.eval([Z1c Z1c], plist(...
      'type', '' ... %% This should be ignored
      ));
    
    results = [results; test check_correctness(o, plist(...% No need to pass x & xunits in this case
      'type', class(Z1c.data), 'yunits', u3, 'dy', true))];
  end
  
  %% 90) Cases where we eval the x(s) in the models field (no input x)
  
  %% 100) An smodel with no xvar (should give cdata output)
  
  %% 110) Cases where we don't calculate dy
end

function atest = check_correctness(o, pl)
  
  % Exceptions plist for ao/eq
  ple = plist('Exceptions', ...
    {'created', 'proctime', 'UUID', 'param/desc', 'name', 'methodInvars', 'version'});
  
  % Start testing
  atest = true;
  % Check the output is of the proper type
  if ~isa (o.data, pl.find('type'))
    atest = false;
  end
  % Check the output x is the one provided (modulo the size, which is a problem of the "x" method)
  if ~isa(o.data, 'cdata')
    if ~isequal(size(o.x), size(pl.find('x')))
      if ~isequal(size(o.x'), size(pl.find('x')))
        atest = 0;
      else
        if ~isequal(o.x', pl.find('x'))
          atest = 0;
        end
      end
    else
      if ~isequal(o.x, pl.find('x'))
        atest = 0;
      end
    end
    
    % Check xunits
    if ~eq(o.xunits, unit(pl.find('xunits')))
      atest = false;
    end
  end
  % Check yunits
  if ~eq(o.yunits, unit(pl.find('yunits')))
    atest = false;
  end
  % Check uncertainty
  if isempty(o.dy)
    atest = false;
  end
  % Check rebuild
  if ~eq(o.rebuild, o, ple)
    atest = false;
  end
end