A rule of thumb I follow is, depending on implementation, to make the return types as specific as possible and the types of arguments as general as possible. It's an easy to follow rule and it provides you with consistent guarantees on the type properties with maximum freedom.
Say, if you have a function implementation which just traverses a data structure with methods like
fold - those that are implemented in the trait
Traversable, you can expect it to perform equally on any type of input collection - be it a
HashSet or even a
HashMap, so your input argument should be specified as
Traversable[T]. The choice of output type of the function should only depend on its implementation: in this case it should be
Traversable too. If however in your function you force this data structure to some more specific type with methods like
toSet, you should specify the appropriate type. Notice the consistency between the implementation and the return type?
If your function accesses the elements of input by index, the input should be specified as
IndexedSeq, as it is the most general type that provides you with guarantees on effective implementation of method
In case of abstract members the same rule applies with the only difference that you should specify the return types based on how you plan to use them instead of implementation, thus most often they will be more general than in implementation. The categorical choices
Map are the most expected.
Following this rule you protect yourself from very common cases of bottleneck when, for instance, items get appended to
contains gets called on a
Seq instead of a
Set, yet your program remains a nice degree of freedom and is consistent in sense of choice of types.