Concepts

The Subsumption Rule

The Subtype Relation

Slide QA1

Record Subtyping…

row type

index? record impl as list

width/depth/permulation

  • multiple step rules

Java

  1. class - no index (thinking about offset)

having both width/permulation subtyping make impl slow

  • OOP - hmm
  • ML has no permulation - for perf reason (static structure) as C

ML has depth?

  • a little bit by equality

OCaml objection has all three

Slide QA2

Looking at Contravariant!

  1. (2) {i1:S,i2:T}→U <: {i1:S,i2:T,i3:V}→U

  2. (4) {i1:T,i2:V,i3:V} <: {i1:S,i2:U} * {i3:V} is interesting:

the interesting thing is, why don’t we make some subtyping rules for that as well?

  • there are definitely code can do that
  • their runtime semantics are different tho they carry same information
  • coercion can used for that

3 and 4. (5) …

A <: Top => Top -> A <: A -> A — contravariant

if we only care (A*T), can use T:Top

but to type the whole thing : A

Top -> A?
but noticed that we said \z:A.z

can we pass A -> A into Top -> A?
more specific more general

smallest -> most specific -> A -> A
largest -> most specific -> Top -> A

  1. “The type Bool has no proper subtypes.” (I.e., the only type smaller than Bool is Bool itself.)
    Ture unless we have Bottom

hmm seems like Bottom in subtyping is different with Empty/Void, which is closer to logical Bottom ⊥ since Bottom here is subtyping of everything..
OH they are the same: (nice)

https://en.wikipedia.org/wiki/Bottom_type

  1. True

Inversion Lemmas for Subtyping

inversion doesn’t lose information, induction does.

auto rememeber?? —- dependent induction
hetergeous equaltiy

In soundness proof

  • subtyping only affects Canonical Forms + T_Sub case in induction

Lemma: If Gamma ⊢ \x:S1.t2 ∈ T, then there is a type S2 such that x⊢>S1; Gamma ⊢ t2 ∈ S2 and S1 → S2 <: T.

why T not arrow? Top…

if including Bottom…many proof becomes hard, canonical form need to say…might be Bottom?

no, no value has type Bottom (Void)…