Given a set of n elements `U`

, and a set of m properties `P`

where each element of P defines a function from U to boolean.

Given two composite logical expressions of the form (recursively defined):

```
p1 : true iff p1(x) is true
e1 and e2 : means e1 and e2 are both true
e1 or e2 : means e1 and e2 are not both false
not e1 : true iff e1 is false
(e1) : true iff e1
```

These logical expressions are parsed into expression statements (parse trees).

Assume that for any p1, p2: All four sets (p1 and p2), (p1 and not p2), (not p1 and p2), (not p1 and not p2), are non-empty.

I want to determine if a logical expression L1 is a subset of L2. That is for every element x in U, if L1(x) is true then L2(x) is true.

So for example:

```
is_subset(not not p1, p1) is true
is_subset(p1, p2) is false
is_subset(p1 and p2 and p3, (p1 and p2) or p3) is true
```

I think I need to "normalize" the parse trees somehow and then compare them. Can anyone outline an approach or sketch an architecture?

`x`

don't have any structure, they are not used in any way. – starblue Nov 27 '12 at 7:39