# Involutions ```agda module foundation.involutions where ``` <details><summary>Imports</summary> ```agda open import foundation.automorphisms open import foundation.dependent-pair-types open import foundation.equivalence-extensionality open import foundation.equivalences open import foundation.function-extensionality open import foundation.fundamental-theorem-of-identity-types open import foundation.homotopy-algebra open import foundation.homotopy-induction open import foundation.structure-identity-principle open import foundation.universe-levels open import foundation.whiskering-homotopies-composition open import foundation-core.function-types open import foundation-core.homotopies open import foundation-core.identity-types open import foundation-core.injective-maps open import foundation-core.torsorial-type-families open import foundation-core.truncated-types open import foundation-core.truncation-levels open import structured-types.pointed-types ``` </details> ## Idea An **involution** on a type `A` is a map `f : A → A` such that `(f ∘ f) ~ id`. ## Definition ```agda module _ {l : Level} {A : UU l} where is-involution : (A → A) → UU l is-involution f = (f ∘ f) ~ id is-involution-aut : Aut A → UU l is-involution-aut e = is-involution (map-equiv e) ``` ### The type of involutions on `A` ```agda involution : {l : Level} → UU l → UU l involution A = Σ (A → A) is-involution module _ {l : Level} {A : UU l} (f : involution A) where map-involution : A → A map-involution = pr1 f is-involution-map-involution : is-involution map-involution is-involution-map-involution = pr2 f ``` ## Properties ### Involutions are equivalences ```agda is-equiv-is-involution : {l : Level} {A : UU l} {f : A → A} → is-involution f → is-equiv f is-equiv-is-involution {f = f} is-involution-f = is-equiv-is-invertible f is-involution-f is-involution-f is-equiv-map-involution : {l : Level} {A : UU l} (f : involution A) → is-equiv (map-involution f) is-equiv-map-involution = is-equiv-is-involution ∘ is-involution-map-involution equiv-is-involution : {l : Level} {A : UU l} {f : A → A} → is-involution f → A ≃ A pr1 (equiv-is-involution {f = f} is-involution-f) = f pr2 (equiv-is-involution is-involution-f) = is-equiv-is-involution is-involution-f equiv-involution : {l : Level} {A : UU l} → involution A → A ≃ A equiv-involution f = equiv-is-involution {f = map-involution f} (is-involution-map-involution f) ``` ### Involutions are their own inverse ```agda htpy-own-inverse-is-involution : {l : Level} {A : UU l} {f : Aut A} → is-involution-aut f → map-inv-equiv f ~ map-equiv f htpy-own-inverse-is-involution {f = f} is-involution-f x = is-injective-equiv f ( htpy-eq-equiv (right-inverse-law-equiv f) x ∙ inv (is-involution-f x)) own-inverse-is-involution : {l : Level} {A : UU l} {f : Aut A} → is-involution-aut f → inv-equiv f = f own-inverse-is-involution {f = f} = eq-htpy-equiv ∘ htpy-own-inverse-is-involution {f = f} ``` ### Characterizing equality of involutions ```agda module _ {l : Level} {A : UU l} where coherence-htpy-involution : (s t : involution A) → map-involution s ~ map-involution t → UU l coherence-htpy-involution s t H = ( is-involution-map-involution s) ~ ( horizontal-concat-htpy H H ∙h is-involution-map-involution t) htpy-involution : (s t : involution A) → UU l htpy-involution s t = Σ ( map-involution s ~ map-involution t) ( coherence-htpy-involution s t) refl-htpy-involution : (s : involution A) → htpy-involution s s pr1 (refl-htpy-involution s) = refl-htpy pr2 (refl-htpy-involution s) = refl-htpy htpy-eq-involution : (s t : involution A) → s = t → htpy-involution s t htpy-eq-involution s .s refl = refl-htpy-involution s is-torsorial-htpy-involution : (s : involution A) → is-torsorial (htpy-involution s) is-torsorial-htpy-involution s = is-torsorial-Eq-structure ( is-torsorial-htpy (map-involution s)) ( map-involution s , refl-htpy) ( is-torsorial-htpy (is-involution-map-involution s)) is-equiv-htpy-eq-involution : (s t : involution A) → is-equiv (htpy-eq-involution s t) is-equiv-htpy-eq-involution s = fundamental-theorem-id ( is-torsorial-htpy-involution s) ( htpy-eq-involution s) extensionality-involution : (s t : involution A) → (s = t) ≃ (htpy-involution s t) pr1 (extensionality-involution s t) = htpy-eq-involution s t pr2 (extensionality-involution s t) = is-equiv-htpy-eq-involution s t eq-htpy-involution : (s t : involution A) → htpy-involution s t → s = t eq-htpy-involution s t = map-inv-equiv (extensionality-involution s t) ``` ### If `A` is `k`-truncated then the type of involutions is `k`-truncated ```agda is-trunc-is-involution : {l : Level} (k : 𝕋) {A : UU l} → is-trunc (succ-𝕋 k) A → (f : A → A) → is-trunc k (is-involution f) is-trunc-is-involution k is-trunc-A f = is-trunc-Π k λ x → is-trunc-A (f (f x)) x is-involution-Truncated-Type : {l : Level} (k : 𝕋) {A : UU l} → is-trunc (succ-𝕋 k) A → (A → A) → Truncated-Type l k pr1 (is-involution-Truncated-Type k is-trunc-A f) = is-involution f pr2 (is-involution-Truncated-Type k is-trunc-A f) = is-trunc-is-involution k is-trunc-A f is-trunc-involution : {l : Level} (k : 𝕋) {A : UU l} → is-trunc k A → is-trunc k (involution A) is-trunc-involution k is-trunc-A = is-trunc-Σ ( is-trunc-function-type k is-trunc-A) ( is-trunc-is-involution k (is-trunc-succ-is-trunc k is-trunc-A)) involution-Truncated-Type : {l : Level} (k : 𝕋) → Truncated-Type l k → Truncated-Type l k pr1 (involution-Truncated-Type k (A , is-trunc-A)) = involution A pr2 (involution-Truncated-Type k (A , is-trunc-A)) = is-trunc-involution k is-trunc-A ``` ### Involutions on dependent function types ```agda involution-Π-involution-fam : {l1 l2 : Level} {A : UU l1} {B : A → UU l2} → ((x : A) → involution (B x)) → involution ((x : A) → B x) pr1 (involution-Π-involution-fam i) f x = map-involution (i x) (f x) pr2 (involution-Π-involution-fam i) f = eq-htpy (λ x → is-involution-map-involution (i x) (f x)) ``` ### Coherence of involutions ```agda module _ {l : Level} {A : UU l} {f : A → A} (H : is-involution f) where coherence-is-involution : UU l coherence-is-involution = f ·l H ~ H ·r f ``` ## Examples ### The identity function is an involution ```agda is-involution-id : {l : Level} {A : UU l} → is-involution (id {A = A}) is-involution-id = refl-htpy id-involution : {l : Level} {A : UU l} → involution A pr1 id-involution = id pr2 id-involution = is-involution-id involution-Pointed-Type : {l : Level} (A : UU l) → Pointed-Type l pr1 (involution-Pointed-Type A) = involution A pr2 (involution-Pointed-Type A) = id-involution ```