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I have a data structure which consists of pairs of values, the first of which is an integer and the second of which is an alphanumeric string (which may begin with digits):

| Number | Name            |
| 15     | APPLES          |
| 16     | APPLE COMPUTER  |
| 17     | ORANGE          |
| 21     | TWENTY-1        |
| 291    | 156TH ELEMENT   |

A table of these would comprise up to 100,000 rows.

I'd like to provide a lookup function in which the user can look up either the number (as if it were a string), or pieces of the string. Ideally the lookup will be "live" as the user types; after each keystroke (or maybe after a brief delay ~250-500 ms) a new search will be done to find the most likely candidates. So, for example searching on

  • 1 will return 15 APPLES, 16 APPLE COMPUTER, 17 ORANGE, and 291 156TH ELEMENT
  • 15 will narrow the search to 15 APPLES, 291 156TH ELEMENT
  • AP will return 15 APPLES and 16 APPLE COMPUTER
  • (ideally, but not required) ELEM will return 291 156TH ELEMENT.

I was thinking about using two Dictionary<string, string>s since ultimately the ints are being compared as strings -- one will index by the integer part and the other by the string part.

But really searching by substring shouldn't use a hash function, and it seems wasteful to use twice the memory that I feel like I should need.

Ultimately the question is, is there any well-performing way to text search two large lists simultaneously for substrings?

Failing that, how about a SortedDictionary? Might increase performance but still wouldn't solve the hash problem.

Thought about creating a regex on the fly, but I would think that would perform terribly.

I'm new to C# (having come from the Java world) so I haven't looked into LINQ yet; is that the answer?

EDIT 18:21 EST: None of the strings in the "Name" field will be longer than 12-15 characters, if that affects your potential solution.

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I think a slightly modified implementation of the Knuth–Morris–Pratt algorithm would be useful. – ChaosPandion Jan 24 '12 at 22:59
When you say "efficiently" do you mean "quickly" or least memory? Generally in these scenarios you trade speed for memory, or find some acceptable balance of the two. Also are 100k string fairly static, meaning there is little turnover and they are searched repeatedly? – EBarr Jan 24 '12 at 23:01
@EBarr: Memory isn't a huge concern, but I don't want to be wasteful. Speed is more important here. – Tenner Jan 24 '12 at 23:04
So if the user enters "comp" would you want "16 APPLE COMPUTER" to display? If matches can be inside the string like that, the approach will be quite different than if you only want to match against the beginning of the values in your table. – hatchet Jan 24 '12 at 23:07
+1 for the (uncommon) correct use of "comprise" – phoog Jan 24 '12 at 23:14
up vote 3 down vote accepted

I'd consider using Trie data structure.

How to achieve that? Leaves would represent your "row", but you would have "two paths" to each memory instance of a "row" (one for number and the other one for name).

You can then sacrifice your condition:

(ideally, but not required) ELEM will return 291 156TH ELEMENT.

Or provide even more paths to your row instances.

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Interesting; I'll certainly look into implementing this and see how well it performs. I didn't include this fact in the original post but I can probably do the initial tree-creation at program start; if that takes a little extra time that's certainly not the end of the world. Thanks! – Tenner Jan 24 '12 at 23:17
Spot on here. Beat me to the punch ;-) – EBarr Jan 24 '12 at 23:23
It's more "a wicked" solution than "an optimal one in terms of memory usage". It's the one that makes you weep like a child when you implement it :) As mentioned by Phil, Lucene.Net is a good solution, but it really depends on your specific use case. 100k of such strings ... that's ~1MB probably. Not much really if you have them available right there in memory, but it you would need to pull them from the database many times on request and build a trie first, then that's another story. – doblak Jan 24 '12 at 23:38
It's likely that the trie could be constructed when a file is opened or when the application is first opened and kept in memory. It's possible that a user will use this particular search many times throughout the course of the day. I may also be able to put in some kind of simple garbage-collection myself if the user doesn't use the search for more than a certain amount of time, and rebuild the trie on demand when necessary. – Tenner Jan 24 '12 at 23:43
I think a variation of this will be the winner. I'm working out writing an implementation of a radix trie which will carry the benefit of a payload available at each node of the trie. The payload will carry a reference to the object represented by this string. This will also allow entries which share a common beginning like "APPLE" and "APPLESAUCE" to point to different entities. Additionally, the number part and name part will have their own trie paths and will both point to the same underlying object since they represent the same object. Thanks all! – Tenner Jan 26 '12 at 21:41

If possible, I would avoid loading all 100,000 entries into memory. I would use either a database or Lucene.Net to index the values. Then use the appropriate query syntax to efficiently search for the results.

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That takes all the fun out of it though.... – ChaosPandion Jan 24 '12 at 23:07
What I've outlined above is a very small part of the product, and I'd really prefer the lightest-weight solution possible. That said, I'll certainly consider in-memory if I can't come up with anything else that performs well. Thanks! – Tenner Jan 24 '12 at 23:15

Since you are searching for the beginning of words, key based collections will not work, unless you store all possible pieces of the words, like "a", "ap", "app", "appl", "apple".

My suggestion is to use a System.Collections.Generic.List<T> in conjunction with a binary search. You would have to provide your own IComparer<T>, which also finds the beginning of words. You would use two data structures.

One List<KeyValuePair<string,int>> holding single words or the number as key and the number as value.

One Dictionary<int,string> holding the whole name.

You would proceed like this:

  1. Split your sentence (the whole name) into single words.

  2. Add them to the list with the word as key and the number as value of the KeyValuePair.

  3. Add the number to the list as key and as value of the KeyValuePair.

  4. When the list is full, sort the list in order to allow a binary search.

Search for a beginning of a word:

  1. Search in the list by using BinarySearch in conjunction with your IComparer<T>.

  2. The index you get from the search might not be the first that applies, so go back in the list until you find the first entry that matches.

  3. Using the number stored as value in the list, look up the whole name in the dictionary using this number as key.

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