Abelian categories have homology #
In this file, it is shown that all short complexes S in abelian
categories have terms of type S.HomologyData.
The strategy of the proof is to study the morphism
kernel.ι S.g ≫ cokernel.π S.f. We show that there is a
LeftHomologyData for S for which the H field consists
of the coimage of kernel.ι S.g ≫ cokernel.π S.f, while
there is a RightHomologyData for which the H is the
image of kernel.ι S.g ≫ cokernel.π S.f. The fact that
these left and right homology data are compatible (i.e.
provide a HomologyData) is obtained by using the
coimage-image isomorphism in abelian categories.
noncomputable def
CategoryTheory.ShortComplex.abelianImageToKernel
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
The canonical morphism Abelian.image S.f ⟶ kernel S.g for a short complex S
in an abelian category.
Equations
- S.abelianImageToKernel = CategoryTheory.Limits.kernel.lift S.g (CategoryTheory.Abelian.image.ι S.f) ⋯
Instances For
@[simp]
theorem
CategoryTheory.ShortComplex.abelianImageToKernel_comp_kernel_ι
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
CategoryTheory.CategoryStruct.comp S.abelianImageToKernel (CategoryTheory.Limits.kernel.ι S.g) = CategoryTheory.Abelian.image.ι S.f
@[simp]
theorem
CategoryTheory.ShortComplex.abelianImageToKernel_comp_kernel_ι_assoc
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
{Z : C}
(h : S.X₂ ⟶ Z)
:
CategoryTheory.CategoryStruct.comp S.abelianImageToKernel
(CategoryTheory.CategoryStruct.comp (CategoryTheory.Limits.kernel.ι S.g) h) = CategoryTheory.CategoryStruct.comp (CategoryTheory.Abelian.image.ι S.f) h
instance
CategoryTheory.ShortComplex.instMonoAbelianImageToKernel
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
CategoryTheory.Mono S.abelianImageToKernel
Equations
- ⋯ = ⋯
@[simp]
theorem
CategoryTheory.ShortComplex.abelianImageToKernel_comp_kernel_ι_comp_cokernel_π
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
CategoryTheory.CategoryStruct.comp S.abelianImageToKernel
(CategoryTheory.CategoryStruct.comp (CategoryTheory.Limits.kernel.ι S.g) (CategoryTheory.Limits.cokernel.π S.f)) = 0
@[simp]
theorem
CategoryTheory.ShortComplex.abelianImageToKernel_comp_kernel_ι_comp_cokernel_π_assoc
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
{Z : C}
(h : CategoryTheory.Limits.cokernel S.f ⟶ Z)
:
CategoryTheory.CategoryStruct.comp S.abelianImageToKernel
(CategoryTheory.CategoryStruct.comp (CategoryTheory.Limits.kernel.ι S.g)
(CategoryTheory.CategoryStruct.comp (CategoryTheory.Limits.cokernel.π S.f) h)) = CategoryTheory.CategoryStruct.comp 0 h
noncomputable def
CategoryTheory.ShortComplex.abelianImageToKernelIsKernel
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
CategoryTheory.Limits.IsLimit (CategoryTheory.Limits.KernelFork.ofι S.abelianImageToKernel ⋯)
Abelian.image S.f is the kernel of kernel.ι S.g ≫ cokernel.π S.f
Equations
- One or more equations did not get rendered due to their size.
Instances For
noncomputable def
CategoryTheory.ShortComplex.LeftHomologyData.ofAbelian
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
S.LeftHomologyData
The canonical LeftHomologyData of a short complex S in an abelian category, for
which the H field is Abelian.coimage (kernel.ι S.g ≫ cokernel.π S.f).
Equations
- One or more equations did not get rendered due to their size.
Instances For
@[simp]
theorem
CategoryTheory.ShortComplex.LeftHomologyData.ofAbelian_π
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
@[simp]
@[simp]
@[simp]
theorem
CategoryTheory.ShortComplex.LeftHomologyData.ofAbelian_H
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
noncomputable def
CategoryTheory.ShortComplex.cokernelToAbelianCoimage
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
The canonical morphism cokernel S.f ⟶ Abelian.coimage S.g for a short complex S
in an abelian category.
Equations
- S.cokernelToAbelianCoimage = CategoryTheory.Limits.cokernel.desc S.f (CategoryTheory.Abelian.coimage.π S.g) ⋯
Instances For
@[simp]
theorem
CategoryTheory.ShortComplex.cokernel_π_comp_cokernelToAbelianCoimage
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
CategoryTheory.CategoryStruct.comp (CategoryTheory.Limits.cokernel.π S.f) S.cokernelToAbelianCoimage = CategoryTheory.Abelian.coimage.π S.g
@[simp]
theorem
CategoryTheory.ShortComplex.cokernel_π_comp_cokernelToAbelianCoimage_assoc
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
{Z : C}
(h : CategoryTheory.Abelian.coimage S.g ⟶ Z)
:
CategoryTheory.CategoryStruct.comp (CategoryTheory.Limits.cokernel.π S.f)
(CategoryTheory.CategoryStruct.comp S.cokernelToAbelianCoimage h) = CategoryTheory.CategoryStruct.comp (CategoryTheory.Abelian.coimage.π S.g) h
instance
CategoryTheory.ShortComplex.instEpiCokernelToAbelianCoimage
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
CategoryTheory.Epi S.cokernelToAbelianCoimage
Equations
- ⋯ = ⋯
theorem
CategoryTheory.ShortComplex.kernel_ι_comp_cokernel_π_comp_cokernelToAbelianCoimage
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
CategoryTheory.CategoryStruct.comp
(CategoryTheory.CategoryStruct.comp (CategoryTheory.Limits.kernel.ι S.g) (CategoryTheory.Limits.cokernel.π S.f))
S.cokernelToAbelianCoimage = 0
noncomputable def
CategoryTheory.ShortComplex.cokernelToAbelianCoimageIsCokernel
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
CategoryTheory.Limits.IsColimit (CategoryTheory.Limits.CokernelCofork.ofπ S.cokernelToAbelianCoimage ⋯)
Abelian.coimage S.g is the cokernel of kernel.ι S.g ≫ cokernel.π S.f
Equations
- One or more equations did not get rendered due to their size.
Instances For
noncomputable def
CategoryTheory.ShortComplex.RightHomologyData.ofAbelian
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
S.RightHomologyData
The canonical RightHomologyData of a short complex S in an abelian category, for
which the H field is Abelian.image (kernel.ι S.g ≫ cokernel.π S.f).
Equations
- One or more equations did not get rendered due to their size.
Instances For
@[simp]
theorem
CategoryTheory.ShortComplex.RightHomologyData.ofAbelian_ι
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
@[simp]
@[simp]
theorem
CategoryTheory.ShortComplex.RightHomologyData.ofAbelian_H
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
noncomputable def
CategoryTheory.ShortComplex.HomologyData.ofAbelian
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
(S : CategoryTheory.ShortComplex C)
:
S.HomologyData
The canonical HomologyData of a short complex S in an abelian category.
Equations
- One or more equations did not get rendered due to their size.
Instances For
instance
CategoryTheory.categoryWithHomology_of_abelian
{C : Type u}
[CategoryTheory.Category.{v, u} C]
[CategoryTheory.Abelian C]
:
Equations
- ⋯ = ⋯