{-# OPTIONS --cubical-compatible --safe #-}
module Data.Container.Core where
open import Level
open import Data.Product.Base as Prod using (Σ-syntax)
open import Function.Base
open import Function using (Inverse; _↔_)
open import Relation.Unary using (Pred; _⊆_)
infix 5 _▷_
record Container (s p : Level) : Set (suc (s ⊔ p)) where
constructor _▷_
field
Shape : Set s
Position : Shape → Set p
open Container public
⟦_⟧ : ∀ {s p ℓ} → Container s p → Set ℓ → Set (s ⊔ p ⊔ ℓ)
⟦ S ▷ P ⟧ X = Σ[ s ∈ S ] (P s → X)
map : ∀ {s p x y} {C : Container s p} {X : Set x} {Y : Set y} →
(X → Y) → ⟦ C ⟧ X → ⟦ C ⟧ Y
map f = Prod.map₂ (f ∘_)
infixr 8 _⇒_ _⊸_
record _⇒_ {s₁ s₂ p₁ p₂} (C₁ : Container s₁ p₁) (C₂ : Container s₂ p₂)
: Set (s₁ ⊔ s₂ ⊔ p₁ ⊔ p₂) where
constructor _▷_
field
shape : Shape C₁ → Shape C₂
position : ∀ {s} → Position C₂ (shape s) → Position C₁ s
⟪_⟫ : ∀ {x} {X : Set x} → ⟦ C₁ ⟧ X → ⟦ C₂ ⟧ X
⟪_⟫ = Prod.map shape (_∘′ position)
open _⇒_ public
record _⊸_ {s₁ s₂ p₁ p₂} (C₁ : Container s₁ p₁) (C₂ : Container s₂ p₂)
: Set (s₁ ⊔ s₂ ⊔ p₁ ⊔ p₂) where
field
shape⊸ : Shape C₁ → Shape C₂
position⊸ : ∀ {s} → Position C₂ (shape⊸ s) ↔ Position C₁ s
morphism : C₁ ⇒ C₂
morphism = record
{ shape = shape⊸
; position = Inverse.to position⊸
}
⟪_⟫⊸ : ∀ {x} {X : Set x} → ⟦ C₁ ⟧ X → ⟦ C₂ ⟧ X
⟪_⟫⊸ = ⟪ morphism ⟫
open _⊸_ public using (shape⊸; position⊸; ⟪_⟫⊸)