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Hoping Paul McGuire may spot this and rescue me...

I have grabbed the 'regex inverter' example script http://pyparsing.wikispaces.com/file/view/invRegex.py

I'm trying to hack in support for python named groups, eg (?P<blob_key>[a-zA-Z0-9-_=]+)

I'm new to pyparsing and I realise a regex parser is probably not the best way to learn (I'm just trying to get something practical done with the result).

I have edited the parser function as below:

def parser():
    global _parser
    if _parser is None:
        lbrack = Literal("[")
        rbrack = Literal("]")
        lbrace = Literal("{")
        rbrace = Literal("}")
        lparen = Literal("(")
        rparen = Literal(")")
        pyspec = Literal("?P")
        langle = Literal("<")
        rangle = Literal(">")

        reMacro = Combine("\\" + oneOf(list("dws")))
        escapedChar = ~reMacro + Combine("\\" + oneOf(list(printables)))
        reLiteralChar = "".join(c for c in printables if c not in r"\[]{}().*?+|")

        reRange = Combine(lbrack + SkipTo(rbrack,ignore=escapedChar) + rbrack)
        reLiteral = ( escapedChar | oneOf(list(reLiteralChar)) )
        reDot = Literal(".")
        repetition = (
            ( lbrace + Word(nums).setResultsName("count") + rbrace ) |
            ( lbrace + Word(nums).setResultsName("minCount")+","+ Word(nums).setResultsName("maxCount") + rbrace ) |
            oneOf(list("*+?")) 
            )

        reNamedGroup = Combine(lparen + pyspec + langle + SkipTo(rangle) + rangle
                               + SkipTo(rparen, include=True) + rparen)

        reNamedGroup.setParseAction(handleNamedGroup)
        reRange.setParseAction(handleRange)
        reLiteral.setParseAction(handleLiteral)
        reMacro.setParseAction(handleMacro)
        reDot.setParseAction(handleDot)

        reTerm = ( reLiteral | reNamedGroup | reRange | reMacro | reDot )
        reExpr = operatorPrecedence( reTerm,
            [
            (repetition, 1, opAssoc.LEFT, handleRepetition),
            (None, 2, opAssoc.LEFT, handleSequence),
            (Suppress('|'), 2, opAssoc.LEFT, handleAlternative),
            ]
        )
        _parser = reExpr

    return _parser

When I run this against my test regex the reNamedGroup seems to find and process the named group correctly (I stuck some logging in SkipTo and other methods...) but at the same time it doesn't seem to participate in the output at all and my handleNamedGroup function is never called.

The log output looks like:

invert(r'serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/')
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 12
DEBUG:root: *** 15, A-Z
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 12
DEBUG:root: *** 15, A-Z
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 24
DEBUG:root: *** 32, blob_key
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 33
DEBUG:root: * 49, [')'], [a-zA-Z0-9-_=]+
DEBUG:root: ** ['[a-zA-Z0-9-_=]+', ')']
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 24
DEBUG:root: *** 32, blob_key
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 33
DEBUG:root: * 49, [')'], [a-zA-Z0-9-_=]+
DEBUG:root: ** ['[a-zA-Z0-9-_=]+', ')']
DEBUG:root: handleLiteral: ['s']
DEBUG:root: handleLiteral: ['e']
DEBUG:root: handleLiteral: ['r']
DEBUG:root: handleLiteral: ['v']
DEBUG:root: handleLiteral: ['e']
DEBUG:root: handleLiteral: ['_']
DEBUG:root: handleLiteral: ['b']
DEBUG:root: handleLiteral: ['l']
DEBUG:root: handleLiteral: ['o']
DEBUG:root: handleLiteral: ['b']
DEBUG:root: handleLiteral: ['/']
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 12
DEBUG:root: *** 15, A-Z
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 12
DEBUG:root: *** 15, A-Z
DEBUG:root: handleRange: ['[A-Z]']
DEBUG:root: handleRepetition: [[[ABCDEFGHIJKLMNOPQRSTUVWXYZ], '{', '2', '}']]
DEBUG:root: handleLiteral: ['/']
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 24
DEBUG:root: *** 32, blob_key
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 33
DEBUG:root: * 49, [')'], [a-zA-Z0-9-_=]+
DEBUG:root: ** ['[a-zA-Z0-9-_=]+', ')']
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 24
DEBUG:root: *** 32, blob_key
DEBUG:root: serve_blob/[A-Z]{2}/(?P<blob_key>[a-zA-Z0-9-_=]+)/, 33
DEBUG:root: * 49, [')'], [a-zA-Z0-9-_=]+
DEBUG:root: ** ['[a-zA-Z0-9-_=]+', ')']
DEBUG:root: handleSequence: [[Lit:s, Lit:e, Lit:r, Lit:v, Lit:e, Lit:_, Lit:b, Lit:l, Lit:o, Lit:b, Lit:/, <libs.exreg.exreg.GroupEmitter object at 0x34cfa30>, Lit:/]]

The lines prefixed with ** are the skipRes value returned from SkipTo ...it looks correct to me. The part I'm stumped on is why they are being ignored.

I'm acutely aware I'm just copy and pasting stuff around blindly... I've tried to closely copy what works for reRange... but range works and my similar bits don't.

I'm guessing maybe the surrounding parentheses are 'hiding' the parsed named group from the output at some later stage of the parsing but I'm lost as to how.

share|improve this question

1 Answer 1

up vote 1 down vote accepted

You don't want to do anything with parens in your reNamedGroup expression. Note that there is no other defined grammar for re groups enclosed in parens, but they most definitely work. In this parser, the parens are handled as part of the operatorPrecedence expression. Just changed your definition of reNamedGroup to:

reNamedGroup = pyspec + langle + SkipTo(rangle) + rangle

and let operatorPrecedence take care of all the paren grouping.

[edited by OP]
the above change alone sort of works, but all the outputs from the named group begin with either P or ? so the pyspec part is leaking into the output somehow. in the end I didn't need to rewrite in stack form (see comments), the following additional change made it work properly:

reTerm = ( reLiteral | reRange | reMacro | reDot )
reExpr = operatorPrecedence( reTerm,
    [
    (reNamedGroup.suppress(), 1, opAssoc.RIGHT, handleNamedGroup),
    (repetition, 1, opAssoc.LEFT, handleRepetition),
    (None, 2, opAssoc.LEFT, handleSequence),
    (Suppress('|'), 2, opAssoc.LEFT, handleAlternative),
    ]
) 
share|improve this answer
    
you're awesome, thanks it works! I must admit I don't see how parens are handled by the operatorPrecedence expression here... is that something pyparsing does implicitly, or it is actually defined in this regex grammar somewhere? –  Anentropic Jun 22 '12 at 9:50
    
Look at the pyparsing.wikispaces.com/file/view/fourFn.py example on the pyparsing wiki, and see that ()'s are handled at the lowest level operand, atom, enclosing the highest level expression expr. Then factor (for mult/div) is defined using atom, and term (for add/sub) is defined using factor. operatorPrecedence just packages this process given the base atom expression (without the (+expr+) part, opPrec adds that), and the definitions of all of the operations, in ascending precedence order. What makes the regex case unusual is that it supports an operator of None, that is... –  Paul McGuire Jun 22 '12 at 12:23
    
... just the sequence of successive regex bits in itself is an "operation", the operation of successive re matching. So for you to add support for named groups, you really aren't adding support for groups, that is already in there. What you added was the definition of the leading "?P<name>" bit. Now strictly speaking, putting it in as one of the alternatives in reTerm, while it works, is not really correct - it means that you would accept "?P<x>?P<y>" as a valid regex, when that is in fact not correct. To inject it into the expression, you would need to pry open the expression created... –  Paul McGuire Jun 22 '12 at 12:30
    
...by opPrec and inject your naming prefix to be parsed only after the opening '(' of a group definition. opPrec doesn't really expose this, so to define a real re parser that would accept group names, you would need to do a more spelled out form as is done in fourFn.py. –  Paul McGuire Jun 22 '12 at 12:32
    
thanks very much for the detailed pointers, I'll dig into it and try to grok better how it all works –  Anentropic Jun 22 '12 at 16:08

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