Excuse me for my extremely limited Haskell-fu.
I have a series of
data types, defined in different modules, that are structured the same way:
-- in module Foo data Foo = Foo [Param] -- in module Bar data Bar = Bar [Param] -- * many more elsewhere
I'd like to have a set of functions that operate on the list of params, eg to add and remove elements from the list (returning a new
Bar with a different list of params, as appropriate).
As far as I can tell, even if I create a typeclass and create instances for each type, I'd need to define all of these functions each time, ie:
-- in some imported module class Parameterized a where addParam :: a -> Param -> a -- ... other functions -- in module Foo instance Parameterization Foo where addParam (Foo params) param = Foo (param:params) -- ... other functions -- in module Bar instance Parameterization Bar where -- this looks familiar... addParam (Bar params) param = Bar (param:params) -- ... other functions
This feels tedious -- far past the degree where I start thinking I'm doing something wrong. If you can't pattern match regardless of constructor (?) to extract a value, how can boilerplate like this be reduced?
To rebut a possible line of argument: yes, I know I could simply have one set of functions (
addParam, etc), that would explicitly list each constructor and pattern match put the params -- but as I'm building this fairly modularly (the
Bar modules are pretty self-contained), and I'm prototyping a system where there will be dozens of these types, a verbose centralized listing of type constructors seems... wrong.
It's quite possible (probable?) that my approach is simply flawed and that this isn't anywhere near the right way to structure the type hierarchy anyhow -- but as I can't have a single
data type somewhere and add a new constructor for the type in each of these modules (?) I'm stumped at how to get a nice "plugin" feel without having to redefine simple utility functions each time. Any and all kind suggestions gladly accepted.