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Class constructor that can create either a single object or an object array depending on number of the argument
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Hey guys,
Thanks in advance for taking your time to read my question!
I'm currently building a class called "secOrdIdentifier" where I'm trying to write a constructor that can create either a single object or an object array depending on number of the argument, and I used IF statement together with varargin as illustrated below.
A common quantity called Lyapunov Function is needed for both cases. I found it no problem if I solve the Lyapunov function under each case (shown as in Version_0). In order to reduce the redundancy of the code, it would be preferred if I can only write it once, so I tried to write it before the IF statement as indicated in Version_1, and I got an error msg when running Version_1:
Index exceeds the number of array elements (0).
Error in secOrdIdentifier (line 22)
A = varargin{1};
Error in secOrdIdentifier (line 41)
obj(1,n) = obj;
and I'm wondering what is the reason and how should I solve it?
PS. In case you want to run my code, here are the arguments
x0 = [0;0];
z0 = [0;0];
theta0 = [3;2];
A = [0,1;-1,-1];
F = 10*rand(6,4);
% To create a single object:
identifier = identifier(A,x0,z0,theta0)
% To create an object array
identifier = identifier(A,F)
Thanks
Lihao
EDIT: I have modified my code according to Mr. Steve Lord's suggestion, and now it works! Here's the edited version:
% Edited Version
classdef secOrdIdentifier
properties
x = [0;0]
z = [0;0]
theta (2,1)
coeMatrix (2,2)
LyapunovFx
end
methods
function obj = secOrdIdentifier(A,var)
% When var is a double singlet, the input has the following structure:
% A,theta0
% When var is a double matrix, the input has the following structure:
% A, F
if nargin==0
elseif nargin==2
% -----------------------------------
% Start solving the Lyapunov function
syms x y z
P = [x,y;y,z];
eqs = A'*P+P*A==-eye(2);
sol = solve([eqs(1,1),eqs(1,2),eqs(2,2)],[x,y,z]);
% End solving the Lyapunov function
% -----------------------------------
if ~ismatrix(var)
% Properties assignment
obj.theta = var;
obj.coeMatrix = A;
obj.LyapunovFx = double([sol.x,sol.y;sol.y,sol.z]);
else
% Array generation
n = size(var,2);
obj(1,n) = obj;
for i=1:n
obj(i).theta = var(1:2);
obj(i).LyapunovFx = double([sol.x,sol.y;sol.y,sol.z]);
obj(i).coeMatrix = A;
end
end
else
erorr('Error\nThe number of input must be 0 or 2.')
end
end
end
end
Here's the class definition (version_0 and version_1)
% Version_0
classdef secOrdIdentifier
properties
x (2,1)
z (2,1)
theta (2,1)
coeMatrix (2,2)
LyapunovFx
end
methods
function obj = secOrdIdentifier(varargin)
% When nargin=4, the input has the following structure:
% A, x0,z0,theta0
% When nargin=2, the input has the following structure:
% A, F
% Case 1: Generate a single object
if nargin==4
% -----------------------------------
% Start solving the Lyapunov function
syms x y z
A = varargin{1};
P = [x,y;y,z];
eqs = A'*P+P*A==-eye(2);
sol = solve([eqs(1,1),eqs(1,2),eqs(2,2)],[x,y,z]);
obj.LyapunovFx = double([sol.x,sol.y;sol.y,sol.z]);
% End solving the Lyapunov function
% -----------------------------------
% Properties assignment
obj.x = varargin{2};
obj.z = varargin{3};
obj.theta = varargin{4};
obj.coeMatrix = A;
% Case 2: Generate an object array
elseif nargin==2
% -----------------------------------
% Start solving the Lyapunov function
syms x y z
A = varargin{1};
P = [x,y;y,z];
eqs = A'*P+P*A==-eye(2);
sol = solve([eqs(1,1),eqs(1,2),eqs(2,2)],[x,y,z]);
% End solving the Lyapunov function
% -----------------------------------
% Array generation
n = size(varargin{2},2);
obj(1,n) = obj;
for i=1:n
% Properties Assignment
obj(i).x = varargin{2}(1:2);
obj(i).z = varargin{2}(3:4);
obj(i).theta = varargin{2}(5:6);
obj(i).LyapunovFx = double([sol.x,sol.y;sol.y,sol.z]);
obj(i).coeMatrix = A;
end
end
end
end
end
% Version_1
classdef secOrdIdentifier
properties
x (2,1)
z (2,1)
theta (2,1)
coeMatrix (2,2)
LyapunovFx
end
methods
function obj = secOrdIdentifier(varargin)
% When nargin=4, the input has the following structure:
% A, x0,z0,theta0
% When nargin=2, the input has the following structure:
% A, F
% -----------------------------------
% Start solving the Lyapunov function
syms x y z
A = varargin{1};
P = [x,y;y,z];
eqs = A'*P+P*A==-eye(2);
sol = solve([eqs(1,1),eqs(1,2),eqs(2,2)],[x,y,z]);
% End solving the Lyapunov function
% -----------------------------------
% Case 1: Generate a single object
if nargin==4
% Properties assignment
obj.x = varargin{2};
obj.z = varargin{3};
obj.theta = varargin{4};
obj.coeMatrix = A;
obj.LyapunovFx = double([sol.x,sol.y;sol.y,sol.z]);
% Case 2: Generate an object array
elseif nargin==2
% Array generation
n = size(varargin{2},2);
obj(1,n) = obj;
for i=1:n
% Properties Assignment
obj(i).x = varargin{2}(1:2);
obj(i).z = varargin{2}(3:4);
obj(i).theta = varargin{2}(5:6);
obj(i).LyapunovFx = double([sol.x,sol.y;sol.y,sol.z]);
obj(i).coeMatrix = A;
end
end
end
end
end
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