Monads are a popular tool for the working functional programmer to structure
effectful computations. This paper presents polymonads, a generalization of
monads. Polymonads give the familiar monadic bind the more general type forall
a,b. L a -> (a -> M b) -> N b, to compose computations with three different
kinds of effects, rather than just one. Polymonads subsume monads and
parameterized monads, and can express other constructions, including precise
type-and-effect systems and information flow tracking; more generally,
polymonads correspond to Tate's productoid semantic model. We show how to equip
a core language (called lambda-PM) with syntactic support for programming with
polymonads. Type inference and elaboration in lambda-PM allows programmers to
write polymonadic code directly in an ML-like syntax--our algorithms compute
principal types and produce elaborated programs wherein the binds appear
explicitly. Furthermore, we prove that the elaboration is coherent: no matter
which (type-correct) binds are chosen, the elaborated program's semantics will
be the same. Pleasingly, the inferred types are easy to read: the polymonad
laws justify (sometimes dramatic) simplifications, but with no effect on a
type's generality.Comment: In Proceedings MSFP 2014, arXiv:1406.153