lean2/src/builtin/obj
Leonardo de Moura 6d7ec9d7b6 refactor(kernel): add heterogeneous equality back to expr
The main motivation is that we will be able to move equalities between universes.

For example, suppose we have
    A : (Type i)
    B : (Type i)
    H : @eq (Type j) A B
where j > i

We didn't find any trick for deducing (@eq (Type i) A B) from H.
Before this commit, heterogeneous equality as a constant with type

   heq : {A B : (Type U)} : A -> B -> Bool

So, from H, we would only be able to deduce

   (@heq (Type j) (Type j) A B)

Not being able to move the equality back to a smaller universe is
problematic in several cases. I list some instances in the end of the commit message.

With this commit, Heterogeneous equality is a special kind of expression.
It is not a constant anymore. From H, we can deduce

   H1 : A == B

That is, we are essentially "erasing" the universes when we move to heterogeneous equality.
Now, since A and B have (Type i), we can deduce (@eq (Type i) A B) from H1. The proof term is

  (to_eq (Type i) A B (to_heq (Type j) A B H))  :  (@eq (Type i) A B)

So, it remains to explain why we need this feature.

For example, suppose we want to state the Pi extensionality axiom.

axiom hpiext {A A' : (Type U)} {B : A → (Type U)} {B' : A' → (Type U)} :
      A = A' → (∀ x x', x == x' → B x == B' x') → (∀ x, B x) == (∀ x, B' x)

This axiom produces an "inflated" equality at (Type U) when we treat heterogeneous
equality as a constant. The conclusion

     (∀ x, B x) == (∀ x, B' x)

is syntax sugar for

   (@heq (Type U) (Type U) (∀ x : A, B x) (∀ x : A', B' x))

Even if A, A', B, B' live in a much smaller universe.

As I described above, it doesn't seem to be a way to move this equality back to a smaller universe.

So, if we wanted to keep the heterogeneous equality as a constant, it seems we would
have to support axiom schemas. That is, hpiext would be parametrized by the universes where
A, A', B and B'. Another possibility would be to have universe polymorphism like Agda.
None of the solutions seem attractive.

So, we decided to have heterogeneous equality as a special kind of expression.
And use the trick above to move equalities back to the right universe.

BTW, the parser is not creating the new heterogeneous equalities yet.
Moreover, kernel.lean still contains a constant name heq2 that is the heterogeneous
equality as a constant.

Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
2014-02-07 10:28:10 -08:00
..
Int.olean refactor(kernel): add heterogeneous equality back to expr 2014-02-07 10:28:10 -08:00
kernel.olean refactor(kernel): add heterogeneous equality back to expr 2014-02-07 10:28:10 -08:00
Nat.olean refactor(kernel): add heterogeneous equality back to expr 2014-02-07 10:28:10 -08:00
optional.olean refactor(kernel): add heterogeneous equality back to expr 2014-02-07 10:28:10 -08:00
pair.olean refactor(builtin): move pair definition and theorems to pair.lean 2014-02-06 09:20:52 -08:00
Real.olean feat(kernel): add dependent pairs 2014-02-03 16:52:49 -08:00
specialfn.olean feat(kernel): add dependent pairs 2014-02-03 16:52:49 -08:00
subtype.olean refactor(kernel): add heterogeneous equality back to expr 2014-02-07 10:28:10 -08:00
sum.olean refactor(kernel): add heterogeneous equality back to expr 2014-02-07 10:28:10 -08:00