I'm having trouble using Haskell's type system elegantly. I'm sure my problem is a common one, but I don't know how to describe it except in terms specific to my program.

The concepts I'm trying to represent are:

datapoints, each of which takes one of several forms, e.g. (id, number of cases, number of controls), (id, number of cases, population)

sets of datapoints and aggregate information: (set of id's, total cases, total controls), with functions for adding / removing points (so for each variety of point, there's a corresponding variety of set)

I could have a class of point types and define each variety of point as its own type. Alternatively, I could have one point type and a different data constructor for each variety. Similarly for the sets of points.

I have at least one concern with each approach:

With type classes: Avoiding function name collision will be annoying. For example, both types of points could use a function to extract "number of cases", but the type class can't require this function because some other point type might not have cases.

Without type classes: I'd rather not export the data constructors from, say, the Point module (providing other, safer functions to create a new value). Without the data constructors, I won't be able to determine of which variety a given Point value is.

What design might help minimize these (and other) problems?