This PR moves parts of the iterator library from `Std` to `Init`. The
reason is that the polymorphic range API must be in `Init` and it
depends on the iterators.
This PR provides the means to reason about "equivalent" iterators.
Simply speaking, two iterators are equivalent if they behave the same as
long as consumers do not introspect their states.
This PR provides the iterator combinator `filterMap` in a pure and
monadic version and specializations `map` and `filter`. This new
combinator allows to apply a function to the emitted values of a stream
while filtering out certain elements.
`map` should have an optimized `IteratorCollect` implementation but it
turns out that this is not possible without a major refactor of
`IteratorCollect`: `toArrayMapped` requires a proof that the iterator is
finite. If `it.mapM f` is `Finite` but `it` is not, then such a proof
does not exist. `IteratorCollect` needs to take a proof that the loop
will terminate for the given monadic function `f` instead. This will not
be done in this PR.
This PR provides simple lemmas about `toArray`, `toList` and `toListRev`
for the iterator library.
It also changes the definition of `Iter` and `IterM` so that they aren't
equal anymore and in particular not definitionally equal. While it was
very convenient to have them be definitionally equal when working with
dependent code, it was also confusing and annoying that one would
sometimes end up with something like `it.toList = IterM.toList it`,
where `it : Iter β`.
This PR introduces a very minimal version of the new iterator library.
It comes with list iterators and various consumers, namely `toArray`,
`toList`, `toListRev`, `ForIn`, `fold`, `foldM` and `drain`. All
consumers also come in a partial variant that can be used without any
proofs. This limited version of the iterator library generates decent
code, even with the old code generator.
