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not sure if this is possible but in python there is a hash() function which takes a string or an integer and generates a [EDIT not-unique] integer representation of that input.

My question is (after searching online), how to reverse the generated integer back into the original String.


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You can’t, and it’s not unique. That’s what makes it a hash. – Ryan O'Hara Jun 30 '13 at 19:11
You can't. This is why hashing is used in cryptography. – michaelmeyer Jun 30 '13 at 19:11
@doukremt: Not all hashes are cryptographically safe. The hash() function in Python is definitely not. – duskwuff Jun 30 '13 at 19:12
Also, from python3.3 onwards hash randomization in turned on by default, making hashes be different between different invocations of the interperter. – mata Jun 30 '13 at 19:14
@minitech: Thanks. I guess it has the nice advantage that if someone uses this non-secure hash to hash passwords in a database, he will have a bad surprise. – ereOn Jun 30 '13 at 19:23

5 Answers 5

You can't theoretically do that, at least not in an efficient manner (read: "in reasonable time"), even if the hash is not cryptographically secure.

Now if your search space is small enough (say, for example, if the only possible input is a list of 1000 words), you might pre-compute a sorted table of all possible hashes (as a key) and their corresponding inputs and perform a O(log(n)) a lookup on that.

This would of course give you a list of possible results, as hashes are not unique. Now, again, if your search space is small enough, you may only have unique results for each and every input. But we can't say anything sure about it unless we know more about the source of your data.

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Of course, in the specific case of smallish integers with Python's hash, you don't need such a lookup table: hash(12) == 12. – Dougal Jun 30 '13 at 19:28
but hash(10**2000) == 2342378340969425830 – Elazar Jun 30 '13 at 19:30
@Dougal: Indeed. Replaced with a more meaningful example. Thanks. – ereOn Jun 30 '13 at 19:31
@Elazar Yeah; it seems to work in approximately [-2**60, 2**60] (except for -1, which is apparently used to signal internal errors and replaced by -2). That page also shows the old Python string hash algorithm, pre-randomization. – Dougal Jun 30 '13 at 19:33

You can’t, and it’s not unique. That’s what makes it a hash. From help(hash):

Return a hash value for the object. Two objects with the same value have the same hash value. The reverse is not necessarily true, but likely.

So this isn’t really possible in general. You can check a certain list for a matching hash, but you can never be sure it was the original unless you know that the original is in some set and doesn’t have a collision with another item in that set.

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An inverse hash function would not be (in general) unique even if you could invert it. For example, there are an infinite number of strings from which hash keys are generated into a finite integer range limited by the word size on your machine.

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Hashes are meant to be computationally expensive to reverse. Generally the only way to "reverse" them is to bruteforce the input that was used to generate the output.

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Another point that people are missing isn't just that its hard to find a string that matches a hash, but also that there isn't enough information there to determine what the string was.

A hash is (usually) a cryptographic way of converting a given input into an integer that is unreversible. However, it is possible for hashes to clash or collide, which is possible in MD5. As such, under such hashing functions, the number of different strings which could hash to the same number is infinite - so even if it were possible to reverse (its not), you still wouldn't know which string was the original!

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