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1 Efficiency of lazy functional languages

This is a problem that came up during IRC discussions. We consider a purely functional language. By purely functional we mean a language that has value semantics. That is, there is no function such that after evaluation of the function the value that was referred to by something else changed. (Also known as "No Side Effects"). A value is "changed" when it is not the case during an evaluation that when the old value and the new value would both be fully evaluated, there wouldn't be the same result. This should make sure that laziness is allowed in the purely functional language.

The general problem is whether these purely functional languages can implement all algorithms that can be implemented in a language like C as efficient in an amortized sense ignoring space-usage.

1.1 Specific problems

As for a specific problem [1]: Given a list of numbers, implement a data type s.t. every number is stored in a structure, all structures together hold the numbers exactly once. One operation that needs to be supported is to move one element(it doesn't matter which one) to another structure (possibly creating a new structure).

A structure is anything that can be given a name. Moving in this context means that one structure before the operation contains the element and after it, doesn't and that another structure does contain the element being moved. In Haskell a structure would be isomorphic to a data type.

A second operation is that given a number one should be able to return the structure holding that number. All operations should run in amortized O(1) time.

[1] It might be the case that this is a trivial problem and that I forgot some further conditions, if that's the case I will correct it later when a solution is posted.