{-# OPTIONS --cubical --no-import-sorts --safe #-}
module Cubical.Foundations.Pointed.Base where
open import Cubical.Foundations.Prelude
open import Cubical.Foundations.Equiv
open import Cubical.Foundations.Structure
open import Cubical.Foundations.Structure using (typ) public
open import Cubical.Foundations.GroupoidLaws
open import Cubical.Foundations.Isomorphism
open import Cubical.Foundations.Univalence
Pointed : (ℓ : Level) → Type (ℓ-suc ℓ)
Pointed ℓ = TypeWithStr ℓ (λ x → x)
pt : ∀ {ℓ} (A∙ : Pointed ℓ) → typ A∙
pt = str
Pointed₀ = Pointed ℓ-zero
_→∙_ : ∀{ℓ ℓ'} → (A : Pointed ℓ) (B : Pointed ℓ') → Type (ℓ-max ℓ ℓ')
(A , a) →∙ (B , b) = Σ[ f ∈ (A → B) ] f a ≡ b
_→∙_∙ : ∀{ℓ ℓ'} → (A : Pointed ℓ) (B : Pointed ℓ') → Pointed (ℓ-max ℓ ℓ')
A →∙ B ∙ = (A →∙ B) , (λ x → pt B) , refl
idfun∙ : ∀ {ℓ} (A : Pointed ℓ) → A →∙ A
idfun∙ A = (λ x → x) , refl
data Pointer {ℓ} (A : Pointed ℓ) : Type ℓ where
pt₀ : Pointer A
⌊_⌋ : typ A → Pointer A
id : ⌊ pt A ⌋ ≡ pt₀
IsoPointedPointer : ∀ {ℓ} {A : Pointed ℓ} → Iso (typ A) (Pointer A)
Iso.fun IsoPointedPointer = ⌊_⌋
Iso.inv (IsoPointedPointer {A = A}) pt₀ = pt A
Iso.inv IsoPointedPointer ⌊ x ⌋ = x
Iso.inv (IsoPointedPointer {A = A}) (id i) = pt A
Iso.rightInv IsoPointedPointer pt₀ = id
Iso.rightInv IsoPointedPointer ⌊ x ⌋ = refl
Iso.rightInv IsoPointedPointer (id i) j = id (i ∧ j)
Iso.leftInv IsoPointedPointer x = refl
Pointed≡Pointer : ∀ {ℓ} {A : Pointed ℓ} → typ A ≡ Pointer A
Pointed≡Pointer = isoToPath IsoPointedPointer
Pointer∙ : ∀ {ℓ} (A : Pointed ℓ) → Pointed ℓ
Pointer∙ A = Pointer A , pt₀
Pointed≡∙Pointer : ∀ {ℓ} {A : Pointed ℓ} → A ≡ (Pointer A , pt₀)
Pointed≡∙Pointer {A = A} i = (Pointed≡Pointer {A = A} i) , helper i
where
helper : PathP (λ i → Pointed≡Pointer {A = A} i) (pt A) pt₀
helper = ua-gluePath (isoToEquiv (IsoPointedPointer {A = A})) id
pointerFun : ∀ {ℓ ℓ'} {A : Pointed ℓ} {B : Pointed ℓ'} (f : A →∙ B)
→ Pointer A → Pointer B
pointerFun f pt₀ = pt₀
pointerFun f ⌊ x ⌋ = ⌊ fst f x ⌋
pointerFun f (id i) = (cong ⌊_⌋ (snd f) ∙ id) i
pointerFun∙ : ∀ {ℓ ℓ'} {A : Pointed ℓ} {B : Pointed ℓ'} (f : A →∙ B)
→ Pointer∙ A →∙ Pointer∙ B
pointerFun∙ f = (pointerFun f) , refl