# Mathematical Derivation with C#?

How can I do some more advanced function. I see that I can do function with public double myFunction(double myParameter) but what if I do want to derive that function?

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I think you mean "differentiation." Do you want it done numerically? Do you really mean to use ints as the return type and parameters instead of floats? –  Corey Dec 16 '08 at 23:47
float or double, it was just an example of what I would like to do. –  Rogez Sanchez Dec 16 '08 at 23:48
You need to rewrite your question. I have read it several times and still don't get exactly what you are asking. From the answers, I can see I am not the only one with this problem. –  Jason Jackson Dec 17 '08 at 1:30

You can't calculate the exact derivative of a function using a computer program (unless you're doing symbolic math... but that's another, way more complicated, topic).

There are several approaches to computing a numerical derivative of a function. The simplest is the centered three-point method:

• Take a small number h
• Evaluate ` [f(x+h) - f(x-h)] / 2h `
• Voilà, an approximation of f'(x), with only two function evaluations

Another approach is the centered five-point method:

• Take a small number h
• Evaluate `[f(x-2h) - 8f(x-h) + 8f(x+h) - f(x+2h)] / 12h`
• Voilà, a better approximation of f'(x), but it requires more function evaluations

Another topic is how to implement this using C#. First, you need a delegate that represents a function that maps a subset of the real numbers onto a another subset of the real numbers:

``````delegate double RealFunction(double arg);
``````

Then, you need a routing that evaluates the derivative:

``````public double h = 10e-6; // I'm not sure if this is valid C#, I'm used to C++

static double Derivative(RealFunction f, double arg)
{
double h2 = h*2;
return (f(x-h2) - 8*f(x-h) + 8*f(x+h) - f(x+h2)) / (h2*6);
}
``````

If you want an object-oriented implementation, you should create the following classes:

``````interface IFunction
{
// Since operator () can't be overloaded, we'll use this trick.
double this[double arg] { get; }
}

class Function : IFunction
{
RealFunction func;

public Function(RealFunction func)
{ this.func = func; }

public double this[double arg]
{ get { return func(arg); } }
}

class Derivative : IFunction
{
IFunction func;
public static double h = 10e-6;

public Derivative(IFunction func)
{ this.func = func; }

public double this[double arg]
{
get
{
double h2 = h*2;
return (
func[arg - h2] - func[arg + h2] +
( func[arg + h]  - func[arg - h] ) * 8
) / (h2 * 6);
}
}
}
``````
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Very consise and simple explanation of Numerical Differentiation in C#. Thanks :) –  Dr. ABT Aug 18 '11 at 11:45
@Andrew Burnett-Thompson: Thanks. –  Eduardo León Aug 18 '11 at 11:52
Could you please demonstrate how to use this? –  LaRiFaRi Aug 16 '13 at 13:54
@LaRiFaRi: Sorry, my C# is rusty these days, I am more of a Haskell and ML programmer. But here is the general idea: 1. make a regular method that takes a `double` and returns a `double`, 2. construct a `Function`, passing the method you previously created as its delegate argument, 3. construct a `Derivative`, passing the `Function` you previously created as its argument. –  Eduardo León Aug 16 '13 at 15:19

all you need to derive and integrate functions in c#

http://www.codeproject.com/script/Articles/ArticleVersion.aspx?aid=339638&av=501750

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Lone link is bad, can you give some details? –  Austin Henley Oct 29 '12 at 5:37

If you're thinking of symbolic manipulation of formulae then you're better off doing your derivations in languages like Maple or Mathematica. They're designed for symbolic computation.

EDIT: If Maple and Mathematica are too expensive for you then there are other options. Wikipedia has a fairly complete listing of computer algebra packages. http://en.wikipedia.org/wiki/Comparison_of_computer_algebra_systems

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Yes this is what I would like. Create a function and manipulate it. I need a third party? –  Rogez Sanchez Dec 17 '08 at 0:16

If you have written the function, it's already been derived.

And given that it's an int function, I'll assume you don't mean the calculus definition of "derive".

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The verbal form of the derivative operation in calculus is 'differentiate', not 'derive'. –  ntownsend Dec 17 '08 at 16:00
Ah. Duly noted. Learning. I like it. –  recursive Dec 17 '08 at 20:30

Are you thinking of Lambda Expressions?

Basically you can pass a function into a function.

So think of a Sort on an object. Depending on the nature of the object would help determine how the objects are sorted.

But you can still create a generic sort function then pass in how to compare objects.

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