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# How to use a function handle when number of inputs varies and symbolics have been used

I am programming a general case scenario using Matlab, so the number of inputs to a function varies. Inputs take the form of number of elements in an input matrix.

(I am providing a simple toy example below to make my question clearer):

``````%# The code generates as many symbolic variables as necessary...

P1 = sym('P1')
P2 = sym('P2')
.
.
.
PN = sym('Pn')

%# I create a symbolic function of all the variables...

this  = (P1^2+P2^3+...+Pn^2)

%# I convert the symbolic function into a function...

that = matlabFunction(this)

%# Now I want to provide values for use in the calculation
%# (I have a list of starting values for each P1...Pn)

other = that(???) -->

%# ***Want to provide list of inputs that has as many values as the number
%# of symbolic values I have created (which varies according to each case)****
``````

I've looked through other questions, but maybe I'm not using the right search terms. Is there an elegant way to provide a variable number of inputs when I use the handle `that`?

Thanks so much for your help. I'm a rookie and appreciate it!!

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Take a look at `varargin` and `nargin` in the documentation – Rody Oldenhuis Aug 24 '12 at 6:23

Instead of using variables named in increasing order, use a cell array:

``````P = { sym('P1'), sym('P2'), ..., sym('Pn') }
``````

Then you can use cell array unpacking to pass the items in the cell array as a list of parameters:

``````that = matlabFunction(P{:})
``````

Note the difference between `P(:)` and `P{:}` (see the documentation).

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Thank you! I haven't had a chance to try this yet, but I appreciate you getting back to me so much. I'll let you know how I go... – user1621602 Aug 24 '12 at 7:25