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I have a list of Boolean expressions that represent physical objects that can be combined to represent larger objects. They look something like this: ((A and B) or C). This object can be represented by a combination of A and B or by C alone. I would like to generate a list of lists of strings that can be used to create the object. In this case I want [[A,B], [C]].

Pyparsing looks pretty intriguing so I've decided to give it a shot for this problem. After a few failed attempts I've settled on adapting the fourFn.py example from the website. This is what I have so far:

from pyparsing import Literal, CaselessLiteral, Word, Combine, \
    Group, Optional, ZeroOrMore, Forward, alphanums

exprStack = []

def myAnd(op1, op2):
    if isinstance(op1, str):
        return([op1, op2])
    else:
    return op1.append(op2)

def myOr(op1, op2):
    if isinstance(op1, str):
        return([[op1], [op2]])
    else:
        return op1.append([op2])

def pushFirst(strg, loc, toks):
    exprStack.append(toks[0])

bnf = None
def BNF():
    """
    boolop  :: 'and' | 'or'
    gene    :: alphanum
    atom    :: gene | '(' expr ')'
    """
    global bnf
    if not bnf:
        element = Word(alphanums)
        andop  = Literal( "and" )
        orop = Literal( "or" )
        lpar  = Literal( "(" ).suppress()
        rpar  = Literal( ")" ).suppress()
        boolop  = andop | orop

        expr = Forward()
        atom = ((element | lpar + expr + rpar).setParseAction(pushFirst) | (lpar + expr.suppress() + rpar))
        expr << atom + ZeroOrMore((boolop + expr).setParseAction(pushFirst))

        bnf = expr
    return bnf

# map operator symbols to corresponding arithmetic operations
fn  = {"or": myOr,
       "and": myAnd}

def evaluateStack( s ):
    op = s.pop()
    if op in fn:
        op2 = evaluateStack(s)
        op1 = evaluateStack(s)
        return fn[op](op1, op2)
    else:
        return op

if __name__ == "__main__":

    def test(s, expVal):
        global exprStack
        exprStack = []
        results = BNF().parseString(s)
        val = evaluateStack(exprStack[:])
        if val == expVal:
            print s, "=", val, results, "=>", exprStack
        else:
            print "!!! "+s, val, "!=", expVal, results, "=>", exprStack

    test("((A and B) or C)", [['A','B'], ['C']])
    test("(A and B) or C", [['A','B'], ['C']])
    test("(A or B) and C", [['A', 'C'], ['B', 'C']])
    test("A and B", ['A', 'B'])
    test("A or B", [['A'], ['B']])

The first three tests fail here and only return the first element of each expression in parentheses. A will get pushed to the stack multiple times. It seems that the way I modified fourFn.py has broken my script's ability to handle these groups. Is there a better way to approach this problem?

edit After a cup of coffee I realized the problems I was having were pretty easy to solve. My new and and or functions are as follows:

def myAnd(op1, op2):
    if isinstance(op1, str) and isinstance(op2, str):
        newlist = [op1, op2]

    elif isinstance(op1, str):
        newlist = [op1]
        newlist.append(op2)

    elif isinstance(op2, str):
        newlist = op1
        newlist.append(op2)

    else:
        newlist = [op1.append(item) for item in op2]
    return newlist

def myOr(op1, op2):
    if isinstance(op1, str) and isinstance(op2, str):
        newlist = [[op1], [op2]]
        r
    elif isinstance(op1, str):
        newlist = [op1]
        newlist.append([op2])

    elif isinstance(op2, str):
        newlist = [op1]
        newlist.append([op2])

    else:
        newlist = [op1, [op2]]
    return newlist1

And the parser is constructed as follows:

expr = Forward()
atom = element.setParseAction(pushFirst) | (lpar + expr + rpar)
expr << atom + ZeroOrMore((boolop + expr).setParseAction(pushFirst))

A new and more interesting question involves how to deal with a case like this (A or B) and C. The result should be [[A, C], [B, C]]. Is there a typical pyparsing way of dealing with this issue?

share|improve this question
    
If I were you I'd just created a plain classic AST with operations as nodes and operands as leaves, and then traverse it to build the constructs I like. In your case, it would be just replacing 'and' nodes with lists of their operands. –  9000 Feb 13 '12 at 21:54
3  
Check out the SimpleBool.py example on the pyparsing wiki. It uses a pyparsing helper method operatorPrecedence, which does a lot of the atom/factor/term work for you. SimpleBool.py will give you back a structure of Bool objects, similar to the AST proposed by @9000, but with richer object APIs, so you can evaluate the results directly. –  Paul McGuire Feb 13 '12 at 22:48
    
Thanks for the comments. I like the AST suggestion and will definitely take a look at the SimpleBool.py example. I did manage to get the approach above to work for my test cases. –  christopher Feb 13 '12 at 23:07

1 Answer 1

up vote 0 down vote accepted

For future reference, here's an approach that works for my test cases but that deviates from AST approach suggested above:

from pyparsing import Literal, Word, Optional, \
    Group, ZeroOrMore, Forward, alphanums
import ffparser, sys

exprStack = []

def myAnd(op1, op2):
    if isinstance(op1, str) and isinstance(op2, str):
        newlist = [[op1, op2]]

    elif isinstance(op1, str):
        newlist = op2
        [item.insert(0, op1) for item in newlist]

    elif isinstance(op2, str):
        newlist = op1
        [item.append(op2) for item in op1]

    else:
        newlist = [op1.append(item) for item in op2]

    return newlist

def myOr(op1, op2):
   if isinstance(op1, str) and isinstance(op2, str):
        newlist = [[op1], [op2]]

    elif isinstance(op1, str):
        newlist = op2
        newlist.insert(0, [op1])

    elif isinstance(op2, str):
        newlist = op1
        newlist.append([op2])

    else:
        newlist = []
        [newlist.append(item) for item in op1]
        [newlist.append(item) for item in op2]

    return newlist

def pushFirst(strg, loc, toks):
    exprStack.append(toks[0])

bnf = None
def BNF():
    """
    boolop  :: 'and' | 'or'
    gene    :: alphanum
    atom    :: gene | '(' expr ')'
    """
    global bnf
    if not bnf:
        element = Word(alphanums)
        andop  = Literal( "and" )
        orop = Literal( "or" )
        lpar  = Literal( "(" ).suppress()
    rpar  = Literal( ")" ).suppress()
    boolop  = andop | orop

    expr = Forward()
    atom = element.setParseAction(pushFirst) | (Optional(lpar) + expr + Optional(rpar))
    expr << atom + ZeroOrMore((boolop + expr).setParseAction(pushFirst))
share|improve this answer

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