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I have a bunch of PDF files that I have to search for a set of keywords against. I have to extract the exact line where the keyword was found. I first used xpdf's pdf2text to convert the file to PDF. (Tried solr but had a tough time tailoring the output/schema to suit my requirement).

import sys

file_name = sys.argv[1]
searched_string = sys.argv[2]
result = [(line_number+1, line) for line_number, line in enumerate(open(file_name)) if searched_string.lower() in line.lower()]

#print result

for each in result:
    print each[0], each[1]

ThinkCode:~$ python sample.txt "String Extraction"

The problem I have with this is that for cases where search string is broken towards the end of the line :

If you are going to index large binary files, remember to change the size limits. String

Extraction is a common problem

If I am searching for 'String Extraction', I will miss this keyword if I use the code presented above. What is the most efficient way of achieving this without making 2 copies of text file (one for searching the keyword to extract the line (number) and the other for removing line breaks and finding the keyword to eliminate the case where the keyword spans across 2 lines).

Much appreciated guys!

share|improve this question
up vote 1 down vote accepted

Note: Some considerations without any code, but I think they belong to an answer rather than to a comment.

My idea would be to search only for the first keyword; if a match is found, search for the second. This allows you to, if the match is found at the end of the line, take into consideration the next line and do line concatenation only if a match is found in first place*.


Coded a simple example and ended up using a different algorithm; the basic idea behind it is this code snippet:

def iterwords(fh):
    for number, line in enumerate(fh):
        for word in re.split(r'\s+', line.strip()):
            yield number, word

It iterates over the file handler and produces a (line_number, word) tuple for each word in the file.

The matching afterwards becomes pretty easy; you can find my implementation as a gist on github. It can be run as follows:

python 'multi word search string' file.txt

There is one main concern with the linked code, I didn't code a workaround both for performance and complexity reasons. Can you figure it out? (Spoiler: try to search for a sentence whose first word appears two times in a row in the file)

* I didn't perform any testing on my own, but this article and the python wiki suggest that string concatenation is not that efficient in python (don't know how actual the information is).

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Great! Thanks for the github contribution. The only issue is that it is case sensitive and if there are multiple instances of keywords int he same line, then the second keyword is shown as found in the next 2~3 lines for some reason! Debugging it, will let you know what I find! – ThinkCode Aug 1 '11 at 16:30
The new revision is case-insensitive, regarding the bug you found, the problem is that when a match for the first keyword is found, the iterator advances and one of the successive keywords does not match, the search is continued from the current position and not from the next word after the first match. – GaretJax Aug 1 '11 at 16:32
Actually, I am extracting the text for each keyword - so multiple instances aren't an issue! I will have to check your new iteration for case sensitive fix. The only other issue is the special symbol - if the search string has a symbol, like '(Search String' or 'String)', it is not matching 'Search String' or 'String'. Strip them off at regex? Thanks so much for your time! – ThinkCode Aug 1 '11 at 16:38
Yes, exactly, you can perform query string manipulation at line 20 and words manipulation between line 7 and 14. – GaretJax Aug 1 '11 at 16:42
Thank you so much for all the coding help! Made minor changes to suit my requirements : – ThinkCode Aug 1 '11 at 21:31

There may be a better way of doing it, but my suggestion would be to start by taking in two lines (let's call them line1 and line2), concatenating them into line3 or something similar, and then search that resultant line.

Then you'd assign line2 to line1, get a new line2, and repeat the process.

share|improve this answer
Thank you. That will be (n-1) concatenations. I like the approach but is it the most efficient/pythonic approach? I will eventually have to resort to this approach of yours if I don't find a better way of doing it. Thanks! – ThinkCode Jul 29 '11 at 14:36
And what if the keywords spawn three lines? :) – GaretJax Jul 29 '11 at 16:42
@GaretJax : My keywords are limited to 3 words at most but good thinking! – ThinkCode Jul 29 '11 at 19:46
@ThinkCode: Is there something that prevent a line containing a single word? – GaretJax Jul 30 '11 at 4:09

Use the flag re.MULTILINE when compiling your expressions:

Then use \s to represent all white space (including new lines).

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re.MULTILINE has nothing to do with it. That simply changes the behavior of ^ and $ in regex patterns. Also, it should be \s+ rather than just \s, just in case there are multiple line breaks (as in the example provided). – JAB Jul 29 '11 at 14:40
re.compile('search\s*string', re.DOTALL) ? – ThinkCode Jul 29 '11 at 14:52
@ThinkCode: re.DOTALL isn't needed either, because you wouldn't be using . in your search string. Also, you should probably use \s+ rather than \s*, as the latter will also cause searchstring to be matched. I was actually thinking of suggesting a regex solution as well, but for some reason I assumed you'd prefer to do it line-by-line. – JAB Jul 29 '11 at 14:58
Thanks again! Looks like a regex solution will decrease the no. of search ops but I don't know how to adapt a regex solution to my problem here, any leads? – ThinkCode Jul 29 '11 at 15:02

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