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Mathlib.CategoryTheory.Limits.ExactFunctor

Bundled exact functors #

We say that a functor F is left exact if it preserves finite limits, it is right exact if it preserves finite colimits, and it is exact if it is both left exact and right exact.

In this file, we define the categories of bundled left exact, right exact and exact functors.

def CategoryTheory.LeftExactFunctor (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] :
Type (max (max (max u₁ u₂) v₁) v₂)

Bundled left-exact functors.

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    C ⥤ₗ D denotes left exact functors C ⥤ D

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      def CategoryTheory.RightExactFunctor (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] :
      Type (max (max (max u₁ u₂) v₁) v₂)

      Bundled right-exact functors.

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        C ⥤ᵣ D denotes right exact functors C ⥤ D

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          C ⥤ₑ D denotes exact functors C ⥤ D

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            An exact functor is in particular a functor.

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              Turn a left exact functor into an object of the category LeftExactFunctor C D.

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                Turn a right exact functor into an object of the category RightExactFunctor C D.

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                  Whiskering a left exact functor by a left exact functor yields a left exact functor.

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                    theorem CategoryTheory.LeftExactFunctor.whiskeringLeft_obj_obj_obj_map (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : C ⥤ₗ D) (X : D ⥤ₗ E) {X✝ Y✝ : C} (f : X✝ Y✝) :
                    (((CategoryTheory.LeftExactFunctor.whiskeringLeft C D E).obj F).obj X).obj.map f = X.obj.map (F.obj.map f)
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                    theorem CategoryTheory.LeftExactFunctor.whiskeringLeft_obj_map_app (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : C ⥤ₗ D) {X✝ Y✝ : D ⥤ₗ E} (f : X✝ Y✝) (X : C) :
                    (((CategoryTheory.LeftExactFunctor.whiskeringLeft C D E).obj F).map f).app X = f.app (F.obj.obj X)

                    Whiskering a left exact functor by a left exact functor yields a left exact functor.

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                      theorem CategoryTheory.LeftExactFunctor.whiskeringRight_obj_obj_obj_map (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : D ⥤ₗ E) (X : C ⥤ₗ D) {X✝ Y✝ : C} (f : X✝ Y✝) :
                      (((CategoryTheory.LeftExactFunctor.whiskeringRight C D E).obj F).obj X).obj.map f = F.obj.map (X.obj.map f)
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                      theorem CategoryTheory.LeftExactFunctor.whiskeringRight_obj_map_app (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : D ⥤ₗ E) {X✝ Y✝ : C ⥤ₗ D} (f : X✝ Y✝) (X : C) :
                      (((CategoryTheory.LeftExactFunctor.whiskeringRight C D E).obj F).map f).app X = F.obj.map (f.app X)
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                      Whiskering a right exact functor by a right exact functor yields a right exact functor.

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                        theorem CategoryTheory.RightExactFunctor.whiskeringLeft_obj_obj_obj_map (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : C ⥤ᵣ D) (X : D ⥤ᵣ E) {X✝ Y✝ : C} (f : X✝ Y✝) :
                        (((CategoryTheory.RightExactFunctor.whiskeringLeft C D E).obj F).obj X).obj.map f = X.obj.map (F.obj.map f)
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                        theorem CategoryTheory.RightExactFunctor.whiskeringLeft_obj_map_app (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : C ⥤ᵣ D) {X✝ Y✝ : D ⥤ᵣ E} (f : X✝ Y✝) (X : C) :
                        (((CategoryTheory.RightExactFunctor.whiskeringLeft C D E).obj F).map f).app X = f.app (F.obj.obj X)

                        Whiskering a right exact functor by a right exact functor yields a right exact functor.

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                          theorem CategoryTheory.RightExactFunctor.whiskeringRight_obj_map_app (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : D ⥤ᵣ E) {X✝ Y✝ : C ⥤ᵣ D} (f : X✝ Y✝) (X : C) :
                          (((CategoryTheory.RightExactFunctor.whiskeringRight C D E).obj F).map f).app X = F.obj.map (f.app X)
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                          theorem CategoryTheory.RightExactFunctor.whiskeringRight_obj_obj_obj_map (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : D ⥤ᵣ E) (X : C ⥤ᵣ D) {X✝ Y✝ : C} (f : X✝ Y✝) :
                          (((CategoryTheory.RightExactFunctor.whiskeringRight C D E).obj F).obj X).obj.map f = F.obj.map (X.obj.map f)

                          Whiskering an exact functor by an exact functor yields an exact functor.

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                            theorem CategoryTheory.ExactFunctor.whiskeringLeft_map_app_app (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] {F G : C ⥤ₑ D} (η : F G) (H : D ⥤ₑ E) (c : C) :
                            (((CategoryTheory.ExactFunctor.whiskeringLeft C D E).map η).app H).app c = H.obj.map (η.app c)
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                            theorem CategoryTheory.ExactFunctor.whiskeringLeft_obj_obj_obj_obj (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : C ⥤ₑ D) (X : D ⥤ₑ E) (X✝ : C) :
                            (((CategoryTheory.ExactFunctor.whiskeringLeft C D E).obj F).obj X).obj.obj X✝ = X.obj.obj (F.obj.obj X✝)
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                            theorem CategoryTheory.ExactFunctor.whiskeringLeft_obj_obj_obj_map (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : C ⥤ₑ D) (X : D ⥤ₑ E) {X✝ Y✝ : C} (f : X✝ Y✝) :
                            (((CategoryTheory.ExactFunctor.whiskeringLeft C D E).obj F).obj X).obj.map f = X.obj.map (F.obj.map f)
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                            theorem CategoryTheory.ExactFunctor.whiskeringLeft_obj_map_app (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : C ⥤ₑ D) {X✝ Y✝ : D ⥤ₑ E} (f : X✝ Y✝) (X : C) :
                            (((CategoryTheory.ExactFunctor.whiskeringLeft C D E).obj F).map f).app X = f.app (F.obj.obj X)

                            Whiskering an exact functor by an exact functor yields an exact functor.

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                              theorem CategoryTheory.ExactFunctor.whiskeringRight_obj_map_app (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : D ⥤ₑ E) {X✝ Y✝ : C ⥤ₑ D} (f : X✝ Y✝) (X : C) :
                              (((CategoryTheory.ExactFunctor.whiskeringRight C D E).obj F).map f).app X = F.obj.map (f.app X)
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                              theorem CategoryTheory.ExactFunctor.whiskeringRight_obj_obj_obj_map (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : D ⥤ₑ E) (X : C ⥤ₑ D) {X✝ Y✝ : C} (f : X✝ Y✝) :
                              (((CategoryTheory.ExactFunctor.whiskeringRight C D E).obj F).obj X).obj.map f = F.obj.map (X.obj.map f)
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                              theorem CategoryTheory.ExactFunctor.whiskeringRight_obj_obj_obj_obj (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] (F : D ⥤ₑ E) (X : C ⥤ₑ D) (X✝ : C) :
                              (((CategoryTheory.ExactFunctor.whiskeringRight C D E).obj F).obj X).obj.obj X✝ = F.obj.obj (X.obj.obj X✝)
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                              theorem CategoryTheory.ExactFunctor.whiskeringRight_map_app_app (C : Type u₁) [CategoryTheory.Category.{v₁, u₁} C] (D : Type u₂) [CategoryTheory.Category.{v₂, u₂} D] (E : Type u₃) [CategoryTheory.Category.{v₃, u₃} E] {F G : D ⥤ₑ E} (η : F G) (H : C ⥤ₑ D) (c : C) :
                              (((CategoryTheory.ExactFunctor.whiskeringRight C D E).map η).app H).app c = η.app (H.obj.obj c)