What you need is not runtime metaprogramming, but first class functions.

The following represent first class functions, with arity 1 and 2 respectively.

```
abstract class UnaryFunction<A, B> {
public abstract B apply(A a);
}
abstract class BinaryFunction<A, B, C> {
public abstract C apply(A a, B b);
}
```

For the sake of simplicity, let's use specialized versions of above classes.

```
abstract class UnaryOperation {
public abstract int apply(int a);
}
abstract class BinaryOperation {
public abstract int apply(int a, int b);
}
```

Now construct a dictionary of the required arithmetic operations.

```
Map<String, BinaryOperation> ops = new HashMap<String, BinaryOperation>();
ops.put("ADD", new BinaryOperation() {
public int apply(int a, int b) {
return a + b;
}
});
ops.put("MUL", new BinaryOperation() {
public int apply(int a, int b) {
return a * b;
}
});
// etc.
```

Add a method that partially applies `BinaryOperation`

on one parameter.

```
abstract class BinaryOperation {
public abstract int apply(int a, int b);
public UnaryOperation partial(final int a) {
return new UnaryOperation() {
public int apply(int b) {
return BinaryOperation.this.apply(a, b);
}
};
}
}
```

Now we can write your `calculate`

method.

```
public UnaryOperation calculate(int x, String opString) {
BinaryOperation op = ops.get(opString);
if(op == null)
throw new RuntimeException("Operation not found.");
else
return op.partial(x);
}
```

Use:

```
UnaryOperation f = calculate(3, "ADD");
f.apply(5); // returns 8
UnaryOperation g = calculate(9, "MUL");
f.apply(11); // returns 99
```

The abstractions used in the above solution, namely first class function interfaces and partial application, are both available in this library.

`return x * x;`

and change your method signature to`public int calculate(...)`

. – home Jun 2 '12 at 4:58exactlydo you mean by 'something like x*'? What's the problem with the 2 answers provided below? – home Jun 2 '12 at 5:18