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I am writing a Search application that tokenize a big textual corpus.

The text parser needs to remove any gibberish from the text (i.e. [^a-zA-Z0-9])

I had 2 ideas in my head how to do this:

1) Put the text in a string, transform it to a charArray using String.tocharArray and then run char by char with a loop -> while(position < string.length) Doing so I can tokenize the entire string array in one run over the text.

2) Strip all non digit/alpha using string.replace, and then string.split with some delimiters, this means i have to run twice on the entire string. Once to remove bad chars and then again to split it.

I assumed, that since #1 does the same as #2 but in O(n) it would be quicker, but after testing both, #2 is way (way!) faster.

I went even further and viewed the code behind String.Strip using red-gate .net reflector. It runs unmanaged char by char just like #1, but still much much faster.

I have no clue why #2 is way faster than #1.

Any ideas?

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As described, I think both method 1 and method 2 are O(n) –  Greg Nov 8 '10 at 22:26
2  
It is pointless to guess at perf until you post code that everybody can try. For all we know, you really goofed on #1. String.Replace() is heavily optimized because it is an O(nm) algorithm but you still need to run it k times. Your finding doesn't make a lot of sense. –  Hans Passant Nov 8 '10 at 22:35

2 Answers 2

up vote 1 down vote accepted

How about this idea:

  1. Create a string
  2. Load the entire data set into the string
  3. Create a StringBuilder with enough pre-allocated space to hold the entire string
  4. Go character by character through the string and if the character is alphanumeric, add it to the StringBuilder.
  5. At the end, get the string out of the StringBuilder.

I don't know if this will be any faster to what you've already tried, but timing the above should at least answer that question.

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After extra debugging, i noticed my efficiency is very low when handling numbers. –  djTeller Nov 10 '10 at 9:43

djTeller,
The fact that #2 is faster is merely relative to your #1 method.
You might want to share your #1 method with us; maybe it's just very slow and is possible to make it faster than #2, even.
Yes both are essentially O(n), but is the ACTUAL implementation O(n); how'd you actually do #1?

Also, when you said you tested both, I hope you did with large amounts of input to overcome the margin of error and see a significant difference between the two.

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I tested it on a huge 1 GB corpus. I will paste the code soon. –  djTeller Nov 9 '10 at 8:58

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