# What would be a good way to encode 52 integers into a fewer amount?

So for example, I have an array containing 52 shuffled integers between 0 and 52 - no repeated values.

How can I encode this array according to an algorithm such that it can be represented as less numbers, and then decode and again to reproduce the original values?

I was thinking I could create a big binary String and group grouping of 0's or 1's together as characters, and expand on that. Would that be the way to go? Thanks

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Drop last integer, it can be calculated from previous 51 :) –  blaze Aug 2 '11 at 11:45
possible duplicate of Fast permutation -> number -> permutation mapping algorithms –  Nick Johnson Aug 2 '11 at 12:06

## 4 Answers

There are 52! (that's fifty two factorial) different arrays like you describe. By the way they are called permutations. A single number between 0 and 52! uniquely represents such a permutation. You need 226 bits to store such a number. Eight 32-bit integers would do just as well.

You can read about mapping numbers to permutations and back here.

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Good answer, but this question is really a duplicate of the one you link to. –  Nick Johnson Aug 2 '11 at 12:06

you need a 6 bit var to store a values that is lower than 64. Union is the key

``````union DATAPACK
{
unsigned int code1 : 6;
unsigned int code2 : 6;
unsigned int code3 : 6;
unsigned int code4 : 6;
....
} array1;
``````
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If your range is 0 to 52 then you only need 6 bits to store each number - so instead of 52 bytes (assuming you are using 1 byte per digit) you would only need 52 x 6/8 or 39 bytes.

Hardly seems worth saving though unless you have trillions of them to store.

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It's to send the state of a deck of cards, so would be at max 39 bytes then. Which isn't a problem at all, was thinking more along the lines of actually hiding the data a bit in the process as well? –  paranoid-android Aug 2 '11 at 9:58

What about partition the array in a quadtree or a spatial index and then use a space-filling-curve to reduce the complexity? Maybe a z-curve can do it or a hilbert-curve? Do you need a power of 2 2d array? It this your requirement?

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You downvote? It's discrete mathematics!? –  Phpdna Aug 2 '11 at 10:43