# How do I make a function from a symbolic expression in MATLAB?

How can I make a function from a symbolic expression? For example, I have the following:

``````syms beta
n1,n2,m,aa= Constants
u = sqrt(n2-beta^2);
w = sqrt(beta^2-n1);
a = tan(u)/w+tanh(w)/u;
b = tanh(u)/w;
f = (a+b)*cos(aa*u+m*pi)+a-b*sin(aa*u+m*pi);  %# The main expression
``````

If I want to use `f` in a special program to find its zeroes, how can I convert `f` to a function? Or, what should I do to find the zeroes of `f` and such nested expressions?

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Please edit your question a bit - make your equation into code using four spaces or `equation`. –  Adam Matan Jan 3 '10 at 16:42
i'm sorry.i can't speak english very well. what do u mean by four spaces? –  Alireza Jan 3 '10 at 17:13
before writing an equation or a piece of code, just type four spaces, like " a=tan(u)/w+tanh(w)/u;". It will highlight your code so it would look nicer. –  Adam Matan Jan 3 '10 at 17:25

You have a couple of options...

## Option #1: Automatically generate a function

If you have version 4.9 (R2007b+) or later of the Symbolic Toolbox you can convert a symbolic expression to an anonymous function or a function M-file using the matlabFunction function. An example from the documentation:

``````>> syms x y
>> r = sqrt(x^2 + y^2);
>> ht = matlabFunction(sin(r)/r)

ht =

@(x,y)sin(sqrt(x.^2+y.^2)).*1./sqrt(x.^2+y.^2)
``````

## Option #2: Generate a function by hand

Since you've already written a set of symbolic equations, you can simply cut and paste part of that code into a function. Here's what your above example would look like:

``````function output = f(beta,n1,n2,m,aa)
u = sqrt(n2-beta.^2);
w = sqrt(beta.^2-n1);
a = tan(u)./w+tanh(w)./u;
b = tanh(u)./w;
output = (a+b).*cos(aa.*u+m.*pi)+(a-b).*sin(aa.*u+m.*pi);
end
``````

When calling this function `f` you have to input the values of `beta` and the 4 constants and it will return the result of evaluating your main expression.

NOTE: Since you also mentioned wanting to find zeroes of `f`, you could try using the SOLVE function on your symbolic equation:

``````zeroValues = solve(f,'beta');
``````
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my matlab is 7.4 . it has symbolic toolbox, but does'nt identify "matlabFunction"!! –  Alireza Jan 3 '10 at 19:58
@Alireza: Sorry, I forgot to specify the version of the toolbox you would need. MATLAB 7.5 would probably have the version of the Symbolic Toolbox where `matlabFunction` first appears. –  gnovice Jan 3 '10 at 21:21
meanwhile, f is so complex that "solve" finds no answer for it. i must use numerical methods such as bisection. –  Alireza Jan 5 '10 at 9:40

If you're interested with just the answer for this specific equation, Try Wolfram Alpha, which will give you answers like:

If you want to solve this type of equation programatically, you probably need to use some software packages for symbolic algebra, like SymPy for python.

quoting the official documentation:

``````>>> from sympy import I, solve
>>> from sympy.abc import x, y
``````

Solve a polynomial equation:

``````>>> solve(x**4-1, x)
[1, -1, -I, I]
``````

Solve a linear system:

``````>>> solve((x+5*y-2, -3*x+6*y-15), x, y)
{x: -3, y: 1}
``````
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thank you. but the last link is not accessible in our location. –  Alireza Jan 3 '10 at 17:14
The SymPy? I can download it and put it in another web location for you. –  Adam Matan Jan 3 '10 at 17:23
SymPy should not be necessary considering she has MatLab... –  benofsky Jan 3 '10 at 21:19
what is Sympy? if it is possible, send a link for me to download it. thanks –  Alireza Jan 4 '10 at 4:47
It's a python library for symbolic math, see code.google.com/p/sympy –  Adam Matan Jan 4 '10 at 20:49