On 19 May 2018, at 20:09, Nicolai Kraus <nicola...@gmail.com> wrote:
Interesting! At least I had not been aware of it. I think there's another very short way to see that "equivalence induction without computation rule" implies univalence. Recall the Capriotti/Licata/Orton-Pitts observation which says that ua + ua-beta (i.e. a function A~B -> A=B which is a section of A=B -> A~B) imply full univalence; see arXiv:1712.04890, 4.6.
By distributivity of Pi and Sigma, we can write the type of pairs (ua,ua-beta) as a type family P indexed over equivalences: for types A,B and an equivalence e: A~B, we define P(A,B,e) := Sigma (p:A=B). id2equiv(p)=e. To inhabit P, we apply equivalence induction.
It seems there are many such "coherification"-constructions in HoTT.
-- Nicolai
On 18/05/18 07:36, Martín Hötzel Escardó wrote:
Equivalence induction says that in order to prove something for all equivalences, it is enough to prove it for all identity equivalences for all types.--
This follows from univalence. But also, conversely, univalence follows from it:
Is this known? Some years ago it was claimed in this list that equivalence induction would be strictly weaker than univalence.
To prove the above, I apply a technique I learned from Peter Lumsdaine, that given an abstract identity system (Id, refl , J) with no given "computation rule" for J, produces another identity system (Id, refl , J' , J'-comp) witha "propositional computation rule" J'-comp for J'.
Martin
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