**The hints for problem 2 were being actively developed until Saturday morning. They're stable now. Remember you have a grace period until Sunday Nov. 28 to complete this homework.** 1. Make sure that your operation-counting monad from [[assignment6]] is working. Modify it so that instead of counting operations, it keeps track of the last remainder of any integer division. You can help yourself to the functions: let div x y = x / y;; let remainder x y = x mod y;; Write a monadic operation that enables you to retrieve the last-saved remainder, at any arbitrary later point in the computation. For example, you want to be able to calculate expressions like this: (((some_long_computation / 12) + 5) - most_recent_remainder) * 2 - same_most_recent_remainder + 1 The remainder here is retrieved later than (and in addition to) the division it's the remainder of. It's also retrieved more than once. Suppose a given remainder remains retrievable until the next division is performed. 2. For the next assignment, read the paper [Coreference and Modality](/coreference-and-modality.pdf). Your task will be to re-express the semantics they offer up to the middle of p. 16, in the terms we're now working with. You'll probably want to review [the lecture notes from this week's meeting](/week9). Some advice: * You don't need to re-express the epistemic modality part of their semantics, just their treatment of extensional predicate logic. Though extra credit if you want to do the whole thing. * You'll want to use "implicitly represented" mutable variables, or a State monad. * Here are some [hints](/hints/assignment_7_hint_1).