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To quote from Guidelines and rules for GetHashCode by Eric Lippert:

Rule: Consumers of GetHashCode cannot rely upon it being stable over time or across appdomains

Suppose you have a Customer object that has a bunch of fields like Name, Address, and so on. If you make two such objects with exactly the same data in two different processes, they do not have to return the same hash code. If you make such an object on Tuesday in one process, shut it down, and run the program again on Wednesday, the hash codes can be different.

This has bitten people in the past. The documentation for System.String.GetHashCode notes specifically that two identical strings can have different hash codes in different versions of the CLR, and in fact they do. Don't store string hashes in databases and expect them to be the same forever, because they won't be.

So what is the correct way to create a HashCode of a string that I can store in a database?

(Please tell me I am not the first person to have left this bug in software I have written!)

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Well, I never rely on GetHashCode, because I know, how sloppy I implement this method. I believe others aren't doing it any better... ;-) –  Daniel Hilgarth Mar 1 '11 at 13:17
You're not the first person which has left this bug in software which you've written. –  Bobby Mar 1 '11 at 13:19
Dbase engines are already very good at hashing strings. Just create an index for the column. –  Hans Passant Mar 1 '11 at 14:16
@Hans, see stackoverflow.com/questions/2730865/…, don't assume that the string is stored in a single table. –  Ian Ringrose Mar 1 '11 at 14:34
Why does that matter? You'd index the columns that are used in a join anyway to make the query fast. Sounds to me you are trying to do the dbase engine's job. –  Hans Passant Mar 1 '11 at 14:38

5 Answers 5

up vote 33 down vote accepted

It depends what properties you want that hash to have. For example, you could just write something like this:

public int HashString(string text)
    // TODO: Determine nullity policy.

        int hash = 23;
        foreach (char c in text)
            hash = hash * 31 + c;
        return hash;

So long as you document that that is how the hash is computed, that's valid. It's in no way cryptographically secure or anything like that, but you can persist it with no problems. Two strings which are absolutely equal in the ordinal sense (i.e. with no cultural equality etc applied, exactly character-by-character the same) will produce the same hash with this code.

The problems come when you rely on undocumented hashing - i.e. something which obeys GetHashCode() but is in no way guaranteed to remain the same from version to version... like string.GetHashCode().

Writing and documenting your own hash like this is a bit like saying, "This sensitive information is hashed with MD5 (or whatever)". So long as it's a well-defined hash, that's fine.

EDIT: Other answers have suggested using cryptographic hashes such as SHA-1 or MD5. I would say that until we know there's a requirement for cryptographic security rather than just stability, there's no point in going through the rigmarole of converting the string to a byte array and hashing that. Of course if the hash is meant to be used for anything security-related, an industry-standard hash is exactly what you should be reaching for. But that wasn't mentioned anywhere in the question.

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Is there anything magic about 23 and * 31? Rather, any reason to choose those over any other values? ... over any other [documented] hashing method? I'm guessing no, though 31 being one less than ASCII printables has kept me unnecessarily suspicious. –  ruffin Jul 20 at 22:17
@ruffin: They're values recommended by Josh Bloch. Multiplying by 31 is efficient because it can be done as a shift and a subtract. There are various other questions talking about this - it's a bit of a dark art, to be honest. –  Jon Skeet Jul 21 at 5:57
Neat! From Effective Java (2008), page 48: The value 31 was chosen because it is an odd prime. If it were even and the multiplication overflowed, information would be lost, as multiplication is equivalent to shifting. The advantage of using a prime is less clear, but it is traditional. A nice property of 31 is that the multiplication can be replaced by a shift and a subtraction for better performance: 31 * i == (i << 5) - i. Modern VMs do this sort of optimization automatically. Looks like some fun reading; thanks again. –  ruffin Jul 21 at 20:24

You could create an MD5 hash for example.

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MD5 hash is a bit costly unless you need a hash code is "one way" and very hard to reverse. –  Ian Ringrose Mar 1 '11 at 13:18
Dan is correct... if you need a deterministic hash function then you should use one... MD5, SHA –  jsobo Mar 1 '11 at 13:21
+1 . or SHA1. Lippert's comments could have gone further to suggest alternative hashing algorithms such as MD5 that do satisfy those requirements. I'm guessing that the reason GetHashCode is not stable across appdomains is that it's faster to implement it that way, and it's not necessary for it to be so, for the purposes of the CLR. MD5 and SHA1 will be slower, but stable. –  Cheeso Mar 1 '11 at 13:21
MD5 etc are normally applied to binary data rather than text. Unless you actually need a hash which is cryptographically secure, there's not much point in using one. –  Jon Skeet Mar 1 '11 at 13:22
@Cheeso: Eric Lippert is talking about the object.GetHashCode contract in .NET, which requires that you return an Int32. You'd need to throw away 75% of an MD5 hash (or 80% of SHA1) to satisfy that requirement, so why would he suggest those algorithms? There are easier and more efficient ways to generate a suitable hashcode. –  LukeH Mar 1 '11 at 13:34

Microsoft SQL Server provides CHECKSUM() function for that purpose.

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Thanks, nice solution for doing this in the database, would not have worked for my case, as we were using Linq to SQL and Linq To Objects with the same queries. –  Ian Ringrose Nov 8 '11 at 9:15

The answer is to just write your own hashing function. You can find source for some by following links in the comments to the article you posted. Or you can use a built-in hash function that's originally intended for cryptography (MD5, SHA1, etc.) and just not use all of the bits.

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You could perform an MD5 hash or similar.

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