Is there a way to have two functions with the same name but with different arguments inside the same class in Matlab?

Related/Possible duplicates: How to overload user defined functions in Matlab?, possible to overload function in matlab class? – gnovice Jan 10 '12 at 20:51
In short : No, it is not possible.
However, You can mimic this kind of behavior:
Obviously, since Matlab is a dynamic language, you can pass arguments of any type and check them.
function foo(x)
if isnumeric(x)
disp(' Numeric behavior');
elseif ischar(x)
disp(' String behavior');
end
end
You can also use varargin, and check the number of parameters, and change the behavior
function goo(varargin)
if nargin == 2
disp('2 arguments behavior');
elseif nargin == 3
disp('3 arguments behavior');
end
end
The correct answer has already been given by Andrey. However, I've been running some experiments for some time now and I'd like to show what I think is another relatively straightforward way that has some benefits. Also, it's a method MATLAB uses for its builtin functions quite a bit.
I'm referring to this kind of keyvalue pair way of passing arguments:
x = 0:pi/50:2*pi;
y = sin(x);
plot(x, y, 'Color', 'blue', 'MarkerFaceColor', 'green');
There are numerous ways of parsing a varargin
cell array, but the cleanest way to do this that I've found so far uses the MATLAB inputParser
class.
Example:
function makeSandwiches(amount, varargin)
%// MAKESANDWICHES Make a number of sandwiches.
%// By default, you get a ham and egg sandwich with butter on white bread.
%// Options:
%// amount : number of sandwiches to make (integer)
%// 'butter' : boolean
%// 'breadType' : string specifying 'white', 'sourdough', or 'rye'
%// 'topping' : string describing everything you like, we have it all!
p = inputParser(); %// instantiate inputParser
p.addRequired('amount', @isnumeric); %// use builtin MATLAB for validation
p.addOptional('butter', 1, @islogical);
p.addOptional('breadType', 'white', ... %// or use your own (anonymous) functions
@(x) strcmp(x, 'white')  strcmp(x, 'sourdough')  strcmp(x, 'rye'));
p.addOptional('toppings', 'ham and egg', @(x) ischar(x)  iscell(x))
p.parse(amount, varargin{:}); %// Upon parsing, the variables are
%// available as p.Results.<var>
%// Get some strings
if p.Results.amount == 1
stringAmount = 'one tasty sandwich';
else
stringAmount = sprintf('%d tasty sandwiches', p.Results.amount);
end
if p.Results.butter
stringButter = 'with butter';
else
stringButter = 'without butter';
end
%// Make the sandwiches
fprintf(['I made you %s %s from %s bread with %s and taught you ' ...
'something about input parsing and validation in MATLAB at ' ...
'the same time!\n'], ...
stringAmount, stringButter, p.Results.breadType, p.Results.toppings);
end
^{(slashes after comments because SO doesn't support MATLAB syntax highlighting)}
The added benefits of this method are:
 Possibility to set defaults (like Python, where you can set arg=val
in the function signature)
 Possibility to perform input validation in an easy way
 You only have to remember the option names, not their order as the order doesn't matter
Downsides:
 there may be some overhead that may become significant when doing many function calls and not much else (not tested)
 you have to use the Results
property from the inputParser
class instead of using the variables directly