**What is TypeCast actually for?**

It isn't used for retrieving type information about existential types (that would break the type system, so it is impossible). To understand `TypeCast`

, we first have to understand some particular details about the haskell type system. Consider the following motivating example:

```
data TTrue
data TFalse
class TypeEq a b c | a b -> c
instance TypeEq x x TTrue
instance TypeEq x y TFalse
```

The goal here is to have a boolean flag - on the type level - which tells you if two types are equal. You can use `~`

for type equivalence - but this only gives you failure on type in equivalence (ie `Int ~ Bool`

doesn't compile as opposed to `TypeEq Int Bool r`

will give `r ~ TFalse`

as the inferred type). However, this doesn't compile - the functional dependencies conflict. The reason is simple - `x x`

is just an instantiation of `x y`

(ie `x ~ y`

=> `x y == x x`

), so according to the rules of fundeps (see the docs for full details of the rules) , the two instances must have the same value for `c`

(or the two values must be insantiations of one another - which they aren't).

The `TypeEq`

class exists in the `HList`

library - lets take a look how it is implemented:

```
class HBool b => TypeEq x y b | x y -> b
instance TypeEq x x HTrue
instance (HBool b, TypeCast HFalse b) => TypeEq x y b
-- instance TypeEq x y HFalse -- would violate functional dependency
```

Naturally these instance don't conflict - `HTrue`

*is* an instantiation of `b`

. But wait! Doesn't `TypeCast HFalse b`

imply that `b`

*must* be `HFalse`

? Yes, it does, but the compiler *does not check the class instance constraint when attempting to resolve fundep conflicts*. This is the key 'feature' which allows this class to exist.
As a brief note - the two instances still overlap. But with `-XUndecidableInstances -XOverlappingInstances`

, the compiler will choose the first instance *preferentially*, due to the fact that the first instance is more 'specific' (in this case, that means it has at most 2 unique types - `x`

and `HTrue`

, while the other instance has at most 3). You can find the full set of rules that `UndecidableInstances`

uses in the docs.

**Why is TypeCast written the way it is?**

If you look in the source for HList, there are multiple implementations of `TypeCast`

. One implementation is:

```
instance TypeCast x x
```

The straightforward instance one would assume will work. Nope! From the comments in the file containing the above definition:

```
A generic implementation of type cast. For this implementation to
work, we need to import it at a higher level in the module hierarchy
than all clients of the class. Otherwise, type simplification will
inline TypeCast x y, which implies compile-time unification of x and y.
```

That is, the type simplifier (whose job it is to remove uses of type synonyms and constant class constraints) will see that `x ~ y`

in `TypeCast x x`

since that is the only instance that matches, but only in certain situations. Since code that behaves differently in different cases is 'Very Bad', the authors of HList have a second implementation, the one in your original post. Lets take a look:

```
class TypeCast a b | a -> b, b -> a
class TypeCast' t a b | t a -> b, t b -> a
class TypeCast'' t a b | t a -> b, t b -> a
instance TypeCast' () a b => TypeCast a b
instance TypeCast'' t a b => TypeCast' t a b
instance TypeCast'' () a a
```

In this case, `TypeCast x y`

can *never* be simplified without looking at the class constraint (which the simplifier will not do!); there is no *instance head* which can imply `x ~ y`

.

However, we still need to assert that `x ~ y`

at some point in time - so we do it with more classes!
The only way we can know `a ~ b`

in `TypeCast a b`

is if `TypeCast () a b`

implies `a ~ b`

. This is only the case if `TypeCast'' () a b`

implies `a ~ b`

, which it does.

I can't give you the whole story unfortunatley; I don't know why

```
instance TypeCast' () a b => TypeCast a b
instance TypeCast' () a a
```

doesn't suffice (it works - I don't know why it wouldn't be used). I suspect it has something to do with error messages. I'm sure you could track down Oleg and ask him!

`~`

instead of`TypeCast`

. You can get the paper from the archive.org – aavogt Nov 23 '13 at 0:12