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Apparently Tycon stands for "type constructor," but then what does TCon represent? What about Tyvar and TVar? Why is there the need to seperate the T and Ty?

first.

The 'T' in `TCon`

, `TVar`

etc. is just a marker that the concern is types and that they're constructors of the type `Type`

. `TCon`

takes a value of type `Tycon`

and constructs a value of type `Type`

from that etc. The constructor of `Type`

isn't prefixed with `Ty`

but rather only `T`

to avoid confusion, the type could have been defined

```
data Type = Tyvar Tyvar | Tycon Tycon | ...
```

since value constructors and types live in different namespaces, but that would have opened up the road for far more confusion.

1 Type variables

are type expressions that can be substituted with other type expressions, their identifiers start with lower case letters (or they can be symbols not starting with ':').

2 Type constructors

are type expressions taking zero or more type expression arguments to construct a type of kind `*`

, for example

are nullary type constructors, they take zero type expression arguments to construct a type of kind `*`

, these are also type constants.

are unary type constructors, they take one type expression (of kind `*`

in these examples, but unary type constructors can take arguments of other kinds too).

are binary type constructors,

is a ternary type constructor, taking two arguments of kind `*`

and one of kind `* -> *`

(the kind of `StateT`

is thus `StateT :: * -> (* -> *) -> * -> *`

).

3 Type application

is a type expression of the form `t1 t2`

. It is only well-formed if `t2`

has kind `k2`

and `t1`

has kind `k2 -> k3`

(analogous to function application). For example `StateT s`

is a type application, the type expression `StateT`

is applied to the type variable `s`

.

4 Parenthesized type

is a type expression in parentheses, that may be necessary for precedence resolution or parsing, otherwise it's the same as the unparenthesized type expression, for example in

```
instance Monad (Either e) where ...
```

the parenthesized type expression `(Either e)`

is the same as `Either e`

, but the parentheses are necessary to distinguish it from an instance of a two-parameter class for the two type expressions `Either`

and `e`

. In the type

```
StateT s ((->) a) b
```

the parentheses around `(->) a`

are for precendence. (Note, the type constructor `(->)`

is a special case not covered by the general rule that type constructors begin with upper case letters, as `[]`

, `(,)`

, `(,,)`

etc.)

Now, type constants. Those are just type expressions containing no type variables, but I don't think it's formally defined anywhere. So any type expression with only uppercase identifiers (including symbols starting with ':') and the special cases (`[]`

, `(->)`

, `(,)`

, ...) is a type constant.

- single token type expressions starting with an uppercase letter (':' for symbols) or the special cases are type constants
- a type expression consisting entirely of type constants is a type constant