Documentation

Mathlib.CategoryTheory.Limits.Shapes.StrongEpi

Strong epimorphisms #

In this file, we define strong epimorphisms. A strong epimorphism is an epimorphism f which has the (unique) left lifting property with respect to monomorphisms. Similarly, a strong monomorphisms in a monomorphism which has the (unique) right lifting property with respect to epimorphisms.

Main results #

Besides the definition, we show that

the composition of two strong epimorphisms is a strong epimorphism,
if f ≫ g is a strong epimorphism, then so is g,
if f is both a strong epimorphism and a monomorphism, then it is an isomorphism

We also define classes StrongMonoCategory and StrongEpiCategory for categories in which every monomorphism or epimorphism is strong, and deduce that these categories are balanced.

TODO #

Show that the dual of a strong epimorphism is a strong monomorphism, and vice versa.

References #

[F. Borceux, Handbook of Categorical Algebra 1][borceux-vol1]

class CategoryTheory.StrongEpi {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} (f : P ⟶ Q) :

A strong epimorphism f is an epimorphism which has the left lifting property with respect to monomorphisms.

epi : CategoryTheory.Epi f
The epimorphism condition on f
llp : ∀ ⦃X Y : C⦄ (z : X ⟶ Y) [inst : CategoryTheory.Mono z], CategoryTheory.HasLiftingProperty f z
The left lifting property with respect to all monomorphism

Instances

theorem CategoryTheory.StrongEpi.epi {C : Type u} :

∀ {inst : CategoryTheory.Category.{v, u} C} {P Q : C} {f : P ⟶ Q} [self : CategoryTheory.StrongEpi f], CategoryTheory.Epi f

The epimorphism condition on f

theorem CategoryTheory.StrongEpi.llp {C : Type u} :

∀ {inst : CategoryTheory.Category.{v, u} C} {P Q : C} {f : P ⟶ Q} [self : CategoryTheory.StrongEpi f] ⦃X Y : C⦄ (z : X ⟶ Y) [inst_1 : CategoryTheory.Mono z], CategoryTheory.HasLiftingProperty f z

The left lifting property with respect to all monomorphism

theorem CategoryTheory.StrongEpi.mk' {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} {f : P ⟶ Q} [CategoryTheory.Epi f] (hf : ∀ (X Y : C) (z : X ⟶ Y), CategoryTheory.Mono z → ∀ (u : P ⟶ X) (v : Q ⟶ Y) (sq : CategoryTheory.CommSq u f z v), sq.HasLift) :

CategoryTheory.StrongEpi f

class CategoryTheory.StrongMono {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} (f : P ⟶ Q) :

A strong monomorphism f is a monomorphism which has the right lifting property with respect to epimorphisms.

mono : CategoryTheory.Mono f
The monomorphism condition on f
rlp : ∀ ⦃X Y : C⦄ (z : X ⟶ Y) [inst : CategoryTheory.Epi z], CategoryTheory.HasLiftingProperty z f
The right lifting property with respect to all epimorphisms

Instances

theorem CategoryTheory.StrongMono.mono {C : Type u} :

∀ {inst : CategoryTheory.Category.{v, u} C} {P Q : C} {f : P ⟶ Q} [self : CategoryTheory.StrongMono f], CategoryTheory.Mono f

The monomorphism condition on f

theorem CategoryTheory.StrongMono.rlp {C : Type u} :

∀ {inst : CategoryTheory.Category.{v, u} C} {P Q : C} {f : P ⟶ Q} [self : CategoryTheory.StrongMono f] ⦃X Y : C⦄ (z : X ⟶ Y) [inst_1 : CategoryTheory.Epi z], CategoryTheory.HasLiftingProperty z f

The right lifting property with respect to all epimorphisms

theorem CategoryTheory.StrongMono.mk' {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} {f : P ⟶ Q} [CategoryTheory.Mono f] (hf : ∀ (X Y : C) (z : X ⟶ Y), CategoryTheory.Epi z → ∀ (u : X ⟶ P) (v : Y ⟶ Q) (sq : CategoryTheory.CommSq u z f v), sq.HasLift) :

CategoryTheory.StrongMono f

@[instance 100]

instance CategoryTheory.epi_of_strongEpi {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} (f : P ⟶ Q) [CategoryTheory.StrongEpi f] :

CategoryTheory.Epi f

Equations

⋯ = ⋯

@[instance 100]

instance CategoryTheory.mono_of_strongMono {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} (f : P ⟶ Q) [CategoryTheory.StrongMono f] :

CategoryTheory.Mono f

Equations

⋯ = ⋯

theorem CategoryTheory.strongEpi_comp {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} {R : C} (f : P ⟶ Q) (g : Q ⟶ R) [CategoryTheory.StrongEpi f] [CategoryTheory.StrongEpi g] :

CategoryTheory.StrongEpi (CategoryTheory.CategoryStruct.comp f g)

The composition of two strong epimorphisms is a strong epimorphism.

theorem CategoryTheory.strongMono_comp {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} {R : C} (f : P ⟶ Q) (g : Q ⟶ R) [CategoryTheory.StrongMono f] [CategoryTheory.StrongMono g] :

CategoryTheory.StrongMono (CategoryTheory.CategoryStruct.comp f g)

The composition of two strong monomorphisms is a strong monomorphism.

theorem CategoryTheory.strongEpi_of_strongEpi {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} {R : C} (f : P ⟶ Q) (g : Q ⟶ R) [CategoryTheory.StrongEpi (CategoryTheory.CategoryStruct.comp f g)] :

CategoryTheory.StrongEpi g

If f ≫ g is a strong epimorphism, then so is g.

theorem CategoryTheory.strongMono_of_strongMono {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} {R : C} (f : P ⟶ Q) (g : Q ⟶ R) [CategoryTheory.StrongMono (CategoryTheory.CategoryStruct.comp f g)] :

CategoryTheory.StrongMono f

If f ≫ g is a strong monomorphism, then so is f.

@[instance 100]

instance CategoryTheory.strongEpi_of_isIso {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} (f : P ⟶ Q) [CategoryTheory.IsIso f] :

CategoryTheory.StrongEpi f

An isomorphism is in particular a strong epimorphism.

Equations

⋯ = ⋯

@[instance 100]

instance CategoryTheory.strongMono_of_isIso {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} (f : P ⟶ Q) [CategoryTheory.IsIso f] :

CategoryTheory.StrongMono f

An isomorphism is in particular a strong monomorphism.

Equations

⋯ = ⋯

theorem CategoryTheory.StrongEpi.of_arrow_iso {C : Type u} [CategoryTheory.Category.{v, u} C] {A : C} {B : C} {A' : C} {B' : C} {f : A ⟶ B} {g : A' ⟶ B'} (e : CategoryTheory.Arrow.mk f ≅ CategoryTheory.Arrow.mk g) [h : CategoryTheory.StrongEpi f] :

CategoryTheory.StrongEpi g

theorem CategoryTheory.StrongMono.of_arrow_iso {C : Type u} [CategoryTheory.Category.{v, u} C] {A : C} {B : C} {A' : C} {B' : C} {f : A ⟶ B} {g : A' ⟶ B'} (e : CategoryTheory.Arrow.mk f ≅ CategoryTheory.Arrow.mk g) [h : CategoryTheory.StrongMono f] :

CategoryTheory.StrongMono g

theorem CategoryTheory.StrongEpi.iff_of_arrow_iso {C : Type u} [CategoryTheory.Category.{v, u} C] {A : C} {B : C} {A' : C} {B' : C} {f : A ⟶ B} {g : A' ⟶ B'} (e : CategoryTheory.Arrow.mk f ≅ CategoryTheory.Arrow.mk g) :

CategoryTheory.StrongEpi f ↔ CategoryTheory.StrongEpi g

theorem CategoryTheory.StrongMono.iff_of_arrow_iso {C : Type u} [CategoryTheory.Category.{v, u} C] {A : C} {B : C} {A' : C} {B' : C} {f : A ⟶ B} {g : A' ⟶ B'} (e : CategoryTheory.Arrow.mk f ≅ CategoryTheory.Arrow.mk g) :

CategoryTheory.StrongMono f ↔ CategoryTheory.StrongMono g

theorem CategoryTheory.isIso_of_mono_of_strongEpi {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} (f : P ⟶ Q) [CategoryTheory.Mono f] [CategoryTheory.StrongEpi f] :

CategoryTheory.IsIso f

A strong epimorphism that is a monomorphism is an isomorphism.

theorem CategoryTheory.isIso_of_epi_of_strongMono {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} (f : P ⟶ Q) [CategoryTheory.Epi f] [CategoryTheory.StrongMono f] :

CategoryTheory.IsIso f

A strong monomorphism that is an epimorphism is an isomorphism.

class CategoryTheory.StrongEpiCategory (C : Type u) [CategoryTheory.Category.{v, u} C] :

A strong epi category is a category in which every epimorphism is strong.

strongEpi_of_epi : ∀ {X Y : C} (f : X ⟶ Y) [inst : CategoryTheory.Epi f], CategoryTheory.StrongEpi f
A strong epi category is a category in which every epimorphism is strong.

Instances

theorem CategoryTheory.StrongEpiCategory.strongEpi_of_epi {C : Type u} :

∀ {inst : CategoryTheory.Category.{v, u} C} [self : CategoryTheory.StrongEpiCategory C] {X Y : C} (f : X ⟶ Y) [inst_1 : CategoryTheory.Epi f], CategoryTheory.StrongEpi f

A strong epi category is a category in which every epimorphism is strong.

class CategoryTheory.StrongMonoCategory (C : Type u) [CategoryTheory.Category.{v, u} C] :

A strong mono category is a category in which every monomorphism is strong.

strongMono_of_mono : ∀ {X Y : C} (f : X ⟶ Y) [inst : CategoryTheory.Mono f], CategoryTheory.StrongMono f
A strong mono category is a category in which every monomorphism is strong.

Instances

theorem CategoryTheory.StrongMonoCategory.strongMono_of_mono {C : Type u} :

∀ {inst : CategoryTheory.Category.{v, u} C} [self : CategoryTheory.StrongMonoCategory C] {X Y : C} (f : X ⟶ Y) [inst_1 : CategoryTheory.Mono f], CategoryTheory.StrongMono f

A strong mono category is a category in which every monomorphism is strong.

theorem CategoryTheory.strongEpi_of_epi {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} [CategoryTheory.StrongEpiCategory C] (f : P ⟶ Q) [CategoryTheory.Epi f] :

CategoryTheory.StrongEpi f

theorem CategoryTheory.strongMono_of_mono {C : Type u} [CategoryTheory.Category.{v, u} C] {P : C} {Q : C} [CategoryTheory.StrongMonoCategory C] (f : P ⟶ Q) [CategoryTheory.Mono f] :

CategoryTheory.StrongMono f

@[instance 100]

instance CategoryTheory.balanced_of_strongEpiCategory {C : Type u} [CategoryTheory.Category.{v, u} C] [CategoryTheory.StrongEpiCategory C] :

CategoryTheory.Balanced C

Equations

⋯ = ⋯

@[instance 100]

instance CategoryTheory.balanced_of_strongMonoCategory {C : Type u} [CategoryTheory.Category.{v, u} C] [CategoryTheory.StrongMonoCategory C] :

CategoryTheory.Balanced C

Equations

⋯ = ⋯