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I've been searching for a while now, but found nothing that suits my need so far. (This was helpful, but not convincing)

From two different sources, I get two different strings. I want to check, if the shorter one is contained within the larger one. However, as those strings both root in an OCR-document, there might be obvious differences.

Example:

String textToSearch = "Recognized Headline";
String documentText = "This is the document text, spanning multiple pages" .
                      "..." .
                      "..." .
                      "This the row with my Recognizect Head1ine embedded" .
                      "..." .               ^^^^^^^^^^^^^^^^^^^^
                      "..." .
                      "End of the document";

How can I find my string reliably in the page without using a standalone Lucene/Solr installation? (Or maybe I've just not found the tutorial/manual). There must be some library out there which can do this, right?

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Lucene can be used in-memory "mode" (if you meant standalone = indexed on disk). This might be also useful: en.wikibooks.org/wiki/Algorithm_Implementation/Strings/… –  Bela Vizer Mar 2 '12 at 21:40
    
I know the Levenshtein algorithm, but whereever I've used it before I used it to check two strings for similarity, not if one contains the other –  Dan Soap Mar 2 '12 at 21:44
    
Can you exploit the fact that you can split your document (and your headline) into a list of words? Or is that not always the case? –  biziclop Mar 2 '12 at 21:59
    
@biziclop What do you mean exactly? How would that help me? –  Dan Soap Mar 2 '12 at 22:01
    
@Cassy just thinking aloud. In a naive implementation for example you'd split your document into word tokens, then calculate the Levenshtein distance of each word to the first word of your pattern. If the distance is close enough, you can test the next word against the pattern's next word and so on. –  biziclop Mar 2 '12 at 22:06

1 Answer 1

up vote 0 down vote accepted

First of all you need to find your input source. A webpage has a DOM tree that can be parsed in two ways: SAX (event-driven model without context) or DOM (tree-based model with context). SAX is ideal here because you don't really need to have contextual information to retrieve a stream of tokenized text nodes from the DOM. Convert all the textual nodes into a stream of tokens.

One you have a stream of tokens you can do your processing on them. For large amounts of input algorithms like the Levenshtein string matching become inadequate. Instead, look into Markov Chains. They can help match a set of inputs against a set of outputs fairly reliably and efficiently.

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You can also use StAX to parse XML, but I don't think obtaining the raw text is part of the problem. –  biziclop Mar 2 '12 at 22:19
    
You're right. I saw Lucene/Solr mentioned and immediately thought he was trying to parse out a web page. –  jmkeyes Mar 2 '12 at 22:24

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