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Iterating families of maps over a map #1195

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7 changes: 5 additions & 2 deletions src/elementary-number-theory/finitely-cyclic-maps.lagda.md
Original file line number Diff line number Diff line change
Expand Up @@ -58,7 +58,10 @@ module _
(f : X → X) (H : is-finitely-cyclic-map f) →
(f ∘ map-inv-is-finitely-cyclic-map f H) ~ id
is-section-map-inv-is-finitely-cyclic-map f H x =
( iterate-succ-ℕ (length-path-is-finitely-cyclic-map H (f x) x) f x) ∙
( reassociate-iterate-succ-ℕ
( length-path-is-finitely-cyclic-map H (f x) x)
( f)
( x)) ∙
( eq-is-finitely-cyclic-map H (f x) x)

is-retraction-map-inv-is-finitely-cyclic-map :
Expand All @@ -70,7 +73,7 @@ module _
( inv (eq-is-finitely-cyclic-map H (f x) x))) ∙
( ( ap
( iterate (length-path-is-finitely-cyclic-map H (f (f x)) (f x)) f)
( iterate-succ-ℕ
( reassociate-iterate-succ-ℕ
( length-path-is-finitely-cyclic-map H (f x) x) f (f x))) ∙
( ( iterate-iterate
( length-path-is-finitely-cyclic-map H (f (f x)) (f x))
Expand Down
1 change: 1 addition & 0 deletions src/foundation.lagda.md
Original file line number Diff line number Diff line change
Expand Up @@ -246,6 +246,7 @@ open import foundation.iterated-cartesian-product-types public
open import foundation.iterated-dependent-pair-types public
open import foundation.iterated-dependent-product-types public
open import foundation.iterating-automorphisms public
open import foundation.iterating-families-of-maps public
open import foundation.iterating-functions public
open import foundation.iterating-involutions public
open import foundation.kernel-span-diagrams-of-maps public
Expand Down
36 changes: 29 additions & 7 deletions src/foundation/dependent-inverse-sequential-diagrams.lagda.md
Original file line number Diff line number Diff line change
Expand Up @@ -11,6 +11,7 @@ open import elementary-number-theory.natural-numbers

open import foundation.dependent-pair-types
open import foundation.inverse-sequential-diagrams
open import foundation.iterating-families-of-maps
open import foundation.unit-type
open import foundation.universe-levels

Expand Down Expand Up @@ -114,18 +115,18 @@ module _
naturality-section-dependent-inverse-sequential-diagram :
(h :
(n : ℕ) (x : family-inverse-sequential-diagram A n) →
family-dependent-inverse-sequential-diagram B n x)
(n : ℕ) → UU (l1 ⊔ l2)
naturality-section-dependent-inverse-sequential-diagram h n =
family-dependent-inverse-sequential-diagram B n x) →
UU (l1 ⊔ l2)
naturality-section-dependent-inverse-sequential-diagram h =
( n : ℕ) →
h n ∘ map-inverse-sequential-diagram A n ~
map-dependent-inverse-sequential-diagram B n _ ∘ h (succ-ℕ n)

section-dependent-inverse-sequential-diagram : UU (l1 ⊔ l2)
section-dependent-inverse-sequential-diagram =
Σ ( (n : ℕ) (x : family-inverse-sequential-diagram A n) →
family-dependent-inverse-sequential-diagram B n x)
( λ h → (n : ℕ) →
naturality-section-dependent-inverse-sequential-diagram h n)
( naturality-section-dependent-inverse-sequential-diagram)

map-section-dependent-inverse-sequential-diagram :
section-dependent-inverse-sequential-diagram →
Expand All @@ -134,10 +135,9 @@ module _
map-section-dependent-inverse-sequential-diagram = pr1

naturality-map-section-dependent-inverse-sequential-diagram :
(f : section-dependent-inverse-sequential-diagram) (n : ℕ)
(f : section-dependent-inverse-sequential-diagram) →
naturality-section-dependent-inverse-sequential-diagram
( map-section-dependent-inverse-sequential-diagram f)
( n)
naturality-map-section-dependent-inverse-sequential-diagram = pr2
```

Expand All @@ -158,6 +158,17 @@ pr1 (right-shift-dependent-inverse-sequential-diagram B) n =
family-dependent-inverse-sequential-diagram B (succ-ℕ n)
pr2 (right-shift-dependent-inverse-sequential-diagram B) n =
map-dependent-inverse-sequential-diagram B (succ-ℕ n)

iterated-right-shift-dependent-inverse-sequential-diagram :
{l1 l2 : Level} (n : ℕ) →
(A : inverse-sequential-diagram l1) →
dependent-inverse-sequential-diagram l2 A →
dependent-inverse-sequential-diagram l2
( iterated-right-shift-inverse-sequential-diagram n A)
iterated-right-shift-dependent-inverse-sequential-diagram n A =
iterate-family-of-maps n
( λ A → right-shift-dependent-inverse-sequential-diagram {A = A})
( A)
```

### Left shifting a dependent inverse sequential diagram
Expand All @@ -179,6 +190,17 @@ pr2 (left-shift-dependent-inverse-sequential-diagram B) 0 x =
raise-terminal-map (family-dependent-inverse-sequential-diagram B 0 x)
pr2 (left-shift-dependent-inverse-sequential-diagram B) (succ-ℕ n) =
map-dependent-inverse-sequential-diagram B n

iterated-left-shift-dependent-inverse-sequential-diagram :
{l1 l2 : Level} (n : ℕ) →
(A : inverse-sequential-diagram l1) →
dependent-inverse-sequential-diagram l2 A →
dependent-inverse-sequential-diagram l2
( iterated-left-shift-inverse-sequential-diagram n A)
iterated-left-shift-dependent-inverse-sequential-diagram n A =
iterate-family-of-maps n
( λ A → left-shift-dependent-inverse-sequential-diagram {A = A})
( A)
```

## Table of files about sequential limits
Expand Down
Original file line number Diff line number Diff line change
Expand Up @@ -9,6 +9,7 @@ module foundation.equivalences-inverse-sequential-diagrams where
```agda
open import elementary-number-theory.natural-numbers

open import foundation.binary-homotopies
open import foundation.dependent-pair-types
open import foundation.equality-dependent-function-types
open import foundation.fundamental-theorem-of-identity-types
Expand Down Expand Up @@ -56,8 +57,7 @@ equiv-inverse-sequential-diagram A B =
Σ ( (n : ℕ) →
family-inverse-sequential-diagram A n ≃
family-inverse-sequential-diagram B n)
( λ e →
(n : ℕ) → naturality-hom-inverse-sequential-diagram A B (map-equiv ∘ e) n)
( λ e → naturality-hom-inverse-sequential-diagram A B (map-equiv ∘ e))

hom-equiv-inverse-sequential-diagram :
{l1 l2 : Level}
Expand Down Expand Up @@ -94,8 +94,7 @@ is-torsorial-equiv-inverse-sequential-diagram A =
( is-torsorial-Eq-Π
( λ n → is-torsorial-equiv (family-inverse-sequential-diagram A n)))
( family-inverse-sequential-diagram A , λ n → id-equiv)
( is-torsorial-Eq-Π
( λ n → is-torsorial-htpy (map-inverse-sequential-diagram A n)))
( is-torsorial-binary-htpy (map-inverse-sequential-diagram A))

is-equiv-equiv-eq-inverse-sequential-diagram :
{l : Level} (A B : inverse-sequential-diagram l) →
Expand Down
3 changes: 1 addition & 2 deletions src/foundation/inverse-sequential-diagrams.lagda.md
Original file line number Diff line number Diff line change
Expand Up @@ -79,8 +79,7 @@ pr2 (right-shift-inverse-sequential-diagram A) n =
map-inverse-sequential-diagram A (succ-ℕ n)

iterated-right-shift-inverse-sequential-diagram :
{l : Level} (n : ℕ) →
inverse-sequential-diagram l → inverse-sequential-diagram l
{l : Level} → ℕ → inverse-sequential-diagram l → inverse-sequential-diagram l
iterated-right-shift-inverse-sequential-diagram n =
iterate n right-shift-inverse-sequential-diagram
```
Expand Down
116 changes: 116 additions & 0 deletions src/foundation/iterating-families-of-maps.lagda.md
Original file line number Diff line number Diff line change
@@ -0,0 +1,116 @@
# Iterating families of maps over a map

```agda
module foundation.iterating-families-of-maps where
```

<details><summary>Imports</summary>

```agda
open import elementary-number-theory.addition-natural-numbers
open import elementary-number-theory.exponentiation-natural-numbers
open import elementary-number-theory.multiplication-natural-numbers
open import elementary-number-theory.multiplicative-monoid-of-natural-numbers
open import elementary-number-theory.natural-numbers

open import foundation.action-on-higher-identifications-functions
open import foundation.action-on-identifications-dependent-functions
open import foundation.action-on-identifications-functions
open import foundation.dependent-homotopies
open import foundation.dependent-identifications
open import foundation.dependent-pair-types
open import foundation.function-extensionality
open import foundation.iterating-functions
open import foundation.transport-along-identifications
open import foundation.universe-levels

open import foundation-core.commuting-squares-of-maps
open import foundation-core.endomorphisms
open import foundation-core.homotopies
open import foundation-core.identity-types
open import foundation-core.sets

open import group-theory.monoid-actions
```

</details>

## Idea

Given a family of maps `g : (x : X) → C x → C (f x)` over a map `f : X → X`,
then `g` can be
{{#concept "iterated" Disambiguation="family of maps over a map of types" Agda=iterate-family-of-maps}}
by repeatedly applying `g`.

## Definition

### Iterating dependent functions

```agda
module _
{l1 l2 : Level} {X : UU l1} {C : X → UU l2} {f : X → X}
where

iterate-family-of-maps :
(k : ℕ) → ((x : X) → C x → C (f x)) → (x : X) → C x → C (iterate k f x)
iterate-family-of-maps zero-ℕ g x y = y
iterate-family-of-maps (succ-ℕ k) g x y =
g (iterate k f x) (iterate-family-of-maps k g x y)

iterate-family-of-maps' :
(k : ℕ) → ((x : X) → C x → C (f x)) → (x : X) → C x → C (iterate' k f x)
iterate-family-of-maps' zero-ℕ g x y = y
iterate-family-of-maps' (succ-ℕ k) g x y =
iterate-family-of-maps' k g (f x) (g x y)
```

## Properties

### The two definitions of iterating dependent functions are homotopic

```agda
module _
{l1 l2 : Level} {X : UU l1} {C : X → UU l2} {f : X → X}
where

reassociate-iterate-family-of-maps-succ-ℕ :
(k : ℕ) (g : (x : X) → C x → C (f x)) (x : X) (y : C x) →
dependent-identification C
( reassociate-iterate-succ-ℕ k f x)
( g (iterate k f x) (iterate-family-of-maps k g x y))
( iterate-family-of-maps k g (f x) (g x y))
reassociate-iterate-family-of-maps-succ-ℕ zero-ℕ g x y = refl
reassociate-iterate-family-of-maps-succ-ℕ (succ-ℕ k) g x y =
equational-reasoning
tr C
( reassociate-iterate-succ-ℕ (succ-ℕ k) f x)
( g (iterate (succ-ℕ k) f x) (iterate-family-of-maps (succ-ℕ k) g x y))
g ( iterate k f (f x))
( tr C
( reassociate-iterate-succ-ℕ k f x)
( g (iterate k f x) (iterate-family-of-maps k g x y)))
by
tr-ap f g
( reassociate-iterate-succ-ℕ k f x)
( iterate-family-of-maps (succ-ℕ k) g x y)
= g (iterate k f (f x)) (iterate-family-of-maps k g (f x) (g x y))
by
ap
( g (iterate k f (f x)))
( reassociate-iterate-family-of-maps-succ-ℕ k g x y)

reassociate-iterate-family-of-maps :
(k : ℕ) (g : (x : X) → C x → C (f x)) (x : X) (y : C x) →
dependent-identification C
( reassociate-iterate k f x)
( iterate-family-of-maps k g x y)
( iterate-family-of-maps' k g x y)
reassociate-iterate-family-of-maps zero-ℕ g x y = refl
reassociate-iterate-family-of-maps (succ-ℕ k) g x y =
concat-dependent-identification C
( reassociate-iterate-succ-ℕ k f x)
( reassociate-iterate k f (f x))
( reassociate-iterate-family-of-maps-succ-ℕ k g x y)
( reassociate-iterate-family-of-maps k g (f x) (g x y))
```
16 changes: 9 additions & 7 deletions src/foundation/iterating-functions.lagda.md
Original file line number Diff line number Diff line change
Expand Up @@ -85,15 +85,16 @@ module _
{l : Level} {X : UU l}
where

iterate-succ-ℕ :
reassociate-iterate-succ-ℕ :
(k : ℕ) (f : X → X) (x : X) → iterate (succ-ℕ k) f x = iterate k f (f x)
iterate-succ-ℕ zero-ℕ f x = refl
iterate-succ-ℕ (succ-ℕ k) f x = ap f (iterate-succ-ℕ k f x)
reassociate-iterate-succ-ℕ zero-ℕ f x = refl
reassociate-iterate-succ-ℕ (succ-ℕ k) f x =
ap f (reassociate-iterate-succ-ℕ k f x)

reassociate-iterate : (k : ℕ) (f : X → X) → iterate k f ~ iterate' k f
reassociate-iterate zero-ℕ f x = refl
reassociate-iterate (succ-ℕ k) f x =
iterate-succ-ℕ k f x ∙ reassociate-iterate k f (f x)
reassociate-iterate-succ-ℕ k f x ∙ reassociate-iterate k f (f x)
```

### For any map `f : X → X`, iterating `f` defines a monoid action of ℕ on `X`
Expand All @@ -108,7 +109,8 @@ module _
iterate (k +ℕ l) f x = iterate k f (iterate l f x)
iterate-add-ℕ k zero-ℕ f x = refl
iterate-add-ℕ k (succ-ℕ l) f x =
ap f (iterate-add-ℕ k l f x) ∙ iterate-succ-ℕ k f (iterate l f x)
ap f (iterate-add-ℕ k l f x) ∙
reassociate-iterate-succ-ℕ k f (iterate l f x)

left-unit-law-iterate-add-ℕ :
(l : ℕ) (f : X → X) (x : X) →
Expand Down Expand Up @@ -140,7 +142,7 @@ module _
iterate-mul-ℕ (succ-ℕ k) l f x =
( iterate-add-ℕ (k *ℕ l) l f x) ∙
( ( iterate-mul-ℕ k l f (iterate l f x)) ∙
( inv (iterate-succ-ℕ k (iterate l f) x)))
( inv (reassociate-iterate-succ-ℕ k (iterate l f) x)))

iterate-exp-ℕ :
(k l : ℕ) (f : X → X) (x : X) →
Expand All @@ -149,7 +151,7 @@ module _
iterate-exp-ℕ (succ-ℕ k) l f x =
( iterate-mul-ℕ (exp-ℕ l k) l f x) ∙
( ( iterate-exp-ℕ k l (iterate l f) x) ∙
( inv (htpy-eq (iterate-succ-ℕ k (iterate l) f) x)))
( inv (htpy-eq (reassociate-iterate-succ-ℕ k (iterate l) f) x)))

module _
{l : Level} (X : Set l)
Expand Down
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