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I have many integers in range [0; 2^63-1]. There is only 10^8 integers, however. There is no duplicates. Full list is known at compile-time but it is just unique random numbers. These numbers never changes.
To store one integer explicitly, 8 bytes required, and there is associated 1-byte values, so explicit storing requires about 860 MB.
So I want to find minimal perfect hash function to map each of 10^8 integers from [0;2^63-1] to [0;10^8-1]. I should find this function only once, data never changes, and function can be complicated. But it should be minimal, perfect, and calculating should be fast. How I can do this better? Maybe it is possible to find and use some subsequences if they happens?

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Full list known at compile-time? My advice then would be to 'manually' assign the numbers yourself, and then write a script to spit out a static declaration of a map in your desired programming language. If it never, ever changes, using a static data structure to perfectly map the values would be your ideal solution. I say 'manually' with inverted commas because you clearly aren't going to do it by hand. See other comments and answers for ideas of what tools can do the assigning for you. – darvids0n Jul 19 '11 at 7:05
up vote 8 down vote accepted

Let your computer do the work for you:

Quote: "GNU gperf is a perfect hash function generator. For a given list of strings, it produces a hash function and hash table, in form of C or C++ code, for looking up a value depending on the input string. The hash function is perfect, which means that the hash table has no collisions, and the hash table lookup needs a single string comparison only. "

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but for this, CMPH would be better as it was conceived to create minimal perfect hash functions for very large sets of keys. – Dan D. Jul 19 '11 at 7:00
Thanks, probably I will try both. – tin_coder Jul 19 '11 at 7:38

I have implemented a minimal perfect hash function tool in Java that needs less than 2.0 bits per key. This is slightly better than the best algorithm in the CMPH tool (CHD), which needs at least 2.06 bits per key. Also, generating the hash function should be faster.

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I'm working on an improved algorithm that needs less than 1.58 bits per entry. – Thomas Mueller Dec 12 '15 at 11:44

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