What is the optimal data structure to use, knowing that the data to be stored consists of a fixed number of unique values, where order matters? In particular, I'm trying to optimally store the state of a deck of 52 cards, where each card is represented by a number from 1 to 52.
If your only concern is expressing the permutation (wrt the natural order), you could choose a factorial number system, which is the smallest thinkable representation for a permutation. BTW: this is not a very practical solution; 52! is approximately 8E67 ;) 


A an array/vector will do this nicely for you. You have a fixed number of objects (cards) that you can identify with an integer without gaps between the possible integer values. This allows you to use a data structure that occupies a contiguous block of memory and allows direct access based on the value (indexing), and the access uses the natural ordering of integer values  this fits an array/vector perfectly 


If you want to ensure the uniqueness in the set you could use a LinkedHashSet in Java 


Given that order matters and there's a fixed number of elements, then simply use an array of cards, something like this:
Just make sure to index from 0 to 51, in most programming languages it'd be simpler than indexing from 1 to 52. 


You just need a single 226 bit integer plus a numbering scheme for mapping the deck into its possible orderings. Storing a message in a deck of cards Detailed explanation of the above link keydeck (simple Python code) 

