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I have 'if statements' from two different sources, which try to implement the same condition possibly in a different way. The 'if statements' are C. If at all possible I need a python script that can decide whether pairs of conditions are equivalent or not. A basic example:

source1: ((op1 != v1) || ((op2 != v2) || (op3 != v3)))

source2: ((op2 != v2) || (op1 != v1) || (op3 != v3))

Of course any operator is allowed, function calls and of course parentheses.

Any ideas are welcome.

Edit 1: The function calls have no side effects.

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4  
This is one of those problems which seems easy at first, and then you look at it for a minute and can't help but saying "eeiiwww". –  cwallenpoole Mar 6 '13 at 21:54
3  
Write a parser in PLY that turns it into a truth table and compare the truth tables. dabeaz.com/ply –  Patashu Mar 6 '13 at 21:54
7  
If you are considering function calls as op1 and op2, , you should note that ((op1 != v1) || ((op2 != v2) || (op3 != v3))) is not necessarily equivalent to ((op2 != v2) || (op1 != v1) || (op3 != v3)). For example suppose op1 != v1 and op2 != v2, in the first statement op1 is only called, in the second statement only op2. This is due to short circuiting. –  user23127 Mar 6 '13 at 21:54
3  
Unless I'm mistaken, this problem is NP-hard, as it's equivalent to Boolean satisfiability. (There's a good chance I'm mistaken, though...) So if I'm not mistaken, the computational requirements grow very quickly (i.e. exponentially) with the number of terms. –  Oliver Charlesworth Mar 6 '13 at 22:13
6  
If function calls are allowed, then I can think of at least one case that would require solving the halting problem. You're probably going to need to narrow things down a bit. Something like "Functions can't have side effects and always return a result" –  Pete Baughman Mar 6 '13 at 22:22

2 Answers 2

up vote 5 down vote accepted

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
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My personal opinion: in example code and such, do not use from foo import *, that makes it hard for others to know which used symbols are from which import. –  hyde Mar 7 '13 at 5:09
    
@hyde Generally I agree, though with pyparsing it gets a bit much. For clarity I've added in the import paths. –  Hooked Mar 7 '13 at 5:12
    
This helps you decide if the boolean formulas are equivalent, but not if they compute the same thing. Consider: x = P>Q ; if (x && y) ... ; x = sin(Z)<3; if (x && y) ... The two formulas are algebraically identical, but they do NOT compute the same thing. You need to prove the two conditionals are evaluated with the same control dependence. –  Ira Baxter Mar 7 '13 at 6:02
    
@IraBaxter I see, I think I interpreted the question at a level that was too shallow. The OP stated "[Check if] statements ... are equivalent", and I saw that as check if "the boolean formulas are equivalent". I'll leave my posting up since I think it still has some value as a subset of the original problem. –  Hooked Mar 7 '13 at 14:45
    
@Hooked, this is a cool idea, and thank you for bringing it up, but there can be up to 30 subexpressions in a condition and as you mentioned this approach would be way to slow. –  user1514631 Mar 7 '13 at 16:29

To do this, you need control flow anlaysis to determine if the two conditions have the same control dependence (otherwise they don't execute in the same data context), full data flow analysis including points-to analysis of the C code, a side-effect analysis of functions, the ability to backslice from the root of the condition to the leaves of the expression across function calls, and then a boolean equivalence matcher that accounts for C semantics (e.g. short-circuiting, overflows, ...)

This is far beyond what you get from a C parser.

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1  
Well, question specifies "simple", which could be interpreted to mean subexpressions do not have side-effects etc... –  hyde Mar 7 '13 at 5:11
    
If you leave out side effects, you still have to determine what functions are called. This requires points-to analysis, unless you are going to eliminate this too. If you simplify it enough, yes he can get a simple answer. My point: won't be much left. –  Ira Baxter Mar 7 '13 at 5:59
    
Well yeah, this rules out a large portion of common C conditions, for example (fp && -1 != (ch = fgetc(fp))), or anything where order matters. But if functions called in the condition expression have no side-effects (which is actually a reasonable self-imposed rule in C, for those who prefer functional programming), then it doesn't matter which get called. –  hyde Mar 7 '13 at 7:55

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