On a slightly more general note, this is something that confused me at first--so, let me reiterate and emphasize something Nathan Sanders said:
Haskell doesn't allow ad-hoc overloading of names
This is true by default, but seems surprisingly non-obvious at first. Haskell allows two styles of polymorphic functions:
- Parametric polymorphism, which allows a function to operate on arbitrary types in a structurally identical, abstract manner
- Ad-hoc polymorphism, which allows a function to operate on any of a defined set of types in a structurally distinct but, hopefully, semantically identical manner
Parametric polymorphism is the standard (and preferred given a choice) approach in Haskell and related languages; ad-hoc polymorphism is the standard in most other languages, going by names such as "function overloading", and is often implemented in practice by writing multiple functions with the same name.
Ad-hoc polymorphism is enabled in Haskell by type classes, which require the class to be defined with all of its associated ad-hoc polymorphic functions, and instances to be explicitly declared for the types used by overload resolution. Functions defined outside of an instance declaration are never ad-hoc polymorphic, even if their types are sufficiently distinct that a reference would be unambiguous.
So, when multiple non-type-class functions with identical names are defined in different modules, importing both modules unqualified will result in errors if you try to use either function. Combinations of of
Data.Set are particularly egregious in this regard, and because parts of
Data.List are exported by the Prelude, the standard practice is (as Nathan Sanders says) to always import the others qualified.