The only method that the
Iterator has for you to implement is:
fn next(&mut self) -> Option<Self::Item>
Self then there would be no way to get anything out of the iterator other than more iterators.
You could of course implement other methods and/or traits that would allow you to obtain values from the iterator. This is not the behaivour expected by many of the use cases for iterators in the standard library (or for that matter 3rd party libraries).
Iterator methods such as
min etc expect to receive the values directly from
You could work around this by implementing underlying traits like
Ord, etc for your iterator
Other methods like
map could be used, but they would be less ergonimic.
Generic functions & structs may express requirements on type parameters in terms of the iterator's item. An example of this is the
collect method, which collects the iterator's items into a container - but to do that it needs to know what type the items will have.
In short - because your iterator does not comply to the expected behaivour, you will be battling to use it many of the places where you would expect to use an Iterator.
What is useful is an iterator that can be cloned, such that you can for instance return to a point in iteration if needed. You mentioned in the comments:
You can also save any value of seq.next() which is itself an iterator.
If the iterator implements
Clone then you can save it with:
let saved = iter.clone();
That has the advantage that you are only cloning it when needed, rather than on each iteration.