# Relaxed Σ-decompositions of types

```agda
{-# OPTIONS --lossy-unification #-}

module foundation.relaxed-sigma-decompositions where
```

<details><summary>Imports</summary>

```agda
open import foundation.action-on-identifications-functions
open import foundation.dependent-pair-types
open import foundation.equivalence-extensionality
open import foundation.equivalences
open import foundation.fundamental-theorem-of-identity-types
open import foundation.structure-identity-principle
open import foundation.transposition-identifications-along-equivalences
open import foundation.type-arithmetic-dependent-pair-types
open import foundation.univalence
open import foundation.universe-levels

open import foundation-core.contractible-types
open import foundation-core.function-types
open import foundation-core.functoriality-dependent-pair-types
open import foundation-core.homotopies
open import foundation-core.identity-types
open import foundation-core.torsorial-type-families
open import foundation-core.type-theoretic-principle-of-choice
```

</details>

## Idea

A relaxed Σ-decomposition is just a Σ-Decomposition where the condition that the
cotype must be inhabited is relaxed.

## Definitions

### General Σ-decompositions

```agda
Relaxed-Σ-Decomposition :
  {l1 : Level} (l2 l3 : Level)  UU l1  UU (l1  lsuc l2  lsuc l3)
Relaxed-Σ-Decomposition l2 l3 A =
  Σ ( UU l2)
    ( λ X 
      Σ ( X  UU l3)
        ( λ Y  A  Σ X Y))

module _
  {l1 l2 l3 : Level} {A : UU l1} (D : Relaxed-Σ-Decomposition l2 l3 A)
  where

  indexing-type-Relaxed-Σ-Decomposition : UU l2
  indexing-type-Relaxed-Σ-Decomposition = pr1 D

  cotype-Relaxed-Σ-Decomposition : indexing-type-Relaxed-Σ-Decomposition  UU l3
  cotype-Relaxed-Σ-Decomposition = pr1 (pr2 D)

  matching-correspondence-Relaxed-Σ-Decomposition :
    A  Σ indexing-type-Relaxed-Σ-Decomposition cotype-Relaxed-Σ-Decomposition
  matching-correspondence-Relaxed-Σ-Decomposition = pr2 (pr2 D)

  map-matching-correspondence-Relaxed-Σ-Decomposition :
    A  Σ indexing-type-Relaxed-Σ-Decomposition cotype-Relaxed-Σ-Decomposition
  map-matching-correspondence-Relaxed-Σ-Decomposition =
    map-equiv matching-correspondence-Relaxed-Σ-Decomposition
```

### Fibered relaxed Σ-decompositions

```agda
fibered-Relaxed-Σ-Decomposition :
  {l1 : Level} (l2 l3 l4 l5 : Level) (A : UU l1) 
  UU (l1  lsuc l2  lsuc l3  lsuc l4  lsuc l5)
fibered-Relaxed-Σ-Decomposition l2 l3 l4 l5 A =
  Σ ( Relaxed-Σ-Decomposition l2 l3 A)
    ( Relaxed-Σ-Decomposition l4 l5  indexing-type-Relaxed-Σ-Decomposition)

module _
  {l1 l2 l3 l4 l5 : Level} {A : UU l1}
  (X : fibered-Relaxed-Σ-Decomposition l2 l3 l4 l5 A)
  where

  fst-fibered-Relaxed-Σ-Decomposition : Relaxed-Σ-Decomposition l2 l3 A
  fst-fibered-Relaxed-Σ-Decomposition = pr1 X

  indexing-type-fst-fibered-Relaxed-Σ-Decomposition : UU l2
  indexing-type-fst-fibered-Relaxed-Σ-Decomposition =
    indexing-type-Relaxed-Σ-Decomposition fst-fibered-Relaxed-Σ-Decomposition

  cotype-fst-fibered-Relaxed-Σ-Decomposition :
    indexing-type-fst-fibered-Relaxed-Σ-Decomposition  UU l3
  cotype-fst-fibered-Relaxed-Σ-Decomposition =
    cotype-Relaxed-Σ-Decomposition fst-fibered-Relaxed-Σ-Decomposition

  matching-correspondence-fst-fibered-Relaxed-Σ-Decomposition :
    A 
    Σ ( indexing-type-Relaxed-Σ-Decomposition
        ( fst-fibered-Relaxed-Σ-Decomposition))
      ( cotype-Relaxed-Σ-Decomposition fst-fibered-Relaxed-Σ-Decomposition)
  matching-correspondence-fst-fibered-Relaxed-Σ-Decomposition =
    matching-correspondence-Relaxed-Σ-Decomposition
      ( fst-fibered-Relaxed-Σ-Decomposition)

  map-matching-correspondence-fst-fibered-Relaxed-Σ-Decomposition :
    A 
    Σ ( indexing-type-Relaxed-Σ-Decomposition
        ( fst-fibered-Relaxed-Σ-Decomposition))
      ( cotype-Relaxed-Σ-Decomposition fst-fibered-Relaxed-Σ-Decomposition)
  map-matching-correspondence-fst-fibered-Relaxed-Σ-Decomposition =
    map-matching-correspondence-Relaxed-Σ-Decomposition
      fst-fibered-Relaxed-Σ-Decomposition

  snd-fibered-Relaxed-Σ-Decomposition :
      Relaxed-Σ-Decomposition l4 l5
        ( indexing-type-fst-fibered-Relaxed-Σ-Decomposition)
  snd-fibered-Relaxed-Σ-Decomposition = pr2 X

  indexing-type-snd-fibered-Relaxed-Σ-Decomposition : UU l4
  indexing-type-snd-fibered-Relaxed-Σ-Decomposition =
    indexing-type-Relaxed-Σ-Decomposition snd-fibered-Relaxed-Σ-Decomposition

  cotype-snd-fibered-Relaxed-Σ-Decomposition :
    indexing-type-snd-fibered-Relaxed-Σ-Decomposition  UU l5
  cotype-snd-fibered-Relaxed-Σ-Decomposition =
    cotype-Relaxed-Σ-Decomposition snd-fibered-Relaxed-Σ-Decomposition

  matching-correspondence-snd-fibered-Relaxed-Σ-Decomposition :
    indexing-type-fst-fibered-Relaxed-Σ-Decomposition 
    Σ ( indexing-type-Relaxed-Σ-Decomposition
        ( snd-fibered-Relaxed-Σ-Decomposition))
      ( cotype-Relaxed-Σ-Decomposition snd-fibered-Relaxed-Σ-Decomposition)
  matching-correspondence-snd-fibered-Relaxed-Σ-Decomposition =
    matching-correspondence-Relaxed-Σ-Decomposition
      ( snd-fibered-Relaxed-Σ-Decomposition)

  map-matching-correspondence-snd-fibered-Relaxed-Σ-Decomposition :
    indexing-type-fst-fibered-Relaxed-Σ-Decomposition 
    Σ ( indexing-type-Relaxed-Σ-Decomposition
        ( snd-fibered-Relaxed-Σ-Decomposition))
      ( cotype-Relaxed-Σ-Decomposition snd-fibered-Relaxed-Σ-Decomposition)
  map-matching-correspondence-snd-fibered-Relaxed-Σ-Decomposition =
    map-matching-correspondence-Relaxed-Σ-Decomposition
      ( snd-fibered-Relaxed-Σ-Decomposition)
```

#### Displayed double Σ-decompositions

```agda
displayed-Relaxed-Σ-Decomposition :
  {l1 : Level} (l2 l3 l4 l5 : Level) (A : UU l1) 
  UU (l1  lsuc l2  lsuc l3  lsuc l4  lsuc l5)
displayed-Relaxed-Σ-Decomposition l2 l3 l4 l5 A =
  ( Σ (Relaxed-Σ-Decomposition l2 l3 A)
  ( λ D 
    (u : indexing-type-Relaxed-Σ-Decomposition D) 
    Relaxed-Σ-Decomposition l4 l5 (cotype-Relaxed-Σ-Decomposition D u)))

module _
  {l1 l2 l3 l4 l5 : Level} {A : UU l1}
  (X : displayed-Relaxed-Σ-Decomposition l2 l3 l4 l5 A)
  where

  fst-displayed-Relaxed-Σ-Decomposition : Relaxed-Σ-Decomposition l2 l3 A
  fst-displayed-Relaxed-Σ-Decomposition = pr1 X

  indexing-type-fst-displayed-Relaxed-Σ-Decomposition : UU l2
  indexing-type-fst-displayed-Relaxed-Σ-Decomposition =
    indexing-type-Relaxed-Σ-Decomposition fst-displayed-Relaxed-Σ-Decomposition

  cotype-fst-displayed-Relaxed-Σ-Decomposition :
    indexing-type-fst-displayed-Relaxed-Σ-Decomposition  UU l3
  cotype-fst-displayed-Relaxed-Σ-Decomposition =
    cotype-Relaxed-Σ-Decomposition fst-displayed-Relaxed-Σ-Decomposition

  matching-correspondence-fst-displayed-Relaxed-Σ-Decomposition :
    A 
    Σ ( indexing-type-Relaxed-Σ-Decomposition
        fst-displayed-Relaxed-Σ-Decomposition)
      ( cotype-Relaxed-Σ-Decomposition fst-displayed-Relaxed-Σ-Decomposition)
  matching-correspondence-fst-displayed-Relaxed-Σ-Decomposition =
    matching-correspondence-Relaxed-Σ-Decomposition
      fst-displayed-Relaxed-Σ-Decomposition

  map-matching-correspondence-fst-displayed-Relaxed-Σ-Decomposition :
    A 
    Σ ( indexing-type-Relaxed-Σ-Decomposition
        fst-displayed-Relaxed-Σ-Decomposition)
      ( cotype-Relaxed-Σ-Decomposition fst-displayed-Relaxed-Σ-Decomposition)
  map-matching-correspondence-fst-displayed-Relaxed-Σ-Decomposition =
    map-matching-correspondence-Relaxed-Σ-Decomposition
      fst-displayed-Relaxed-Σ-Decomposition

  snd-displayed-Relaxed-Σ-Decomposition :
    ( x : indexing-type-fst-displayed-Relaxed-Σ-Decomposition) 
    Relaxed-Σ-Decomposition l4 l5
      ( cotype-fst-displayed-Relaxed-Σ-Decomposition x)
  snd-displayed-Relaxed-Σ-Decomposition = pr2 X

  indexing-type-snd-displayed-Relaxed-Σ-Decomposition :
    ( x : indexing-type-fst-displayed-Relaxed-Σ-Decomposition) 
    UU l4
  indexing-type-snd-displayed-Relaxed-Σ-Decomposition x =
    indexing-type-Relaxed-Σ-Decomposition
      ( snd-displayed-Relaxed-Σ-Decomposition x)

  cotype-snd-displayed-Relaxed-Σ-Decomposition :
    ( x : indexing-type-fst-displayed-Relaxed-Σ-Decomposition) 
    indexing-type-snd-displayed-Relaxed-Σ-Decomposition x 
    UU l5
  cotype-snd-displayed-Relaxed-Σ-Decomposition x =
    cotype-Relaxed-Σ-Decomposition (snd-displayed-Relaxed-Σ-Decomposition x)

  matching-correspondence-snd-displayed-Relaxed-Σ-Decomposition :
    ( x : indexing-type-fst-displayed-Relaxed-Σ-Decomposition) 
    ( cotype-fst-displayed-Relaxed-Σ-Decomposition x 
      Σ ( indexing-type-snd-displayed-Relaxed-Σ-Decomposition x)
        ( cotype-snd-displayed-Relaxed-Σ-Decomposition x))
  matching-correspondence-snd-displayed-Relaxed-Σ-Decomposition x =
    matching-correspondence-Relaxed-Σ-Decomposition
      ( snd-displayed-Relaxed-Σ-Decomposition x)

  map-matching-correspondence-snd-displayed-Relaxed-Σ-Decomposition :
    ( x : indexing-type-fst-displayed-Relaxed-Σ-Decomposition) 
    cotype-fst-displayed-Relaxed-Σ-Decomposition x 
    Σ ( indexing-type-snd-displayed-Relaxed-Σ-Decomposition x)
      ( cotype-snd-displayed-Relaxed-Σ-Decomposition x)
  map-matching-correspondence-snd-displayed-Relaxed-Σ-Decomposition x =
    map-matching-correspondence-Relaxed-Σ-Decomposition
      ( snd-displayed-Relaxed-Σ-Decomposition x)
```

## Properties

### Characterization of equality of relaxed-Σ-decompositions

```agda
equiv-Relaxed-Σ-Decomposition :
  {l1 l2 l3 l4 l5 : Level} {A : UU l1}
  (X : Relaxed-Σ-Decomposition l2 l3 A)
  (Y : Relaxed-Σ-Decomposition l4 l5 A) 
  UU (l1  l2  l3  l4  l5)
equiv-Relaxed-Σ-Decomposition X Y =
  Σ ( indexing-type-Relaxed-Σ-Decomposition X 
      indexing-type-Relaxed-Σ-Decomposition Y)
    ( λ e 
      Σ ( (x : indexing-type-Relaxed-Σ-Decomposition X) 
          cotype-Relaxed-Σ-Decomposition X x 
          cotype-Relaxed-Σ-Decomposition Y (map-equiv e x))
        ( λ f 
          ( ( map-equiv (equiv-Σ (cotype-Relaxed-Σ-Decomposition Y) e f)) 
            ( map-matching-correspondence-Relaxed-Σ-Decomposition X)) ~
          ( map-matching-correspondence-Relaxed-Σ-Decomposition Y)))

module _
  {l1 l2 l3 l4 l5 : Level} {A : UU l1}
  (X : Relaxed-Σ-Decomposition l2 l3 A) (Y : Relaxed-Σ-Decomposition l4 l5 A)
  (e : equiv-Relaxed-Σ-Decomposition X Y)
  where

  equiv-indexing-type-equiv-Relaxed-Σ-Decomposition :
    indexing-type-Relaxed-Σ-Decomposition X 
    indexing-type-Relaxed-Σ-Decomposition Y
  equiv-indexing-type-equiv-Relaxed-Σ-Decomposition = pr1 e

  map-equiv-indexing-type-equiv-Relaxed-Σ-Decomposition :
    indexing-type-Relaxed-Σ-Decomposition X 
    indexing-type-Relaxed-Σ-Decomposition Y
  map-equiv-indexing-type-equiv-Relaxed-Σ-Decomposition =
    map-equiv equiv-indexing-type-equiv-Relaxed-Σ-Decomposition

  equiv-cotype-equiv-Relaxed-Σ-Decomposition :
    (x : indexing-type-Relaxed-Σ-Decomposition X) 
    cotype-Relaxed-Σ-Decomposition X x 
    cotype-Relaxed-Σ-Decomposition Y
      ( map-equiv-indexing-type-equiv-Relaxed-Σ-Decomposition x)
  equiv-cotype-equiv-Relaxed-Σ-Decomposition = pr1 (pr2 e)

  map-equiv-cotype-equiv-Relaxed-Σ-Decomposition :
    (x : indexing-type-Relaxed-Σ-Decomposition X) 
    cotype-Relaxed-Σ-Decomposition X x 
    cotype-Relaxed-Σ-Decomposition Y
      ( map-equiv-indexing-type-equiv-Relaxed-Σ-Decomposition x)
  map-equiv-cotype-equiv-Relaxed-Σ-Decomposition x =
    map-equiv (equiv-cotype-equiv-Relaxed-Σ-Decomposition x)

module _
  {l1 l2 l3 : Level} {A : UU l1} (X : Relaxed-Σ-Decomposition l2 l3 A)
  where

  id-equiv-Relaxed-Σ-Decomposition : equiv-Relaxed-Σ-Decomposition X X
  pr1 id-equiv-Relaxed-Σ-Decomposition = id-equiv
  pr1 (pr2 id-equiv-Relaxed-Σ-Decomposition) x = id-equiv
  pr2 (pr2 id-equiv-Relaxed-Σ-Decomposition) = refl-htpy

  is-torsorial-equiv-Relaxed-Σ-Decomposition :
    is-torsorial (equiv-Relaxed-Σ-Decomposition X)
  is-torsorial-equiv-Relaxed-Σ-Decomposition =
    is-torsorial-Eq-structure
      ( is-torsorial-equiv (indexing-type-Relaxed-Σ-Decomposition X))
      ( pair (indexing-type-Relaxed-Σ-Decomposition X) id-equiv)
      ( is-torsorial-Eq-structure
        ( is-torsorial-equiv-fam
          ( cotype-Relaxed-Σ-Decomposition X))
        ( pair
          ( cotype-Relaxed-Σ-Decomposition X)
          ( id-equiv-fam (cotype-Relaxed-Σ-Decomposition X)))
        ( is-torsorial-htpy-equiv
          ( matching-correspondence-Relaxed-Σ-Decomposition X)))

  equiv-eq-Relaxed-Σ-Decomposition :
    (Y : Relaxed-Σ-Decomposition l2 l3 A) 
    (X  Y)  equiv-Relaxed-Σ-Decomposition X Y
  equiv-eq-Relaxed-Σ-Decomposition .X refl = id-equiv-Relaxed-Σ-Decomposition

  is-equiv-equiv-eq-Relaxed-Σ-Decomposition :
    (Y : Relaxed-Σ-Decomposition l2 l3 A) 
    is-equiv (equiv-eq-Relaxed-Σ-Decomposition Y)
  is-equiv-equiv-eq-Relaxed-Σ-Decomposition =
    fundamental-theorem-id
      is-torsorial-equiv-Relaxed-Σ-Decomposition
      equiv-eq-Relaxed-Σ-Decomposition

  extensionality-Relaxed-Σ-Decomposition :
    (Y : Relaxed-Σ-Decomposition l2 l3 A) 
    (X  Y)  equiv-Relaxed-Σ-Decomposition X Y
  pr1 (extensionality-Relaxed-Σ-Decomposition Y) =
    equiv-eq-Relaxed-Σ-Decomposition Y
  pr2 (extensionality-Relaxed-Σ-Decomposition Y) =
    is-equiv-equiv-eq-Relaxed-Σ-Decomposition Y

  eq-equiv-Relaxed-Σ-Decomposition :
    (Y : Relaxed-Σ-Decomposition l2 l3 A) 
    equiv-Relaxed-Σ-Decomposition X Y  (X  Y)
  eq-equiv-Relaxed-Σ-Decomposition Y =
    map-inv-equiv (extensionality-Relaxed-Σ-Decomposition Y)
```

### Invariance of Σ-decompositions under equivalences

```agda
module _
  {l1 l2 : Level} {A : UU l1} {B : UU l2} (e : A  B)
  where

  equiv-tr-Relaxed-Σ-Decomposition :
    {l3 l4 : Level} 
    Relaxed-Σ-Decomposition l3 l4 A  Relaxed-Σ-Decomposition l3 l4 B
  equiv-tr-Relaxed-Σ-Decomposition =
    equiv-tot
      ( λ X 
        equiv-tot
          ( λ Y 
            equiv-precomp-equiv (inv-equiv e) (Σ X Y)))

  map-equiv-tr-Relaxed-Σ-Decomposition :
    {l3 l4 : Level} 
    Relaxed-Σ-Decomposition l3 l4 A  Relaxed-Σ-Decomposition l3 l4 B
  map-equiv-tr-Relaxed-Σ-Decomposition =
    map-equiv equiv-tr-Relaxed-Σ-Decomposition
```

### Iterated Σ-decompositions

#### Characterization of identity type for fibered double Σ-decompositions

```agda
module _
  {l1 l2 l3 l4 l5 l6 l7 l8 l9 : Level}
  {A : UU l1} (X : fibered-Relaxed-Σ-Decomposition l2 l3 l4 l5 A)
  (Y : fibered-Relaxed-Σ-Decomposition l6 l7 l8 l9 A)
  where

  equiv-fst-fibered-Relaxed-Σ-Decomposition :
    UU (l1  l2  l3  l6  l7)
  equiv-fst-fibered-Relaxed-Σ-Decomposition =
    equiv-Relaxed-Σ-Decomposition
    ( fst-fibered-Relaxed-Σ-Decomposition X)
    ( fst-fibered-Relaxed-Σ-Decomposition Y)

  equiv-snd-fibered-Relaxed-Σ-Decomposition :
    (e : equiv-fst-fibered-Relaxed-Σ-Decomposition) 
    UU (l4  l5  l6  l8  l9)
  equiv-snd-fibered-Relaxed-Σ-Decomposition e =
    equiv-Relaxed-Σ-Decomposition
      ( map-equiv-tr-Relaxed-Σ-Decomposition
        ( equiv-indexing-type-equiv-Relaxed-Σ-Decomposition
          ( fst-fibered-Relaxed-Σ-Decomposition X)
          ( fst-fibered-Relaxed-Σ-Decomposition Y)
          ( e))
        ( snd-fibered-Relaxed-Σ-Decomposition X))
      ( snd-fibered-Relaxed-Σ-Decomposition Y)

  equiv-fibered-Relaxed-Σ-Decomposition :
    UU (l1  l2  l3  l4  l5  l6  l7  l8  l9)
  equiv-fibered-Relaxed-Σ-Decomposition =
    Σ ( equiv-fst-fibered-Relaxed-Σ-Decomposition)
      ( equiv-snd-fibered-Relaxed-Σ-Decomposition)

  fst-equiv-fibered-Relaxed-Σ-Decomposition :
    (e : equiv-fibered-Relaxed-Σ-Decomposition) 
    equiv-fst-fibered-Relaxed-Σ-Decomposition
  fst-equiv-fibered-Relaxed-Σ-Decomposition = pr1

  snd-equiv-fibered-Relaxed-Σ-Decomposition :
    (e : equiv-fibered-Relaxed-Σ-Decomposition) 
    equiv-snd-fibered-Relaxed-Σ-Decomposition
      (fst-equiv-fibered-Relaxed-Σ-Decomposition e)
  snd-equiv-fibered-Relaxed-Σ-Decomposition = pr2

module _
  { l1 l2 l3 l4 l5 : Level} {A : UU l1}
  ( D : fibered-Relaxed-Σ-Decomposition l2 l3 l4 l5 A)
  where

  private
    X = fst-fibered-Relaxed-Σ-Decomposition D
    Y = snd-fibered-Relaxed-Σ-Decomposition D

  is-torsorial-equiv-fibered-Relaxed-Σ-Decomposition :
    is-torsorial (equiv-fibered-Relaxed-Σ-Decomposition D)
  is-torsorial-equiv-fibered-Relaxed-Σ-Decomposition =
    is-torsorial-Eq-structure
      ( is-torsorial-equiv-Relaxed-Σ-Decomposition X)
      ( X , id-equiv-Relaxed-Σ-Decomposition X)
      ( is-torsorial-Eq-structure
        ( is-torsorial-equiv (indexing-type-Relaxed-Σ-Decomposition Y))
        ( pair (indexing-type-Relaxed-Σ-Decomposition Y) id-equiv)
        ( is-torsorial-Eq-structure
          ( is-torsorial-equiv-fam
            ( cotype-Relaxed-Σ-Decomposition Y))
          ( pair
            ( cotype-Relaxed-Σ-Decomposition Y)
            ( id-equiv-fam
              ( cotype-Relaxed-Σ-Decomposition Y)))
            ( is-torsorial-htpy-equiv
              ( matching-correspondence-Relaxed-Σ-Decomposition Y))))

  id-equiv-fibered-Relaxed-Σ-Decomposition :
    equiv-fibered-Relaxed-Σ-Decomposition D D
  pr1 id-equiv-fibered-Relaxed-Σ-Decomposition =
    id-equiv-Relaxed-Σ-Decomposition X
  pr1 (pr2 id-equiv-fibered-Relaxed-Σ-Decomposition) = id-equiv
  pr1 (pr2 (pr2 id-equiv-fibered-Relaxed-Σ-Decomposition)) x = id-equiv
  pr2 (pr2 (pr2 id-equiv-fibered-Relaxed-Σ-Decomposition)) = refl-htpy

  equiv-eq-fibered-Relaxed-Σ-Decomposition :
    (D' : fibered-Relaxed-Σ-Decomposition l2 l3 l4 l5 A) 
    (D  D')  equiv-fibered-Relaxed-Σ-Decomposition D D'
  equiv-eq-fibered-Relaxed-Σ-Decomposition .D refl =
    id-equiv-fibered-Relaxed-Σ-Decomposition

  is-equiv-equiv-eq-fibered-Relaxed-Σ-Decomposition :
    (D' : fibered-Relaxed-Σ-Decomposition l2 l3 l4 l5 A) 
    is-equiv (equiv-eq-fibered-Relaxed-Σ-Decomposition D')
  is-equiv-equiv-eq-fibered-Relaxed-Σ-Decomposition =
    fundamental-theorem-id
      is-torsorial-equiv-fibered-Relaxed-Σ-Decomposition
      equiv-eq-fibered-Relaxed-Σ-Decomposition

  extensionality-fibered-Relaxed-Σ-Decomposition :
    (D' : fibered-Relaxed-Σ-Decomposition l2 l3 l4 l5 A) 
    (D  D')  equiv-fibered-Relaxed-Σ-Decomposition D D'
  pr1 (extensionality-fibered-Relaxed-Σ-Decomposition D') =
    equiv-eq-fibered-Relaxed-Σ-Decomposition D'
  pr2 (extensionality-fibered-Relaxed-Σ-Decomposition D') =
    is-equiv-equiv-eq-fibered-Relaxed-Σ-Decomposition D'

  eq-equiv-fibered-Relaxed-Σ-Decomposition :
    (D' : fibered-Relaxed-Σ-Decomposition l2 l3 l4 l5 A) 
    (equiv-fibered-Relaxed-Σ-Decomposition D D')  (D  D')
  eq-equiv-fibered-Relaxed-Σ-Decomposition D' =
    map-inv-equiv (extensionality-fibered-Relaxed-Σ-Decomposition D')
```

#### Characterization of identity type for displayed double Σ-decompositions

```agda
module _
  {l1 l2 l3 l4 l5 l6 l7 l8 l9 : Level}
  {A : UU l1} (X : displayed-Relaxed-Σ-Decomposition l2 l3 l4 l5 A)
  (Y : displayed-Relaxed-Σ-Decomposition l6 l7 l8 l9 A)
  where

  equiv-fst-displayed-Relaxed-Σ-Decomposition :
    UU (l1  l2  l3  l6  l7)
  equiv-fst-displayed-Relaxed-Σ-Decomposition =
    equiv-Relaxed-Σ-Decomposition
    ( fst-displayed-Relaxed-Σ-Decomposition X)
    ( fst-displayed-Relaxed-Σ-Decomposition Y)

  equiv-snd-displayed-Relaxed-Σ-Decomposition :
    (e : equiv-fst-displayed-Relaxed-Σ-Decomposition) 
    UU (l2  l4  l5  l7  l8  l9)
  equiv-snd-displayed-Relaxed-Σ-Decomposition e =
    ( x : indexing-type-fst-displayed-Relaxed-Σ-Decomposition X) 
    equiv-Relaxed-Σ-Decomposition
      ( map-equiv-tr-Relaxed-Σ-Decomposition
        ( equiv-cotype-equiv-Relaxed-Σ-Decomposition
          ( fst-displayed-Relaxed-Σ-Decomposition X)
          ( fst-displayed-Relaxed-Σ-Decomposition Y)
          ( e)
          ( x))
        ( snd-displayed-Relaxed-Σ-Decomposition X x))
      ( snd-displayed-Relaxed-Σ-Decomposition Y
        ( map-equiv-indexing-type-equiv-Relaxed-Σ-Decomposition
          ( fst-displayed-Relaxed-Σ-Decomposition X)
          ( fst-displayed-Relaxed-Σ-Decomposition Y)
          ( e)
          ( x)))

  equiv-displayed-Relaxed-Σ-Decomposition :
    UU (l1  l2  l3  l4  l5  l6  l7  l8  l9)
  equiv-displayed-Relaxed-Σ-Decomposition =
    Σ ( equiv-fst-displayed-Relaxed-Σ-Decomposition)
      ( equiv-snd-displayed-Relaxed-Σ-Decomposition)

  fst-equiv-displayed-Relaxed-Σ-Decomposition :
    (e : equiv-displayed-Relaxed-Σ-Decomposition) 
    equiv-fst-displayed-Relaxed-Σ-Decomposition
  fst-equiv-displayed-Relaxed-Σ-Decomposition = pr1

  snd-equiv-displayed-Relaxed-Σ-Decomposition :
    (e : equiv-displayed-Relaxed-Σ-Decomposition) 
    equiv-snd-displayed-Relaxed-Σ-Decomposition
      ( fst-equiv-displayed-Relaxed-Σ-Decomposition e)
  snd-equiv-displayed-Relaxed-Σ-Decomposition = pr2

module _
  { l1 l2 l3 l4 l5 : Level} {A : UU l1}
  ( disp-D : displayed-Relaxed-Σ-Decomposition l2 l3 l4 l5 A)
  where

  private
    X = fst-displayed-Relaxed-Σ-Decomposition disp-D
    f-Y = snd-displayed-Relaxed-Σ-Decomposition disp-D

  is-torsorial-equiv-displayed-Relaxed-Σ-Decomposition :
    is-torsorial (equiv-displayed-Relaxed-Σ-Decomposition disp-D)
  is-torsorial-equiv-displayed-Relaxed-Σ-Decomposition =
    is-torsorial-Eq-structure
      ( is-torsorial-equiv-Relaxed-Σ-Decomposition X)
      ( pair X (id-equiv-Relaxed-Σ-Decomposition X))
      ( is-contr-equiv
        ( Π-total-fam  x  _))
        ( inv-distributive-Π-Σ)
        ( is-contr-Π
          ( λ x  is-torsorial-equiv-Relaxed-Σ-Decomposition (f-Y x))))

  id-equiv-displayed-Relaxed-Σ-Decomposition :
    equiv-displayed-Relaxed-Σ-Decomposition disp-D disp-D
  pr1 id-equiv-displayed-Relaxed-Σ-Decomposition =
    id-equiv-Relaxed-Σ-Decomposition X
  pr1 (pr2 id-equiv-displayed-Relaxed-Σ-Decomposition x) = id-equiv
  pr1 (pr2 (pr2 id-equiv-displayed-Relaxed-Σ-Decomposition x)) y = id-equiv
  pr2 (pr2 (pr2 id-equiv-displayed-Relaxed-Σ-Decomposition x)) = refl-htpy

  equiv-eq-displayed-Relaxed-Σ-Decomposition :
    (disp-D' : displayed-Relaxed-Σ-Decomposition l2 l3 l4 l5 A) 
    (disp-D  disp-D')  equiv-displayed-Relaxed-Σ-Decomposition disp-D disp-D'
  equiv-eq-displayed-Relaxed-Σ-Decomposition .disp-D refl =
    id-equiv-displayed-Relaxed-Σ-Decomposition

  is-equiv-equiv-eq-displayed-Relaxed-Σ-Decomposition :
    (disp-D' : displayed-Relaxed-Σ-Decomposition l2 l3 l4 l5 A) 
    is-equiv (equiv-eq-displayed-Relaxed-Σ-Decomposition disp-D')
  is-equiv-equiv-eq-displayed-Relaxed-Σ-Decomposition =
    fundamental-theorem-id
      is-torsorial-equiv-displayed-Relaxed-Σ-Decomposition
      equiv-eq-displayed-Relaxed-Σ-Decomposition

  extensionality-displayed-Relaxed-Σ-Decomposition :
    (disp-D' : displayed-Relaxed-Σ-Decomposition l2 l3 l4 l5 A) 
    (disp-D  disp-D')  equiv-displayed-Relaxed-Σ-Decomposition disp-D disp-D'
  pr1 (extensionality-displayed-Relaxed-Σ-Decomposition D) =
    equiv-eq-displayed-Relaxed-Σ-Decomposition D
  pr2 (extensionality-displayed-Relaxed-Σ-Decomposition D) =
    is-equiv-equiv-eq-displayed-Relaxed-Σ-Decomposition D

  eq-equiv-displayed-Relaxed-Σ-Decomposition :
    (disp-D' : displayed-Relaxed-Σ-Decomposition l2 l3 l4 l5 A) 
    (equiv-displayed-Relaxed-Σ-Decomposition disp-D disp-D') 
    (disp-D  disp-D')
  eq-equiv-displayed-Relaxed-Σ-Decomposition D =
    map-inv-equiv
      (extensionality-displayed-Relaxed-Σ-Decomposition D)
```

#### Equivalence between fibered double relaxed Σ-recompositions and displayed double relaxed Σ-decompositions

```agda
module _
  {l1 l2 l3 l4 l5 : Level} {A : UU l1}
  (fib-D : fibered-Relaxed-Σ-Decomposition l2 l3 l4 l5 A)
  where

  private
    X = indexing-type-fst-fibered-Relaxed-Σ-Decomposition fib-D
    Y = cotype-fst-fibered-Relaxed-Σ-Decomposition fib-D
    e = matching-correspondence-Relaxed-Σ-Decomposition
      ( fst-fibered-Relaxed-Σ-Decomposition fib-D)
    U = indexing-type-snd-fibered-Relaxed-Σ-Decomposition fib-D
    V = cotype-snd-fibered-Relaxed-Σ-Decomposition fib-D
    f = matching-correspondence-Relaxed-Σ-Decomposition
      ( snd-fibered-Relaxed-Σ-Decomposition fib-D)

  matching-correspondence-displayed-fibered-Relaxed-Σ-Decomposition :
    A  Σ U  u  Σ (V u)  v  Y (map-inv-equiv f (u , v))))
  matching-correspondence-displayed-fibered-Relaxed-Σ-Decomposition =
    equivalence-reasoning
    A  Σ X Y by e
       Σ ( Σ U V)  uv  Y ((map-inv-equiv f) uv))
        by inv-equiv ( equiv-Σ-equiv-base Y (inv-equiv f))
       Σ U ( λ u  Σ (V u)  v  Y (map-inv-equiv f (u , v))))
        by associative-Σ U V  uv  Y (map-inv-equiv f uv))

  map-displayed-fibered-Relaxed-Σ-Decomposition :
    displayed-Relaxed-Σ-Decomposition l4 (l3  l5) l5 l3 A
  pr1 (pr1 map-displayed-fibered-Relaxed-Σ-Decomposition) = U
  pr1 (pr2 (pr1 map-displayed-fibered-Relaxed-Σ-Decomposition)) u =
    Σ ( V u) ( λ v  Y (map-inv-equiv f (u , v)))
  pr2 (pr2 (pr1 map-displayed-fibered-Relaxed-Σ-Decomposition)) =
    matching-correspondence-displayed-fibered-Relaxed-Σ-Decomposition
  pr1 (pr2 map-displayed-fibered-Relaxed-Σ-Decomposition u) = V u
  pr1 (pr2 (pr2 map-displayed-fibered-Relaxed-Σ-Decomposition u)) v =
    Y (map-inv-equiv f (u , v))
  pr2 (pr2 (pr2 map-displayed-fibered-Relaxed-Σ-Decomposition u)) = id-equiv

module _
  {l1 l2 l3 l4 l5 : Level} {A : UU l1}
  (disp-D : displayed-Relaxed-Σ-Decomposition l2 l3 l4 l5 A)
  where

  private
    M = indexing-type-fst-displayed-Relaxed-Σ-Decomposition disp-D
    N = cotype-fst-displayed-Relaxed-Σ-Decomposition disp-D
    s = matching-correspondence-Relaxed-Σ-Decomposition
      ( fst-displayed-Relaxed-Σ-Decomposition disp-D)
    P = indexing-type-snd-displayed-Relaxed-Σ-Decomposition disp-D
    Q = cotype-snd-displayed-Relaxed-Σ-Decomposition disp-D
    t = matching-correspondence-snd-displayed-Relaxed-Σ-Decomposition disp-D

  matching-correspondence-inv-displayed-fibered-Relaxed-Σ-Decomposition :
    A  Σ (Σ M P)  (m , p)  Q m p)
  matching-correspondence-inv-displayed-fibered-Relaxed-Σ-Decomposition =
    equivalence-reasoning
    A  Σ M N by s
       Σ M  m  Σ (P m) (Q m)) by equiv-Σ  m  Σ (P m) (Q m)) id-equiv t
       Σ (Σ M P)  (m , p)  Q m p)
      by inv-associative-Σ
        ( M)
        ( λ z  P z)
        ( λ z  Q (pr1 z) (pr2 z))

  map-inv-displayed-fibered-Relaxed-Σ-Decomposition :
    fibered-Relaxed-Σ-Decomposition (l2  l4) l5 l2 l4 A
  pr1 (pr1 map-inv-displayed-fibered-Relaxed-Σ-Decomposition) = Σ M P
  pr1 (pr2 (pr1 map-inv-displayed-fibered-Relaxed-Σ-Decomposition)) (m , p) =
    Q m p
  pr2 (pr2 (pr1 map-inv-displayed-fibered-Relaxed-Σ-Decomposition)) =
    matching-correspondence-inv-displayed-fibered-Relaxed-Σ-Decomposition
  pr1 (pr2 map-inv-displayed-fibered-Relaxed-Σ-Decomposition) = M
  pr1 (pr2 (pr2 map-inv-displayed-fibered-Relaxed-Σ-Decomposition)) = P
  pr2 (pr2 (pr2 map-inv-displayed-fibered-Relaxed-Σ-Decomposition)) = id-equiv

module _
  {l1 l : Level} {A : UU l1}
  (fib-D : fibered-Relaxed-Σ-Decomposition l l l l A)
  where

  private
    X = indexing-type-fst-fibered-Relaxed-Σ-Decomposition fib-D
    Y = cotype-fst-fibered-Relaxed-Σ-Decomposition fib-D
    e = matching-correspondence-Relaxed-Σ-Decomposition
      ( fst-fibered-Relaxed-Σ-Decomposition fib-D)
    U = indexing-type-snd-fibered-Relaxed-Σ-Decomposition fib-D
    V = cotype-snd-fibered-Relaxed-Σ-Decomposition fib-D
    f = matching-correspondence-Relaxed-Σ-Decomposition
      ( snd-fibered-Relaxed-Σ-Decomposition fib-D)
    disp-D = map-displayed-fibered-Relaxed-Σ-Decomposition fib-D
    M = indexing-type-fst-displayed-Relaxed-Σ-Decomposition disp-D
    N = cotype-fst-displayed-Relaxed-Σ-Decomposition disp-D
    s = matching-correspondence-Relaxed-Σ-Decomposition
      ( fst-displayed-Relaxed-Σ-Decomposition disp-D)
    P = indexing-type-snd-displayed-Relaxed-Σ-Decomposition disp-D
    Q = cotype-snd-displayed-Relaxed-Σ-Decomposition disp-D
    t = matching-correspondence-snd-displayed-Relaxed-Σ-Decomposition disp-D

    htpy-matching-correspondence :
      map-equiv
        ( equiv-Σ Y (inv-equiv f)  _  id-equiv) ∘e
          matching-correspondence-inv-displayed-fibered-Relaxed-Σ-Decomposition
            ( disp-D)) ~
      ( map-equiv e)
    htpy-matching-correspondence a =
      htpy-eq-equiv
        ( right-inverse-law-equiv (equiv-Σ-equiv-base Y (inv-equiv f)))
        ( map-equiv e a)

  is-retraction-map-inv-displayed-fibered-Relaxed-Σ-Decomposition :
    map-inv-displayed-fibered-Relaxed-Σ-Decomposition
      ( map-displayed-fibered-Relaxed-Σ-Decomposition fib-D)  fib-D
  is-retraction-map-inv-displayed-fibered-Relaxed-Σ-Decomposition =
    eq-equiv-fibered-Relaxed-Σ-Decomposition
      ( map-inv-displayed-fibered-Relaxed-Σ-Decomposition
        ( map-displayed-fibered-Relaxed-Σ-Decomposition fib-D))
      ( fib-D)
      ( ( ( inv-equiv f) ,
          ( ( λ x  id-equiv) ,
            ( htpy-matching-correspondence))) ,
        ( ( id-equiv) ,
          ( ( λ u  id-equiv) ,
            ( λ a  refl))))

module _
  {l1 l : Level} {A : UU l1}
  (disp-D : displayed-Relaxed-Σ-Decomposition l l l l A)
  where

  private
    M = indexing-type-fst-displayed-Relaxed-Σ-Decomposition disp-D
    N = cotype-fst-displayed-Relaxed-Σ-Decomposition disp-D
    s = matching-correspondence-Relaxed-Σ-Decomposition
      ( fst-displayed-Relaxed-Σ-Decomposition disp-D)
    P = indexing-type-snd-displayed-Relaxed-Σ-Decomposition disp-D
    Q = cotype-snd-displayed-Relaxed-Σ-Decomposition disp-D
    t = matching-correspondence-snd-displayed-Relaxed-Σ-Decomposition disp-D
    fib-D = map-inv-displayed-fibered-Relaxed-Σ-Decomposition disp-D
    X = indexing-type-fst-fibered-Relaxed-Σ-Decomposition fib-D
    Y = cotype-fst-fibered-Relaxed-Σ-Decomposition fib-D
    e = matching-correspondence-Relaxed-Σ-Decomposition
      ( fst-fibered-Relaxed-Σ-Decomposition fib-D)
    U = indexing-type-snd-fibered-Relaxed-Σ-Decomposition fib-D
    V = cotype-snd-fibered-Relaxed-Σ-Decomposition fib-D
    f = matching-correspondence-Relaxed-Σ-Decomposition
      ( snd-fibered-Relaxed-Σ-Decomposition fib-D)

    htpy-matching-correspondence :
      map-equiv
        ( equiv-Σ N id-equiv (inv-equiv  t) ∘e
          matching-correspondence-displayed-fibered-Relaxed-Σ-Decomposition
          (fib-D)) ~
      map-equiv s
    htpy-matching-correspondence x =
      ( ap
        ( λ f  map-equiv (equiv-tot (inv-equiv  t)) f)
        ( map-inv-eq-transpose-equiv
          ( associative-Σ M P Y)
          ( inv
            ( map-eq-transpose-equiv
              ( equiv-Σ-equiv-base Y (inv-equiv id-equiv))
              ( inv
                ( map-eq-transpose-equiv
                  ( associative-Σ M P Y)
                  ( is-section-map-inv-associative-Σ M P Y
                    ( map-equiv (equiv-tot t ∘e s) x)))))))) 
      ( inv
        ( preserves-comp-tot
          ( map-equiv  t)
          ( map-inv-equiv  t)
          ( map-equiv s x)) 
        ( ( tot-htpy
            ( λ z  is-retraction-map-inv-equiv (t z))
            ( map-equiv s x)) 
          ( tot-id
            ( λ z  cotype-fst-displayed-Relaxed-Σ-Decomposition disp-D z)
            ( map-equiv s x))))

  is-section-map-inv-displayed-fibered-Relaxed-Σ-Decomposition :
    ( map-displayed-fibered-Relaxed-Σ-Decomposition
      {l1} {l} {l} {l} {l} {A} fib-D) 
    disp-D
  is-section-map-inv-displayed-fibered-Relaxed-Σ-Decomposition =
    eq-equiv-displayed-Relaxed-Σ-Decomposition
      ( map-displayed-fibered-Relaxed-Σ-Decomposition fib-D)
      ( disp-D)
      ( ( ( id-equiv) ,
          ( ( inv-equiv  t) ,
            ( htpy-matching-correspondence))) ,
        ( λ (m : M) 
          ( ( id-equiv) ,
            ( ( λ (p : P m)  id-equiv) ,
              ( refl-htpy)))))

is-equiv-map-displayed-fibered-Relaxed-Σ-Decomposition :
  {l1 l : Level}  {A : UU l1} 
  is-equiv
    ( map-displayed-fibered-Relaxed-Σ-Decomposition {l1} {l} {l} {l} {l} {A})
is-equiv-map-displayed-fibered-Relaxed-Σ-Decomposition =
  is-equiv-is-invertible
    ( map-inv-displayed-fibered-Relaxed-Σ-Decomposition)
    ( is-section-map-inv-displayed-fibered-Relaxed-Σ-Decomposition)
    ( is-retraction-map-inv-displayed-fibered-Relaxed-Σ-Decomposition)

equiv-displayed-fibered-Relaxed-Σ-Decomposition :
  {l1 l : Level}  {A : UU l1} 
  fibered-Relaxed-Σ-Decomposition l l l l A 
  displayed-Relaxed-Σ-Decomposition l l l l A
pr1 equiv-displayed-fibered-Relaxed-Σ-Decomposition =
  map-displayed-fibered-Relaxed-Σ-Decomposition
pr2 equiv-displayed-fibered-Relaxed-Σ-Decomposition =
  is-equiv-map-displayed-fibered-Relaxed-Σ-Decomposition
```