HepLean Documentation

Mathlib.CategoryTheory.Limits.Preserves.Shapes.Kernels

Preserving (co)kernels #

Constructions to relate the notions of preserving (co)kernels and reflecting (co)kernels to concrete (co)forks.

In particular, we show that kernel_comparison f g G is an isomorphism iff G preserves the limit of the parallel pair f,0, as well as the dual result.

A kernel fork for f is mapped to a kernel fork for G.map f if G is a functor which preserves zero morphisms.

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    The underlying cone of a kernel fork is mapped to a limit cone if and only if the mapped kernel fork is limit.

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      A limit kernel fork is mapped to a limit kernel fork by a functor G when this functor preserves the corresponding limit.

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        The map of a kernel fork is a limit iff the kernel fork consisting of the mapped morphisms is a limit. This essentially lets us commute KernelFork.ofι with Functor.mapCone.

        This is a variant of isLimitMapConeForkEquiv for equalizers, which we can't use directly between G.map 0 = 0 does not hold definitionally.

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          The property of preserving kernels expressed in terms of kernel forks.

          This is a variant of isLimitForkMapOfIsLimit for equalizers, which we can't use directly between G.map 0 = 0 does not hold definitionally.

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            If G preserves the kernel of f, then the kernel comparison map for G at f is an isomorphism.

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              A cokernel cofork for f is mapped to a cokernel cofork for G.map f if G is a functor which preserves zero morphisms.

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                The underlying cocone of a cokernel cofork is mapped to a colimit cocone if and only if the mapped cokernel cofork is colimit.

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                  A colimit cokernel cofork is mapped to a colimit cokernel cofork by a functor G when this functor preserves the corresponding colimit.

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                    The map of a cokernel cofork is a colimit iff the cokernel cofork consisting of the mapped morphisms is a colimit. This essentially lets us commute CokernelCofork.ofπ with Functor.mapCocone.

                    This is a variant of isColimitMapCoconeCoforkEquiv for equalizers, which we can't use directly between G.map 0 = 0 does not hold definitionally.

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                      The property of preserving cokernels expressed in terms of cokernel coforks.

                      This is a variant of isColimitCoforkMapOfIsColimit for equalizers, which we can't use directly between G.map 0 = 0 does not hold definitionally.

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                        If G preserves the cokernel of f, then the cokernel comparison map for G at f is an isomorphism.

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                          The kernel of a zero map is preserved by any functor which preserves zero morphisms.

                          The cokernel of a zero map is preserved by any functor which preserves zero morphisms.