HepLean Documentation

Mathlib.CategoryTheory.Limits.Shapes.Kernels

Kernels and cokernels #

In a category with zero morphisms, the kernel of a morphism f : X ⟶ Y is the equalizer of f and 0 : X ⟶ Y. (Similarly the cokernel is the coequalizer.)

The basic definitions are

Main statements #

Besides the definition and lifts, we prove

and the corresponding dual statements.

Future work #

Implementation notes #

As with the other special shapes in the limits library, all the definitions here are given as abbreviations of the general statements for limits, so all the simp lemmas and theorems about general limits can be used.

References #

@[reducible, inline]

A morphism f has a kernel if the functor ParallelPair f 0 has a limit.

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    @[reducible, inline]

    A morphism f has a cokernel if the functor ParallelPair f 0 has a colimit.

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      @[reducible, inline]

      A kernel fork is just a fork where the second morphism is a zero morphism.

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        @[reducible, inline]

        A morphism ι satisfying ι ≫ f = 0 determines a kernel fork over f.

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          Every kernel fork s is isomorphic (actually, equal) to fork.ofι (fork.ι s) _.

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            If F is an equivalence, then applying F to a diagram indexing a (co)kernel of f yields the diagram indexing the (co)kernel of F.map f.

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              If s is a limit kernel fork and k : W ⟶ X satisfies k ≫ f = 0, then there is some l : W ⟶ s.X such that l ≫ fork.ι s = k.

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                This is a slightly more convenient method to verify that a kernel fork is a limit cone. It only asks for a proof of facts that carry any mathematical content

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                  def CategoryTheory.Limits.KernelFork.IsLimit.ofι {C : Type u} [CategoryTheory.Category.{v, u} C] [CategoryTheory.Limits.HasZeroMorphisms C] {X Y : C} {f : X Y} {W : C} (g : W X) (eq : CategoryTheory.CategoryStruct.comp g f = 0) (lift : {W' : C} → (g' : W' X) → CategoryTheory.CategoryStruct.comp g' f = 0(W' W)) (fac : ∀ {W' : C} (g' : W' X) (eq' : CategoryTheory.CategoryStruct.comp g' f = 0), CategoryTheory.CategoryStruct.comp (lift g' eq') g = g') (uniq : ∀ {W' : C} (g' : W' X) (eq' : CategoryTheory.CategoryStruct.comp g' f = 0) (m : W' W), CategoryTheory.CategoryStruct.comp m g = g'm = lift g' eq') :

                  This is a more convenient formulation to show that a KernelFork constructed using KernelFork.ofι is a limit cone.

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                    This is a more convenient formulation to show that a KernelFork of the form KernelFork.ofι i _ is a limit cone when we know that i is a monomorphism.

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                      Every kernel of f induces a kernel of f ≫ g if g is mono.

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                        Every kernel of f ≫ g is also a kernel of f, as long as c.ι ≫ f vanishes.

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                          X identifies to the kernel of a zero map X ⟶ Y.

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                            If c is a limit kernel fork for g : X ⟶ Y, e : X ≅ X' and g' : X' ⟶ Y is a morphism, then there is a limit kernel fork for g' with the same point as c if for any morphism φ : W ⟶ X, there is an equivalence φ ≫ g = 0 ↔ φ ≫ e.hom ≫ g' = 0.

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                              If c is a limit kernel fork for g : X ⟶ Y, and g' : X ⟶ Y' is a another morphism, then there is a limit kernel fork for g' with the same point as c if for any morphism φ : W ⟶ X, there is an equivalence φ ≫ g = 0 ↔ φ ≫ g' = 0.

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                                The morphism between points of kernel forks induced by a morphism in the category of arrows.

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                                  The isomorphism between points of limit kernel forks induced by an isomorphism in the category of arrows.

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                                    @[reducible, inline]

                                    The kernel of a morphism, expressed as the equalizer with the 0 morphism.

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                                      The kernel built from kernel.ι f is limiting.

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                                        @[reducible, inline]

                                        Given any morphism k : W ⟶ X satisfying k ≫ f = 0, k factors through kernel.ι f via kernel.lift : W ⟶ kernel f.

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                                          Any morphism k : W ⟶ X satisfying k ≫ f = 0 induces a morphism l : W ⟶ kernel f such that l ≫ kernel.ι f = k.

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                                            Given a commutative diagram X --f--> Y --g--> Z | | | | | | v v v X' -f'-> Y' -g'-> Z' with horizontal arrows composing to zero, then we obtain a commutative square X ---> kernel g | | | | kernel.map | | v v X' --> kernel g'

                                            A commuting square of isomorphisms induces an isomorphism of kernels.

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                                              The kernel of a zero morphism is isomorphic to the source.

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                                                When g is a monomorphism, the kernel of f ≫ g is isomorphic to the kernel of f.

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                                                  When f is an isomorphism, the kernel of f ≫ g is isomorphic to the kernel of g.

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                                                    The morphism from the zero object determines a cone on a kernel diagram

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                                                      The kernel of a monomorphism is isomorphic to the zero object

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                                                        If i is an isomorphism such that l ≫ i.hom = f, any kernel of f is a kernel of l.

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                                                          If s is any limit kernel cone over f and if i is an isomorphism such that i.hom ≫ s.ι = l, then l is a kernel of f.

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                                                            @[reducible, inline]

                                                            A cokernel cofork is just a cofork where the second morphism is a zero morphism.

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                                                              @[reducible, inline]

                                                              A morphism π satisfying f ≫ π = 0 determines a cokernel cofork on f.

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                                                                Every cokernel cofork s is isomorphic (actually, equal) to cofork.ofπ (cofork.π s) _.

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                                                                  If s is a colimit cokernel cofork, then every k : Y ⟶ W satisfying f ≫ k = 0 induces l : s.X ⟶ W such that cofork.π s ≫ l = k.

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                                                                    This is a slightly more convenient method to verify that a cokernel cofork is a colimit cocone. It only asks for a proof of facts that carry any mathematical content

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                                                                      def CategoryTheory.Limits.CokernelCofork.IsColimit.ofπ {C : Type u} [CategoryTheory.Category.{v, u} C] [CategoryTheory.Limits.HasZeroMorphisms C] {X Y : C} {f : X Y} {Z : C} (g : Y Z) (eq : CategoryTheory.CategoryStruct.comp f g = 0) (desc : {Z' : C} → (g' : Y Z') → CategoryTheory.CategoryStruct.comp f g' = 0(Z Z')) (fac : ∀ {Z' : C} (g' : Y Z') (eq' : CategoryTheory.CategoryStruct.comp f g' = 0), CategoryTheory.CategoryStruct.comp g (desc g' eq') = g') (uniq : ∀ {Z' : C} (g' : Y Z') (eq' : CategoryTheory.CategoryStruct.comp f g' = 0) (m : Z Z'), CategoryTheory.CategoryStruct.comp g m = g'm = desc g' eq') :

                                                                      This is a more convenient formulation to show that a CokernelCofork constructed using CokernelCofork.ofπ is a limit cone.

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                                                                        This is a more convenient formulation to show that a CokernelCofork of the form CokernelCofork.ofπ p _ is a colimit cocone when we know that p is an epimorphism.

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                                                                          Every cokernel of f induces a cokernel of g ≫ f if g is epi.

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                                                                            Every cokernel of g ≫ f is also a cokernel of f, as long as f ≫ c.π vanishes.

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                                                                              Y identifies to the cokernel of a zero map X ⟶ Y.

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                                                                                If c is a colimit cokernel cofork for f : X ⟶ Y, e : Y ≅ Y' and f' : X' ⟶ Y is a morphism, then there is a colimit cokernel cofork for f' with the same point as c if for any morphism φ : Y ⟶ W, there is an equivalence f ≫ φ = 0 ↔ f' ≫ e.hom ≫ φ = 0.

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                                                                                  If c is a colimit cokernel cofork for f : X ⟶ Y, and f' : X' ⟶ Y is another morphism, then there is a colimit cokernel cofork for f'with the same point ascif for any morphismφ : Y ⟶ W, there is an equivalence f ≫ φ = 0 ↔ f' ≫ φ = 0`.

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                                                                                    The morphism between points of cokernel coforks induced by a morphism in the category of arrows.

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                                                                                      The isomorphism between points of limit cokernel coforks induced by an isomorphism in the category of arrows.

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                                                                                        @[reducible, inline]

                                                                                        The cokernel of a morphism, expressed as the coequalizer with the 0 morphism.

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                                                                                          The cokernel built from cokernel.π f is colimiting.

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                                                                                            @[reducible, inline]

                                                                                            Given any morphism k : Y ⟶ W such that f ≫ k = 0, k factors through cokernel.π f via cokernel.desc : cokernel f ⟶ W.

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                                                                                              Given a commutative diagram X --f--> Y --g--> Z | | | | | | v v v X' -f'-> Y' -g'-> Z' with horizontal arrows composing to zero, then we obtain a commutative square cokernel f ---> Z | | | cokernel.map | | | v v cokernel f' --> Z'

                                                                                              A commuting square of isomorphisms induces an isomorphism of cokernels.

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                                                                                                The cokernel of a zero morphism is isomorphic to the target.

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                                                                                                  When g is an isomorphism, the cokernel of f ≫ g is isomorphic to the cokernel of f.

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                                                                                                    When f is an epimorphism, the cokernel of f ≫ g is isomorphic to the cokernel of g.

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                                                                                                      The morphism to the zero object determines a cocone on a cokernel diagram

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                                                                                                        The morphism to the zero object is a cokernel of an epimorphism

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                                                                                                          The cokernel of an epimorphism is isomorphic to the zero object

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                                                                                                            The cokernel of the image inclusion of a morphism f is isomorphic to the cokernel of f.

                                                                                                            (This result requires that the factorisation through the image is an epimorphism. This holds in any category with equalizers.)

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                                                                                                              If f ≫ g = 0 implies g = 0 for all g, then 0 : Y ⟶ 0 is a cokernel of f.

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                                                                                                                If i is an isomorphism such that i.hom ≫ l = f, then any cokernel of f is a cokernel of l.

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                                                                                                                  If s is any colimit cokernel cocone over f and i is an isomorphism such that s.π ≫ i.hom = l, then l is a cokernel of f.

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                                                                                                                    HasKernels represents the existence of kernels for every morphism.

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                                                                                                                      HasCokernels represents the existence of cokernels for every morphism.

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