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This answer shows a pretty example of using a parser generator to look through text for some patterns of interest. In that example, it's product prices.

Does anyone know of tools to generate the grammars given training examples (document + info I want from it)? I found a couple papers, but no tools. I looked through ANTLR docs a bit, but it deals with grammars; a "recognizer" takes as input a grammar, not training examples.

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This is a machine learning problem. You can at best get an approximation. But I don't think anybody has done this well, let alone released a tool. (I actively track what people do to build grammars for computer languages, and this idea has been proposed many times, but I have yet to see a useful implementation).

The problem is that for any fixed set of examples, there's a huge number of possible grammars. It is easy to construct a naive one: for the fixed set of examples, simply propose a grammar that has one rule to recognize each example. That works, but is hardly helpful. Now the question is, how many ways can you generalize this, and which one is the best? In fact you can't know, because your next new example may be a total surprise in terms of structure. (Theory definition: A language is the set of sentences that comprise it).

We haven't even talked about the simpler problem of learning the lexemes of the language. How would you propose to learn what legal strings for floating point numbers are?

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Well explained. So it is still research. How would I propose learning legal strings for floating point numbers? How about gathering up all my examples then asking me for a little bit of grammar for what "4.3" "2.2" and "1.0" share? Or trying to detect well-known primitives? That is just off the top of my head, but I can see it would be hard. – dfrankow Mar 31 '11 at 5:34
    
@drfankow: how is that different than the original question you asked? If you want to see how hard this is, go examine all the variations of string literals you can write in Python 2. (Then look at Python 3, where they changed them somewhat). Are there people building machine learning algorithms to do this kind of thing? Yes. None useful in my field; frankly, it is easier to write down a guessed description myself. – Ira Baxter Mar 31 '11 at 13:15
    
@drfrankow: one of the tenets of machine learning is, "you can't learn it unless you almost already know it". For the simple example of floating point numbers, you want the concepts of "digit", "natural", "fraction", "exponent", "sign", and "other". If you have these concepts, you have a much better chance of learning "sequence(fraction,optional(exponent))". Without these, your learner might take the examples you provided and "learn" the regular expression "([124]\.[023])", which even generalizes from the cases given. You can't object that is wrong, it covers all the cases. But is it helpful? – Ira Baxter Mar 31 '11 at 13:21

One tool that does this is NLTK. I Highly recommend it, and the O'Reilly book that covers it is available free online. There are tools for parsing, learning grammars, etc... The only downside is that it is mainly a research rather than production tool, so the emphasis isn't on performance.

I think that there will be a module that will cover what you want. Have a look at the great docs and the book. (it works on the JRE through Jython too.)

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