You've received good answers to your other questions, but I think your first question hasn't been fully answered.
Type constructors are something relatively foreign to other programming languages. Templated types in C++ are kind of similar, though they get unwieldy much faster. Also, templated types aren't as expressive. Type constructors are fully first-class. You can create types that are polymorphic in type constructors that will be applied to other values, as well as polymorphic in values applied to a type constructor.
data Maybe a = Nothing
| Just a
This is approximately the definition of Maybe from the standard libraries. It has two value constructors. The first one,
Nothing, takes no arguments. The second one,
Just, takes a single argument of the same type as the
Maybe is applied to. In haskell, lowercase types are always type variables. So the
a in the
Just a definition means "the type called a, in this context". In that context,
a is defined to be an argument to the data type, since it also appears before the
= in the data definition.
Part of Haskell's type system is interesting here. While
Maybe is a valid type by itself, it's not a type that can have values. It isn't the right type of type to have values. This is a part of a concept called kinds, which I won't go into further here, but is really helpful for understanding Haskell code eventually.
Now, let's look at a slightly more sophisticated example, showing the difference between polymorphism in different types of types.
data DumbExample1 a = DumbExample1 (Maybe a) [a]
data DumbExample2 f = DumbExample2 (f Int) (f String)
The above dumb examples are definitions of new polymorphic data types. Each one defines a type with a value constructor with the same name as the type -
DumbExample2. Both value constructors take two arguments, mostly to better illustrate them below.
-- v1 is an example of the polymorphism you can do with templates in C++
-- v1 is a DumbExample1 with the type variable a set to String
v1 :: DumbExample1 String
-- v1 is constructed with the Maybe field containing a string
-- and the list containing two more
v1 = DumbExample1 (Just "foo") ["bar", "baz"]
-- v2 is an example of the polymorphism you cannot easily do with templates in C++
-- (it might be possible to do something equivalent, but it would look a lot clumsier
-- v2 is a DumbExample2 with the type variable f set to Maybe
v2 :: DumExample2 Maybe
-- v2 is construced with the first field containing Just 5, and the second field not
-- containing any String at all
v2 = DumbExample2 (Just 5) Nothing
Haskell's type system is its best feature, by far. This is just barely scratching the surface of what it can do. But I hope this gives you a bit of a taste of why my answer to your first question is essentially "this isn't really a concept any mainstream language has". When you get further into Haskell, you'll discover that polymorphism of type constructors is used heavily to create expressive types.
(It's even used in the oh so terrifyingly named language construction - but actually so simple it takes a while to believe that's all there is to it - the Monad. Don't worry about Monads. They're simpler and less important than you think. Disregard this parenthetical note if the word scares you.)