So I'm developing something that works on `dynamic`

variables using C# 4. And I'm in a situation where I have two variables `a`

and `b`

and I *know* that either `a.Foo(b)`

or `b.Foo(a)`

is defined. However I don't know which so at the moment I use something like this:

```
dynamic a, b, result;
...
try
{
result = a.Foo(b);
}
catch
{
result = b.Foo(a);
}
```

Which is horrible (not only is it inelegant but it's very slow since there is around a 0.5 probability of raising an `Exception`

and producing a stack trace). I could use reflection but I expect that'd be quite slow too.

So is there a better way?

So that's the problem... but I'll also explain the context since I think there's a good chance there's a better way to handle the whole situation. Essentially I am building expression trees (using my own node structure) that work with many different datatypes.

If you consider the expression `1+'2'`

, the `a`

and `b`

values are the operands `1`

and `'2'`

. If I want to evaluate the `+`

node, which has the sub-trees `a`

and `b`

, then either operand may contain a method to `Add`

the other operand's type to it. That is, either `a.Add(b)`

is implemented or `b.Add(a)`

is implemented.

I can only think of using reflection, the method above, or producing duplicate functions in both types of `a`

and `b`

to model the symmetry.

`catch { result = b.Foo(a); }`

, without declaring an unneeded variable. – SLaks Jan 6 '10 at 1:01