Limits and colimits in the category of homological complexes #
In this file, it is shown that if a category C
has (co)limits of shape J
,
then it is also the case of the categories HomologicalComplex C c
,
and the evaluation functors eval C c i : HomologicalComplex C c ⥤ C
commute to these.
A cone in HomologicalComplex C c
is limit if the induced cones obtained
by applying eval C c i : HomologicalComplex C c ⥤ C
for all i
are limit.
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Instances For
A cone for a functor F : J ⥤ HomologicalComplex C c
which is given in degree n
by
the limit F ⋙ eval C c n
.
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Instances For
The cone coneOfHasLimitEval F
is limit.
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- ⋯ = ⋯
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- ⋯ = ⋯
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- HomologicalComplex.instPreservesLimitsOfShapeEvalOfHasLimitsOfShape n = { preservesLimit := fun {K : CategoryTheory.Functor J (HomologicalComplex C c)} => inferInstance }
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- ⋯ = ⋯
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- ⋯ = ⋯
A cocone in HomologicalComplex C c
is colimit if the induced cocones obtained
by applying eval C c i : HomologicalComplex C c ⥤ C
for all i
are colimit.
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Instances For
A cocone for a functor F : J ⥤ HomologicalComplex C c
which is given in degree n
by
the colimit of F ⋙ eval C c n
.
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Instances For
The cocone coconeOfHasLimitEval F
is colimit.
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- ⋯ = ⋯
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- ⋯ = ⋯
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- HomologicalComplex.instPreservesColimitsOfShapeEvalOfHasColimitsOfShape n = { preservesColimit := fun {K : CategoryTheory.Functor J (HomologicalComplex C c)} => inferInstance }
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- ⋯ = ⋯
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- ⋯ = ⋯
A functor D ⥤ HomologicalComplex C c
preserves limits of shape J
if for any i
, G ⋙ eval C c i
does.
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Instances For
A functor D ⥤ HomologicalComplex C c
preserves colimits of shape J
if for any i
, G ⋙ eval C c i
does.
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- HomologicalComplex.instPreservesFiniteLimitsSingle i = { preservesFiniteLimits := fun (J : Type) [CategoryTheory.SmallCategory J] [CategoryTheory.FinCategory J] => inferInstance }
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- HomologicalComplex.instPreservesFiniteColimitsSingle i = { preservesFiniteColimits := fun (J : Type) [CategoryTheory.SmallCategory J] [CategoryTheory.FinCategory J] => inferInstance }