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Mathlib.CategoryTheory.Limits.Preserves.Shapes.Equalizers

Preserving (co)equalizers #

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

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

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

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    If the equalizer comparison map for G at (f,g) is an isomorphism, then G preserves the equalizer of (f,g).

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      If G preserves the equalizer of (f,g), then the equalizer comparison map for G at (f,g) is an isomorphism.

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

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          If the coequalizer comparison map for G at (f,g) is an isomorphism, then G preserves the coequalizer of (f,g).

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            If G preserves the coequalizer of (f,g), then the coequalizer comparison map for G at (f,g) is an isomorphism.

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              Any functor preserves coequalizers of split pairs.

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