It will only work for mathematical based operations, but you might look at SymPy's `Lambda()`

object. It was designed exactly for this purpose:

```
>>> from sympy import *
>>> x = Symbol('x')
>>> l = Lambda(x, x**2)
>>> l
Lambda(_x, _x**2)
>>> l(3)
9
```

It even supports pretty printing:

```
>>> pprint(l)
⎛ 2⎞
Λ⎝x, x ⎠
```

To do your equals example, us the SymPy Eq() object:

```
>>> l1 = Lambda(x, Eq(x, 2))
>>> l1
Lambda(_x, _x == 2)
>>> l1(2)
True
```

It supports partial argument expansion:

```
>>> y = Symbol('y')
>>> l2 = Lambda((x, y), x*y + x)
>>> l2(1)
Lambda(_y, 1 + _y)
>>> l2(1, 2)
3
```

And of course, you get the advantage of getting all of SymPy's computer algebra:

```
>>> l3 = Lambda(x, sin(x*pi/3))
>>> pprint(l3(1))
⎽⎽⎽
╲╱ 3
─────
2
```

By the way, if this sounds like a shameless plug, it's because it is. I am one of the developers of SymPy.

`def x( args )`

instead of`x= lambda( args )`

. This doesn't answer your question, but please use def's for this. – S.Lott Dec 2 '08 at 18:00