Yes, sequences in Clojure are described as "logical lists" with three operations (first, next and cons).

A sequence is essentially the Clojure version of an iterator (although clojure.org insists that sequences are not iterators, since they don't hold iternal state), and can only move through the backing collection in a linear front-to-end fashion.

Lazy vectors do not exist, at least not in Clojure.

If you want constant time lookups over a range of indexes, without calculating intermediate elements you don't need, you can use a function that calculates the result on the fly. Combined with memoization (or caching the results in an arg-to-result hash on your own) you get pretty much the same effect as I assume you want from the lazy vector.

This obviously only works when there are algorithms that can compute f(n) more directly than going through all preceding f(0)...f(n-1). If there is no such algorithm, when the result for every element depends on the result for every previous element, you can't do better than the sequence iterator in any case.

**Edit**

BTW, if all you want is for the result to be a vector so you get quick lookups afterwards, and you don't mind that elements are created sequentially the first time, that's simple enough.

Here is a Fibonacci implementation using a vector:

```
(defn vector-fib [v]
(let [a (v (- (count v) 2)) ; next-to-last element
b (peek v)] ; last element
(conj v (+ a b))))
(def fib (iterate vector-fib [1 1]))
(first (drop 10 fib))
=> [1 1 2 3 5 8 13 21 34 55 89 144]
```

Here we are using a lazy sequence to postpone the function calls until asked for (`iterate`

returns a lazy sequence), but the results are collected and returned in a vector.

The vector grows as needed, we add only the elements up to the last one asked for, and once computed it's a constant time lookup.

Was it something like this you had in mind?