Here's the thing, the problem may (or may not) be NP-complete but unless this is within the inner-loop of something important (and the number of variable are small), *build the entire truth table*! It's extremely easy to do. It obviously grows as 2^n, but for small n this is completely feasible. Like the comments suggest, I'm assuming that the function calls have no side effects and simply output `True`

or `False`

.

I've posted a mockup example that solves your stated problem, adapt as needed. I rely on pythons parser to handle the evaluation of the expression.

```
import pyparsing as pypar
import itertools
def python_equiv(s):
return s.replace('||',' or ').replace('&&',' and ')
def substitute(s,truth_table, VARS):
for v,t in zip(VARS,truth_table):
s = s.replace(v,t)
return s
def check_statements(A1,A2):
VARS = set()
maths = pypar.oneOf("( ! = | & )")
keywords = pypar.oneOf("and or")
variable = pypar.Word(pypar.alphanums)
variable.setParseAction(lambda x: VARS.add(x[0]))
grammar = pypar.OneOrMore(maths | keywords | variable)
# Determine the variable names
grammar.parseString(A1)
grammar.parseString(A2)
A1 = python_equiv(A1)
A2 = python_equiv(A2)
bool_vals = map(str, [False,True])
for table in itertools.product(bool_vals,repeat=len(VARS)):
T1 = substitute(A1,table,VARS)
T2 = substitute(A2,table,VARS)
if eval(T1) != eval(T2):
print "FAIL AT ", table,
return False
print "Statements equiv:",
return True
# Original example
A1 = '''((op1 != v1) || ((op2 != v2) || (op3 != v3)))'''
A2 = '''((op2 != v2) || (op1 != v1) || (op3 != v3))'''
print check_statements(A1,A2)
# Example with a failure
A1 = '''((op1 != v1) || ((op2 != v2) || (op3 != v3)))'''
A2 = '''((op2 != v2) || (op1 != v1) && (op3 != v3))'''
print check_statements(A1,A2)
```

Gives as output:

```
Statements equiv: True
FAIL AT ('False', 'False', 'False', 'False', 'False', 'True') False
```