I noticed that the Cubical standard library defines `Fin`

as a dependent pair instead of an indexed inductive type. The reason why is that Cubical Agda does not fully support indexed inductive types: https://github.com/agda/cubical/pull/104#discussion_r268476220

A linked issue states that pattern matching doesn't work on inductive families because `hcomp`

and `transp`

haven't been defined on them: https://github.com/agda/cubical/pull/57#issuecomment-461174095

I defined `Fin`

and `Vec`

and wrote a pattern-matching function, and it seems to work fine:

```
{-# OPTIONS --cubical --safe #-}
open import Cubical.Foundations.Prelude
open import Cubical.Data.Nat using (ℕ; zero; suc)
private
variable
ℓ : Level
A : Type ℓ
n : ℕ
data Fin : ℕ → Type₀ where
fzero : Fin (suc n)
fsuc : Fin n → Fin (suc n)
data Vec (A : Type ℓ) : ℕ → Type ℓ where
[] : Vec A zero
_∷_ : A → Vec A n → Vec A (suc n)
_[_] : Vec A n → Fin n → A
(x ∷ _) [ fzero ] = x
(_ ∷ xs) [ fsuc n ] = xs [ n ]
p : (1 ∷ (2 ∷ [])) [ fzero ] ≡ 1
p = refl
```

Yet this issue is still open: https://github.com/agda/agda/issues/3733

I want to use Cubical Agda just in case I need higher inductive types or function extensionality, but I don't want to give up `Vec`

or the indexed definition of `Fin`

. I am unfamiliar with the details of Cubical Type Theory, so I don't know where `hcomp`

and `transp`

would be invoked. What is the current status of inductive families in Cubical Agda? Can I still use them if I avoid certain operations?