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I'm porting a C# Library to Java (for nonlinear regression, original code here). The library uses the Func<> class, which doesn't exist in Java. I.E. (A, B, C, and D, and time are parameters used for regression, don't need fixed.)

Func<double>[] regressionFunctions = new Func<double>[]
{() => A * Math.Exp(time) * Math.Sin(B * time),
() => C * Math.Exp(time) * Math.Cos(D * time)}; 

What I would like to do is convert this to Java code. I saw something about creating an anonymous inner class, but I'm not certain of the correct usage for this particular situation. I would like the equation to be evaluable at a later time (for a particular value of t). Do I need a new class, an interface, or what would be the best method? Any help would be appreciated! Thanks in advance.

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3 Answers 3

up vote 2 down vote accepted

You can define your own interface, and use anonymous implementations to port the code:

// Declaring the interface
interface FuncDouble {
    double calculate();

public LevenbergMarquardt(FuncDouble[] regressionFunctions, ...) {
    // Using the functor:
    double functionValue = _regressionFunctions[i].calculate()

// Declaring an array of functors:
FuncDouble[] regressionFunctions = new FuncDouble[] {
    new FuncDouble() {
        public double calculate() {
            return A * Math.Exp(time) * Math.Sin(B * time);
,   new FuncDouble() {
        public double calculate() {
            return C * Math.Exp(time) * Math.Cos(D * time);

In order for the implementation to work, A, B, C, D, and time variables must be either instance/class variables, or be final local variables.

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Thanks so much! If I declare the parameters final, will that stop me from changing the value at a later time (i.e. A.setValue(somevalue)? And when I try using the code declaring the array, Java gives me a "generic array creation" error. Any tips? –  user1469531 Jun 20 '12 at 18:36
@user1469531 There is a pending edit on the question which requires a second approval, so you cannot see the change at the moment. The problem with the array creation is that public claculate() should be public double calculate(). –  dasblinkenlight Jun 20 '12 at 18:42
@user1469531 Making A final does not make the object the A references immutable. In other words, it prevents you from writing A = new SomeClass(), but it does not prevent you from writing A.setValue(newValue). –  dasblinkenlight Jun 20 '12 at 18:43
Thanks for the clarification. And I did change the double thing. The error it is still giving me is in the line where I declare the array. Updated code following: Func<Double>[] regressionFunctions = new Func<Double>[1]; regressionFunctions[0] = new Func<Double>() { @Override public double calculate() { return IL.getValue() - I0.getValue() * (Math.exp((e * voltage.getValue() + current.getValue() * Rs.getValue()) / (A.getValue() * k * T.getValue())) - 1); } }; –  user1469531 Jun 20 '12 at 18:46
@user1469531 If you are creating a generic array, you should drop the type argument, like this: Func<Double>[] regressionFunctions = new Func[] {/*elements*/} –  dasblinkenlight Jun 20 '12 at 18:50

I'm not sure if there is already an interface for it in the library, but you could do something like this:

interface Func<T> {
    T appy();

and then say:

Func<Double>[] funcs = new Func<Double>[] {
    new Func<Double> { @override Double apply() { ... } },
    new Func<Double> { @override Double apply() { ... } }

and then later call apply on them. Note: I write a lot more c# than java and don't have a java compiler handy so the syntax may be off for that array instantiation - but hopefully you catch my meaning.

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You can always create an interface with generics and pass implementations of it. There are ways around "doesn't exist in Java".

public interface Func<T> {
   T evaluate(Object...params);

You might also look at the Callable<T> class.

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