{-# OPTIONS --cubical --safe --no-sized-types --no-guardedness --no-subtyping #-} module Agda.Builtin.Cubical.HCompU where open import Agda.Primitive open import Agda.Builtin.Sigma open import Agda.Primitive.Cubical renaming (primINeg to ~_; primIMax to _∨_; primIMin to _∧_; primHComp to hcomp; primTransp to transp; primComp to comp; itIsOne to 1=1) open import Agda.Builtin.Cubical.Path open import Agda.Builtin.Cubical.Sub renaming (Sub to _[_↦_]; primSubOut to outS; inc to inS) module Helpers where -- Homogeneous filling hfill : ∀ {ℓ} {A : Set ℓ} {φ : I} (u : ∀ i → Partial φ A) (u0 : A [ φ ↦ u i0 ]) (i : I) → A hfill {φ = φ} u u0 i = hcomp (λ j → \ { (φ = i1) → u (i ∧ j) 1=1 ; (i = i0) → outS u0 }) (outS u0) -- Heterogeneous filling defined using comp fill : ∀ {ℓ : I → Level} (A : ∀ i → Set (ℓ i)) {φ : I} (u : ∀ i → Partial φ (A i)) (u0 : A i0 [ φ ↦ u i0 ]) → ∀ i → A i fill A {φ = φ} u u0 i = comp (λ j → A (i ∧ j)) (λ j → \ { (φ = i1) → u (i ∧ j) 1=1 ; (i = i0) → outS u0 }) (outS {φ = φ} u0) module _ {ℓ} {A : Set ℓ} where refl : {x : A} → x ≡ x refl {x = x} = λ _ → x sym : {x y : A} → x ≡ y → y ≡ x sym p = λ i → p (~ i) cong : ∀ {ℓ'} {B : A → Set ℓ'} {x y : A} (f : (a : A) → B a) (p : x ≡ y) → PathP (λ i → B (p i)) (f x) (f y) cong f p = λ i → f (p i) isContr : ∀ {ℓ} → Set ℓ → Set ℓ isContr A = Σ A \ x → (∀ y → x ≡ y) fiber : ∀ {ℓ ℓ'} {A : Set ℓ} {B : Set ℓ'} (f : A → B) (y : B) → Set (ℓ ⊔ ℓ') fiber {A = A} f y = Σ A \ x → f x ≡ y open Helpers primitive prim^glueU : {la : Level} {φ : I} {T : I → Partial φ (Set la)} {A : Set la [ φ ↦ T i0 ]} → PartialP φ (T i1) → outS A → hcomp T (outS A) prim^unglueU : {la : Level} {φ : I} {T : I → Partial φ (Set la)} {A : Set la [ φ ↦ T i0 ]} → hcomp T (outS A) → outS A transpProof : ∀ {l} → (e : I → Set l) → (φ : I) → (a : Partial φ (e i0)) → (b : e i1 [ φ ↦ (\ o → transp e i0 (a o)) ] ) → fiber (transp e i0) (outS b) transpProof e φ a b = f , \ j → comp e (\ i → \ { (φ = i1) → transp (\ j → e (j ∧ i)) (~ i) (a 1=1) ; (j = i0) → transp (\ j → e (j ∧ i)) (~ i) f ; (j = i1) → g (~ i) }) f where g = fill (\ i → e (~ i)) (\ i → \ { (φ = i1) → transp (\ j → e (j ∧ ~ i)) i (a 1=1); (φ = i0) → transp (\ j → e (~ j ∨ ~ i)) (~ i) (outS b) }) (inS (outS b)) f = comp (\ i → e (~ i)) (\ i → \ { (φ = i1) → transp (\ j → e (j ∧ ~ i)) i (a 1=1); (φ = i0) → transp (\ j → e (~ j ∨ ~ i)) (~ i) (outS b) }) (outS b) {-# BUILTIN TRANSPPROOF transpProof #-}