Apply `update-fn` to `input` iteratively until a cycle is found.
Return [`start` `end`] of the cycle, so applying `start` times is the
same as `end` times. An optional `hash-fn` may be provided - in this
case when two results have the same hash the cycle is reported.

See also `find-cycle`. Finds the result of applying `update-fn` to `input` `n`
times by first detecting a cycle in the iteration using `find-cyclic-equivalent`
and then computing based on that. Note that there is an inherent inefficiency
because we compute first to find the cycle and then again to find the answer.
This is necessary to support non-identity `hash-fn`.

See also `find-cycle`. Assuming applying `update-fn` repeatedly to `input` produces a cycle
(or repeats a hash if the optional `hash-fn` is provided), finds an equivalent number of
applications of `update-fn` to the provided `n` but less than the number needed to reach the
end of the first cycle.

Iterate one argument function `f` on starting value `x`
unil a fixed point is reached, returning [`fixed-point` `n``]
where `n` is the number of iterations needed to reach the fixed point.
If `max-iterations` is provided then will return nil after applying
`f` that many times instead of running forever.

Given a function `f` that takes at least two arguments
returns a new function that reverses the order of
the first two arguments

Iterate one argument function `f` on starting value `x`
and return the first iterate that makes `pred` true.

Given a function `f` returns a new function that takes its
arguments in the reverse order.