Well, how exactly should the compiler see that "the old vector is not used anywhere"? Say we have a function that changes a vector:
changeIt :: Vector Int -> Int -> Vector Int
changeIt vec n = vec // [(0,n)]
Just from this definition, the compiler cannot assume that
vec represents the only reference to the vector in question. We would have to annotate the function so it can only be used in this way - which Haskell doesn't support (but Clean does, as far as I know).
So what can we do in Haskell? Let us say we have another silly function:
changeItTwice vec n = changeIt (changeIt vec n) (n+1)
Now GHC could inline
changeIt, and indeed "see" that no reference to the intermediate structure escapes. But typically, you would use this information to not produce that intermediate data structure, instead directly generating the end result!
This is a pretty common optimization (for lists, there is fusion, for example) - and I think it plays pretty much exactly the role you have in mind: Limiting the number of times a data structure needs to be copied. Whether or not this approach is more flexible than in-place-updates is up for debate, but you can definitely recover a lot of performance without having to break abstraction by annotating uniqueness properties.
(However, I think that
Vector currently does not, in fact, perform this specific optimization. Might need a few more optimizer rules...)