# Algorithm for a unique integer for any unsigned hash integer

I am looking for a c/c++ algorithm that creates a unique index for a any given unsigned integer for a specified initial limit. for ex: for a given initial size, lets say 100, if a given unsigned integer ex: 1078964, i want an algorithm that creates an unique index which should be less than 100. I mean it would be hash fuunction implemented in c/c++..

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I'm confused. How is what you are asking for different than the modulus operator, e.g. n % 100? –  frankc Jan 18 '12 at 21:21
Hash functions are by definition not unique. They are a reduction of one set to a another (typically smaller) set. For your example, e.g. `number%100` would generate such a hash value. Any hash table algorithm needs to handle collisions e.g. by a linked list. –  Dov Grobgeld Jan 18 '12 at 21:22
Making the index unique is the hard part! –  Austin Henley Jan 18 '12 at 21:23
And how do you propose mapping all 4 billion+ unsigned integers to a unique number between 0 and 100? You either need to know all the numbers in advance for a perfect hash function (which still won't work if you have more than 100 source numbers), or deal with collisions. Your question, as it stands, is mathematically impossible. –  Cameron Jan 18 '12 at 21:23
I'm with Cameron with this one, the question is ill-formed, I think some clarifications are needed. –  Giovanni Funchal Jan 18 '12 at 21:30

A very simple "hash function" would be modulo 100:

``````int hash = source % 100;
``````
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If it's C++, it's not an algorithm, it's a program.

You want a hash function for integers. The fact that the hashed value must be < 100 is a detail. Did you look this up in google or wikipedia?

Unless there's another wanted characteristic, the modulo function should do. In C++:

``````int hash(int key, int bucket_size) {
return key % bucket_ize;
}
``````
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Sorry, but algorithms are algorithms in any (implementation) language... –  Cameron Jan 18 '12 at 21:26
No, they are implementations. –  Giovanni Funchal Jan 18 '12 at 21:27
Hmm, good point! –  Cameron Jan 18 '12 at 21:38

Easiest (and if you don't know more about the incoming values IMHO only) solution is to memorise the integers you have already used. Simplest version:

``````unsigned char hash(unsigned n)
{
static int next_index = 0;
static unsigned cache[100];

if (next_index >= 100)
throw std::runtime_error("HASH FUNCTION OVERFLOW!!!1elf");

for (int i = 0; i < next_index; ++i)
{
if (cache[i] == n)
return i;
}

cache[next_index] = n;
return next_index++;
}
``````
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Just watch out, so you never hash more than 100 integers :) –  kotlinski Jan 18 '12 at 21:30
This snippet is prone to error. The cache array overflows on the 101. call. –  erenon Jan 18 '12 at 21:33
He said that 100 was the limit, he didn't say the function should enforce that :) I changed the function now ;) –  filmor Jan 18 '12 at 21:34
Depends on the methodology, but IMO the function should look like this then: char hashMaxHoundredItem... This might be picky, but I don't like functions you must handle with such care. –  erenon Jan 18 '12 at 21:37
unsigned char hash(unsigned n) { static int next_index = 0; static unsigned cache[table_size]; if (next_index >= table_size) { int i=0; unsigned newCache[2*table_size]; for(i=0;i<table_size;i++) { newCache[i]=cache[i]; } cache=newCache; } for (int i = 0; i < next_index; ++i) { if (cache[i] == n) return i; } cache[next_index] = n; return next_index++; } does this works? –  user1119970 Jan 19 '12 at 9:16

There are lots of different ways to do this.

The simplest would be to use the modulo operator `%`:

``````int hash = big_number%100;
``````

Or you could use a library like this: http://en.cppreference.com/w/cpp/utility/hash

Finally you can always try to implement something more complex but it really depends on what you are trying to accomplish.

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I think what you are looking for is the modulus operator:

``````1078964 % 100 == 64
``````

It returns what the remainder would be of division.

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It cannot be unique since the domain `x` you give to the hash function `h` is much bigger than the space of the results `h(x)`.

The collisions problem however is something that cannot be resolved in hash functions.

Thus, you cannot write the hash function you are asking for.

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It is just not possible to make a unique hash for any unsigned integer, that fits into the range [0, 100]. Think of it as each integer value is a ball, and the hash indexes are buckets. How could you fit a billion balls into a hundred buckets, that fit one ball each?

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Per user1119970's follow up comment above, yes you could parameterize the size of `cache` on a constant. Outside of your method, just add

``````const int initialTableSize = 100;
// or
#define initialTableSize = 100;
``````

As for growing the size of the cache table dynamically, yes it's also possible. I would strongly suggest using a heavier weight solution, like making a class and managing the memory better than just overwriting a static variable (which, come to think of it, might not even compile). Look for a tutorial on implementing an array list or a heap allocator or any number of other data structures and adopt it for unsigned integers and returning the 'hash'.

In reality, I would say that calling this a hash is a misnomer. Your problem is really more in the domain of indexing. If you've done any work with a DBMS (MySQL, MSSQL etc.), you would recognize filmor's solution is very similar to a table with an auto incrementing index. If you need or ever might need or want any level of persistance for your cache of integers, I would suggest looking into a database solution. SQLite should be nice and easy to set up.

I could offer a more advice on implementation and design, but it would probably be wasted without knowing more about what problem you're trying to solve.

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