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Trying to improve the perfomance of a function that compares strings I decided to compare them by comparing theis hashes. So is there a guarantee if a hash of 2 very long strings are equal to each other then strings are also equal to each other?

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I believe so. Hashes are absolute representations of the data they contain. So equal strings should have equal hashes. –  Jeremy1026 May 10 '12 at 13:24
Why not compare the strings in the first place. Calculating the hashes will force you to inspect every character of both strings. So does comparing them (but that may return "unequal" on the first mismatch) –  wildplasser May 10 '12 at 13:27
@Jeremy1026: That's simply not true. Suppose you use a 4-bit hash. 4 bits can hold 2^4 = 16 different values, so you could never distinguish between more than 16 strings with that hash. In practice, hashes are typically hundreds of bits, but there's always a limit to the number of items they can distinguish. Granted, collisions are extremely unlikely with a sufficiently long hash, but there's never a guarantee that different strings will have different hashes. –  Adam Liss May 10 '12 at 22:14
Definitely! That's right! –  Alexandre May 14 '12 at 13:26

1 Answer 1

While it's guaranteed that 2 identical strings will give you equal hashes, the other way round is not true : for a given hash, there are always several possible strings which produce the same hash. This is true due to the PigeonHole principle.

That being said, the chances of 2 different strings producing the same hash can be made infinitesimal, to the point of being considered equivalent to null.

A fairly classical example of such hash is MD5, which has a near perfect 128 bits distribution. Which means that you have one chance in 2^128 that 2 different strings produce the same hash. Well, basically, almost the same as impossible.

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Interestingly, MD5 has been broken: an attacker can intentionally create a string that hashes to any given value. There simply aren't enough bits, which is why SHA has become the current standard in cryptography. –  Adam Liss May 10 '12 at 22:16
Yes, that's the very large difference between getting a "random collision" and getting an "intentional collision". On the random front, MD5 is still good enough. Now, if the system must take into consideration the risk of intentional collision (which is not always necessary), then yes, MD5 is no longer good enough. –  Cyan May 11 '12 at 16:19
how does generating and comparing MD5 hashes can be faster than comparing original strings?!? –  Aprillion May 16 '12 at 6:37
It may not be faster. In fact, it depends on the use case. Typically, if the comparison is done just once, then it's faster to compare directly the original strings. But if it must be compared several times, typically looking for duplicate, or if the result must be stored for later re-use, then comparing hashes gets the upper hand. –  Cyan May 16 '12 at 9:25

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